/** @file moal_eth_ioctl.c * * @brief This file contains private ioctl functions * * Copyright 2014-2022 NXP * * This software file (the File) is distributed by NXP * under the terms of the GNU General Public License Version 2, June 1991 * (the License). You may use, redistribute and/or modify the File in * accordance with the terms and conditions of the License, a copy of which * is available by writing to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA or on the * worldwide web at http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt. * * THE FILE IS DISTRIBUTED AS-IS, WITHOUT WARRANTY OF ANY KIND, AND THE * IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE * ARE EXPRESSLY DISCLAIMED. The License provides additional details about * this warranty disclaimer. * */ /************************************************************************ Change log: 01/05/2012: initial version ************************************************************************/ #include "moal_main.h" #include "moal_eth_ioctl.h" #include "mlan_ioctl.h" #if defined(STA_WEXT) || defined(UAP_WEXT) #include "moal_priv.h" #endif #if defined(STA_CFG80211) || defined(UAP_CFG80211) #include "moal_cfg80211.h" #endif #ifdef UAP_SUPPORT #include "moal_uap.h" #endif #ifdef USB #include "moal_usb.h" #endif #ifdef SDIO #include "moal_sdio.h" #endif #ifdef PCIE #include "moal_pcie.h" #endif #ifdef STA_CFG80211 #include "moal_sta_cfg80211.h" #endif #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) #include "moal_cfg80211_util.h" #endif #endif /******************************************************** Local Variables ********************************************************/ /** Bands supported in Infra mode */ static t_u16 SupportedInfraBand[] = { BAND_B, BAND_B | BAND_G, BAND_G, BAND_GN, BAND_B | BAND_G | BAND_GN, BAND_G | BAND_GN, BAND_A, BAND_B | BAND_A, BAND_B | BAND_G | BAND_A, BAND_G | BAND_A, BAND_A | BAND_B | BAND_G | BAND_AN | BAND_GN, BAND_A | BAND_G | BAND_AN | BAND_GN, BAND_A | BAND_AN, BAND_GN | BAND_GAC, BAND_B | BAND_G | BAND_GN | BAND_GAC, BAND_G | BAND_GN | BAND_GAC, BAND_GN | BAND_GAC | BAND_GAX, BAND_B | BAND_G | BAND_GN | BAND_GAC | BAND_GAX, BAND_G | BAND_GN | BAND_GAC | BAND_GAX, BAND_A | BAND_B | BAND_G | BAND_AN | BAND_GN | BAND_AAC, BAND_A | BAND_B | BAND_G | BAND_AN | BAND_GN | BAND_AAC | BAND_GAC, BAND_A | BAND_G | BAND_AN | BAND_GN | BAND_AAC, BAND_A | BAND_AN | BAND_AAC, BAND_A | BAND_B | BAND_G | BAND_AN | BAND_GN | BAND_AAC | BAND_AAX, BAND_A | BAND_B | BAND_G | BAND_AN | BAND_GN | BAND_AAC | BAND_GAC | BAND_AAX, BAND_A | BAND_G | BAND_AN | BAND_GN | BAND_AAC | BAND_AAX, BAND_A | BAND_AN | BAND_AAC | BAND_AAX, }; /** Bands supported in Ad-Hoc mode */ static t_u16 SupportedAdhocBand[] = { BAND_B, BAND_B | BAND_G, BAND_G, BAND_A, }; /******************************************************** Global Variables ********************************************************/ #if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 29) #ifdef UAP_SUPPORT /** Network device handlers for uAP */ extern const struct net_device_ops woal_uap_netdev_ops; #endif #ifdef STA_SUPPORT /** Network device handlers for STA */ extern const struct net_device_ops woal_netdev_ops; #endif #endif /******************************************************** Local Functions ********************************************************/ /** * @brief Parse a string to extract numerical arguments * * @param pos Pointer to the arguments string * @param data Pointer to the arguments buffer * @param datalen Length of the arguments buffer * @param user_data_len Pointer to the number of arguments extracted * * @return MLAN_STATUS_SUCCESS */ static mlan_status parse_arguments(t_u8 *pos, int *data, int datalen, int *user_data_len) { int i, j, k; char cdata[10]; int is_hex = 0; if (strlen(pos) == 0) { *user_data_len = 0; return MLAN_STATUS_SUCCESS; } memset(cdata, 0, sizeof(cdata)); for (i = 0, j = 0, k = 0; i <= (int)strlen(pos); i++) { if ((k == 0) && (i <= (int)(strlen(pos) - 2))) { if ((pos[i] == '0') && (pos[i + 1] == 'x')) { is_hex = 1; i = i + 2; } } if (pos[i] == '\0' || pos[i] == ' ') { if (j >= datalen) { j++; break; } if (is_hex) { data[j] = woal_atox(cdata); is_hex = 0; } else { woal_atoi(&data[j], cdata); } j++; k = 0; memset(cdata, 0, sizeof(cdata)); if (pos[i] == '\0') break; } else { if (k >= (int)sizeof(cdata)) { PRINTM(MERROR, "Invalid numerical arguments\n"); break; } cdata[k] = pos[i]; k++; } } *user_data_len = j; return MLAN_STATUS_SUCCESS; } #if defined(STA_CFG80211) && defined(UAP_CFG80211) /** * @brief Set wps & p2p ie in AP mode * * @param priv Pointer to priv stucture * @param ie Pointer to ies data * @param len Length of data * * @return MLAN_STATUS_SUCCESS -- success, otherwise fail */ mlan_status woal_set_ap_wps_p2p_ie(moal_private *priv, t_u8 *ie, size_t len) { mlan_status ret = MLAN_STATUS_SUCCESS; t_u8 *pos = ie; int ie_len; ENTER(); ie_len = len - 2; if (ie_len <= 0) { PRINTM(MERROR, "IE len error: %d\n", ie_len); ret = -EFAULT; goto done; } /* Android cmd format: * "SET_AP_WPS_P2P_IE 1" -- beacon IE * "SET_AP_WPS_P2P_IE 2" -- proberesp IE * "SET_AP_WPS_P2P_IE 4" -- assocresp IE */ if (*pos == '1') { /* set the beacon wps/p2p ies */ pos += 2; if (MLAN_STATUS_SUCCESS != woal_cfg80211_mgmt_frame_ie( priv, pos, ie_len, NULL, 0, NULL, 0, NULL, 0, MGMT_MASK_BEACON_WPS_P2P, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "Failed to set beacon wps/p2p ie\n"); ret = -EFAULT; goto done; } } else if (*pos == '2') { /* set the probe resp ies */ pos += 2; if (MLAN_STATUS_SUCCESS != woal_cfg80211_mgmt_frame_ie( priv, NULL, 0, pos, ie_len, NULL, 0, NULL, 0, MGMT_MASK_PROBE_RESP, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "Failed to set probe resp ie\n"); ret = -EFAULT; goto done; } } else if (*pos == '4') { /* set the assoc resp ies */ pos += 2; if (MLAN_STATUS_SUCCESS != woal_cfg80211_mgmt_frame_ie( priv, NULL, 0, NULL, 0, pos, ie_len, NULL, 0, MGMT_MASK_ASSOC_RESP, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "Failed to set assoc resp ie\n"); ret = -EFAULT; goto done; } } done: LEAVE(); return ret; } #endif #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_CFG80211) || defined(UAP_CFG80211) /** * @brief Set miracast mode * * @param priv Pointer to priv stucture * @param pdata Pointer to cmd buffer * @param len Length of data * * @return MLAN_STATUS_SUCCESS -- success, otherwise fail */ static mlan_status woal_set_miracast_mode(moal_private *priv, t_u8 *pdata, size_t len) { mlan_status ret = MLAN_STATUS_SUCCESS; t_u8 *pos = pdata; ENTER(); if (!pos || (len == 0)) { PRINTM(MERROR, "%s: Null buf!\n", __func__); ret = MLAN_STATUS_FAILURE; goto done; } while (!isdigit(*pos) && --len > 0) pos++; switch (*pos) { case '0': /* disable miracast mode */ priv->phandle->miracast_mode = 0; break; case '1': /* Source */ priv->phandle->miracast_mode = 1; break; case '2': /* Sink */ priv->phandle->miracast_mode = 2; break; default: PRINTM(MERROR, "%s: Unknown miracast mode (%c)\n", priv->netdev->name, *pos); ret = MLAN_STATUS_FAILURE; break; } done: LEAVE(); return ret; } #endif #endif /** * @brief Get Driver Version * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_get_priv_driver_version(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int len = 0, ret = -1; char buf[MLAN_MAX_VER_STR_LEN]; ENTER(); if (!respbuf) { LEAVE(); return 0; } memset(buf, 0, sizeof(buf)); /* Get version string to local buffer */ woal_get_version(priv->phandle, buf, sizeof(buf) - 1); len = strlen(buf); if (len) { /* Copy back the retrieved version string */ PRINTM(MINFO, "MOAL VERSION: %s\n", buf); ret = MIN(len, (int)(respbuflen - 1)); moal_memcpy_ext(priv->phandle, respbuf, buf, ret, respbuflen - 1); } else { ret = -1; PRINTM(MERROR, "Get version failed!\n"); } LEAVE(); return ret; } /** * @brief Hostcmd interface from application * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * @param wait_option Wait option * * @return Number of bytes written, negative for failure. */ int woal_priv_hostcmd(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen, t_u8 wait_option) { int ret = 0; t_u8 *data_ptr; t_u32 buf_len = 0; HostCmd_Header cmd_header; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_HOSTCMD)); buf_len = *((t_u32 *)data_ptr); moal_memcpy_ext(priv->phandle, &cmd_header, data_ptr + sizeof(buf_len), sizeof(HostCmd_Header), sizeof(HostCmd_Header)); PRINTM(MINFO, "Host command len = %d\n", woal_le16_to_cpu(cmd_header.size)); if (woal_le16_to_cpu(cmd_header.size) > MRVDRV_SIZE_OF_CMD_BUFFER) { LEAVE(); return -EINVAL; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto error; } misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; misc_cfg->sub_command = MLAN_OID_MISC_HOST_CMD; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_SET; misc_cfg->param.hostcmd.len = woal_le16_to_cpu(cmd_header.size); /* get the whole command */ moal_memcpy_ext(priv->phandle, misc_cfg->param.hostcmd.cmd, data_ptr + sizeof(buf_len), misc_cfg->param.hostcmd.len, MRVDRV_SIZE_OF_CMD_BUFFER); status = woal_request_ioctl(priv, req, wait_option); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto error; } ret = misc_cfg->param.hostcmd.len + sizeof(buf_len) + strlen(CMD_NXP) + strlen(PRIV_CMD_HOSTCMD); if (ret > (int)respbuflen) { ret = -EFAULT; goto error; } moal_memcpy_ext( priv->phandle, data_ptr + sizeof(buf_len), misc_cfg->param.hostcmd.cmd, misc_cfg->param.hostcmd.len, respbuflen - (strlen(CMD_NXP) + strlen(PRIV_CMD_HOSTCMD) + sizeof(buf_len))); moal_memcpy_ext(priv->phandle, data_ptr, (t_u8 *)&misc_cfg->param.hostcmd.len, sizeof(t_u32), sizeof(t_u32)); error: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief configure 11ax HE capability or HE operation * * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param len length used * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_setget_priv_11axcmdcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen, t_u8 wait_option) { mlan_ioctl_req *req = NULL; mlan_ds_11ax_cmd_cfg *cfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; int header_len = 0, user_data_len = 0; int data[3] = {0}; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11ax_cmd_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11AX_CFG; req->action = MLAN_ACT_SET; cfg = (mlan_ds_11ax_cmd_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_11AX_CMD_CFG; parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); PRINTM(MINFO, "data_len=%d,data=%d,%d,%d\n", user_data_len, data[0], data[1], data[2]); if (user_data_len > 3 || user_data_len == 0) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EFAULT; goto done; } else if (user_data_len == 1) { req->action = MLAN_ACT_GET; } switch (data[0]) { case MLAN_11AXCMD_CFG_ID_SR_OBSS_PD_OFFSET: cfg->sub_id = MLAN_11AXCMD_SR_SUBID; cfg->param.sr_cfg.type = MRVL_DOT11AX_OBSS_PD_OFFSET_TLV_ID; cfg->param.sr_cfg.len = sizeof(mlan_11axcmdcfg_obss_pd_offset); cfg->param.sr_cfg.param.obss_pd_offset.offset[0] = data[1]; cfg->param.sr_cfg.param.obss_pd_offset.offset[1] = data[2]; break; case MLAN_11AXCMD_CFG_ID_SR_ENABLE: cfg->sub_id = MLAN_11AXCMD_SR_SUBID; cfg->param.sr_cfg.type = MRVL_DOT11AX_ENABLE_SR_TLV_ID; cfg->param.sr_cfg.len = sizeof(mlan_11axcmdcfg_sr_control); cfg->param.sr_cfg.param.sr_control.control = data[1]; break; case MLAN_11AXCMD_CFG_ID_BEAM_CHANGE: cfg->sub_id = MLAN_11AXCMD_BEAM_SUBID; cfg->param.beam_cfg.value = data[1]; break; case MLAN_11AXCMD_CFG_ID_HTC_ENABLE: cfg->sub_id = MLAN_11AXCMD_HTC_SUBID; cfg->param.htc_cfg.value = data[1]; break; case MLAN_11AXCMD_CFG_ID_TXOP_RTS: cfg->sub_id = MLAN_11AXCMD_TXOPRTS_SUBID; cfg->param.txop_cfg.rts_thres = data[1]; break; case MLAN_11AXCMD_CFG_ID_TX_OMI: cfg->sub_id = MLAN_11AXCMD_TXOMI_SUBID; cfg->param.txomi_cfg.omi = data[1]; break; case MLAN_11AXCMD_CFG_ID_OBSSNBRU_TOLTIME: cfg->sub_id = MLAN_11AXCMD_OBSS_TOLTIME_SUBID; cfg->param.toltime_cfg.tol_time = data[1]; break; default: PRINTM(MERROR, "unknown 11axcmd\n"); ret = -EFAULT; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &req->action, sizeof(req->action), sizeof(req->action)); respbuf += sizeof(req->action); cfg = (mlan_ds_11ax_cmd_cfg *)respbuf; moal_memcpy_ext(priv->phandle, cfg, req->pbuf, sizeof(mlan_ds_11ax_cmd_cfg), respbuflen); ret = sizeof(req->action) + sizeof(mlan_ds_11ax_cmd_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/get range ext mode * * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param len length used * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_setget_priv_range_ext(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[1]; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RANGE_EXT); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_RANGE_EXT; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid Parameter\n"); ret = -EFAULT; goto done; } if (data[0] < 0 || data[0] > 2) { PRINTM(MERROR, "Invalid Parameter: range_ext mode 0-2\n"); ret = -EFAULT; goto done; } misc->param.range_ext_mode = (t_u8)data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.range_ext_mode; moal_memcpy_ext(priv->phandle, respbuf, (t_u32 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Custom IE setting * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_customie(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; t_u8 *data_ptr; mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_misc_custom_ie *pcustom_ie = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_CUSTOMIE)); pcustom_ie = (mlan_ds_misc_custom_ie *)data_ptr; ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CUSTOM_IE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; if ((pcustom_ie->len == 0) || (pcustom_ie->len == sizeof(pcustom_ie->ie_data_list[0].ie_index))) ioctl_req->action = MLAN_ACT_GET; else ioctl_req->action = MLAN_ACT_SET; moal_memcpy_ext(priv->phandle, &misc->param.cust_ie, pcustom_ie, sizeof(mlan_ds_misc_custom_ie), sizeof(mlan_ds_misc_custom_ie)); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } pcustom_ie = (mlan_ds_misc_custom_ie *)data_ptr; moal_memcpy_ext(priv->phandle, pcustom_ie, &misc->param.cust_ie, sizeof(mlan_ds_misc_custom_ie), respbuflen - (strlen(CMD_NXP) + strlen(PRIV_CMD_CUSTOMIE))); ret = sizeof(mlan_ds_misc_custom_ie); if (ioctl_req->status_code == MLAN_ERROR_IOCTL_FAIL) { /* send a separate error code to indicate error from driver */ ret = EFAULT; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get Band and Adhoc-band setting * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_bandcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; unsigned int i; int data[3]; int user_data_len = 0; t_u32 infra_band = 0; t_u32 adhoc_band = 0; t_u32 adhoc_channel = 0; mlan_ioctl_req *req = NULL; mlan_ds_radio_cfg *radio_cfg = NULL; mlan_ds_band_cfg *band_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_BANDCFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_BANDCFG), data, ARRAY_SIZE(data), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); LEAVE(); return -EINVAL; } if (user_data_len > 0) { if (priv->media_connected == MTRUE) { LEAVE(); return -EOPNOTSUPP; } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_radio_cfg)); if (req == NULL) { ret = -ENOMEM; goto error; } radio_cfg = (mlan_ds_radio_cfg *)req->pbuf; radio_cfg->sub_command = MLAN_OID_BAND_CFG; req->req_id = MLAN_IOCTL_RADIO_CFG; if (user_data_len == 0) { /* Get config_bands, adhoc_start_band and adhoc_channel values * from MLAN */ req->action = MLAN_ACT_GET; } else { /* To support only */ infra_band = data[0]; for (i = 0; i < (sizeof(SupportedInfraBand) / sizeof(SupportedInfraBand[0])); i++) if (infra_band == SupportedInfraBand[i]) break; if (i == sizeof(SupportedInfraBand)) { ret = -EINVAL; goto error; } /* Set Adhoc band */ if (user_data_len >= 2) { adhoc_band = data[1]; for (i = 0; i < (sizeof(SupportedAdhocBand) / sizeof(SupportedAdhocBand[0])); i++) if (adhoc_band == SupportedAdhocBand[i]) break; if (i == sizeof(SupportedAdhocBand)) { ret = -EINVAL; goto error; } } /* Set Adhoc channel */ if (user_data_len >= 3) { adhoc_channel = data[2]; if (adhoc_channel == 0) { /* Check if specified adhoc channel is non-zero */ ret = -EINVAL; goto error; } } /* Set config_bands and adhoc_start_band values to MLAN */ req->action = MLAN_ACT_SET; radio_cfg->param.band_cfg.config_bands = infra_band; radio_cfg->param.band_cfg.adhoc_start_band = adhoc_band; radio_cfg->param.band_cfg.adhoc_channel = adhoc_channel; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto error; } band_cfg = (mlan_ds_band_cfg *)respbuf; moal_memcpy_ext(priv->phandle, band_cfg, &radio_cfg->param.band_cfg, sizeof(mlan_ds_band_cfg), respbuflen); ret = sizeof(mlan_ds_band_cfg); error: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get 11n configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_httxcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[2]; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_HTTXCFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_HTTXCFG), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_TX; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get 11n tx parameters from MLAN */ req->action = MLAN_ACT_GET; cfg_11n->param.tx_cfg.misc_cfg = BAND_SELECT_BG; } else { cfg_11n->param.tx_cfg.httxcap = data[0]; PRINTM(MINFO, "SET: httxcap:0x%x\n", data[0]); cfg_11n->param.tx_cfg.misc_cfg = BAND_SELECT_BOTH; if (user_data_len == 2) { if (data[1] != BAND_SELECT_BG && data[1] != BAND_SELECT_A && data[1] != BAND_SELECT_BOTH) { PRINTM(MERROR, "Invalid band selection\n"); ret = -EINVAL; goto done; } cfg_11n->param.tx_cfg.misc_cfg = data[1]; PRINTM(MINFO, "SET: httxcap band:0x%x\n", data[1]); } /* Update 11n tx parameters in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = cfg_11n->param.tx_cfg.httxcap; PRINTM(MINFO, "GET: httxcap:0x%x\n", data[0]); if (req->action == MLAN_ACT_GET) { cfg_11n->param.tx_cfg.httxcap = 0; cfg_11n->param.tx_cfg.misc_cfg = BAND_SELECT_A; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[1] = cfg_11n->param.tx_cfg.httxcap; PRINTM(MINFO, "GET: httxcap for 5GHz:0x%x\n", data[1]); } moal_memcpy_ext(priv->phandle, respbuf, data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get 11n capability information * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_htcapinfo(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2]; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; woal_ht_cap_info *ht_cap = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_HTCAPINFO))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_HTCAPINFO), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_HTCAP_CFG; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get 11n tx parameters from MLAN */ req->action = MLAN_ACT_GET; cfg_11n->param.htcap_cfg.misc_cfg = BAND_SELECT_BG; } else { cfg_11n->param.htcap_cfg.htcap = data[0]; PRINTM(MINFO, "SET: htcapinfo:0x%x\n", data[0]); cfg_11n->param.htcap_cfg.misc_cfg = BAND_SELECT_BOTH; if (user_data_len == 2) { if (data[1] != BAND_SELECT_BG && data[1] != BAND_SELECT_A && data[1] != BAND_SELECT_BOTH) { PRINTM(MERROR, "Invalid band selection\n"); ret = -EINVAL; goto done; } cfg_11n->param.htcap_cfg.misc_cfg = data[1]; PRINTM(MINFO, "SET: htcapinfo band:0x%x\n", data[1]); } /* Update 11n tx parameters in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = cfg_11n->param.htcap_cfg.htcap; PRINTM(MINFO, "GET: htcapinfo for 2.4GHz:0x%x\n", data[0]); if (req->action == MLAN_ACT_GET) { cfg_11n->param.htcap_cfg.htcap = 0; cfg_11n->param.htcap_cfg.misc_cfg = BAND_SELECT_A; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[1] = cfg_11n->param.htcap_cfg.htcap; PRINTM(MINFO, "GET: htcapinfo for 5GHz:0x%x\n", data[1]); } ht_cap = (woal_ht_cap_info *)respbuf; ht_cap->ht_cap_info_bg = data[0]; ht_cap->ht_cap_info_a = data[1]; ret = sizeof(woal_ht_cap_info); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get add BA parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_addbapara(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[5]; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; woal_addba *addba = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_ADDBAPARA))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_ADDBAPARA), data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != ARRAY_SIZE(data)) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } if (data[0] < 0 || data[0] > MLAN_DEFAULT_BLOCK_ACK_TIMEOUT) { PRINTM(MERROR, "Incorrect addba timeout value.\n"); ret = -EFAULT; goto done; } if (data[1] <= 0 || data[1] > MLAN_AMPDU_MAX_TXWINSIZE || data[2] <= 0 || data[2] > MLAN_AMPDU_MAX_RXWINSIZE) { PRINTM(MERROR, "Incorrect Tx/Rx window size.\n"); ret = -EFAULT; goto done; } if (data[3] < 0 || data[3] > 1 || data[4] < 0 || data[4] > 1) { PRINTM(MERROR, "Incorrect Tx/Rx amsdu.\n"); ret = -EFAULT; goto done; } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_ADDBA_PARAM; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get add BA parameters from MLAN */ req->action = MLAN_ACT_GET; } else { cfg_11n->param.addba_param.timeout = data[0]; cfg_11n->param.addba_param.txwinsize = data[1]; cfg_11n->param.addba_param.rxwinsize = data[2]; cfg_11n->param.addba_param.txamsdu = data[3]; cfg_11n->param.addba_param.rxamsdu = data[4]; PRINTM(MINFO, "SET: timeout:%d txwinsize:%d rxwinsize:%d txamsdu=%d rxamsdu=%d\n", data[0], data[1], data[2], data[3], data[4]); /* Update add BA parameters in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } addba = (woal_addba *)respbuf; addba->time_out = cfg_11n->param.addba_param.timeout; addba->tx_win_size = cfg_11n->param.addba_param.txwinsize; addba->rx_win_size = cfg_11n->param.addba_param.rxwinsize; addba->tx_amsdu = cfg_11n->param.addba_param.txamsdu; addba->rx_amsdu = cfg_11n->param.addba_param.rxamsdu; PRINTM(MINFO, "GET: timeout:%d txwinsize:%d rxwinsize:%d txamsdu=%d, rxamsdu=%d\n", addba->time_out, addba->tx_win_size, addba->rx_win_size, addba->tx_amsdu, addba->rx_amsdu); ret = sizeof(woal_addba); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Delete selective BA based on parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_delba(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[2] = {0xFF, 0xFF}; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_ds_11n_delba *del_ba = NULL; int ret = 0; int user_data_len = 0; int header_len = 0; t_u8 *mac_pos = NULL; t_u8 peer_mac[ETH_ALEN] = {0}; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DELBA); if ((int)strlen(respbuf) == header_len) { /* Incorrect number of arguments */ PRINTM(MERROR, "%d: Invalid arguments\n", __LINE__); ret = -EINVAL; goto done; } mac_pos = strstr(respbuf + header_len, " "); if (mac_pos) mac_pos = strstr(mac_pos + 1, " "); if (mac_pos) { #define MAC_STRING_LENGTH 17 if (strlen(mac_pos + 1) != MAC_STRING_LENGTH) { PRINTM(MERROR, "%d: Invalid arguments\n", __LINE__); ret = -EINVAL; goto done; } woal_mac2u8(peer_mac, mac_pos + 1); *mac_pos = '\0'; } parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (mac_pos) user_data_len++; if (user_data_len > 3 || (!(data[0] & (DELBA_TX | DELBA_RX))) || (data[1] != DELBA_ALL_TIDS && !(data[1] <= 7))) { /* Incorrect number of arguments */ PRINTM(MERROR, "%d: Invalid arguments\n", __LINE__); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; req->req_id = MLAN_IOCTL_11N_CFG; cfg_11n->sub_command = MLAN_OID_11N_CFG_DELBA; del_ba = &cfg_11n->param.del_ba; memset(del_ba, 0, sizeof(mlan_ds_11n_delba)); del_ba->direction = (t_u8)data[0]; del_ba->tid = DELBA_ALL_TIDS; if (user_data_len > 1) del_ba->tid = (t_u8)data[1]; if (user_data_len > 2) moal_memcpy_ext(priv->phandle, del_ba->peer_mac_addr, peer_mac, ETH_ALEN, MLAN_MAC_ADDR_LENGTH); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = sprintf(respbuf, "OK. BA deleted successfully.\n") + 1; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get the reject addba requst conditions * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_rejectaddbareq(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[1]; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_REJECTADDBAREQ))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_REJECTADDBAREQ), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_REJECT_ADDBA_REQ; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get the reject addba req conditions*/ req->action = MLAN_ACT_GET; } else { /* Set the reject addba req conditions */ cfg_11n->param.reject_addba_req.conditions = data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { sprintf(respbuf, "0x%x", cfg_11n->param.reject_addba_req.conditions); ret = strlen(respbuf) + 1; } else { ret = sprintf(respbuf, "OK\n") + 1; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get the addba reject setting * * @param priv A pointer to moal_private structure * @param action Action set or get * @param addba_reject A pointer to addba_reject array. * * @return MLAN_STATUS_SUCCESS/MLAN_STATUS_PENDING -- success, * otherwise fail */ static mlan_status woal_ioctl_addba_reject(moal_private *priv, t_u32 action, t_u8 *addba_reject) { mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_status ret = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_ADDBA_REJECT; req->req_id = MLAN_IOCTL_11N_CFG; req->action = action; if (action == MLAN_ACT_SET) moal_memcpy_ext(priv->phandle, cfg_11n->param.addba_reject, addba_reject, sizeof(cfg_11n->param.addba_reject), sizeof(cfg_11n->param.addba_reject)); /* Send IOCTL request to MLAN */ ret = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (ret != MLAN_STATUS_SUCCESS) goto done; if (action == MLAN_ACT_GET) moal_memcpy_ext(priv->phandle, addba_reject, cfg_11n->param.addba_reject, sizeof(cfg_11n->param.addba_reject), MAX_NUM_TID); done: if (ret != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get addba prio_tbl * * @param priv A pointer to moal_private structure * @param action Action set or get * @param aggr_prio_tbl A pointer to mlan_ds_11n_aggr_prio_tbl. * * @return MLAN_STATUS_SUCCESS/MLAN_STATUS_PENDING -- success, * otherwise fail */ mlan_status woal_ioctl_aggr_prio_tbl(moal_private *priv, t_u32 action, mlan_ds_11n_aggr_prio_tbl *aggr_prio_tbl) { mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_status ret = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_AGGR_PRIO_TBL; req->req_id = MLAN_IOCTL_11N_CFG; req->action = action; if (action == MLAN_ACT_SET) moal_memcpy_ext(priv->phandle, &cfg_11n->param.aggr_prio_tbl, aggr_prio_tbl, sizeof(mlan_ds_11n_aggr_prio_tbl), sizeof(mlan_ds_11n_aggr_prio_tbl)); /* Send IOCTL request to MLAN */ ret = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (ret != MLAN_STATUS_SUCCESS) goto done; if (action == MLAN_ACT_GET) moal_memcpy_ext(priv->phandle, aggr_prio_tbl, &cfg_11n->param.aggr_prio_tbl, sizeof(mlan_ds_11n_aggr_prio_tbl), sizeof(mlan_ds_11n_aggr_prio_tbl)); done: if (ret != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get addba_param * * @param priv A pointer to moal_private structure * @param action Action set or get * @param addba_param A pointer to mlan_ds_11n_addba_param. * * @return MLAN_STATUS_SUCCESS/MLAN_STATUS_PENDING -- success, * otherwise fail */ static mlan_status woal_ioctl_addba_param(moal_private *priv, t_u32 action, mlan_ds_11n_addba_param *addba_param) { mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_status ret = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_ADDBA_PARAM; req->req_id = MLAN_IOCTL_11N_CFG; req->action = action; if (action == MLAN_ACT_SET) moal_memcpy_ext(priv->phandle, &cfg_11n->param.addba_param, addba_param, sizeof(mlan_ds_11n_addba_param), sizeof(mlan_ds_11n_addba_param)); /* Send IOCTL request to MLAN */ ret = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (ret != MLAN_STATUS_SUCCESS) goto done; if (action == MLAN_ACT_GET) moal_memcpy_ext(priv->phandle, addba_param, &cfg_11n->param.addba_param, sizeof(mlan_ds_11n_addba_param), sizeof(mlan_ds_11n_addba_param)); done: if (ret != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Configuring rx block-ack window size * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise failure */ static int woal_set_rx_ba_winsize(moal_private *priv, t_u8 *respbuf, int respbuflen) { int data[2]; t_u8 addba_reject[MAX_NUM_TID]; mlan_ds_11n_addba_param addba_param; int ret = 0; int user_data_len = 0; ENTER(); memset((char *)data, 0, sizeof(data)); if (respbuf && strlen(respbuf) > 0) parse_arguments(respbuf, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 2) { PRINTM(MERROR, "Invalid arguments for ba_winsize command\n"); ret = -EINVAL; goto done; } if (data[0] > 7 || data[0] < 0) { PRINTM(MERROR, "Invalid tid %d\n", data[0]); ret = -EINVAL; goto done; } if (data[1] < 0) { PRINTM(MERROR, "Invalid winsize %d\n", data[1]); ret = -EINVAL; goto done; } memset(addba_reject, 0, sizeof(addba_reject)); if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_reject(priv, MLAN_ACT_GET, addba_reject)) { ret = -EFAULT; goto done; } /* disable tx ba */ if (data[1] == 0) { addba_reject[data[0]] = MTRUE; if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_reject(priv, MLAN_ACT_SET, addba_reject)) ret = -EFAULT; } else { if (addba_reject[data[0]] == MTRUE) { addba_reject[data[0]] = MFALSE; if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_reject(priv, MLAN_ACT_SET, addba_reject)) { ret = -EFAULT; goto done; } } memset(&addba_param, 0, sizeof(addba_param)); if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_param(priv, MLAN_ACT_GET, &addba_param)) { ret = -EFAULT; goto done; } if (data[1] != (int)addba_param.rxwinsize) { addba_param.rxwinsize = data[1]; if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_param(priv, MLAN_ACT_SET, &addba_param)) ret = -EFAULT; } } done: LEAVE(); return ret; } /** * @brief Configuring trx block-ack window size * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise failure */ static int woal_set_tx_ba_winsize(moal_private *priv, t_u8 *respbuf, int respbuflen) { int data[2]; mlan_ds_11n_aggr_prio_tbl aggr_prio_tbl; mlan_ds_11n_addba_param addba_param; t_u8 tos_to_tid_inv[] = {0x02, 0x00, 0x01, 0x03, 0x04, 0x05, 0x06, 0x07}; int ret = 0; int user_data_len = 0; ENTER(); memset((char *)data, 0, sizeof(data)); if (respbuf && strlen(respbuf) > 0) parse_arguments(respbuf, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 2) { PRINTM(MERROR, "Invalid arguments for ba_winsize command\n"); ret = -EINVAL; goto done; } if (data[0] > 7 || data[0] < 0) { PRINTM(MERROR, "Invalid tid %d\n", data[0]); ret = -EINVAL; goto done; } if (data[1] < 0) { PRINTM(MERROR, "Invalid winsize %d\n", data[1]); ret = -EINVAL; goto done; } memset(&aggr_prio_tbl, 0, sizeof(aggr_prio_tbl)); if (MLAN_STATUS_SUCCESS != woal_ioctl_aggr_prio_tbl(priv, MLAN_ACT_GET, &aggr_prio_tbl)) { ret = -EFAULT; goto done; } /* disable tx ba */ if (data[1] == 0) { if (aggr_prio_tbl.ampdu[data[0]] != 0xff) { aggr_prio_tbl.ampdu[data[0]] = 0xff; if (MLAN_STATUS_SUCCESS != woal_ioctl_aggr_prio_tbl(priv, MLAN_ACT_SET, &aggr_prio_tbl)) ret = -EFAULT; } } else { if (aggr_prio_tbl.ampdu[data[0]] == 0xff) { aggr_prio_tbl.ampdu[data[0]] = tos_to_tid_inv[data[0]]; if (MLAN_STATUS_SUCCESS != woal_ioctl_aggr_prio_tbl(priv, MLAN_ACT_SET, &aggr_prio_tbl)) { ret = -EFAULT; goto done; } } memset(&addba_param, 0, sizeof(addba_param)); if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_param(priv, MLAN_ACT_GET, &addba_param)) { ret = -EFAULT; goto done; } if (data[1] != (int)addba_param.txwinsize) { addba_param.txwinsize = data[1]; if (MLAN_STATUS_SUCCESS != woal_ioctl_addba_param(priv, MLAN_ACT_SET, &addba_param)) ret = -EFAULT; } } done: LEAVE(); return ret; } /** * @brief Set/Get aggregation priority table configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_aggrpriotbl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[MAX_NUM_TID * 2], i, j; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_AGGRPRIOTBL))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_AGGRPRIOTBL), data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != ARRAY_SIZE(data)) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } for (i = 0, j = 0; i < user_data_len; i = i + 2, ++j) { if ((data[i] > 7 && data[i] != 0xff) || (data[i + 1] > 7 && data[i + 1] != 0xff)) { PRINTM(MERROR, "Invalid priority, valid value 0-7 or 0xff.\n"); ret = -EFAULT; goto done; } } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_AGGR_PRIO_TBL; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get aggr priority table from MLAN */ req->action = MLAN_ACT_GET; } else { for (i = 0, j = 0; i < user_data_len; i = i + 2, ++j) { cfg_11n->param.aggr_prio_tbl.ampdu[j] = data[i]; cfg_11n->param.aggr_prio_tbl.amsdu[j] = data[i + 1]; } /* Update aggr priority table in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } for (i = 0, j = 0; i < (MAX_NUM_TID * 2); i = i + 2, ++j) { respbuf[i] = cfg_11n->param.aggr_prio_tbl.ampdu[j]; respbuf[i + 1] = cfg_11n->param.aggr_prio_tbl.amsdu[j]; } ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Add BA reject configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_addbareject(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[MAX_NUM_TID], i; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_ADDBAREJECT))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_ADDBAREJECT), data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != ARRAY_SIZE(data)) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } for (i = 0; i < user_data_len; i++) { if (data[i] != 0 && data[i] != 1) { PRINTM(MERROR, "addba reject only takes argument as 0 or 1\n"); ret = -EFAULT; goto done; } } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_ADDBA_REJECT; req->req_id = MLAN_IOCTL_11N_CFG; if (user_data_len == 0) { /* Get add BA reject configuration from MLAN */ req->action = MLAN_ACT_GET; } else { for (i = 0; i < user_data_len; i++) cfg_11n->param.addba_reject[i] = data[i]; /* Update add BA reject configuration in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } for (i = 0; i < MAX_NUM_TID; i++) respbuf[i] = cfg_11n->param.addba_reject[i]; ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get 11AC configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_vhtcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[6]; mlan_ioctl_req *req = NULL; mlan_ds_11ac_cfg *cfg_11ac = NULL; mlan_ds_11ac_vht_cfg *vhtcfg = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_VHTCFG))) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_VHTCFG), data, ARRAY_SIZE(data), &user_data_len); if ((user_data_len > 6) || (user_data_len < 2)) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11ac_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11ac = (mlan_ds_11ac_cfg *)req->pbuf; cfg_11ac->sub_command = MLAN_OID_11AC_VHT_CFG; req->req_id = MLAN_IOCTL_11AC_CFG; /* Band */ if ((data[0] < 0) || (data[0] > 2)) { PRINTM(MERROR, "Invalid band selection\n"); ret = -EINVAL; goto done; } else { if (data[0] == BAND_SELECT_BOTH) { cfg_11ac->param.vht_cfg.band = (BAND_SELECT_BG | BAND_SELECT_A); } else { cfg_11ac->param.vht_cfg.band = data[0]; } PRINTM(MINFO, "GET/SET: vhtcfg band: 0x%x\n", data[0]); } /* Tx/Rx */ if ((data[1] <= 0) || (data[1] > 3)) { PRINTM(MERROR, "Invalid Tx/Rx selection\n"); ret = -EINVAL; goto done; } else { cfg_11ac->param.vht_cfg.txrx = data[1]; PRINTM(MINFO, "GET/SET: vhtcfg txrx: 0x%x\n", data[1]); } if (user_data_len == 2) { /* GET operation */ if (data[0] == BAND_SELECT_BOTH) { /* if get both bands, get BG first */ cfg_11ac->param.vht_cfg.band = BAND_SELECT_BG; } if (priv->bss_role == MLAN_BSS_ROLE_UAP) cfg_11ac->param.vht_cfg.txrx = MLAN_RADIO_RX; req->action = MLAN_ACT_GET; } else { if (user_data_len == 3) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } if (user_data_len >= 4) { /* BW cfg */ if ((data[2] < 0) || (data[2] > 1) || ((data[2] == 1) && (data[0] & BAND_SELECT_BG))) { PRINTM(MERROR, "Invalid BW cfg selection\n"); ret = -EINVAL; goto done; } else { cfg_11ac->param.vht_cfg.bwcfg = data[2]; PRINTM(MINFO, "SET: vhtcfg bw cfg:0x%x\n", data[2]); } cfg_11ac->param.vht_cfg.vht_cap_info = data[3]; PRINTM(MINFO, "SET: vhtcfg vht_cap_info:0x%x\n", data[3]); } if (user_data_len == 4) { data[4] = 0xffffffff; data[5] = 0xffffffff; } if (user_data_len == 5) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } if (user_data_len >= 4) { cfg_11ac->param.vht_cfg.vht_tx_mcs = data[4]; cfg_11ac->param.vht_cfg.vht_rx_mcs = data[5]; } /* Update 11AC parameters in MLAN */ req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } /* number of vhtcfg entries */ *respbuf = 1; vhtcfg = (mlan_ds_11ac_vht_cfg *)(respbuf + 1); moal_memcpy_ext(priv->phandle, vhtcfg, &cfg_11ac->param.vht_cfg, sizeof(mlan_ds_11ac_vht_cfg), respbuflen - 1); ret = 1 + sizeof(mlan_ds_11ac_vht_cfg); if ((req->action == MLAN_ACT_GET) && (data[0] == BAND_SELECT_BOTH)) { cfg_11ac->param.vht_cfg.band = BAND_SELECT_A; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } /* number of vhtcfg entries */ *respbuf = 2; vhtcfg++; moal_memcpy_ext(priv->phandle, vhtcfg, &cfg_11ac->param.vht_cfg, sizeof(mlan_ds_11ac_vht_cfg), respbuflen - 1 - sizeof(mlan_ds_11ac_vht_cfg)); ret += sizeof(mlan_ds_11ac_vht_cfg); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get 11AC Operating Mode Notification configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_opermodecfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2]; mlan_ioctl_req *req = NULL; mlan_ds_11ac_cfg *cfg_11ac = NULL; mlan_ds_11ac_opermode_cfg *opermodecfg = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_OPERMODECFG), data, ARRAY_SIZE(data), &user_data_len); if ((user_data_len != 0) && (user_data_len != 2)) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } if (user_data_len == 2) { /* Channel width */ if ((data[0] < 1) || (data[0] > 4)) { PRINTM(MERROR, "Invalid channel width: 0x%x\n", data[0]); ret = -EINVAL; goto done; } /* nss */ if ((data[1] < 1) || (data[1] > 8)) { PRINTM(MERROR, "Invalid nss: 0x%x\n", data[1]); ret = -EINVAL; goto done; } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11ac_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11ac = (mlan_ds_11ac_cfg *)req->pbuf; cfg_11ac->sub_command = MLAN_OID_11AC_OPERMODE_CFG; req->req_id = MLAN_IOCTL_11AC_CFG; if (user_data_len == 0) { req->action = MLAN_ACT_GET; } else { req->action = MLAN_ACT_SET; cfg_11ac->param.opermode_cfg.bw = data[0]; cfg_11ac->param.opermode_cfg.nss = data[1]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } opermodecfg = (mlan_ds_11ac_opermode_cfg *)respbuf; moal_memcpy_ext(priv->phandle, opermodecfg, &(cfg_11ac->param.opermode_cfg), sizeof(*opermodecfg), respbuflen); ret = sizeof(*opermodecfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get 11AC configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_get_priv_datarate(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_rate *rate = NULL; mlan_data_rate *data_rate = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_rate)); if (req == NULL) { ret = -ENOMEM; goto done; } rate = (mlan_ds_rate *)req->pbuf; rate->sub_command = MLAN_OID_GET_DATA_RATE; req->req_id = MLAN_IOCTL_RATE; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data_rate = (mlan_data_rate *)respbuf; moal_memcpy_ext(priv->phandle, data_rate, &rate->param.data_rate, sizeof(mlan_data_rate), respbuflen); ret = sizeof(mlan_data_rate); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get tx rate configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_txratecfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[4]; mlan_ioctl_req *req = NULL; mlan_ds_rate *rate = NULL; woal_tx_rate_cfg *ratecfg = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; txrate_setting *rate_setting = NULL; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_TXRATECFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_TXRATECFG), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 4) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_rate)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_RATE; rate = (mlan_ds_rate *)req->pbuf; rate->sub_command = MLAN_OID_RATE_CFG; rate->param.rate_cfg.rate_type = MLAN_RATE_INDEX; if (user_data_len == 0) { /* Get operation */ req->action = MLAN_ACT_GET; } else { /* Set operation */ req->action = MLAN_ACT_SET; /* format */ if ((data[0] != AUTO_RATE) && (data[0] >= 4)) { PRINTM(MERROR, "Invalid format selection\n"); ret = -EINVAL; goto done; } if (data[0] == AUTO_RATE) { /* auto */ rate->param.rate_cfg.is_rate_auto = 1; } else { /* fixed rate */ PRINTM(MINFO, "SET: txratefg format: 0x%x\n", data[0]); if ((data[0] != AUTO_RATE) && (data[0] > MLAN_RATE_FORMAT_HE)) { PRINTM(MERROR, "Invalid format selection\n"); ret = -EINVAL; goto done; } rate->param.rate_cfg.rate_format = data[0]; if (user_data_len >= 2) { PRINTM(MINFO, "SET: txratefg index: 0x%x\n", data[1]); /* sanity check */ if (((data[0] == MLAN_RATE_FORMAT_LG) && (data[1] > MLAN_RATE_INDEX_OFDM7)) || ((data[0] == MLAN_RATE_FORMAT_HT) && (data[1] != 32) && (data[1] > 15)) || ((data[0] == MLAN_RATE_FORMAT_VHT) && (data[1] > MLAN_RATE_INDEX_MCS9)) || ((data[0] == MLAN_RATE_FORMAT_HE) && (data[1] > MLAN_RATE_INDEX_MCS11))) { PRINTM(MERROR, "Invalid index selection\n"); ret = -EINVAL; goto done; } PRINTM(MINFO, "SET: txratefg index: 0x%x\n", data[1]); rate->param.rate_cfg.rate = data[1]; } if (data[0] == 2 || data[0] == 3) { PRINTM(MINFO, "SET: txratefg nss: 0x%x\n", data[2]); /* NSS is supported up to 2 */ if ((data[2] <= 0) || (data[2] >= 3)) { PRINTM(MERROR, "Invalid nss selection\n"); ret = -EINVAL; goto done; } rate->param.rate_cfg.nss = data[2]; } if (user_data_len == 4) { rate->param.rate_cfg.rate_setting = data[3] & ~0x0C00; PRINTM(MIOCTL, "SET: txratefg HE Rate Setting: 0x%x\n", data[3]); /* HE Preamble type */ //#define HE_SU_PREAMBLE 0 #define HE_ER_PREAMBLE 1 /* HE ER SU Type */ #define HE_ER_SU_BANDWIDTH_TONE242 0 #define HE_ER_SU_BANDWIDTH_TONE106 1 rate_setting = (txrate_setting *)&data[3]; if (data[0] == MLAN_RATE_FORMAT_HE) { if (rate_setting->preamble == HE_ER_PREAMBLE) { if (rate_setting->bandwidth == HE_ER_SU_BANDWIDTH_TONE242) { if ((data[1] > MLAN_RATE_INDEX_MCS2) || data[2] > MLAN_RATE_NSS1) { PRINTM(MERROR, "Invalid rate and MCS or NSS configuration for 242 tone\n"); ret = -EINVAL; goto done; } } else if (rate_setting ->bandwidth == HE_ER_SU_BANDWIDTH_TONE106) { if ((data[1] != MLAN_RATE_INDEX_MCS0) || data[2] != MLAN_RATE_NSS1) { PRINTM(MERROR, "Invalid rate and MCS or NSS configuration\n for 106 tone"); ret = -EINVAL; goto done; } } else { PRINTM(MERROR, "Invalid Bandwidth for HE ER Preamble\n"); ret = -EINVAL; goto done; } } if ((rate_setting->dcm) && (rate_setting->stbc == 0)) { if ((data[1] == MLAN_RATE_INDEX_MCS2) || (data[1] > MLAN_RATE_INDEX_MCS4)) { PRINTM(MERROR, "Invalid MCS configuration if DCM is supported\n"); ret = -EINVAL; goto done; } } } } else { rate->param.rate_cfg.rate_setting = 0xffff; } } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ratecfg = (woal_tx_rate_cfg *)respbuf; if (rate->param.rate_cfg.is_rate_auto == MTRUE) { ratecfg->rate_format = 0xFF; } else { /* fixed rate */ ratecfg->rate_format = rate->param.rate_cfg.rate_format; ratecfg->rate_index = rate->param.rate_cfg.rate; if (rate->param.rate_cfg.rate_format == MLAN_RATE_FORMAT_VHT || rate->param.rate_cfg.rate_format == MLAN_RATE_FORMAT_HE) ratecfg->nss = rate->param.rate_cfg.nss; ratecfg->rate_setting = rate->param.rate_cfg.rate_setting; } ret = sizeof(woal_tx_rate_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #if defined(STA_SUPPORT) || defined(UAP_SUPPORT) /** * @brief Get statistics information * * @param priv A pointer to moal_private structure * @param wait_option Wait option * @param stats A pointer to mlan_ds_get_stats structure * * @return MLAN_STATUS_SUCCESS/MLAN_STATUS_PENDING -- success, * otherwise fail */ mlan_status woal_get_stats_info(moal_private *priv, t_u8 wait_option, mlan_ds_get_stats *stats) { mlan_ds_get_info *info = NULL; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_get_info)); if (req == NULL) { status = MLAN_STATUS_FAILURE; goto done; } /* Fill request buffer */ info = (mlan_ds_get_info *)req->pbuf; if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_STA) info->sub_command = MLAN_OID_GET_STATS; else if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_UAP) info->sub_command = MLAN_OID_GET_UAP_STATS_LOG; req->req_id = MLAN_IOCTL_GET_INFO; req->action = MLAN_ACT_GET; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, wait_option); if (status == MLAN_STATUS_SUCCESS) { if (stats) moal_memcpy_ext(priv->phandle, stats, &info->param.stats, sizeof(mlan_ds_get_stats), sizeof(mlan_ds_get_stats)); #if defined(STA_WEXT) || defined(UAP_WEXT) priv->w_stats.discard.fragment = info->param.stats.fcs_error; priv->w_stats.discard.retries = info->param.stats.retry; priv->w_stats.discard.misc = info->param.stats.ack_failure; #endif } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return status; } /** * @brief Get wireless stats information * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_get_priv_getlog(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_get_stats *stats; ENTER(); if (respbuflen < sizeof(*stats)) { PRINTM(MERROR, "Get log: respbuflen (%d) too small!", (int)respbuflen); ret = -EFAULT; goto done; } stats = (mlan_ds_get_stats *)respbuf; if (MLAN_STATUS_SUCCESS != woal_get_stats_info(priv, MOAL_IOCTL_WAIT, stats)) { PRINTM(MERROR, "Get log: Failed to get stats info!"); ret = -EFAULT; goto done; } if (priv->phandle->fw_getlog_enable) ret = sizeof(mlan_ds_get_stats); else ret = sizeof(mlan_ds_get_stats_org); done: LEAVE(); return ret; } #endif /** * @brief Set/Get esupplicant mode configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_esuppmode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[3]; mlan_ioctl_req *req = NULL; mlan_ds_sec_cfg *sec = NULL; woal_esuppmode_cfg *esupp_mode = NULL; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv->phandle->card_info->embedded_supp) { PRINTM(MERROR, "Not supported cmd on this card\n"); ret = -EOPNOTSUPP; goto done; } if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_ESUPPMODE))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_ESUPPMODE), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len >= 4 || user_data_len == 1 || user_data_len == 2) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_sec_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_SEC_CFG; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_CFG_ESUPP_MODE; if (user_data_len == 0) { /* Get operation */ req->action = MLAN_ACT_GET; } else { /* Set operation */ req->action = MLAN_ACT_SET; /* RSN mode */ sec->param.esupp_mode.rsn_mode = data[0]; /* Pairwise cipher */ sec->param.esupp_mode.act_paircipher = (data[1] & 0xFF); /* Group cipher */ sec->param.esupp_mode.act_groupcipher = (data[2] & 0xFF); } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } esupp_mode = (woal_esuppmode_cfg *)respbuf; esupp_mode->rsn_mode = (t_u16)((sec->param.esupp_mode.rsn_mode) & 0xFFFF); esupp_mode->pairwise_cipher = (t_u8)((sec->param.esupp_mode.act_paircipher) & 0xFF); esupp_mode->group_cipher = (t_u8)((sec->param.esupp_mode.act_groupcipher) & 0xFF); ret = sizeof(woal_esuppmode_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get esupplicant passphrase configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_setget_priv_passphrase(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_sec_cfg *sec = NULL; int ret = 0, action = -1, i = 0; char *begin, *end, *opt; t_u16 len = 0; t_u8 zero_mac[] = {0, 0, 0, 0, 0, 0}; t_u8 *mac = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv->phandle->card_info->embedded_supp) { PRINTM(MERROR, "Not supported cmd on this card\n"); ret = -EOPNOTSUPP; goto done; } if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_PASSPHRASE))) { PRINTM(MERROR, "No arguments provided\n"); ret = -EINVAL; goto done; } /* Parse the buf to get the cmd_action */ begin = respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_PASSPHRASE); end = woal_strsep(&begin, ';', '/'); if (end) action = woal_atox(end); if (action < 0 || action > 2 || end[1] != '\0') { PRINTM(MERROR, "Invalid action argument %s\n", end); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_sec_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_SEC_CFG; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_CFG_PASSPHRASE; if (action == 0) req->action = MLAN_ACT_GET; else req->action = MLAN_ACT_SET; while (begin) { end = woal_strsep(&begin, ';', '/'); opt = woal_strsep(&end, '=', '/'); if (!opt || !end || !end[0]) { PRINTM(MERROR, "Invalid option\n"); ret = -EINVAL; break; } else if (!strnicmp(opt, "ssid", strlen(opt))) { if (strlen(end) > MLAN_MAX_SSID_LENGTH) { PRINTM(MERROR, "SSID length exceeds max length\n"); ret = -EFAULT; break; } sec->param.passphrase.ssid.ssid_len = strlen(end); moal_memcpy_ext(priv->phandle, sec->param.passphrase.ssid.ssid, end, strlen(end), MLAN_MAX_SSID_LENGTH); PRINTM(MINFO, "ssid=%s, len=%d\n", sec->param.passphrase.ssid.ssid, (int)sec->param.passphrase.ssid.ssid_len); } else if (!strnicmp(opt, "bssid", strlen(opt))) { woal_mac2u8((t_u8 *)&sec->param.passphrase.bssid, end); } else if (!strnicmp(opt, "psk", strlen(opt)) && req->action == MLAN_ACT_SET) { if (strlen(end) != MLAN_PMK_HEXSTR_LENGTH) { PRINTM(MERROR, "Invalid PMK length\n"); ret = -EINVAL; break; } woal_ascii2hex( (t_u8 *)(sec->param.passphrase.psk.pmk.pmk), end, MLAN_PMK_HEXSTR_LENGTH / 2); sec->param.passphrase.psk_type = MLAN_PSK_PMK; } else if (!strnicmp(opt, "passphrase", strlen(opt)) && req->action == MLAN_ACT_SET) { if (strlen(end) < MLAN_MIN_PASSPHRASE_LENGTH || strlen(end) > MLAN_MAX_PASSPHRASE_LENGTH) { PRINTM(MERROR, "Invalid length for passphrase\n"); ret = -EINVAL; break; } sec->param.passphrase.psk_type = MLAN_PSK_PASSPHRASE; moal_memcpy_ext( priv->phandle, sec->param.passphrase.psk.passphrase.passphrase, end, sizeof(sec->param.passphrase.psk.passphrase .passphrase), sizeof(sec->param.passphrase.psk.passphrase .passphrase)); sec->param.passphrase.psk.passphrase.passphrase_len = strlen(end); PRINTM(MINFO, "passphrase=%s, len=%d\n", sec->param.passphrase.psk.passphrase.passphrase, (int)sec->param.passphrase.psk.passphrase .passphrase_len); } else if (!strnicmp(opt, "sae_password", strlen(opt)) && req->action == MLAN_ACT_SET) { if (strlen(end) < MLAN_MIN_SAE_PASSWORD_LENGTH || strlen(end) > MLAN_MAX_SAE_PASSWORD_LENGTH) { PRINTM(MERROR, "Invalid length for sae password\n"); ret = -EINVAL; break; } sec->param.passphrase.psk_type = MLAN_PSK_SAE_PASSWORD; moal_memcpy_ext( priv->phandle, sec->param.passphrase.psk.sae_password .sae_password, end, sizeof(sec->param.passphrase.psk.sae_password .sae_password), sizeof(sec->param.passphrase.psk.sae_password .sae_password)); sec->param.passphrase.psk.sae_password.sae_password_len = strlen(end); PRINTM(MINFO, "sae_password=%s, len=%d\n", sec->param.passphrase.psk.sae_password .sae_password, (int)sec->param.passphrase.psk.sae_password .sae_password_len); } else { PRINTM(MERROR, "Invalid option %s\n", opt); ret = -EINVAL; break; } } if (ret) goto done; if (action == 2) sec->param.passphrase.psk_type = MLAN_PSK_CLEAR; else if (action == 0) sec->param.passphrase.psk_type = MLAN_PSK_QUERY; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(respbuf, 0, respbuflen); if (sec->param.passphrase.ssid.ssid_len) { len += sprintf(respbuf + len, "ssid:"); moal_memcpy_ext(priv->phandle, respbuf + len, sec->param.passphrase.ssid.ssid, sec->param.passphrase.ssid.ssid_len, respbuflen - len); len += sec->param.passphrase.ssid.ssid_len; len += sprintf(respbuf + len, " "); } if (memcmp(&sec->param.passphrase.bssid, zero_mac, sizeof(zero_mac))) { mac = (t_u8 *)&sec->param.passphrase.bssid; len += sprintf(respbuf + len, "bssid:"); for (i = 0; i < ETH_ALEN - 1; ++i) len += sprintf(respbuf + len, "%02x:", mac[i]); len += sprintf(respbuf + len, "%02x ", mac[i]); } if (sec->param.passphrase.psk_type == MLAN_PSK_PMK) { len += sprintf(respbuf + len, "psk:"); for (i = 0; i < MLAN_MAX_KEY_LENGTH; ++i) len += sprintf(respbuf + len, "%02x", sec->param.passphrase.psk.pmk.pmk[i]); len += sprintf(respbuf + len, "\n"); } if (sec->param.passphrase.psk_type == MLAN_PSK_PASSPHRASE) len += sprintf(respbuf + len, "passphrase:%s\n", sec->param.passphrase.psk.passphrase.passphrase); if (sec->param.passphrase.psk_type == MLAN_PSK_SAE_PASSWORD) len += sprintf( respbuf + len, "sae_password:%s\n", sec->param.passphrase.psk.sae_password.sae_password); ret = len; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Deauthenticate * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_deauth(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; t_u8 mac[ETH_ALEN]; ENTER(); if (strlen(respbuf) > (strlen(CMD_NXP) + strlen(PRIV_CMD_DEAUTH))) { /* Deauth mentioned BSSID */ woal_mac2u8(mac, respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_DEAUTH)); if (MLAN_STATUS_SUCCESS != woal_disconnect(priv, MOAL_IOCTL_WAIT, mac, DEF_DEAUTH_REASON_CODE)) { ret = -EFAULT; goto done; } } else { if (MLAN_STATUS_SUCCESS != woal_disconnect(priv, MOAL_IOCTL_WAIT, NULL, DEF_DEAUTH_REASON_CODE)) ret = -EFAULT; } done: LEAVE(); return ret; } #ifdef UAP_SUPPORT /** * @brief uap station deauth ioctl handler * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_ap_deauth(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u8 *data_ptr; mlan_ioctl_req *ioctl_req = NULL; mlan_ds_bss *bss = NULL; mlan_deauth_param deauth_param; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_AP_DEAUTH)); memset(&deauth_param, 0, sizeof(mlan_deauth_param)); moal_memcpy_ext(priv->phandle, &deauth_param, data_ptr, sizeof(mlan_deauth_param), sizeof(mlan_deauth_param)); PRINTM(MIOCTL, "ioctl deauth station: " MACSTR ", reason=%d\n", MAC2STR(deauth_param.mac_addr), deauth_param.reason_code); ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } bss = (mlan_ds_bss *)ioctl_req->pbuf; bss->sub_command = MLAN_OID_UAP_DEAUTH_STA; ioctl_req->req_id = MLAN_IOCTL_BSS; ioctl_req->action = MLAN_ACT_SET; moal_memcpy_ext(priv->phandle, &bss->param.deauth_param, &deauth_param, sizeof(mlan_deauth_param), sizeof(mlan_deauth_param)); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext( priv->phandle, data_ptr, &ioctl_req->status_code, sizeof(t_u32), respbuflen - (strlen(CMD_NXP) + strlen(PRIV_CMD_AP_DEAUTH))); ret = sizeof(t_u32); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief uap get station list handler * * @param dev A pointer to net_device structure * @param req A pointer to ifreq structure * @return 0 --success, otherwise fail */ static int woal_priv_get_sta_list(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_get_info *info = NULL; mlan_ds_sta_list *sta_list = NULL; mlan_ioctl_req *ioctl_req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); /* Allocate an IOCTL request buffer */ ioctl_req = (mlan_ioctl_req *)woal_alloc_mlan_ioctl_req( sizeof(mlan_ds_get_info)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } info = (mlan_ds_get_info *)ioctl_req->pbuf; info->sub_command = MLAN_OID_UAP_STA_LIST; ioctl_req->req_id = MLAN_IOCTL_GET_INFO; ioctl_req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } sta_list = (mlan_ds_sta_list *)(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_GET_STA_LIST)); moal_memcpy_ext( priv->phandle, sta_list, &info->param.sta_list, ioctl_req->data_read_written, respbuflen - (strlen(CMD_NXP) + strlen(PRIV_CMD_GET_STA_LIST))); ret = ioctl_req->data_read_written + strlen(CMD_NXP) + strlen(PRIV_CMD_GET_STA_LIST); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief uap bss_config handler * * @param dev A pointer to net_device structure * @param req A pointer to ifreq structure * @return 0 --success, otherwise fail */ static int woal_priv_bss_config(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_bss *bss = NULL; mlan_ioctl_req *ioctl_req = NULL; t_u32 action = 0; int offset = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); offset = strlen(CMD_NXP) + strlen(PRIV_CMD_BSS_CONFIG); moal_memcpy_ext(priv->phandle, (u8 *)&action, respbuf + offset, sizeof(action), sizeof(action)); offset += sizeof(action); /* Allocate an IOCTL request buffer */ ioctl_req = (mlan_ioctl_req *)woal_alloc_mlan_ioctl_req( sizeof(mlan_ds_bss)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } bss = (mlan_ds_bss *)ioctl_req->pbuf; bss->sub_command = MLAN_OID_UAP_BSS_CONFIG; ioctl_req->req_id = MLAN_IOCTL_BSS; if (action == 1) { ioctl_req->action = MLAN_ACT_SET; /* Get the BSS config from user */ moal_memcpy_ext(priv->phandle, &bss->param.bss_config, respbuf + offset, sizeof(mlan_uap_bss_param), sizeof(mlan_uap_bss_param)); } else { ioctl_req->action = MLAN_ACT_GET; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (ioctl_req->action == MLAN_ACT_GET) { moal_memcpy_ext(priv->phandle, respbuf + offset, &bss->param.bss_config, sizeof(mlan_uap_bss_param), respbuflen - (t_u32)offset); } ret = sizeof(mlan_uap_bss_param); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } #endif #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_SUPPORT) && defined(UAP_SUPPORT) /** * @brief Set/Get BSS role * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_bssrole(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[1]; int ret = 0; int user_data_len = 0; t_u8 action = MLAN_ACT_GET; ENTER(); memset((char *)data, 0, sizeof(data)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_BSSROLE))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_BSSROLE), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len >= 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto error; } if (user_data_len == 0) { action = MLAN_ACT_GET; } else { if ((data[0] != MLAN_BSS_ROLE_STA && data[0] != MLAN_BSS_ROLE_UAP) || priv->bss_type != MLAN_BSS_TYPE_WIFIDIRECT) { PRINTM(MWARN, "Invalid BSS role\n"); ret = -EINVAL; goto error; } if (data[0] == GET_BSS_ROLE(priv)) { PRINTM(MWARN, "Already BSS is in desired role\n"); goto done; } action = MLAN_ACT_SET; /* Reset interface */ if (MLAN_STATUS_SUCCESS != woal_reset_intf(priv, MOAL_IOCTL_WAIT, MFALSE)) { PRINTM(MERROR, "%s: woal_reset_intf failed \n", __func__); ret = -EFAULT; goto error; } } if (MLAN_STATUS_SUCCESS != woal_bss_role_cfg(priv, action, MOAL_IOCTL_WAIT, (t_u8 *)data)) { ret = -EFAULT; goto error; } if (user_data_len) { /* Initialize private structures */ woal_init_priv(priv, MOAL_IOCTL_WAIT); /* Enable interfaces */ netif_device_attach(priv->netdev); woal_start_queue(priv->netdev); } done: memset(respbuf, 0, respbuflen); respbuf[0] = (t_u8)data[0]; ret = 1; error: LEAVE(); return ret; } #endif /* STA_SUPPORT && UAP_SUPPORT */ #endif /* WIFI_DIRECT_SUPPORT */ #ifdef STA_SUPPORT /** * @brief Set user scan * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setuserscan(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { wlan_user_scan_cfg *scan_cfg; int ret = 0; ENTER(); scan_cfg = (wlan_user_scan_cfg *)kmalloc(sizeof(wlan_user_scan_cfg), GFP_KERNEL); if (!scan_cfg) { PRINTM(MERROR, "Malloc buffer failed\n"); LEAVE(); return -ENOMEM; } /* Create the scan_cfg structure */ memset(scan_cfg, 0, sizeof(wlan_user_scan_cfg)); /* We expect the scan_cfg structure to be passed in respbuf */ moal_memcpy_ext(priv->phandle, (char *)scan_cfg, respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_SETUSERSCAN), sizeof(wlan_user_scan_cfg), sizeof(wlan_user_scan_cfg)); moal_memcpy_ext(priv->phandle, scan_cfg->random_mac, priv->random_mac, ETH_ALEN, MLAN_MAC_ADDR_LENGTH); /* Call for scan */ if (MLAN_STATUS_FAILURE == woal_do_scan(priv, scan_cfg)) ret = -EFAULT; kfree(scan_cfg); LEAVE(); return ret; } /** * @brief Get channel statistics * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_chanstats(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_scan_resp scan_resp; chan_stats *stats = NULL; int ret = 0; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } mdelay(10); memset(&scan_resp, 0, sizeof(scan_resp)); if (MLAN_STATUS_SUCCESS != woal_get_scan_table(priv, MOAL_IOCTL_WAIT, &scan_resp)) { ret = -EFAULT; goto done; } memset(respbuf, 0, respbuflen); stats = (chan_stats *)respbuf; stats->num_in_chan_stats = scan_resp.num_in_chan_stats; ret = sizeof(ChanStatistics_t) * stats->num_in_chan_stats; moal_memcpy_ext(priv->phandle, (t_u8 *)stats->stats, (t_u8 *)scan_resp.pchan_stats, ret, respbuflen); ret += sizeof(stats->num_in_chan_stats); done: LEAVE(); return ret; } /** * @brief Retrieve the scan response/beacon table * * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * @param scan_resp A pointer to mlan_scan_resp structure * @param scan_start Argument * * @return MLAN_STATUS_SUCCESS --success, otherwise fail */ static int moal_ret_get_scan_table_ioctl(t_u8 *respbuf, t_u32 respbuflen, mlan_scan_resp *scan_resp, t_u32 scan_start) { pBSSDescriptor_t pbss_desc, scan_table; wlan_ioctl_get_scan_table_info *prsp_info; int ret_code; int ret_len; int space_left; t_u8 *pcurrent; t_u8 *pbuffer_end; t_u32 num_scans_done; ENTER(); num_scans_done = 0; ret_code = MLAN_STATUS_SUCCESS; prsp_info = (wlan_ioctl_get_scan_table_info *)respbuf; pcurrent = (t_u8 *)prsp_info->scan_table_entry_buf; pbuffer_end = respbuf + respbuflen - 1; space_left = pbuffer_end - pcurrent; scan_table = (BSSDescriptor_t *)(scan_resp->pscan_table); PRINTM(MINFO, "GetScanTable: scan_start req = %d\n", scan_start); PRINTM(MINFO, "GetScanTable: length avail = %d\n", respbuflen); if (!scan_start) { PRINTM(MINFO, "GetScanTable: get current BSS Descriptor\n"); /* Use to get current association saved descriptor */ pbss_desc = scan_table; ret_code = wlan_get_scan_table_ret_entry(pbss_desc, &pcurrent, &space_left); if (ret_code == MLAN_STATUS_SUCCESS) num_scans_done = 1; } else { scan_start--; while (space_left && (scan_start + num_scans_done < scan_resp->num_in_scan_table) && (ret_code == MLAN_STATUS_SUCCESS)) { pbss_desc = (scan_table + (scan_start + num_scans_done)); PRINTM(MINFO, "GetScanTable: get current BSS Descriptor [%d]\n", scan_start + num_scans_done); ret_code = wlan_get_scan_table_ret_entry( pbss_desc, &pcurrent, &space_left); if (ret_code == MLAN_STATUS_SUCCESS) num_scans_done++; } } prsp_info->scan_number = num_scans_done; ret_len = pcurrent - respbuf; LEAVE(); return ret_len; } /** * @brief Get scan table * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_getscantable(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_scan *scan = NULL; t_u32 scan_start; mlan_status status = MLAN_STATUS_SUCCESS; moal_handle *handle = priv->phandle; ENTER(); /* First make sure scanning is not in progress */ if (handle->scan_pending_on_block == MTRUE) { ret = -EAGAIN; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_scan)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ scan = (mlan_ds_scan *)req->pbuf; req->req_id = MLAN_IOCTL_SCAN; req->action = MLAN_ACT_GET; /* Get the whole command from user */ moal_memcpy_ext(handle, &scan_start, respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_GETSCANTABLE), sizeof(scan_start), sizeof(scan_start)); if (scan_start) scan->sub_command = MLAN_OID_SCAN_NORMAL; else scan->sub_command = MLAN_OID_SCAN_GET_CURRENT_BSS; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status == MLAN_STATUS_SUCCESS) { ret = moal_ret_get_scan_table_ioctl(respbuf, respbuflen, &scan->param.scan_resp, scan_start); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Extended capabilities configuration * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_extcapcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret, header; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; IEEEtypes_Header_t *ie; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { LEAVE(); return 0; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_EXT_CAP_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; header = strlen(CMD_NXP) + strlen(PRIV_CMD_EXTCAPCFG); if ((int)strlen(respbuf) == header) /* GET operation */ req->action = MLAN_ACT_GET; else { /* SET operation */ ie = (IEEEtypes_Header_t *)(respbuf + header); if (ie->len > sizeof(ExtCap_t)) { PRINTM(MERROR, "Extended Capability lenth is invalid\n"); ret = -EFAULT; goto done; } req->action = MLAN_ACT_SET; memset(&cfg->param.ext_cap, 0, sizeof(ExtCap_t)); moal_memcpy_ext(priv->phandle, &cfg->param.ext_cap, ie + 1, ie->len, sizeof(ExtCap_t)); } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(respbuf, 0, respbuflen); ie = (IEEEtypes_Header_t *)respbuf; ie->element_id = EXT_CAPABILITY; ie->len = sizeof(ExtCap_t); moal_memcpy_ext(priv->phandle, ie + 1, &cfg->param.ext_cap, sizeof(ExtCap_t), respbuflen - sizeof(IEEEtypes_Header_t)); ret = sizeof(IEEEtypes_Header_t) + ie->len; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif /** * @brief Set/Get deep sleep mode configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setgetdeepsleep(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[2]; int ret = 0; int user_data_len = 0; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_DEEPSLEEP))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_DEEPSLEEP), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len >= 3) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len == 0) { if (MLAN_STATUS_SUCCESS != woal_get_deep_sleep(priv, data)) { ret = -EFAULT; goto done; } sprintf(respbuf, "%d %d", data[0], data[1]); ret = strlen(respbuf) + 1; } else { if (data[0] == DEEP_SLEEP_OFF) { PRINTM(MINFO, "Exit Deep Sleep Mode\n"); ret = woal_set_deep_sleep(priv, MOAL_IOCTL_WAIT, MFALSE, 0); if (ret != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } } else if (data[0] == DEEP_SLEEP_ON) { PRINTM(MINFO, "Enter Deep Sleep Mode\n"); if (user_data_len != 2) data[1] = 0; ret = woal_set_deep_sleep(priv, MOAL_IOCTL_WAIT, MTRUE, data[1]); if (ret != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } } else { PRINTM(MERROR, "Unknown option = %u\n", data[0]); ret = -EINVAL; goto done; } ret = sprintf(respbuf, "OK\n") + 1; } done: LEAVE(); return ret; } /** * @brief Set/Get IP address configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setgetipaddr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0, op_code = 0, data_length = 0, header = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (priv->bss_type != MLAN_BSS_TYPE_STA) { PRINTM(MIOCTL, "Bss type[%d]: Not STA, ignore it\n", priv->bss_type); ret = sprintf(respbuf, "OK\n") + 1; goto done; } header = strlen(CMD_NXP) + strlen(PRIV_CMD_IPADDR); data_length = strlen(respbuf) - header; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; if (data_length < 1) { /* GET */ req->action = MLAN_ACT_GET; } else { /* Make sure we have the operation argument */ if (data_length > 2 && respbuf[header + 1] != ';') { PRINTM(MERROR, "No operation argument. Separate with ';'\n"); ret = -EINVAL; goto done; } else { respbuf[header + 1] = '\0'; } req->action = MLAN_ACT_SET; /* Only one IP is supported in current firmware */ memset(misc->param.ipaddr_cfg.ip_addr[0], 0, IPADDR_LEN); if (data_length > 2) in4_pton(&respbuf[header + 2], MIN((IPADDR_MAX_BUF - 3), (data_length - 2)), misc->param.ipaddr_cfg.ip_addr[0], ' ', NULL); misc->param.ipaddr_cfg.ip_addr_num = 1; misc->param.ipaddr_cfg.ip_addr_type = IPADDR_TYPE_IPV4; if (woal_atoi(&op_code, &respbuf[header]) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } misc->param.ipaddr_cfg.op_code = (t_u32)op_code; } req->req_id = MLAN_IOCTL_MISC_CFG; misc->sub_command = MLAN_OID_MISC_IP_ADDR; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { snprintf(respbuf, IPADDR_MAX_BUF, "%d;%d.%d.%d.%d", misc->param.ipaddr_cfg.op_code, misc->param.ipaddr_cfg.ip_addr[0][0], misc->param.ipaddr_cfg.ip_addr[0][1], misc->param.ipaddr_cfg.ip_addr[0][2], misc->param.ipaddr_cfg.ip_addr[0][3]); ret = IPADDR_MAX_BUF + 1; } else { ret = sprintf(respbuf, "OK\n") + 1; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get WPS session configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setwpssession(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wps_cfg *pwps = NULL; t_u32 data[1]; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset((char *)data, 0, sizeof(data)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_WPSSESSION))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_WPSSESSION), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wps_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pwps = (mlan_ds_wps_cfg *)req->pbuf; req->req_id = MLAN_IOCTL_WPS_CFG; req->action = MLAN_ACT_SET; pwps->sub_command = MLAN_OID_WPS_CFG_SESSION; if (data[0] == 1) pwps->param.wps_session = MLAN_WPS_CFG_SESSION_START; else pwps->param.wps_session = MLAN_WPS_CFG_SESSION_END; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = sprintf(respbuf, "OK\n") + 1; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get OTP user data * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_otpuserdata(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[1]; int user_data_len = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_misc_otp_user_data *otp = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_OTPUSERDATA))) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_OTPUSERDATA), data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->action = MLAN_ACT_GET; req->req_id = MLAN_IOCTL_MISC_CFG; misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_OTP_USER_DATA; misc->param.otp_user_data.user_data_length = data[0]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } otp = (mlan_ds_misc_otp_user_data *)req->pbuf; if (req->action == MLAN_ACT_GET) { ret = MIN(otp->user_data_length, data[0]); moal_memcpy_ext(priv->phandle, respbuf, otp->user_data, ret, respbuflen); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set / Get country code * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_countrycode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; /* char data[COUNTRY_CODE_LEN] = {0, 0, 0}; */ int header = 0, data_length = 0; /* wrq->u.data.length; */ mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *pcfg_misc = NULL; mlan_ds_misc_country_code *country_code = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header = strlen(CMD_NXP) + strlen(PRIV_CMD_COUNTRYCODE); data_length = strlen(respbuf) - header; if (data_length > COUNTRY_CODE_LEN) { PRINTM(MERROR, "Invalid argument!\n"); ret = -EINVAL; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ pcfg_misc = (mlan_ds_misc_cfg *)req->pbuf; country_code = &pcfg_misc->param.country_code; pcfg_misc->sub_command = MLAN_OID_MISC_COUNTRY_CODE; req->req_id = MLAN_IOCTL_MISC_CFG; if (data_length <= 1) { req->action = MLAN_ACT_GET; } else { memset(country_code->country_code, 0, COUNTRY_CODE_LEN); moal_memcpy_ext(priv->phandle, country_code->country_code, respbuf + header, COUNTRY_CODE_LEN, COUNTRY_CODE_LEN); req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { ret = data_length = COUNTRY_CODE_LEN; memset(respbuf + header, 0, COUNTRY_CODE_LEN); moal_memcpy_ext(priv->phandle, respbuf, country_code->country_code, COUNTRY_CODE_LEN, respbuflen); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get cfp information * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_cfpinfo(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfp_misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ cfp_misc = (mlan_ds_misc_cfg *)req->pbuf; cfp_misc->sub_command = MLAN_OID_MISC_CFP_INFO; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (respbuflen < req->data_read_written) { PRINTM(MERROR, "response buffer length is too short!\n"); ret = -EINVAL; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)req->pbuf, req->data_read_written, respbuflen); ret = req->data_read_written; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get TCP Ack enhancement configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setgettcpackenh(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u32 data[2] = {0, 0}; int ret = 0; int user_data_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_TCPACKENH))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_TCPACKENH), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len == 0) { /* get operation */ data[0] = priv->enable_tcp_ack_enh; data[1] = priv->tcp_ack_max_hold; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } else { /* set operation */ if (user_data_len >= 3) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data[0] > 1 || data[1] > TCP_ACK_MAX_HOLD) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } if (data[0] == MTRUE) { PRINTM(MINFO, "Enabling TCP Ack enhancement\n"); priv->enable_tcp_ack_enh = MTRUE; } else if (data[0] == MFALSE) { PRINTM(MINFO, "Disabling TCP Ack enhancement\n"); priv->enable_tcp_ack_enh = MFALSE; /* release the tcp sessions if any */ woal_flush_tcp_sess_queue(priv); } if (user_data_len >= 2) { PRINTM(MINFO, "TCP drop Ack configure: %d\n", data[1]); priv->tcp_ack_max_hold = data[1]; } data[0] = priv->enable_tcp_ack_enh; data[1] = priv->tcp_ack_max_hold; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } done: LEAVE(); return ret; } #ifdef REASSOCIATION /** * @brief Set Asynced ESSID * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * @param bBSSID A variable that bssid is set or not * * @return Number of bytes written, negative for failure. */ static int woal_priv_assocessid(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen, t_u8 bBSSID) { mlan_ssid_bssid ssid_bssid; moal_handle *handle = priv->phandle; int ret = 0; int header_len = 0; int copy_len = 0; char buf[64]; t_u8 buflen = 0; t_u8 i = 0; t_u8 mac_idx = 0; ENTER(); if (bBSSID) header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ASSOCBSSID); else header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ASSOCESSID); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "No argument, invalid operation!\n"); ret = -EINVAL; LEAVE(); return ret; } copy_len = strlen(respbuf) - header_len; buflen = MIN(copy_len, (int)(sizeof(buf) - 1)); memset(buf, 0, sizeof(buf)); memset(&ssid_bssid, 0, sizeof(mlan_ssid_bssid)); moal_memcpy_ext(handle, buf, respbuf + header_len, buflen, sizeof(buf)); priv->assoc_with_mac = MFALSE; /* check if has parameter BSSID */ if (bBSSID) { if (buflen < (3 * ETH_ALEN) + 2) { PRINTM(MERROR, "Associate: Insufficient length in IOCTL input\n"); /* buffer should be at least 3 characters per BSSID *octet "00:" ** plus a space separater and at least 1 char in the *SSID */ ret = -EINVAL; goto setessid_ret; } for (; (i < buflen) && (mac_idx < ETH_ALEN) && (buf[i] != ' '); i++) { if (buf[i] == ':') { mac_idx++; } else { ssid_bssid.bssid[mac_idx] = (t_u8)woal_atox(buf + i); while ((i < buflen) && isxdigit(buf[i + 1])) /* Skip entire hex value */ i++; } } /* Skip one space between the BSSID and start of the SSID */ i++; PRINTM(MMSG, "Trying to associate AP BSSID = [" MACSTR "]\n", MAC2STR(ssid_bssid.bssid)); priv->assoc_with_mac = MTRUE; } ssid_bssid.ssid.ssid_len = buflen - i; /* Check the size of the ssid_len */ if (ssid_bssid.ssid.ssid_len > MLAN_MAX_SSID_LENGTH + 1) { PRINTM(MERROR, "ssid_bssid.ssid.ssid_len = %d\n", ssid_bssid.ssid.ssid_len); ret = -E2BIG; goto setessid_ret; } /* Copy the SSID */ moal_memcpy_ext(handle, ssid_bssid.ssid.ssid, buf + i, ssid_bssid.ssid.ssid_len, MLAN_MAX_SSID_LENGTH); if (!ssid_bssid.ssid.ssid_len || (MFALSE == woal_ssid_valid(&ssid_bssid.ssid))) { PRINTM(MERROR, "Invalid SSID - aborting set_essid\n"); ret = -EINVAL; goto setessid_ret; } PRINTM(MMSG, "Trying to associate AP SSID = %s\n", (char *)ssid_bssid.ssid.ssid); /* Cancel re-association */ priv->reassoc_required = MFALSE; if (MOAL_ACQ_SEMAPHORE_BLOCK(&handle->reassoc_sem)) { PRINTM(MERROR, "Acquire semaphore error, woal_set_essid\n"); ret = -EBUSY; LEAVE(); return ret; } if (priv->scan_type == MLAN_SCAN_TYPE_PASSIVE) woal_set_scan_type(priv, MLAN_SCAN_TYPE_ACTIVE); if (MTRUE == woal_is_connected(priv, &ssid_bssid)) { PRINTM(MIOCTL, "Already connect to the network\n"); ret = sprintf(respbuf, "Has already connected to this ESSID!\n") + 1; goto setessid_ret; } moal_memcpy_ext(handle, &priv->prev_ssid_bssid, &ssid_bssid, sizeof(mlan_ssid_bssid), sizeof(mlan_ssid_bssid)); priv->auto_assoc_priv.drv_reconnect.status = MFALSE; priv->auto_assoc_priv.auto_assoc_trigger_flag = AUTO_ASSOC_TYPE_DRV_ASSOC; priv->auto_assoc_priv.drv_assoc.status = MTRUE; if (priv->auto_assoc_priv.auto_assoc_type_on & (0x1 << (AUTO_ASSOC_TYPE_DRV_ASSOC - 1))) { PRINTM(MINFO, " auto assoc: trigger driver auto re-assoc\n"); } else { PRINTM(MINFO, " Set Asynced ESSID: trigger auto re-assoc\n"); } priv->reassoc_required = MTRUE; priv->phandle->is_reassoc_timer_set = MTRUE; woal_mod_timer(&priv->phandle->reassoc_timer, 0); ret = sprintf(respbuf, "%s\n", buf) + 1; setessid_ret: if (priv->scan_type == MLAN_SCAN_TYPE_PASSIVE) woal_set_scan_type(priv, MLAN_SCAN_TYPE_PASSIVE); MOAL_REL_SEMAPHORE(&handle->reassoc_sem); LEAVE(); return ret; } #endif /** * @brief Set/Get deep auto assoc configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_setgetautoassoc(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { #ifdef REASSOCIATION moal_handle *handle = priv->phandle; #endif mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; t_u32 data[5]; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_AUTOASSOC))) { PRINTM(MERROR, "No argument, invalid operation!\n"); ret = -EINVAL; goto done; } else { /* GET/SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_AUTOASSOC), data, ARRAY_SIZE(data), &user_data_len); } if (sizeof(t_u32) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data[0] != AUTO_ASSOC_TYPE_DRV_ASSOC && data[0] != AUTO_ASSOC_TYPE_DRV_RECONN && data[0] != AUTO_ASSOC_TYPE_FW_RECONN) { PRINTM(MERROR, "Invalid auto assoc type option = %u\n", data[0]); ret = -EINVAL; goto done; } if (user_data_len == 1) { /* Get operation */ if (data[0] == AUTO_ASSOC_TYPE_FW_RECONN) { /* Get fw auto re-connect parameters */ req = woal_alloc_mlan_ioctl_req( sizeof(mlan_ds_misc_cfg)); if (req == NULL) { LEAVE(); return -ENOMEM; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_AUTO_ASSOC; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; if (status != MLAN_STATUS_PENDING) kfree(req); goto done; } else { data[2] = misc->param.fw_auto_reconnect .fw_reconn_counter; if (data[2] == 0) { data[1] = 0; sprintf(respbuf, "%d %d", data[0], data[1]); ret = strlen(respbuf) + 1; } else { data[1] = 1; data[3] = misc->param.fw_auto_reconnect .fw_reconn_interval; data[4] = misc->param.fw_auto_reconnect .fw_reconn_flags; sprintf(respbuf, "%d %d 0x%x 0x%x 0x%x", data[0], data[1], data[2], data[3], data[4]); ret = strlen(respbuf) + 1; } kfree(req); } } else { if (priv->auto_assoc_priv.auto_assoc_type_on & (0x1 << (data[0] - 1))) { data[1] = 1; if (data[0] == AUTO_ASSOC_TYPE_DRV_RECONN) { /* Get driver auto re-connect parameters */ data[2] = priv->auto_assoc_priv .drv_reconnect .retry_count; data[3] = priv->auto_assoc_priv .drv_reconnect .retry_interval; } else { /* Get driver auto assoc parameters */ data[2] = priv->auto_assoc_priv.drv_assoc .retry_count; data[3] = priv->auto_assoc_priv.drv_assoc .retry_interval; } sprintf(respbuf, "%d %d 0x%x 0x%x", data[0], data[1], data[2], data[3]); ret = strlen(respbuf) + 1; } else { data[1] = 0; sprintf(respbuf, "%d %d", data[0], data[1]); ret = strlen(respbuf) + 1; } } } else { /* Set operation */ if (data[1] == MFALSE) { /* Set Disable */ if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of arguments for setting Disable\n"); ret = -EINVAL; goto done; } priv->auto_assoc_priv.auto_assoc_type_on &= ~(0x1 << (data[0] - 1)); } else if (data[1] == MTRUE) { /* Set Enable */ if (user_data_len > 2) { if (data[2] == 0 || data[2] > 0xFF) { PRINTM(MERROR, "Invalid auto assoc retry count option = %u\n", data[2]); ret = -EINVAL; goto done; } if (user_data_len > 3) { if (data[3] > 0xFF) { PRINTM(MERROR, "Invalid auto assoc interval option = %u\n", data[3]); ret = -EINVAL; goto done; } } else { data[3] = 0xa; /* Default retry interval: 10 seconds */ } } else { data[2] = 0xff; /* Default retry count: retry forever */ data[3] = 0xa; /* Default retry interval: 10 seconds */ } priv->auto_assoc_priv.auto_assoc_type_on |= 0x1 << (data[0] - 1); } else { PRINTM(MERROR, "Invalid auto assoc on/off option = %u\n", data[1]); ret = -EINVAL; goto done; } if (data[0] == AUTO_ASSOC_TYPE_FW_RECONN) { /* Set fw auto re-connect operation */ if (user_data_len == 5) { if (data[4] > 0x1) { PRINTM(MERROR, "Invalid fw auto re-connect flag option = %u\n", data[4]); ret = -EINVAL; goto done; } } else { data[4] = 0; /* Default fw auto re-connect flags */ } req = woal_alloc_mlan_ioctl_req( sizeof(mlan_ds_misc_cfg)); if (req == NULL) { LEAVE(); return -ENOMEM; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_AUTO_ASSOC; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_SET; if (data[1] == MFALSE) { /* Set fw auto re-connect Disable */ misc->param.fw_auto_reconnect.fw_reconn_counter = 0; misc->param.fw_auto_reconnect .fw_reconn_interval = 0; misc->param.fw_auto_reconnect.fw_reconn_flags = 0; } else { /* Set fw auto re-connect Enable */ misc->param.fw_auto_reconnect.fw_reconn_counter = data[2]; misc->param.fw_auto_reconnect .fw_reconn_interval = data[3]; misc->param.fw_auto_reconnect.fw_reconn_flags = data[4]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; if (status != MLAN_STATUS_PENDING) kfree(req); goto done; } else { kfree(req); } } else { if (user_data_len == 5) { PRINTM(MERROR, "The fifth parameter is only used for FW auto re-connect!\n"); ret = -EINVAL; goto done; } if (data[0] == AUTO_ASSOC_TYPE_DRV_RECONN) { /* Set driver auto re-connect operation */ if (data[1] == MFALSE) { if (!(priv->auto_assoc_priv .auto_assoc_type_on & (0x1 << (AUTO_ASSOC_TYPE_DRV_ASSOC - 1)))) { priv->auto_assoc_priv .drv_reconnect.status = MFALSE; #ifdef REASSOCIATION handle->reassoc_on &= ~MBIT(priv->bss_index); priv->reassoc_on = MFALSE; priv->reassoc_required = MFALSE; if (!handle->reassoc_on && handle->is_reassoc_timer_set == MTRUE) { woal_cancel_timer( &handle->reassoc_timer); handle->is_reassoc_timer_set = MFALSE; } #endif } } #ifdef REASSOCIATION else { handle->reassoc_on |= MBIT(priv->bss_index); priv->reassoc_on = MTRUE; } #endif priv->auto_assoc_priv.drv_reconnect.retry_count = data[2]; priv->auto_assoc_priv.drv_reconnect .retry_interval = data[3]; } if (data[0] == AUTO_ASSOC_TYPE_DRV_ASSOC) { /* Set driver auto assoc operation */ if (data[1] == MFALSE) { if (!(priv->auto_assoc_priv .auto_assoc_type_on & (0x1 << (AUTO_ASSOC_TYPE_DRV_RECONN - 1)))) { priv->auto_assoc_priv.drv_assoc .status = MFALSE; #ifdef REASSOCIATION handle->reassoc_on &= ~MBIT(priv->bss_index); priv->reassoc_on = MFALSE; priv->reassoc_required = MFALSE; if (!handle->reassoc_on && handle->is_reassoc_timer_set == MTRUE) { woal_cancel_timer( &handle->reassoc_timer); handle->is_reassoc_timer_set = MFALSE; } #endif } } #ifdef REASSOCIATION else { handle->reassoc_on |= MBIT(priv->bss_index); priv->reassoc_on = MTRUE; } #endif priv->auto_assoc_priv.drv_assoc.retry_count = data[2]; priv->auto_assoc_priv.drv_assoc.retry_interval = data[3]; } } ret = sprintf(respbuf, "OK\n") + 1; } done: LEAVE(); return ret; } /** * @brief Get wakeup reason * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_getwakeupreason(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_pm_cfg *pm_cfg = NULL; t_u32 data; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_WAKEUPREASON))) { /* GET operation */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { LEAVE(); return -ENOMEM; } pm_cfg = (mlan_ds_pm_cfg *)req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_HS_WAKEUP_REASON; req->req_id = MLAN_IOCTL_PM_CFG; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; if (status != MLAN_STATUS_PENDING) kfree(req); goto done; } else { data = pm_cfg->param.wakeup_reason.hs_wakeup_reason; sprintf(respbuf, " %d", data); ret = strlen(respbuf) + 1; kfree(req); } } else { PRINTM(MERROR, "Not need argument, invalid operation!\n"); ret = -EINVAL; goto done; } done: LEAVE(); return ret; } #ifdef STA_SUPPORT /** * @brief Set / Get listen interval * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_listeninterval(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[1]; int user_data_len = 0; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_bss *pcfg_bss = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_LISTENINTERVAL))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_LISTENINTERVAL), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ pcfg_bss = (mlan_ds_bss *)req->pbuf; pcfg_bss->sub_command = MLAN_OID_BSS_LISTEN_INTERVAL; req->req_id = MLAN_IOCTL_BSS; if (user_data_len) { pcfg_bss->param.listen_interval = (t_u16)data[0]; req->action = MLAN_ACT_SET; } else { req->action = MLAN_ACT_GET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { sprintf(respbuf, "%d", pcfg_bss->param.listen_interval); ret = strlen(respbuf) + 1; } else { ret = sprintf(respbuf, "OK\n") + 1; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif #ifdef DEBUG_LEVEL1 /** * @brief Set / Get driver debug level * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_drvdbg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[4]; int user_data_len = 0; int ret = 0; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_DRVDBG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_DRVDBG), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len) { /* Get the driver debug bit masks from user */ drvdbg = data[0]; /* Set the driver debug bit masks into mlan */ if (woal_set_drvdbg(priv, drvdbg)) { PRINTM(MERROR, "Set drvdbg failed!\n"); ret = MLAN_STATUS_FAILURE; goto done; } } ret = sizeof(drvdbg); moal_memcpy_ext(priv->phandle, respbuf, &drvdbg, sizeof(drvdbg), respbuflen); printk(KERN_ALERT "drvdbg = 0x%08x\n", drvdbg); #ifdef DEBUG_LEVEL2 printk(KERN_ALERT "MINFO (%08x) %s\n", MINFO, (drvdbg & MINFO) ? "X" : ""); printk(KERN_ALERT "MWARN (%08x) %s\n", MWARN, (drvdbg & MWARN) ? "X" : ""); printk(KERN_ALERT "MENTRY (%08x) %s\n", MENTRY, (drvdbg & MENTRY) ? "X" : ""); #endif printk(KERN_ALERT "MMPA_D (%08x) %s\n", MMPA_D, (drvdbg & MMPA_D) ? "X" : ""); printk(KERN_ALERT "MIF_D (%08x) %s\n", MIF_D, (drvdbg & MIF_D) ? "X" : ""); printk(KERN_ALERT "MFW_D (%08x) %s\n", MFW_D, (drvdbg & MFW_D) ? "X" : ""); printk(KERN_ALERT "MEVT_D (%08x) %s\n", MEVT_D, (drvdbg & MEVT_D) ? "X" : ""); printk(KERN_ALERT "MCMD_D (%08x) %s\n", MCMD_D, (drvdbg & MCMD_D) ? "X" : ""); printk(KERN_ALERT "MDAT_D (%08x) %s\n", MDAT_D, (drvdbg & MDAT_D) ? "X" : ""); printk(KERN_ALERT "MREG_D (%08x) %s\n", MREG_D, (drvdbg & MREG_D) ? "X" : ""); printk(KERN_ALERT "MIOCTL (%08x) %s\n", MIOCTL, (drvdbg & MIOCTL) ? "X" : ""); printk(KERN_ALERT "MINTR (%08x) %s\n", MINTR, (drvdbg & MINTR) ? "X" : ""); printk(KERN_ALERT "MEVENT (%08x) %s\n", MEVENT, (drvdbg & MEVENT) ? "X" : ""); printk(KERN_ALERT "MCMND (%08x) %s\n", MCMND, (drvdbg & MCMND) ? "X" : ""); printk(KERN_ALERT "MDATA (%08x) %s\n", MDATA, (drvdbg & MDATA) ? "X" : ""); printk(KERN_ALERT "MERROR (%08x) %s\n", MERROR, (drvdbg & MERROR) ? "X" : ""); printk(KERN_ALERT "MFATAL (%08x) %s\n", MFATAL, (drvdbg & MFATAL) ? "X" : ""); printk(KERN_ALERT "MMSG (%08x) %s\n", MMSG, (drvdbg & MMSG) ? "X" : ""); done: LEAVE(); return ret; } #endif /** * @brief management frame filter wakeup config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_mgmt_filter(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_pm_cfg *pm_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int header_len = 0, data_len = 0; int ret = 0; t_u16 action; t_u8 *argument; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } pm_cfg = (mlan_ds_pm_cfg *)ioctl_req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_MGMT_FILTER; ioctl_req->req_id = MLAN_IOCTL_PM_CFG; header_len = strlen(PRIV_CMD_MGMT_FILTER) + strlen(CMD_NXP); if ((int)strlen(respbuf) == header_len) { /* GET operation */ action = MLAN_ACT_GET; } else { /* SET operation */ argument = (t_u8 *)(respbuf + header_len); data_len = respbuflen - header_len; if (data_len > (int)(MAX_MGMT_FRAME_FILTER * sizeof(mlan_mgmt_frame_wakeup))) { PRINTM(MERROR, "%d: Invalid arguments\n", __LINE__); ret = -EINVAL; goto done; } moal_memcpy_ext(priv->phandle, (t_u8 *)pm_cfg->param.mgmt_filter, argument, data_len, sizeof(pm_cfg->param.mgmt_filter)); action = MLAN_ACT_SET; } ioctl_req->action = action; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } #define PARAMETER_GPIO_INDICATION 1 #define PARAMETER_EXTEND_HSCFG 2 #define PARAMETER_HS_WAKEUP_INTERVAL 3 #define PARAMETER_MIN_WAKE_HOLDOFF 4 /** * @brief Set/Get Host Sleep configuration * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * @param invoke_hostcmd MTRUE --invoke HostCmd, otherwise MFALSE * * @return 0 --success, otherwise fail */ static int woal_priv_hscfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen, BOOLEAN invoke_hostcmd) { int data[15] = {0}; int *temp_data, type; int user_data_len = 0; int ret = 0; mlan_ds_hs_cfg hscfg, hscfg_temp; t_u16 action; mlan_bss_info bss_info; int is_negative = MFALSE; t_u8 *arguments = NULL; ENTER(); memset(data, 0, sizeof(data)); memset(&hscfg, 0, sizeof(mlan_ds_hs_cfg)); memset(&hscfg_temp, 0, sizeof(mlan_ds_hs_cfg)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_HSCFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); arguments = respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_HSCFG); if (*arguments == '-') { is_negative = MTRUE; arguments += 1; } parse_arguments(arguments, data, ARRAY_SIZE(data), &user_data_len); if (is_negative == MTRUE) { if (data[0] == 1) { data[0] = -1; } else { PRINTM(MERROR, "Invalid arguments\n"); ret = -EINVAL; goto done; } } } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); LEAVE(); return -EINVAL; } if (user_data_len == 0) { action = MLAN_ACT_GET; } else { if (user_data_len >= 1 && user_data_len <= 15) { action = MLAN_ACT_SET; } else { PRINTM(MERROR, "Invalid arguments\n"); ret = -EINVAL; goto done; } } /* HS config is blocked if HS is already activated */ if (user_data_len && (data[0] != (int)HOST_SLEEP_CFG_CANCEL || invoke_hostcmd == MFALSE)) { memset(&bss_info, 0, sizeof(bss_info)); woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info); if (bss_info.is_hs_configured) { PRINTM(MERROR, "HS already configured\n"); ret = -EFAULT; goto done; } } /* Do a GET first if some arguments are not provided */ if (user_data_len >= 1 && user_data_len < 11) { woal_set_get_hs_params(priv, MLAN_ACT_GET, MOAL_IOCTL_WAIT, &hscfg_temp); } hscfg.conditions = hscfg_temp.conditions; hscfg.gpio = hscfg_temp.gpio; hscfg.gap = hscfg_temp.gap; if (user_data_len) hscfg.conditions = data[0]; if (user_data_len >= 2) hscfg.gpio = data[1]; if (user_data_len >= 3) hscfg.gap = data[2]; user_data_len = user_data_len - 3; if (user_data_len > 0) { temp_data = data + 3; while ((user_data_len > 0) && temp_data) { type = *temp_data; switch (type) { case PARAMETER_GPIO_INDICATION: if (user_data_len >= 2) hscfg.ind_gpio = *(++temp_data); else { PRINTM(MERROR, "Invaild number of parameters\n"); ret = -EINVAL; goto done; } if (user_data_len >= 3) { hscfg.level = *(++temp_data); if (hscfg.level != 0 && hscfg.level != 1) { PRINTM(MERROR, "Invalid indication gpio arguments\n"); ret = -EINVAL; goto done; } } hscfg.param_type_ind = type; user_data_len = user_data_len - 3; temp_data++; break; case PARAMETER_EXTEND_HSCFG: if (user_data_len >= 4) { hscfg.event_force_ignore = *(++temp_data); hscfg.event_use_ext_gap = *(++temp_data); hscfg.ext_gap = *(++temp_data); hscfg.gpio_wave = *(++temp_data); } else { PRINTM(MERROR, "Invaild number of parameters\n"); ret = -EINVAL; goto done; } /* Force_ignore_gpio and ext_gap_gpio should not * set the same bit(s)*/ if ((hscfg.event_force_ignore & hscfg.event_use_ext_gap) || (hscfg.gpio_wave != 1 && hscfg.gpio_wave != 0)) { PRINTM(MERROR, "Invalid arguments for extend hscfg\n"); ret = -EINVAL; goto done; } hscfg.param_type_ext = type; user_data_len = user_data_len - 5; temp_data++; break; case PARAMETER_HS_WAKEUP_INTERVAL: if (user_data_len >= 2) hscfg.hs_wake_interval = *(++temp_data); else { PRINTM(MERROR, "Invaild number of parameters\n"); ret = -EINVAL; goto done; } user_data_len = user_data_len - 2; temp_data++; break; case PARAMETER_MIN_WAKE_HOLDOFF: if (user_data_len >= 2) hscfg.min_wake_holdoff = *(++temp_data); else { PRINTM(MERROR, "Invaild number of parameters\n"); ret = -EINVAL; goto done; } user_data_len = user_data_len - 2; temp_data++; break; default: PRINTM(MERROR, "Unsupported type\n"); ret = -EINVAL; goto done; } } } if ((invoke_hostcmd == MTRUE) && (action == MLAN_ACT_SET)) { /* Need to issue an extra IOCTL first to set up parameters */ hscfg.is_invoke_hostcmd = MFALSE; if (MLAN_STATUS_SUCCESS != woal_set_get_hs_params(priv, MLAN_ACT_SET, MOAL_IOCTL_WAIT, &hscfg)) { ret = -EFAULT; goto done; } } hscfg.is_invoke_hostcmd = invoke_hostcmd; if (MLAN_STATUS_SUCCESS != woal_set_get_hs_params(priv, action, MOAL_IOCTL_WAIT, &hscfg)) { ret = -EFAULT; goto done; } if (action == MLAN_ACT_GET) { /* Return the current driver host sleep configurations */ moal_memcpy_ext(priv->phandle, respbuf, &hscfg, sizeof(mlan_ds_hs_cfg), respbuflen); ret = sizeof(mlan_ds_hs_cfg); } done: LEAVE(); return ret; } /** * @brief Process Set Host Sleep parameters from proc buffer * * @param handle A pointer to moal_handle structure * @param pbuf A pointer to buffer for host sleep parameters * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ int woal_process_proc_hssetpara(moal_handle *handle, t_u8 *buf) { int data[15] = {0}; int user_data_len = 0; int ret = 0; t_u8 respbuf[500]; moal_private *priv = woal_get_priv(handle, MLAN_BSS_ROLE_ANY); ENTER(); if (!priv) { LEAVE(); return ret; } memset((char *)data, 0, sizeof(data)); parse_arguments(buf, data, ARRAY_SIZE(data), &user_data_len); if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); LEAVE(); return -EINVAL; } if (user_data_len >= 1 && user_data_len <= 15) { sprintf(respbuf, "%s%s%s", CMD_NXP, PRIV_CMD_HSCFG, buf); ret = woal_priv_hscfg(priv, respbuf, sizeof(respbuf), MFALSE); } LEAVE(); return ret; } /** * @brief Set Host Sleep parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_hssetpara(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[15] = {0}; int user_data_len = 0; int ret = 0; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_HSSETPARA))) { PRINTM(MERROR, "Invalid arguments\n"); ret = -EINVAL; goto done; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_HSSETPARA), data, ARRAY_SIZE(data), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); LEAVE(); return -EINVAL; } if (user_data_len >= 1 && user_data_len <= 15) { sprintf(respbuf, "%s%s%s", CMD_NXP, PRIV_CMD_HSCFG, respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_HSSETPARA))); respbuflen = strlen(respbuf); ret = woal_priv_hscfg(priv, respbuf, respbuflen, MFALSE); goto done; } done: LEAVE(); return ret; } /** * @brief Set/Get scan configuration parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_set_get_scancfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0; int data[9]; mlan_ds_scan *scan = NULL; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset(data, 0, sizeof(data)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_SCANCFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_SCANCFG), data, ARRAY_SIZE(data), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); LEAVE(); return -EINVAL; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_scan)); if (req == NULL) { ret = -ENOMEM; goto done; } scan = (mlan_ds_scan *)req->pbuf; scan->sub_command = MLAN_OID_SCAN_CONFIG; req->req_id = MLAN_IOCTL_SCAN; if (user_data_len) { moal_memcpy_ext(priv->phandle, &scan->param.scan_cfg, data, sizeof(data), sizeof(scan->param.scan_cfg)); if (scan->param.scan_cfg.scan_type > MLAN_SCAN_TYPE_PASSIVE) { PRINTM(MERROR, "Invalid argument for scan type\n"); ret = -EINVAL; goto done; } if (scan->param.scan_cfg.scan_mode > MLAN_SCAN_MODE_ANY) { PRINTM(MERROR, "Invalid argument for scan mode\n"); ret = -EINVAL; goto done; } if (scan->param.scan_cfg.scan_probe > MAX_PROBES) { PRINTM(MERROR, "Invalid argument for scan probes\n"); ret = -EINVAL; goto done; } if ((scan->param.scan_cfg.scan_time.specific_scan_time > MRVDRV_MAX_ACTIVE_SCAN_CHAN_TIME) || (scan->param.scan_cfg.scan_time.active_scan_time > MRVDRV_MAX_ACTIVE_SCAN_CHAN_TIME) || (scan->param.scan_cfg.scan_time.passive_scan_time > MRVDRV_MAX_PASSIVE_SCAN_CHAN_TIME)) { PRINTM(MERROR, "Invalid argument for scan time\n"); ret = -EINVAL; goto done; } if (scan->param.scan_cfg.passive_to_active_scan > MLAN_PASS_TO_ACT_SCAN_DIS) { PRINTM(MERROR, "Invalid argument for Passive to Active Scan\n"); ret = -EINVAL; goto done; } if (scan->param.scan_cfg.ext_scan > MLAN_EXT_SCAN_ENH) { PRINTM(MERROR, "Invalid argument for extended scan\n"); ret = -EINVAL; goto done; } if (scan->param.scan_cfg.scan_chan_gap > MRVDRV_MAX_SCAN_CHAN_GAP_TIME) { PRINTM(MERROR, "Invalid argument for scan channel gap\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; moal_memcpy_ext(priv->phandle, &scan->param.scan_cfg, data, sizeof(data), sizeof(scan->param.scan_cfg)); } else req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &scan->param.scan_cfg, sizeof(mlan_scan_cfg), respbuflen); ret = sizeof(mlan_scan_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get Netlink Number * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_getnlnum(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null in %s\n", __FUNCTION__); ret = -EFAULT; goto done; } data = priv->phandle->netlink_num; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); done: LEAVE(); return ret; } /** * @brief Set / Get packet aggregation control * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_aggrctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[1]; int user_data_len = 0; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *pcfg_misc = NULL; moal_handle *handle = priv->phandle; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!handle || !handle->card) { PRINTM(MERROR, "Handle or card is null\n"); ret = -EFAULT; goto done; } memset((char *)data, 0, sizeof(data)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_AGGRCTRL))) { /* GET operation */ user_data_len = 0; } else { if (woal_is_any_interface_active(priv->phandle)) { PRINTM(MERROR, "aggrctrl are not allowed to change after BSS active!\n"); ret = -EFAULT; goto done; } /* SET operation */ parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_AGGRCTRL), data, ARRAY_SIZE(data), &user_data_len); if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ pcfg_misc = (mlan_ds_misc_cfg *)req->pbuf; pcfg_misc->sub_command = MLAN_OID_MISC_AGGR_CTRL; req->req_id = MLAN_IOCTL_MISC_CFG; /* Get the values first, then modify these values if user had modified * them */ if (user_data_len == 0) req->action = MLAN_ACT_GET; else { req->action = MLAN_ACT_SET; pcfg_misc->param.aggr_params.tx.enable = (t_u16)data[0]; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { /* MLAN will return CMD_INVALID if FW does not support this * feature */ if (MLAN_ERROR_CMD_INVALID == req->status_code) ret = -EOPNOTSUPP; else ret = -EFAULT; goto done; } moal_memcpy_ext(handle, respbuf, (t_u8 *)&pcfg_misc->param.aggr_params, sizeof(mlan_ds_misc_aggr_ctrl), respbuflen); ret = sizeof(mlan_ds_misc_aggr_ctrl); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef USB /** * @brief Set / Get USB packet aggregation control * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_usbaggrctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[8]; int user_data_len = 0; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *pcfg_misc = NULL; moal_handle *handle = priv->phandle; struct usb_card_rec *cardp = NULL; int i = 0, usb_resubmit_urbs = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!handle || !handle->card) { PRINTM(MERROR, "Handle or card is null\n"); ret = -EFAULT; goto done; } cardp = (struct usb_card_rec *)handle->card; memset((char *)data, 0, sizeof(data)); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_USBAGGRCTRL))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_USBAGGRCTRL), data, ARRAY_SIZE(data), &user_data_len); if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ pcfg_misc = (mlan_ds_misc_cfg *)req->pbuf; pcfg_misc->sub_command = MLAN_OID_MISC_USB_AGGR_CTRL; req->req_id = MLAN_IOCTL_MISC_CFG; /* Get the values first, then modify these values if user had modified * them */ req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { /* MLAN will return CMD_INVALID if FW does not support this * feature */ if (MLAN_ERROR_CMD_INVALID == req->status_code) ret = -EOPNOTSUPP; else ret = -EFAULT; goto done; } if (user_data_len == 0) { moal_memcpy_ext(handle, respbuf, (t_u8 *)&pcfg_misc->param.usb_aggr_params, sizeof(mlan_ds_misc_usb_aggr_ctrl), respbuflen); ret = sizeof(mlan_ds_misc_usb_aggr_ctrl); goto done; } switch (user_data_len) { case 8: if (data[7] < 0) { PRINTM(MERROR, "Invalid Rx timeout value (%d)\n", data[7]); ret = -EINVAL; goto done; } pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.aggr_tmo = (t_u16)data[7]; /* fall through */ case 7: if (data[6] < 0 || (data[6] > 10000 && data[6] != MLAN_USB_TX_AGGR_TIMEOUT_DYN)) { PRINTM(MERROR, "Invalid Tx timeout value (%d)\n", data[6]); ret = -EINVAL; goto done; } pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.aggr_tmo = (t_u16)data[6]; /* fall through */ case 6: if ((data[5] < 512) || ((data[5] % 512) != 0)) { PRINTM(MERROR, "Invalid Rx alignment value (%d)\n", data[5]); ret = -EINVAL; goto done; } if (cardp->rx_deaggr_ctrl.enable && pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.aggr_align != (t_u16)data[5]) usb_resubmit_urbs = 1; pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.aggr_align = (t_u16)data[5]; /* fall through */ case 5: if ((data[4] < 2048) || ((data[4] % 2048) != 0)) { PRINTM(MERROR, "Invalid Tx alignment value (%d)\n", data[4]); ret = -EINVAL; goto done; } pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.aggr_align = (t_u16)data[4]; /* fall through */ case 4: if ((data[3] == 2) || (data[3] == 4) || (data[3] == 8) || (data[3] == 16)) { pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl .aggr_mode = MLAN_USB_AGGR_MODE_NUM; } else if ((data[3] == 4096) || (data[3] == 8192) || (data[3] == 16384) || (data[3] == 32768)) { pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl .aggr_mode = MLAN_USB_AGGR_MODE_LEN; } else { PRINTM(MERROR, "Invalid Rx max size/num value (%d)\n", data[3]); ret = -EINVAL; goto done; } if (cardp->rx_deaggr_ctrl.enable && pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.aggr_max != (t_u16)data[3]) usb_resubmit_urbs = 1; pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.aggr_max = (t_u16)data[3]; /* fall through */ case 3: if ((data[2] == 2) || (data[2] == 4) || (data[2] == 8) || (data[2] == 16)) { pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.aggr_mode = MLAN_USB_AGGR_MODE_NUM; } else if ((data[2] == 4096) || (data[2] == 8192) || (data[2] == 16384) || (data[2] == 32768)) { pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.aggr_mode = MLAN_USB_AGGR_MODE_LEN; } else { PRINTM(MERROR, "Invalid Tx max size/num value (%d)\n", data[2]); ret = -EINVAL; goto done; } pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.aggr_max = (t_u16)data[2]; /* fall through */ case 2: if ((data[1] != 0) && (data[1] != 1)) { PRINTM(MERROR, "Invalid Rx enable value (%d)\n", data[1]); ret = -EINVAL; goto done; } if (pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.enable != (t_u16)data[1]) usb_resubmit_urbs = 1; pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl.enable = (t_u16)data[1]; /* fall through */ case 1: if ((data[0] != 0) && (data[0] != 1)) { PRINTM(MERROR, "Invalid Tx enable value (%d)\n", data[0]); ret = -EINVAL; goto done; } pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl.enable = (t_u16)data[0]; default: break; } pcfg_misc->sub_command = MLAN_OID_MISC_USB_AGGR_CTRL; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_SET; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(handle, respbuf, (t_u8 *)&pcfg_misc->param.usb_aggr_params, sizeof(mlan_ds_misc_usb_aggr_ctrl), respbuflen); ret = sizeof(mlan_ds_misc_usb_aggr_ctrl); /* Keep a copy of the latest Tx aggregation parameters in MOAL */ moal_memcpy_ext(handle, &cardp->tx_aggr_ctrl, &pcfg_misc->param.usb_aggr_params.tx_aggr_ctrl, sizeof(usb_aggr_ctrl_cfg), sizeof(usb_aggr_ctrl_cfg)); if (usb_resubmit_urbs) { /* Indicate resubmition from here */ cardp->resubmit_urbs = 1; /* Rx SG parameters has changed or disabled, kill the URBs, they will be resubmitted after saving the parameters to USB card */ if (atomic_read(&cardp->rx_data_urb_pending)) { for (i = 0; i < MVUSB_RX_DATA_URB; i++) { if (cardp->rx_data_list[i].urb) { usb_kill_urb( cardp->rx_data_list[i].urb); usb_init_urb( cardp->rx_data_list[i].urb); } } } } /* Keep a copy of the latest Rx deaggregation parameters in MOAL */ moal_memcpy_ext(handle, &cardp->rx_deaggr_ctrl, &pcfg_misc->param.usb_aggr_params.rx_deaggr_ctrl, sizeof(usb_aggr_ctrl_cfg), sizeof(usb_aggr_ctrl_cfg)); if (usb_resubmit_urbs) { /* Ensure the next data URBs will use the modified parameters */ if (!atomic_read(&cardp->rx_data_urb_pending)) { /* Submit multiple Rx data URBs */ woal_usb_submit_rx_data_urbs(handle); } cardp->resubmit_urbs = 0; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif #ifdef STA_SUPPORT /** * @brief Set AP settings * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful, otherwise fail */ static int woal_priv_set_ap(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; t_u8 *data_ptr; const t_u8 bcast[MLAN_MAC_ADDR_LENGTH] = {255, 255, 255, 255, 255, 255}; const t_u8 zero_mac[MLAN_MAC_ADDR_LENGTH] = {0, 0, 0, 0, 0, 0}; mlan_ssid_bssid ssid_bssid; mlan_bss_info bss_info; struct mwreq *mwr; struct sockaddr *awrq; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_SET_AP)); mwr = (struct mwreq *)data_ptr; if (mwr->u.ap_addr.sa_family != ARPHRD_ETHER) { ret = -EINVAL; goto done; } awrq = (struct sockaddr *)&(mwr->u.ap_addr); PRINTM(MINFO, "ASSOC: WAP: sa_data: " MACSTR "\n", MAC2STR((t_u8 *)awrq->sa_data)); if (MLAN_STATUS_SUCCESS != woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info)) { ret = -EFAULT; goto done; } #ifdef REASSOCIATION /* Cancel re-association */ priv->reassoc_required = MFALSE; #endif /* zero_mac means disconnect */ if (!memcmp(zero_mac, awrq->sa_data, MLAN_MAC_ADDR_LENGTH)) { woal_disconnect(priv, MOAL_IOCTL_WAIT, NULL, DEF_DEAUTH_REASON_CODE); goto done; } /* Broadcast MAC means search for best network */ memset(&ssid_bssid, 0, sizeof(mlan_ssid_bssid)); if (memcmp(bcast, awrq->sa_data, MLAN_MAC_ADDR_LENGTH)) { /* Check if we are already assoicated to the AP */ if (bss_info.media_connected == MTRUE) { if (!memcmp(awrq->sa_data, &bss_info.bssid, ETH_ALEN)) goto done; } moal_memcpy_ext(priv->phandle, &ssid_bssid.bssid, awrq->sa_data, ETH_ALEN, sizeof(mlan_802_11_mac_addr)); } if (MLAN_STATUS_SUCCESS != woal_find_best_network(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) { PRINTM(MERROR, "ASSOC: WAP: MAC address not found in BSSID List\n"); ret = -ENETUNREACH; goto done; } /* Zero SSID implies use BSSID to connect */ memset(&ssid_bssid.ssid, 0, sizeof(mlan_802_11_ssid)); if (MLAN_STATUS_SUCCESS != woal_bss_start(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) { ret = -EFAULT; goto done; } #ifdef REASSOCIATION memset(&bss_info, 0, sizeof(bss_info)); if (MLAN_STATUS_SUCCESS != woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info)) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, &priv->prev_ssid_bssid.ssid, &bss_info.ssid, sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); moal_memcpy_ext(priv->phandle, &priv->prev_ssid_bssid.bssid, &bss_info.bssid, MLAN_MAC_ADDR_LENGTH, sizeof(mlan_802_11_mac_addr)); #endif /* REASSOCIATION */ done: LEAVE(); return ret; } #endif /** * @brief Set BSS mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful, otherwise fail */ static int woal_priv_set_bss_mode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_bss *bss = NULL; mlan_ioctl_req *req = NULL; struct mwreq *mwr; t_u8 *data_ptr; t_u32 mode; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_SET_BSS_MODE)); mwr = (struct mwreq *)data_ptr; mode = mwr->u.mode; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (req == NULL) { ret = -ENOMEM; goto done; } bss = (mlan_ds_bss *)req->pbuf; bss->sub_command = MLAN_OID_BSS_MODE; req->req_id = MLAN_IOCTL_BSS; req->action = MLAN_ACT_SET; switch (mode) { case MW_MODE_INFRA: bss->param.bss_mode = MLAN_BSS_MODE_INFRA; break; case MW_MODE_ADHOC: bss->param.bss_mode = MLAN_BSS_MODE_IBSS; break; case MW_MODE_AUTO: bss->param.bss_mode = MLAN_BSS_MODE_AUTO; break; default: ret = -EINVAL; break; } if (ret) goto done; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef STA_SUPPORT /** * @brief Set power management * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful, otherwise fail */ static int woal_priv_set_power(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { struct mwreq *mwr; t_u8 *data_ptr; int ret = 0, disabled; ENTER(); if (moal_extflg_isset(priv->phandle, EXT_HW_TEST)) { PRINTM(MIOCTL, "block set power in hw_test mode\n"); LEAVE(); return ret; } data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_SET_POWER)); mwr = (struct mwreq *)data_ptr; disabled = mwr->u.power.disabled; if (MLAN_STATUS_SUCCESS != woal_set_get_power_mgmt(priv, MLAN_ACT_SET, &disabled, mwr->u.power.flags, MOAL_IOCTL_WAIT)) { return -EFAULT; } LEAVE(); return ret; } /** * @brief Set essid * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful, otherwise fail */ static int woal_priv_set_essid(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_802_11_ssid req_ssid; mlan_ssid_bssid ssid_bssid; moal_handle *handle = priv->phandle; #ifdef REASSOCIATION mlan_bss_info bss_info; #endif int ret = 0; t_u32 mode = 0; struct mwreq *mwr; t_u8 *data_ptr; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_SET_ESSID)); mwr = (struct mwreq *)data_ptr; #ifdef REASSOCIATION /* Cancel re-association */ priv->reassoc_required = MFALSE; if (MOAL_ACQ_SEMAPHORE_BLOCK(&handle->reassoc_sem)) { PRINTM(MERROR, "Acquire semaphore error, woal_set_essid\n"); LEAVE(); return -EBUSY; } #endif /* REASSOCIATION */ /* Check the size of the string */ if (mwr->u.essid.length > MW_ESSID_MAX_SIZE - 1) { ret = -E2BIG; goto setessid_ret; } if (priv->scan_type == MLAN_SCAN_TYPE_PASSIVE) woal_set_scan_type(priv, MLAN_SCAN_TYPE_ACTIVE); memset(&req_ssid, 0, sizeof(mlan_802_11_ssid)); memset(&ssid_bssid, 0, sizeof(mlan_ssid_bssid)); req_ssid.ssid_len = mwr->u.essid.length; /* Check if we asked for 'any' or 'particular' */ if (!mwr->u.essid.flags) { #ifdef REASSOCIATION if (!req_ssid.ssid_len) { memset(&priv->prev_ssid_bssid.ssid, 0x00, sizeof(mlan_802_11_ssid)); memset(&priv->prev_ssid_bssid.bssid, 0x00, MLAN_MAC_ADDR_LENGTH); goto setessid_ret; } #endif /* Do normal SSID scanning */ if (MLAN_STATUS_SUCCESS != woal_request_scan(priv, MOAL_IOCTL_WAIT, NULL)) { ret = -EFAULT; goto setessid_ret; } } else { /* Set the SSID */ moal_memcpy_ext(handle, req_ssid.ssid, mwr->u.essid.pointer, req_ssid.ssid_len, MLAN_MAX_SSID_LENGTH); if (!req_ssid.ssid_len || (MFALSE == woal_ssid_valid(&req_ssid))) { PRINTM(MERROR, "Invalid SSID - aborting set_essid\n"); ret = -EINVAL; goto setessid_ret; } PRINTM(MINFO, "Requested new SSID = %s\n", (char *)req_ssid.ssid); moal_memcpy_ext(handle, &ssid_bssid.ssid, &req_ssid, sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); if (MTRUE == woal_is_connected(priv, &ssid_bssid)) { PRINTM(MIOCTL, "Already connect to the network\n"); goto setessid_ret; } priv->auto_assoc_priv.drv_assoc.status = MFALSE; priv->auto_assoc_priv.drv_reconnect.status = MFALSE; #ifdef REASSOCIATION if (priv->reassoc_on == MTRUE) { if (priv->auto_assoc_priv.auto_assoc_type_on & (0x1 << (AUTO_ASSOC_TYPE_DRV_ASSOC - 1))) { if (priv->scan_type == MLAN_SCAN_TYPE_PASSIVE) woal_set_scan_type( priv, MLAN_SCAN_TYPE_PASSIVE); MOAL_REL_SEMAPHORE(&handle->reassoc_sem); moal_memcpy_ext(handle, &priv->prev_ssid_bssid.ssid, &req_ssid, sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); priv->auto_assoc_priv.auto_assoc_trigger_flag = AUTO_ASSOC_TYPE_DRV_ASSOC; priv->auto_assoc_priv.drv_assoc.status = MTRUE; priv->reassoc_required = MTRUE; priv->phandle->is_reassoc_timer_set = MTRUE; PRINTM(MINFO, " auto assoc: trigger driver auto re-assoc\n"); woal_mod_timer(&priv->phandle->reassoc_timer, 0); ret = MLAN_STATUS_SUCCESS; LEAVE(); return ret; } } #endif if (mwr->u.essid.flags != 0xFFFF) { if (MLAN_STATUS_SUCCESS != woal_find_essid(priv, &ssid_bssid, MOAL_IOCTL_WAIT)) { /* Do specific SSID scanning */ if (MLAN_STATUS_SUCCESS != woal_request_scan(priv, MOAL_IOCTL_WAIT, &req_ssid)) { ret = -EFAULT; goto setessid_ret; } } } } mode = woal_get_mode(priv, MOAL_IOCTL_WAIT); if (mode != MW_MODE_ADHOC) { if (MLAN_STATUS_SUCCESS != woal_find_best_network(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) { ret = -EFAULT; goto setessid_ret; } } #ifdef UAP_SUPPORT else if (MLAN_STATUS_SUCCESS != woal_find_best_network(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) /* Adhoc start, Check the channel command */ woal_11h_channel_check_ioctl(priv, MOAL_IOCTL_WAIT); #endif /* Connect to BSS by ESSID */ memset(&ssid_bssid.bssid, 0, MLAN_MAC_ADDR_LENGTH); if (MLAN_STATUS_SUCCESS != woal_bss_start(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) { ret = -EFAULT; goto setessid_ret; } #ifdef REASSOCIATION memset(&bss_info, 0, sizeof(bss_info)); if (MLAN_STATUS_SUCCESS != woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info)) { ret = -EFAULT; goto setessid_ret; } moal_memcpy_ext(handle, &priv->prev_ssid_bssid.ssid, &bss_info.ssid, sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); moal_memcpy_ext(handle, &priv->prev_ssid_bssid.bssid, &bss_info.bssid, MLAN_MAC_ADDR_LENGTH, sizeof(mlan_802_11_mac_addr)); #endif /* REASSOCIATION */ setessid_ret: if (priv->scan_type == MLAN_SCAN_TYPE_PASSIVE) woal_set_scan_type(priv, MLAN_SCAN_TYPE_PASSIVE); #ifdef REASSOCIATION MOAL_REL_SEMAPHORE(&handle->reassoc_sem); #endif LEAVE(); return ret; } /** * @brief Set authentication mode parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful, otherwise fail */ static int woal_priv_set_auth(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { struct mwreq *mwr; t_u8 *data_ptr; int ret = 0; t_u32 auth_mode = 0; t_u32 encrypt_mode = 0; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_SET_AUTH)); mwr = (struct mwreq *)data_ptr; switch (mwr->u.param.flags & MW_AUTH_INDEX) { case MW_AUTH_CIPHER_PAIRWISE: case MW_AUTH_CIPHER_GROUP: if (mwr->u.param.value & MW_AUTH_CIPHER_NONE) encrypt_mode = MLAN_ENCRYPTION_MODE_NONE; else if (mwr->u.param.value & MW_AUTH_CIPHER_WEP40) encrypt_mode = MLAN_ENCRYPTION_MODE_WEP40; else if (mwr->u.param.value & MW_AUTH_CIPHER_WEP104) encrypt_mode = MLAN_ENCRYPTION_MODE_WEP104; else if (mwr->u.param.value & MW_AUTH_CIPHER_TKIP) encrypt_mode = MLAN_ENCRYPTION_MODE_TKIP; else if (mwr->u.param.value & MW_AUTH_CIPHER_CCMP) encrypt_mode = MLAN_ENCRYPTION_MODE_CCMP; if (MLAN_STATUS_SUCCESS != woal_set_encrypt_mode(priv, MOAL_IOCTL_WAIT, encrypt_mode)) ret = -EFAULT; break; case MW_AUTH_80211_AUTH_ALG: switch (mwr->u.param.value) { case MW_AUTH_ALG_SHARED_KEY: PRINTM(MINFO, "Auth mode shared key!\n"); auth_mode = MLAN_AUTH_MODE_SHARED; break; case MW_AUTH_ALG_LEAP: PRINTM(MINFO, "Auth mode LEAP!\n"); auth_mode = MLAN_AUTH_MODE_NETWORKEAP; break; case MW_AUTH_ALG_OPEN_SYSTEM: PRINTM(MINFO, "Auth mode open!\n"); auth_mode = MLAN_AUTH_MODE_OPEN; break; case MW_AUTH_ALG_SHARED_KEY | MW_AUTH_ALG_OPEN_SYSTEM: default: PRINTM(MINFO, "Auth mode auto!\n"); auth_mode = MLAN_AUTH_MODE_AUTO; break; } if (MLAN_STATUS_SUCCESS != woal_set_auth_mode(priv, MOAL_IOCTL_WAIT, auth_mode)) ret = -EFAULT; break; case MW_AUTH_WPA_ENABLED: if (MLAN_STATUS_SUCCESS != woal_set_wpa_enable(priv, MOAL_IOCTL_WAIT, mwr->u.param.value)) ret = -EFAULT; break; #define MW_AUTH_WAPI_ENABLED 0x20 case MW_AUTH_WAPI_ENABLED: if (MLAN_STATUS_SUCCESS != woal_set_wapi_enable(priv, MOAL_IOCTL_WAIT, mwr->u.param.value)) ret = -EFAULT; break; case MW_AUTH_WPA_VERSION: /* set WPA_VERSION_DISABLED/VERSION_WPA/VERSION_WP2 */ priv->wpa_version = mwr->u.param.value; break; case MW_AUTH_KEY_MGMT: /* set KEY_MGMT_802_1X/KEY_MGMT_PSK */ priv->key_mgmt = mwr->u.param.value; break; case MW_AUTH_TKIP_COUNTERMEASURES: case MW_AUTH_DROP_UNENCRYPTED: case MW_AUTH_RX_UNENCRYPTED_EAPOL: case MW_AUTH_ROAMING_CONTROL: case MW_AUTH_PRIVACY_INVOKED: break; default: ret = -EOPNOTSUPP; break; } LEAVE(); return ret; } /** * @brief Get current BSSID * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_get_ap(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { struct mwreq *mwr; t_u8 *data_ptr; int ret = 0; mlan_bss_info bss_info; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_GET_AP)); mwr = (struct mwreq *)data_ptr; memset(&bss_info, 0, sizeof(bss_info)); ret = woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info); if (ret != MLAN_STATUS_SUCCESS) return -EFAULT; if (bss_info.media_connected == MTRUE) { moal_memcpy_ext(priv->phandle, mwr->u.ap_addr.sa_data, &bss_info.bssid, MLAN_MAC_ADDR_LENGTH, sizeof(mwr->u.ap_addr.sa_data)); } else { memset(mwr->u.ap_addr.sa_data, 0, MLAN_MAC_ADDR_LENGTH); } mwr->u.ap_addr.sa_family = ARPHRD_ETHER; ret = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_AP) + sizeof(struct mwreq); LEAVE(); return ret; } /** * @brief Get power management * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_get_power(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { struct mwreq *mwr; t_u8 *data_ptr; int ret = 0, ps_mode; ENTER(); data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_GET_POWER)); mwr = (struct mwreq *)data_ptr; if (MLAN_STATUS_SUCCESS != woal_set_get_power_mgmt(priv, MLAN_ACT_GET, &ps_mode, 0, MOAL_IOCTL_WAIT)) { return -EFAULT; } if (ps_mode) mwr->u.power.disabled = 0; else mwr->u.power.disabled = 1; mwr->u.power.value = 0; ret = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_POWER) + sizeof(struct mwreq); LEAVE(); return ret; } /** * @brief Set/Get power save mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_set_get_psmode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data = 0; int user_data_len = 0, header_len = 0; t_u32 action = MLAN_ACT_GET; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PSMODE); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); action = MLAN_ACT_SET; } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data != 0 && data != 1) { PRINTM(MERROR, "Invalid psmode=%d\n", data); ret = -EINVAL; goto done; } /* Flip the value */ data = !data; if (MLAN_STATUS_SUCCESS != woal_set_get_power_mgmt(priv, action, &data, 0, MOAL_IOCTL_WAIT)) { ret = -EFAULT; goto done; } if (action == MLAN_ACT_SET) data = !data; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); done: LEAVE(); return ret; } #endif /* STA_SUPPORT */ /** * @brief Performs warm reset * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_warmreset(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; moal_handle *handle = priv->phandle; moal_handle *ref_handle; moal_private *ref_priv; ENTER(); ret = woal_pre_warmreset(priv); if (ret) goto done; ref_handle = (moal_handle *)handle->pref_mac; if (ref_handle) { ref_priv = woal_get_priv(ref_handle, MLAN_BSS_ROLE_ANY); if (ref_priv) { ret = woal_pre_warmreset(ref_priv); if (ret) goto done; ret = woal_warmreset(ref_priv); if (ret) goto done; } } ret = woal_warmreset(priv); done: LEAVE(); return ret; } /** * @brief Set/Get TX power configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_txpowercfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[5]; int user_data_len; int ret = 0; mlan_bss_info bss_info; mlan_ds_power_cfg *pcfg = NULL; mlan_ioctl_req *req = NULL; t_u8 *arguments = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset(data, 0, sizeof(data)); memset(&bss_info, 0, sizeof(bss_info)); woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_TXPOWERCFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ arguments = respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_TXPOWERCFG); parse_arguments(arguments, data, ARRAY_SIZE(data), &user_data_len); } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_power_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pcfg = (mlan_ds_power_cfg *)req->pbuf; pcfg->sub_command = MLAN_OID_POWER_CFG_EXT; req->req_id = MLAN_IOCTL_POWER_CFG; if (!user_data_len) req->action = MLAN_ACT_GET; else { /* SET operation */ req->action = MLAN_ACT_SET; if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } switch (user_data_len) { case 1: if (data[0] == 0xFF) pcfg->param.power_ext.power_group[0] .rate_format = TX_PWR_CFG_AUTO_CTRL_OFF; else ret = -EINVAL; break; case 3: case 5: switch (data[0]) { case 0: /* LG */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_LG; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW20; break; case 1: /* 20 MHz HT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_HT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW20; break; case 2: /* 40 MHz HT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_HT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW40; break; case 3: /* 1 NSS 20 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW20; pcfg->param.power_ext.power_group[0].nss = 1; break; case 4: /* 2 NSS 20 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW20; pcfg->param.power_ext.power_group[0].nss = 2; break; case 5: /* 1 NSS 40 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW40; pcfg->param.power_ext.power_group[0].nss = 1; break; case 6: /* 2 NSS 40 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_HT_BW40; pcfg->param.power_ext.power_group[0].nss = 2; break; case 7: /* 1 NSS 80 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_VHT_BW80; pcfg->param.power_ext.power_group[0].nss = 1; break; case 8: /* 2 NSS 80 MHZ VHT */ pcfg->param.power_ext.power_group[0] .rate_format = MLAN_RATE_FORMAT_VHT; pcfg->param.power_ext.power_group[0].bandwidth = MLAN_VHT_BW80; pcfg->param.power_ext.power_group[0].nss = 2; break; default: ret = -EINVAL; break; } pcfg->param.power_ext.power_group[0].first_rate_ind = data[1]; pcfg->param.power_ext.power_group[0].last_rate_ind = data[1]; if (data[2] < bss_info.min_power_level) { PRINTM(MERROR, "The set powercfg rate value %d dBm is out of range (%d dBm-%d dBm)!\n", data[2], (int)bss_info.min_power_level, (int)bss_info.max_power_level); ret = -EINVAL; break; } if (data[2] > bss_info.max_power_level) { PRINTM(MERROR, "The set powercfg rate value %d dBm is out of range (%d dBm-%d dBm)!\n", data[2], (int)bss_info.min_power_level, (int)bss_info.max_power_level); ret = -EINVAL; break; } pcfg->param.power_ext.power_group[0].power_min = data[2]; pcfg->param.power_ext.power_group[0].power_max = data[2]; pcfg->param.power_ext.power_group[0].power_step = 0; pcfg->param.power_ext.num_pwr_grp = 1; break; default: ret = -EINVAL; break; } if (ret) goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { /* GET operation */ moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&pcfg->param.power_ext, sizeof(pcfg->param.power_ext.num_pwr_grp) + (MIN(pcfg->param.power_ext.num_pwr_grp, MAX_POWER_GROUP) * sizeof(mlan_power_group)), respbuflen); ret = sizeof(pcfg->param.power_ext.num_pwr_grp) + (MIN(pcfg->param.power_ext.num_pwr_grp, MAX_POWER_GROUP) * sizeof(mlan_power_group)); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get PS configuration parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_pscfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[7] = {0}, ret = 0; mlan_ds_pm_cfg *pm_cfg = NULL; mlan_ioctl_req *req = NULL; int allowed = 3; int i = 3; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); allowed++; /* For beacon missing timeout parameter */ allowed += 2; /* For delay to PS and PS mode parameters */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PSCFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len && user_data_len > allowed) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } pm_cfg = (mlan_ds_pm_cfg *)req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_CFG_PS_CFG; req->req_id = MLAN_IOCTL_PM_CFG; if (user_data_len) { if ((data[0] < PS_NULL_DISABLE)) { PRINTM(MERROR, "Invalid argument for PS null interval\n"); ret = -EINVAL; goto done; } if ((data[1] != MRVDRV_IGNORE_MULTIPLE_DTIM) && (data[1] != MRVDRV_MATCH_CLOSEST_DTIM) && ((data[1] < MRVDRV_MIN_MULTIPLE_DTIM) || (data[1] > MRVDRV_MAX_MULTIPLE_DTIM))) { PRINTM(MERROR, "Invalid argument for multiple DTIM\n"); ret = -EINVAL; goto done; } if ((data[2] < MRVDRV_MIN_LISTEN_INTERVAL) && (data[2] != MRVDRV_LISTEN_INTERVAL_DISABLE)) { PRINTM(MERROR, "Invalid argument for listen interval\n"); ret = -EINVAL; goto done; } if ((data[i] != DISABLE_BCN_MISS_TO) && ((data[i] < MIN_BCN_MISS_TO) || (data[i] > MAX_BCN_MISS_TO))) { PRINTM(MERROR, "Invalid argument for beacon miss timeout\n"); ret = -EINVAL; goto done; } i++; if (user_data_len < allowed - 1) data[i] = DELAY_TO_PS_UNCHANGED; else if ((data[i] < MIN_DELAY_TO_PS) || (data[i] > MAX_DELAY_TO_PS)) { PRINTM(MERROR, "Invalid argument for delay to PS\n"); ret = -EINVAL; goto done; } i++; if ((data[i] != PS_MODE_UNCHANGED) && (data[i] != PS_MODE_AUTO) && (data[i] != PS_MODE_POLL) && (data[i] != PS_MODE_NULL)) { PRINTM(MERROR, "Invalid argument for PS mode\n"); ret = -EINVAL; goto done; } i++; req->action = MLAN_ACT_SET; moal_memcpy_ext(priv->phandle, &pm_cfg->param.ps_cfg, data, sizeof(data), sizeof(pm_cfg->param.ps_cfg)); } else req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, data, &pm_cfg->param.ps_cfg, MIN((sizeof(int) * allowed), sizeof(pm_cfg->param.ps_cfg)), sizeof(data)); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(int) * allowed, respbuflen); ret = sizeof(int) * allowed; if (req->action == MLAN_ACT_SET) { pm_cfg = (mlan_ds_pm_cfg *)req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_CFG_IEEE_PS; pm_cfg->param.ps_mode = 1; req->req_id = MLAN_IOCTL_PM_CFG; req->action = MLAN_ACT_SET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get PS configuration parameters * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_bcntimeoutcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[4] = {0}, ret = 0; mlan_ds_pm_cfg *pm_cfg = NULL; mlan_ioctl_req *req = NULL; int allowed = 4; int i = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_BCNTIMEOUTCFG); memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != allowed) { PRINTM(MERROR, "Invalid args num: input=%d allowed=%d\n", user_data_len, allowed); ret = -EINVAL; goto done; } for (i = 0; i < allowed; i++) { if (data[i] <= 0) { PRINTM(MERROR, "Invalid data[%d]=%d\n", i, data[i]); ret = -EINVAL; goto done; } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pm_cfg = (mlan_ds_pm_cfg *)req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_CFG_BCN_TIMEOUT; req->req_id = MLAN_IOCTL_PM_CFG; req->action = MLAN_ACT_SET; pm_cfg->param.bcn_timeout.bcn_miss_tmo_window = (t_u16)data[0]; pm_cfg->param.bcn_timeout.bcn_miss_tmo_period = (t_u16)data[1]; pm_cfg->param.bcn_timeout.bcn_rq_tmo_window = (t_u16)data[2]; pm_cfg->param.bcn_timeout.bcn_rq_tmo_period = (t_u16)data[3]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get sleep period * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_sleeppd(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_pm_cfg *pm_cfg = NULL; mlan_ioctl_req *req = NULL; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pm_cfg = (mlan_ds_pm_cfg *)req->pbuf; pm_cfg->sub_command = MLAN_OID_PM_CFG_SLEEP_PD; req->req_id = MLAN_IOCTL_PM_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SLEEPPD); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len) { if ((data <= MAX_SLEEP_PERIOD && data >= MIN_SLEEP_PERIOD) || (data == 0) || (data == SLEEP_PERIOD_RESERVED_FF)) { req->action = MLAN_ACT_SET; pm_cfg->param.sleep_period = data; } else { ret = -EINVAL; goto done; } } else req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { data = pm_cfg->param.sleep_period; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Tx control flag * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_txcontrol(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_ioctl_req *req = NULL; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; misc_cfg->sub_command = MLAN_OID_MISC_TXCONTROL; req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TXCONTROL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len) { req->action = MLAN_ACT_SET; misc_cfg->param.tx_control = (t_u32)data; } else { req->action = MLAN_ACT_GET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { data = misc_cfg->param.tx_control; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Read/Write adapter registers value * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_regrdwr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[3]; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_reg_mem *reg_mem = NULL; int user_data_len = 0, header_len = 0; t_u8 *arguments = NULL, *space_ind = NULL; t_u32 is_negative_val = MFALSE; mlan_status status = MLAN_STATUS_SUCCESS; gfp_t flag; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_reg_mem)); if (req == NULL) { ret = -ENOMEM; goto done; } reg_mem = (mlan_ds_reg_mem *)req->pbuf; reg_mem->sub_command = MLAN_OID_REG_RW; req->req_id = MLAN_IOCTL_REG_MEM; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_REGRDWR); if ((int)strlen(respbuf) == header_len) { ret = -EINVAL; goto done; } /* SET operation */ memset((char *)data, 0, sizeof(data)); flag = (in_atomic() || irqs_disabled()) ? GFP_ATOMIC : GFP_KERNEL; arguments = kzalloc(strlen(respbuf) * sizeof(char), flag); if (arguments == NULL) { ret = -ENOMEM; goto done; } strcpy(arguments, respbuf + header_len); space_ind = strstr((char *)arguments, " "); if (space_ind) space_ind = strstr(space_ind + 1, " "); if (space_ind) { if (*(char *)(space_ind + 1) == '-') { is_negative_val = MTRUE; arguments[space_ind + 1 - arguments] = '\0'; strcat(arguments, space_ind + 2); } } parse_arguments(arguments, data, ARRAY_SIZE(data), &user_data_len); if (is_negative_val == MTRUE) data[2] *= -1; if (user_data_len == 2) { req->action = MLAN_ACT_GET; } else if (user_data_len == 3) { req->action = MLAN_ACT_SET; } else { ret = -EINVAL; goto done; } reg_mem->param.reg_rw.type = (t_u32)data[0]; reg_mem->param.reg_rw.offset = (t_u32)data[1]; if (user_data_len == 3) reg_mem->param.reg_rw.value = (t_u32)data[2]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { moal_memcpy_ext(priv->phandle, respbuf, ®_mem->param.reg_rw, sizeof(reg_mem->param.reg_rw), respbuflen); ret = sizeof(reg_mem->param.reg_rw); } done: if (status != MLAN_STATUS_PENDING) kfree(req); kfree(arguments); LEAVE(); return ret; } /** * @brief Read the EEPROM contents of the card * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_rdeeprom(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2]; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_reg_mem *reg_mem = NULL; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_reg_mem)); if (req == NULL) { ret = -ENOMEM; goto done; } reg_mem = (mlan_ds_reg_mem *)req->pbuf; reg_mem->sub_command = MLAN_OID_EEPROM_RD; req->req_id = MLAN_IOCTL_REG_MEM; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RDEEPROM); if ((int)strlen(respbuf) == header_len) { ret = -EINVAL; goto done; } /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len == 2) { req->action = MLAN_ACT_GET; } else { ret = -EINVAL; goto done; } reg_mem->param.rd_eeprom.offset = (t_u16)data[0]; reg_mem->param.rd_eeprom.byte_count = (t_u16)data[1]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { moal_memcpy_ext(priv->phandle, respbuf, ®_mem->param.rd_eeprom, sizeof(reg_mem->param.rd_eeprom), respbuflen); ret = sizeof(reg_mem->param.rd_eeprom); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Read/Write device memory value * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_memrdwr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2]; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_reg_mem *reg_mem = NULL; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_reg_mem)); if (req == NULL) { ret = -ENOMEM; goto done; } reg_mem = (mlan_ds_reg_mem *)req->pbuf; reg_mem->sub_command = MLAN_OID_MEM_RW; req->req_id = MLAN_IOCTL_REG_MEM; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MEMRDWR); if ((int)strlen(respbuf) == header_len) { ret = -EINVAL; goto done; } /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len == 1) { PRINTM(MINFO, "MEM_RW: GET\n"); req->action = MLAN_ACT_GET; } else if (user_data_len == 2) { PRINTM(MINFO, "MEM_RW: SET\n"); req->action = MLAN_ACT_SET; } else { ret = -EINVAL; goto done; } reg_mem->param.mem_rw.addr = (t_u32)data[0]; if (user_data_len == 2) reg_mem->param.mem_rw.value = (t_u32)data[1]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { moal_memcpy_ext(priv->phandle, respbuf, ®_mem->param.mem_rw, sizeof(reg_mem->param.mem_rw), respbuflen); ret = sizeof(reg_mem->param.mem_rw); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef SDIO /** * @brief Cmd52 read/write register * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return MLAN_STATUS_SUCCESS --success, otherwise fail */ static int woal_priv_sdcmd52rw(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u8 rw = 0, func, data = 0; int buf[3], reg, ret = MLAN_STATUS_SUCCESS; int user_data_len = 0, header_len = 0; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SDCMD52RW); memset((t_u8 *)buf, 0, sizeof(buf)); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } parse_arguments(respbuf + header_len, buf, ARRAY_SIZE(buf), &user_data_len); if (user_data_len < 2 || user_data_len > 3) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } func = (t_u8)buf[0]; if (func > 7) { PRINTM(MERROR, "Invalid function number!\n"); ret = -EINVAL; goto done; } reg = (t_u32)buf[1]; if (user_data_len == 2) { rw = 0; /* CMD52 read */ PRINTM(MINFO, "Cmd52 read, func=%d, reg=0x%08X\n", func, reg); } if (user_data_len == 3) { rw = 1; /* CMD52 write */ data = (t_u8)buf[2]; PRINTM(MINFO, "Cmd52 write, func=%d, reg=0x%08X, data=0x%02X\n", func, reg, data); } if (!rw) { #ifdef SDIO_MMC sdio_claim_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (func) data = sdio_readb( ((struct sdio_mmc_card *)priv->phandle->card) ->func, reg, &ret); else data = sdio_f0_readb( ((struct sdio_mmc_card *)priv->phandle->card) ->func, reg, &ret); sdio_release_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (ret) { PRINTM(MERROR, "sdio_readb: reading register 0x%X failed\n", reg); goto done; } #else if (sdio_read_ioreg(priv->phandle->card, func, reg, &data) < 0) { PRINTM(MERROR, "sdio_read_ioreg: reading register 0x%X failed\n", reg); ret = MLAN_STATUS_FAILURE; goto done; } #endif /* SDIO_MMC */ } else { #ifdef SDIO_MMC sdio_claim_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (func) sdio_writeb( ((struct sdio_mmc_card *)priv->phandle->card) ->func, data, reg, &ret); else sdio_f0_writeb( ((struct sdio_mmc_card *)priv->phandle->card) ->func, data, reg, &ret); sdio_release_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (ret) { PRINTM(MERROR, "sdio_writeb: writing register 0x%X failed\n", reg); goto done; } #else if (sdio_write_ioreg(priv->phandle->card, func, reg, data) < 0) { PRINTM(MERROR, "sdio_write_ioreg: writing register 0x%X failed\n", reg); ret = MLAN_STATUS_FAILURE; goto done; } #endif /* SDIO_MMC */ } /* Action = GET */ buf[0] = data; moal_memcpy_ext(priv->phandle, respbuf, &buf, sizeof(int), respbuflen); ret = sizeof(int); done: LEAVE(); return ret; } #endif /* SDIO */ #ifdef STA_SUPPORT /** * @brief arpfilter ioctl function * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_arpfilter(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_misc_cfg *misc = NULL; mlan_ioctl_req *req = NULL; t_u8 *data_ptr = NULL; t_u32 buf_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_GEN_IE; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_SET; misc->param.gen_ie.type = MLAN_IE_TYPE_ARP_FILTER; data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_ARPFILTER)); buf_len = *((t_u16 *)data_ptr); misc->param.gen_ie.len = buf_len; moal_memcpy_ext(priv->phandle, (void *)(misc->param.gen_ie.ie_data), data_ptr + sizeof(buf_len), buf_len, MAX_IE_SIZE); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif /* STA_SUPPORT */ /** * @brief Set / Get Auto ARP Response configuration * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_auto_arp(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[4]; int user_data_len = 0; int ret = 0; moal_handle *handle = NULL; ENTER(); if (priv == NULL) { PRINTM(MERROR, "Invalid priv\n"); goto done; } handle = priv->phandle; if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_AUTO_ARP))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_AUTO_ARP), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len) { /* Get the enable/disable value from user */ handle->hs_auto_arp = data[0]; PRINTM(MIOCTL, "Auto ARP : %s\n", handle->hs_auto_arp ? "enable" : "disable"); } moal_memcpy_ext(handle, respbuf, &handle->hs_auto_arp, sizeof(handle->hs_auto_arp), respbuflen); ret = sizeof(handle->hs_auto_arp); done: LEAVE(); return ret; } /** * @brief Get/Set deauth control * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_deauth_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ds_snmp_mib *cfg = NULL; mlan_ioctl_req *req = NULL; int ret = 0, header_len = 0, data = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_snmp_mib)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_snmp_mib *)req->pbuf; cfg->sub_command = MLAN_OID_SNMP_MIB_CTRL_DEAUTH; req->req_id = MLAN_IOCTL_SNMP_MIB; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DEAUTH_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; cfg->param.deauthctrl = (t_u8)data; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = (int)cfg->param.deauthctrl; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #define MRVL_TLV_HEADER_SIZE 4 /** * @brief Get/Set per packet Txctl and Rxinfo configuration * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_per_pkt_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ds_misc_cfg *misc = NULL; mlan_ioctl_req *req = NULL; int ret = 0; t_u8 *pos = NULL; int left_len, header_len = 0; mlan_per_pkt_cfg *perpkt = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PER_PKT_CFG); pos = respbuf + header_len; left_len = respbuflen - header_len; if (priv->phandle->card_info->per_pkt_cfg_support == 0) { PRINTM(MERROR, "Device not support per packet configuration\n"); ret = -EFAULT; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_PER_PKT_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if (*pos == 0) { /* GET operation */ pos++; if (priv->tx_protocols.protocol_num) { perpkt = (mlan_per_pkt_cfg *)pos; perpkt->type = TLV_TYPE_PER_PKT_CFG; perpkt->tx_rx_control = TX_PKT_CTRL; perpkt->proto_type_num = priv->tx_protocols.protocol_num; moal_memcpy_ext(priv->phandle, perpkt->ether_type, priv->tx_protocols.protocols, perpkt->proto_type_num * sizeof(t_u16), MAX_NUM_ETHER_TYPE * sizeof(t_u16)); perpkt->len = (perpkt->proto_type_num + 1) * sizeof(t_u16); pos += perpkt->len + MRVL_TLV_HEADER_SIZE; } if (priv->rx_protocols.protocol_num) { perpkt = (mlan_per_pkt_cfg *)pos; perpkt->type = TLV_TYPE_PER_PKT_CFG; perpkt->tx_rx_control = RX_PKT_INFO; perpkt->proto_type_num = priv->rx_protocols.protocol_num; moal_memcpy_ext(priv->phandle, perpkt->ether_type, priv->rx_protocols.protocols, perpkt->proto_type_num * sizeof(t_u16), MAX_NUM_ETHER_TYPE * sizeof(t_u16)); perpkt->len = (perpkt->proto_type_num + 1) * sizeof(t_u16); pos += perpkt->len + MRVL_TLV_HEADER_SIZE; } ret = pos - respbuf; goto done; } else if (*pos == 1) { /* SET operation */ req->action = MLAN_ACT_SET; pos++; left_len--; while (*pos == TLV_TYPE_PER_PKT_CFG && (left_len > 2)) { perpkt = (mlan_per_pkt_cfg *)pos; if (perpkt->tx_rx_control & TX_PKT_CTRL) { priv->tx_protocols.protocol_num = perpkt->proto_type_num; if (perpkt->proto_type_num <= MAX_NUM_ETHER_TYPE) moal_memcpy_ext( priv->phandle, priv->tx_protocols.protocols, perpkt->ether_type, perpkt->proto_type_num * sizeof(t_u16), MAX_NUM_ETHER_TYPE * sizeof(t_u16)); } if (perpkt->tx_rx_control & RX_PKT_INFO) { priv->rx_protocols.protocol_num = perpkt->proto_type_num; if (perpkt->proto_type_num <= MAX_NUM_ETHER_TYPE) moal_memcpy_ext( priv->phandle, priv->rx_protocols.protocols, perpkt->ether_type, perpkt->proto_type_num * sizeof(t_u16), MAX_NUM_ETHER_TYPE * sizeof(t_u16)); } if (!perpkt->tx_rx_control) { memset(&priv->tx_protocols, 0, sizeof(dot11_protocol)); memset(&priv->rx_protocols, 0, sizeof(dot11_protocol)); } pos += perpkt->len + MRVL_TLV_HEADER_SIZE; left_len -= (perpkt->len + MRVL_TLV_HEADER_SIZE); } } else goto done; if (perpkt != NULL) misc->param.txrx_pkt_ctrl = perpkt->tx_rx_control; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get Region Channel Power * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_chnrgpwr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int header_len = 0; t_u8 *pos = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(PRIV_CMD_GET_CHNRGPWR); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_GET_REGIONPWR_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = header_len + sizeof(t_u16) + misc->param.rgchnpwr_cfg.length; pos = respbuf + header_len; moal_memcpy_ext(priv->phandle, pos, &misc->param.rgchnpwr_cfg, sizeof(t_u16) + misc->param.rgchnpwr_cfg.length, respbuflen - header_len); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get TX/RX histogram statistic * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_txpwrlimit(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_misc_chan_trpc_cfg *trpc_cfg = NULL; int header_len = 0; t_u8 *pos = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(PRIV_CMD_GET_TXPWR_LIMIT); trpc_cfg = (mlan_ds_misc_chan_trpc_cfg *)(respbuf + header_len); if ((trpc_cfg->sub_band != 0) && (trpc_cfg->sub_band != 0x10) && (trpc_cfg->sub_band != 0x11) && (trpc_cfg->sub_band != 0x12) && (trpc_cfg->sub_band != 0x13)) { PRINTM(MERROR, "Invalid subband=0x%x\n", trpc_cfg->sub_band); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_GET_CHAN_TRPC_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; misc->param.trpc_cfg.sub_band = trpc_cfg->sub_band; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = header_len + sizeof(t_u16) + sizeof(t_u16) + misc->param.trpc_cfg.length; pos = respbuf + header_len; moal_memcpy_ext(priv->phandle, pos, &misc->param.trpc_cfg, sizeof(t_u16) + sizeof(t_u16) + misc->param.trpc_cfg.length, respbuflen - header_len); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #if defined(STA_CFG80211) || defined(UAP_CFG80211) /** * @brief Get TX/RX histogram statistic * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_getcfgchanlist(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int num_chan = 0; wlan_ieee80211_chan_list *plist = NULL; struct ieee80211_supported_band *sband; struct wiphy *wiphy = NULL; int i; ENTER(); if (priv && priv->wdev) wiphy = priv->wdev->wiphy; if (!wiphy) { PRINTM(MERROR, "wiphy is NULL\n"); ret = -EFAULT; goto done; } plist = (wlan_ieee80211_chan_list *)respbuf; sband = wiphy->bands[NL80211_BAND_2GHZ]; if (sband) { num_chan += sband->n_channels; for (i = 0; i < sband->n_channels; i++) { plist->chan_list[i].center_freq = sband->channels[i].center_freq; plist->chan_list[i].hw_value = sband->channels[i].hw_value; plist->chan_list[i].flags = sband->channels[i].flags; plist->chan_list[i].max_power = sband->channels[i].max_power; } } sband = wiphy->bands[NL80211_BAND_5GHZ]; if (sband) { for (i = 0; i < sband->n_channels; i++) { plist->chan_list[i + num_chan].center_freq = sband->channels[i].center_freq; plist->chan_list[i + num_chan].hw_value = sband->channels[i].hw_value; plist->chan_list[i + num_chan].flags = sband->channels[i].flags; plist->chan_list[i + num_chan].max_power = sband->channels[i].max_power; #if CFG80211_VERSION_CODE > KERNEL_VERSION(3, 8, 13) plist->chan_list[i + num_chan].dfs_state = sband->channels[i].dfs_state; #endif } num_chan += sband->n_channels; } plist->num_chan = num_chan; ret = sizeof(wlan_ieee80211_chan_list) + sizeof(wlan_ieee80211_chan) * num_chan; done: LEAVE(); return ret; } #endif /** * @brief Get TX/RX histogram statistic * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_rx_tx_histogram(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; tx_rx_histogram *tx_rx_info = NULL; int header_len = 0; t_u8 *pos = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(PRIV_CMD_TX_RX_HISTOGRAM); tx_rx_info = (tx_rx_histogram *)(respbuf + header_len); if (tx_rx_info->enable > 2 || (tx_rx_info->enable == GET_TX_RX_HISTOGRAM && (tx_rx_info->action > 3 || tx_rx_info->action <= 0))) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_GET_TX_RX_HISTOGRAM; req->req_id = MLAN_IOCTL_MISC_CFG; if (tx_rx_info->enable == GET_TX_RX_HISTOGRAM) { misc->param.tx_rx_histogram.enable = ENABLE_TX_RX_HISTOGRAM; misc->param.tx_rx_histogram.action = (t_u16)tx_rx_info->action; } else { misc->param.tx_rx_histogram.enable = tx_rx_info->enable; misc->param.tx_rx_histogram.action |= FLAG_TX_HISTOGRAM | FLAG_RX_HISTOGRAM; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = header_len + 2 * sizeof(t_u8); if (tx_rx_info->enable & GET_TX_RX_HISTOGRAM) { pos = respbuf + header_len + 2 * sizeof(t_u8); /* Save tx/rx histogram size */ moal_memcpy_ext(priv->phandle, pos, &misc->param.tx_rx_histogram.size, sizeof(misc->param.tx_rx_histogram.size), respbuflen - (header_len + 2 * sizeof(t_u8))); ret += sizeof(misc->param.tx_rx_histogram.size); pos += sizeof(misc->param.tx_rx_histogram.size); moal_memcpy_ext( priv->phandle, pos, &misc->param.tx_rx_histogram.value, misc->param.tx_rx_histogram.size, respbuflen - (header_len + 2 * sizeof(t_u8)) - sizeof(misc->param.tx_rx_histogram.size)); ret += misc->param.tx_rx_histogram.size; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get hotspot mode configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_hotspotcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_HOTSPOTCFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len >= 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } else { req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; if (user_data_len == 0) { req->action = MLAN_ACT_GET; } else { cfg->param.hotspot_cfg = data; req->action = MLAN_ACT_SET; } } cfg->sub_command = MLAN_OID_MISC_HOTSPOT_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = cfg->param.hotspot_cfg; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Mgmt Frame passthru mask * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_mgmt_frame_passthru_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data = 0; int user_data_len = 0, header_len = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *mgmt_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MGMT_FRAME_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len >= 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } else { req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } mgmt_cfg = (mlan_ds_misc_cfg *)req->pbuf; req->req_id = MLAN_IOCTL_MISC_CFG; mgmt_cfg->sub_command = MLAN_OID_MISC_RX_MGMT_IND; if (user_data_len == 0) { /* Get */ req->action = MLAN_ACT_GET; } else { /* Set */ mgmt_cfg->param.mgmt_subtype_mask = data; req->action = MLAN_ACT_SET; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = mgmt_cfg->param.mgmt_subtype_mask; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to send an ADDTS TSPEC * * Receive a ADDTS command from the application. The command structure * contains a TSPEC and timeout in milliseconds. The timeout is performed * in the firmware after the ADDTS command frame is sent. * * The TSPEC is received in the API as an opaque block. The firmware will * send the entire data block, including the bytes after the TSPEC. This * is done to allow extra IEs to be packaged with the TSPEC in the ADDTS * action frame. * * The IOCTL structure contains two return fields: * - The firmware command result, which indicates failure and timeouts * - The IEEE Status code which contains the corresponding value from * any ADDTS response frame received. * * In addition, the opaque TSPEC data block passed in is replaced with the * TSPEC received in the ADDTS response frame. In case of failure, the * AP may modify the TSPEC on return and in the case of success, the * medium time is returned as calculated by the AP. Along with the TSPEC, * any IEs that are sent in the ADDTS response are also returned and can be * parsed using the IOCTL length as an indicator of extra elements. * * The return value to the application layer indicates a driver execution * success or failure. A successful return could still indicate a firmware * failure or AP negotiation failure via the commandResult field copied * back to the application. * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_wmm_addts_req_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wmm_cfg *cfg = NULL; wlan_ioctl_wmm_addts_req_t addts_ioctl; int ret = 0, header_len = 0, copy_len = sizeof(addts_ioctl); t_u8 *data_ptr; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ADDTS); data_ptr = respbuf + header_len; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_WMM_CFG; cfg = (mlan_ds_wmm_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_WMM_CFG_ADDTS; memset(&addts_ioctl, 0x00, sizeof(addts_ioctl)); moal_memcpy_ext(priv->phandle, (t_u8 *)&addts_ioctl, data_ptr, sizeof(addts_ioctl), sizeof(addts_ioctl)); cfg->param.addts.timeout = addts_ioctl.timeout_ms; cfg->param.addts.ie_data_len = addts_ioctl.ie_data_len; moal_memcpy_ext(priv->phandle, cfg->param.addts.ie_data, addts_ioctl.ie_data, cfg->param.addts.ie_data_len, MLAN_WMM_TSPEC_SIZE + MLAN_WMM_ADDTS_EXTRA_IE_BYTES); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } addts_ioctl.cmd_result = cfg->param.addts.result; addts_ioctl.ieee_status_code = (t_u8)cfg->param.addts.status_code; addts_ioctl.ie_data_len = cfg->param.addts.ie_data_len; moal_memcpy_ext(priv->phandle, addts_ioctl.ie_data, cfg->param.addts.ie_data, cfg->param.addts.ie_data_len, MLAN_WMM_TSPEC_SIZE + MLAN_WMM_ADDTS_EXTRA_IE_BYTES); copy_len = (sizeof(addts_ioctl) - sizeof(addts_ioctl.ie_data) + cfg->param.addts.ie_data_len); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&addts_ioctl, copy_len, respbuflen); ret = copy_len; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to send a DELTS TSPEC * * Receive a DELTS command from the application. The command structure * contains a TSPEC and reason code along with space for a command result * to be returned. The information is packaged is sent to the wlan_cmd.c * firmware command prep and send routines for execution in the firmware. * * The reason code is not used for WMM implementations but is indicated in * the 802.11e specification. * * The return value to the application layer indicates a driver execution * success or failure. A successful return could still indicate a firmware * failure via the cmd_result field copied back to the application. * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_wmm_delts_req_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wmm_cfg *cfg = NULL; wlan_ioctl_wmm_delts_req_t delts_ioctl; int ret = 0, header_len = 0, copy_len = 0; t_u8 *data_ptr; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DELTS); data_ptr = respbuf + header_len; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_WMM_CFG; cfg = (mlan_ds_wmm_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_WMM_CFG_DELTS; memset(&delts_ioctl, 0x00, sizeof(delts_ioctl)); if ((int)strlen(respbuf) > header_len) { copy_len = MIN(strlen(data_ptr), sizeof(delts_ioctl)); moal_memcpy_ext(priv->phandle, (t_u8 *)&delts_ioctl, data_ptr, copy_len, sizeof(delts_ioctl)); cfg->param.delts.status_code = (t_u32)delts_ioctl.ieee_reason_code; cfg->param.delts.ie_data_len = (t_u8)delts_ioctl.ie_data_len; moal_memcpy_ext(priv->phandle, cfg->param.delts.ie_data, delts_ioctl.ie_data, cfg->param.delts.ie_data_len, MLAN_WMM_TSPEC_SIZE); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } /* Return the firmware command result back to the application * layer */ delts_ioctl.cmd_result = cfg->param.delts.result; copy_len = sizeof(delts_ioctl); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&delts_ioctl, copy_len, respbuflen); ret = copy_len; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to get/set a specified AC Queue's parameters * * Receive a AC Queue configuration command which is used to get, set, or * default the parameters associated with a specific WMM AC Queue. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_qconfig(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wmm_cfg *pwmm = NULL; mlan_ds_wmm_queue_config *pqcfg = NULL; wlan_ioctl_wmm_queue_config_t qcfg_ioctl; t_u8 *data_ptr; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_WMM_CFG; pwmm = (mlan_ds_wmm_cfg *)req->pbuf; pwmm->sub_command = MLAN_OID_WMM_CFG_QUEUE_CONFIG; memset(&qcfg_ioctl, 0x00, sizeof(qcfg_ioctl)); pqcfg = (mlan_ds_wmm_queue_config *)&pwmm->param.q_cfg; data_ptr = respbuf + (strlen(CMD_NXP) + strlen(PRIV_CMD_QCONFIG)); moal_memcpy_ext(priv->phandle, (t_u8 *)&qcfg_ioctl, data_ptr, sizeof(qcfg_ioctl), sizeof(qcfg_ioctl)); pqcfg->action = qcfg_ioctl.action; pqcfg->access_category = qcfg_ioctl.access_category; pqcfg->msdu_lifetime_expiry = qcfg_ioctl.msdu_lifetime_expiry; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(&qcfg_ioctl, 0x00, sizeof(qcfg_ioctl)); qcfg_ioctl.action = pqcfg->action; qcfg_ioctl.access_category = pqcfg->access_category; qcfg_ioctl.msdu_lifetime_expiry = pqcfg->msdu_lifetime_expiry; moal_memcpy_ext(priv->phandle, data_ptr, (t_u8 *)&qcfg_ioctl, sizeof(qcfg_ioctl), respbuflen - (strlen(CMD_NXP) + strlen(PRIV_CMD_QCONFIG))); ret = strlen(CMD_NXP) + strlen(PRIV_CMD_QCONFIG) + sizeof(qcfg_ioctl); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to get the status of the WMM queues * * Return the following information for each WMM AC: * - WMM IE Acm Required * - Firmware Flow Required * - Firmware Flow Established * - Firmware Queue Enabled * - Firmware Delivery Enabled * - Firmware Trigger Enabled * * @param priv Pointer to the moal_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_wmm_queue_status_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wmm_cfg *pwmm = NULL; wlan_ioctl_wmm_queue_status_t qstatus_ioctl; int ret = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_QSTATUS); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_WMM_CFG; pwmm = (mlan_ds_wmm_cfg *)req->pbuf; pwmm->sub_command = MLAN_OID_WMM_CFG_QUEUE_STATUS; if ((int)strlen(respbuf) == header_len) { status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(&qstatus_ioctl, 0x00, sizeof(qstatus_ioctl)); moal_memcpy_ext(priv->phandle, (void *)&qstatus_ioctl, (void *)&pwmm->param.q_status, sizeof(qstatus_ioctl), sizeof(qstatus_ioctl)); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&qstatus_ioctl, sizeof(qstatus_ioctl), respbuflen); ret = sizeof(qstatus_ioctl); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to get the status of the WMM Traffic Streams * * @param priv Pointer to the moal_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_wmm_ts_status_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_wmm_cfg *pwmm = NULL; wlan_ioctl_wmm_ts_status_t ts_status_ioctl; int ret = 0, header_len = 0; t_u8 *data_ptr; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TS_STATUS); data_ptr = respbuf + header_len; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_WMM_CFG; pwmm = (mlan_ds_wmm_cfg *)req->pbuf; pwmm->sub_command = MLAN_OID_WMM_CFG_TS_STATUS; memset(&ts_status_ioctl, 0x00, sizeof(ts_status_ioctl)); moal_memcpy_ext(priv->phandle, (t_u8 *)&ts_status_ioctl, data_ptr, sizeof(ts_status_ioctl), sizeof(ts_status_ioctl)); memset(&pwmm->param.ts_status, 0x00, sizeof(ts_status_ioctl)); pwmm->param.ts_status.tid = ts_status_ioctl.tid; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(&ts_status_ioctl, 0x00, sizeof(ts_status_ioctl)); moal_memcpy_ext(priv->phandle, (void *)&ts_status_ioctl, (void *)&pwmm->param.ts_status, sizeof(ts_status_ioctl), sizeof(ts_status_ioctl)); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&ts_status_ioctl, sizeof(ts_status_ioctl), respbuflen); ret = sizeof(ts_status_ioctl); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get MAC control * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_macctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MAC_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_MAC_CONTROL; req->req_id = MLAN_IOCTL_MISC_CFG; if (user_data_len == 0) req->action = MLAN_ACT_GET; else { cfg->param.mac_ctrl = (t_u32)data; req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg->param.mac_ctrl, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get connection status * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_getwap(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; #ifdef STA_SUPPORT mlan_bss_info bss_info; #endif ENTER(); #ifdef STA_SUPPORT if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_STA) { memset(&bss_info, 0, sizeof(bss_info)); woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info); if (bss_info.media_connected == MTRUE) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&bss_info.bssid, MLAN_MAC_ADDR_LENGTH, respbuflen); } else { memset(respbuf, 0, MLAN_MAC_ADDR_LENGTH); } } #endif #ifdef UAP_SUPPORT if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_UAP) { if (priv->bss_started) { moal_memcpy_ext(priv->phandle, respbuf, priv->current_addr, MLAN_MAC_ADDR_LENGTH, respbuflen); } else { memset(respbuf, 0, MLAN_MAC_ADDR_LENGTH); } } #endif ret = MLAN_MAC_ADDR_LENGTH; LEAVE(); return ret; } /** * @brief Set/Get Region Code * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_region_code(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_REGION_CODE); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_REGION; req->req_id = MLAN_IOCTL_MISC_CFG; if (user_data_len == 0) req->action = MLAN_ACT_GET; else { cfg->param.region_code = (t_u32)data; req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg->param.region_code, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef RX_PACKET_COALESCE /** * @brief Set/Get RX packet coalesceing setting * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_rx_pkt_coalesce_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; t_u32 data[2]; int user_data_len = 0, header_len = 0; mlan_ds_misc_cfg *cfg = NULL; t_u8 *data_ptr; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_RX_COAL_CFG); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RX_COAL_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if ((user_data_len != 0) && (user_data_len != 2)) { PRINTM(MERROR, "Invalid arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_RX_PACKET_COALESCE; req->req_id = MLAN_IOCTL_MISC_CFG; if (user_data_len == 0) { req->action = MLAN_ACT_GET; } else { req->action = MLAN_ACT_SET; cfg->param.rx_coalesce.packet_threshold = data[0]; cfg->param.rx_coalesce.delay = data[1]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext( priv->phandle, respbuf, (mlan_ds_misc_rx_packet_coalesce *)&cfg->param.rx_coalesce, req->buf_len, respbuflen); ret = req->buf_len; done: LEAVE(); return ret; } #endif /** * @brief Set/Get FW side mac address * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_fwmacaddr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { t_u8 data[ETH_ALEN]; int ret = 0; int header_len = 0; mlan_ioctl_req *req = NULL; mlan_ds_bss *bss = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_FWMACADDR); /* Allocate an IOCTL request buffer */ req = (mlan_ioctl_req *)woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ bss = (mlan_ds_bss *)req->pbuf; bss->sub_command = MLAN_OID_BSS_MAC_ADDR; req->req_id = MLAN_IOCTL_BSS; if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; } else { /* SET operation */ req->action = MLAN_ACT_SET; memset(data, 0, sizeof(data)); woal_mac2u8(data, respbuf + header_len); moal_memcpy_ext(priv->phandle, bss->param.mac_addr, data, ETH_ALEN, sizeof(mlan_802_11_mac_addr)); } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, bss->param.mac_addr, sizeof(data), respbuflen); ret = sizeof(data); HEXDUMP("FW MAC Addr:", respbuf, ETH_ALEN); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #if defined(STA_CFG80211) || defined(UAP_CFG80211) #if CFG80211_VERSION_CODE >= KERNEL_VERSION(2, 6, 39) /** * @brief Set offchannel * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_offchannel(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[4]; int ret = 0; t_u8 status = 1; t_u8 chan_type = CHAN_NO_HT; int user_data_len = 0, header_len = 0; ENTER(); memset(data, 0, sizeof(data)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_OFFCHANNEL); if (header_len == (int)strlen(respbuf)) { /* Query current remain on channel status */ if (priv->phandle->remain_on_channel) ret = sprintf(respbuf, "There is pending remain on channel from bss %d\n", priv->phandle->remain_bss_index) + 1; else ret = sprintf(respbuf, "There is no pending remain on channel\n") + 1; goto done; } else parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len >= 1) { if ((data[0] != 0) && (data[0] != 1)) { PRINTM(MERROR, "action (%d) must be either 0 or 1\n", data[0]); ret = -EINVAL; goto done; } } if (user_data_len == 2) { if (data[0] == 1) { PRINTM(MERROR, "channel and duration must both the mentioned\n"); ret = -EINVAL; goto done; } else { PRINTM(MWARN, "extra arguments are ignored since action is 'cancel'\n"); } } if (user_data_len >= 3) { if (data[0] == 1) { if (data[1] < 0) { PRINTM(MERROR, "channel cannot be negative\n"); ret = -EINVAL; goto done; } if (data[2] < 0) { PRINTM(MERROR, "duration cannot be negative\n"); ret = -EINVAL; goto done; } if (user_data_len == 4) { if (data[3] && (data[3] != CHANNEL_BW_40MHZ_ABOVE) && (data[3] != CHANNEL_BW_40MHZ_BELOW) && (data[3] != CHANNEL_BW_80MHZ)) { PRINTM(MERROR, "invalid bandwidth"); ret = -EINVAL; goto done; } switch (data[3]) { case CHANNEL_BW_40MHZ_ABOVE: chan_type = CHAN_HT40PLUS; break; case CHANNEL_BW_40MHZ_BELOW: chan_type = CHAN_HT40MINUS; break; case CHANNEL_BW_80MHZ: chan_type = CHAN_VHT80; break; default: break; } } } } if (data[0] == 0) { if (!priv->phandle->remain_on_channel) { ret = sprintf(respbuf, "There is no pending remain on channel to be canceled\n") + 1; goto done; } if (woal_cfg80211_remain_on_channel_cfg(priv, MOAL_IOCTL_WAIT, MTRUE, &status, NULL, 0, 0)) { PRINTM(MERROR, "remain_on_channel: Failed to cancel\n"); ret = -EFAULT; goto done; } if (status == MLAN_STATUS_SUCCESS) priv->phandle->remain_on_channel = MFALSE; } else if (data[0] == 1) { if (woal_cfg80211_remain_on_channel_cfg( priv, MOAL_IOCTL_WAIT, MFALSE, &status, ieee80211_get_channel( priv->wdev->wiphy, ieee80211_channel_to_frequency( data[1] #if CFG80211_VERSION_CODE >= KERNEL_VERSION(2, 6, 39) , (data[1] <= 14 ? IEEE80211_BAND_2GHZ : IEEE80211_BAND_5GHZ) #endif )), chan_type, (t_u32)data[2])) { PRINTM(MERROR, "remain_on_channel: Failed to start\n"); ret = -EFAULT; goto done; } if (status == MLAN_STATUS_SUCCESS) { priv->phandle->remain_on_channel = MTRUE; priv->phandle->remain_bss_index = priv->bss_index; } } if (status != MLAN_STATUS_SUCCESS) ret = -EFAULT; else ret = sprintf(respbuf, "OK\n") + 1; done: LEAVE(); return ret; } #endif #endif /** * @brief Set/Get dscp map * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_set_get_dscp_map(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = MLAN_STATUS_SUCCESS; t_u8 *pos = NULL; int copy_size = 0, header_len = 0; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DSCP_MAP); if ((int)strlen(respbuf) != header_len) { /* SET operation */ pos = respbuf + header_len; moal_memcpy_ext(priv->phandle, priv->dscp_map, pos, sizeof(priv->dscp_map), sizeof(priv->dscp_map)); } copy_size = MIN(sizeof(priv->dscp_map), respbuflen); moal_memcpy_ext(priv->phandle, respbuf, priv->dscp_map, copy_size, respbuflen); ret = copy_size; LEAVE(); return ret; } /** * @brief Get extended driver version * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_driver_verext(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_get_info *info = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int copy_size = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_get_info)); if (req == NULL) { ret = -ENOMEM; goto done; } info = (mlan_ds_get_info *)req->pbuf; info->sub_command = MLAN_OID_GET_VER_EXT; req->req_id = MLAN_IOCTL_GET_INFO; req->action = MLAN_ACT_GET; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_VEREXT); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } info->param.ver_ext.version_str_sel = data; if (((t_s32)(info->param.ver_ext.version_str_sel)) < 0) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } /* * Set the amount to copy back to the application as the minimum of the * available assoc resp data or the buffer provided by the application */ copy_size = MIN(strlen(info->param.ver_ext.version_str), respbuflen); moal_memcpy_ext(priv->phandle, respbuf, info->param.ver_ext.version_str, copy_size, respbuflen); ret = copy_size; PRINTM(MINFO, "MOAL EXTENDED VERSION: %s\n", info->param.ver_ext.version_str); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef USB #ifdef CONFIG_USB_SUSPEND /** * @brief This function makes USB device to suspend. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_enter_usb_suspend(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; ENTER(); ret = woal_enter_usb_suspend(priv->phandle); moal_memcpy_ext(priv->phandle, respbuf, &ret, sizeof(int), respbuflen); ret = sizeof(int); LEAVE(); return ret; } /** * @brief This function makes USB device to resume. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_exit_usb_suspend(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; ENTER(); ret = woal_exit_usb_suspend(priv->phandle); moal_memcpy_ext(priv->phandle, respbuf, &ret, sizeof(int), respbuflen); ret = sizeof(int); LEAVE(); return ret; } #endif /* CONFIG_USB_SUSPEND */ #endif #if defined(STA_SUPPORT) && defined(STA_WEXT) /** * @brief SET/Get radio * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_radio_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0, option = 0; int user_data_len = 0, header_len = 0; mlan_bss_info bss_info; ENTER(); memset(&bss_info, 0, sizeof(bss_info)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RADIO_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &option, 1, &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (user_data_len == 1) { /* Set radio */ if (option < 0 || option > 1) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } if (MLAN_STATUS_SUCCESS != woal_set_radio(priv, (t_u8)option)) ret = -EFAULT; goto done; } else { /* Get radio status */ woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info); moal_memcpy_ext(priv->phandle, respbuf, &bss_info.radio_on, sizeof(bss_info.radio_on), respbuflen); ret = sizeof(bss_info.radio_on); } done: LEAVE(); return ret; } #endif /** * @brief Implement WMM enable command * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_wmm_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_wmm_cfg *wmm = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_wmm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } wmm = (mlan_ds_wmm_cfg *)req->pbuf; wmm->sub_command = MLAN_OID_WMM_CFG_ENABLE; req->req_id = MLAN_IOCTL_WMM_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_WMM_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { /* Set wmm */ if ((data < CMD_DISABLED) || (data > CMD_ENABLED)) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; if (data == CMD_DISABLED) wmm->param.wmm_enable = MFALSE; else wmm->param.wmm_enable = MTRUE; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &wmm->param.wmm_enable, sizeof(wmm->param.wmm_enable), respbuflen); ret = sizeof(wmm->param.wmm_enable); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Implement Mininum BA Threshold cfg command * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_min_ba_threshold_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_MIN_BA_THRESHOLD; req->req_id = MLAN_IOCTL_11N_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MIN_BA_THRESH_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { /* Set minimum BA Threshold */ if ((data < 0) || (data > 16)) { PRINTM(MERROR, "Error: Valid minimum BA threshold range (0-16)!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; cfg_11n->param.min_ba_threshold = data; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &cfg_11n->param.min_ba_threshold, sizeof(cfg_11n->param.min_ba_threshold), respbuflen); ret = sizeof(cfg_11n->param.min_ba_threshold); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #if defined(STA_SUPPORT) /** * @brief Implement 802.11D enable command * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_11d_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_11d_cfg *pcfg_11d = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11d_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pcfg_11d = (mlan_ds_11d_cfg *)req->pbuf; pcfg_11d->sub_command = MLAN_OID_11D_CFG_ENABLE; req->req_id = MLAN_IOCTL_11D_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_11D_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { if ((data < CMD_DISABLED) || (data > CMD_ENABLED)) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; if (data == CMD_DISABLED) pcfg_11d->param.enable_11d = MFALSE; else pcfg_11d->param.enable_11d = MTRUE; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &pcfg_11d->param.enable_11d, sizeof(pcfg_11d->param.enable_11d), respbuflen); ret = sizeof(pcfg_11d->param.enable_11d); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Implement 802.11D clear chan table command * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_11d_clr_chan_tbl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ds_11d_cfg *pcfg_11d = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11d_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_11D_CLR_TBL); if ((int)strlen(respbuf) != header_len) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } pcfg_11d = (mlan_ds_11d_cfg *)req->pbuf; pcfg_11d->sub_command = MLAN_OID_11D_CLR_CHAN_TABLE; req->req_id = MLAN_IOCTL_11D_CFG; req->action = MLAN_ACT_SET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif #ifndef OPCHAN /** * @brief Set/Get WWS mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_wws_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_misc_cfg *wws = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } wws = (mlan_ds_misc_cfg *)req->pbuf; wws->sub_command = MLAN_OID_MISC_WWS; req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_WWS_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { if ((data < CMD_DISABLED) || (data > CMD_ENABLED)) { PRINTM(MERROR, "Invalid arguments, WWS config not changed!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; wws->param.wws_cfg = (t_u16)data; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &wws->param.wws_cfg, sizeof(wws->param.wws_cfg), respbuflen); ret = sizeof(wws->param.wws_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif #if defined(REASSOCIATION) /** * @brief Set/Get reassociation settings * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_reassoc(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { moal_handle *handle = priv->phandle; int data = 0; int ret = 0; int user_data_len = 0, header_len = 0; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_REASSOCTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; data = (int)(priv->reassoc_on); moal_memcpy_ext(handle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { if (data == 0) { handle->reassoc_on &= ~MBIT(priv->bss_index); priv->reassoc_on = MFALSE; priv->reassoc_required = MFALSE; if (!handle->reassoc_on && handle->is_reassoc_timer_set == MTRUE) { woal_cancel_timer( &handle->reassoc_timer); handle->is_reassoc_timer_set = MFALSE; } } else if (data == 1) { handle->reassoc_on |= MBIT(priv->bss_index); priv->reassoc_on = MTRUE; } else { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; } } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; } } LEAVE(); return ret; } #endif /* REASSOCIATION */ /** * @brief Get Transmit buffer size * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_txbuf_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ds_11n_cfg *cfg_11n = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int buf_size = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_MAX_TX_BUF_SIZE; req->req_id = MLAN_IOCTL_11N_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TXBUF_CFG); if ((int)strlen(respbuf) != header_len) { PRINTM(MERROR, "Don't support set Tx buffer size after driver loaded!\n"); ret = -EINVAL; goto done; } else { /* Get Tx buffer size from MLAN */ req->action = MLAN_ACT_GET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } buf_size = cfg_11n->param.tx_buf_size; moal_memcpy_ext(priv->phandle, respbuf, &buf_size, sizeof(buf_size), respbuflen); ret = sizeof(buf_size); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef STA_SUPPORT /** * @brief Set/Get auth type * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_auth_type(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int auth_type = 0; t_u32 auth_mode; int ret = 0; int user_data_len = 0, header_len = 0; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_AUTH_TYPE); if ((int)strlen(respbuf) == header_len) { /* GET operation */ if (MLAN_STATUS_SUCCESS != woal_get_auth_mode(priv, MOAL_IOCTL_WAIT, &auth_mode)) { ret = -EFAULT; goto done; } user_data_len = 0; auth_type = auth_mode; moal_memcpy_ext(priv->phandle, respbuf, &auth_type, sizeof(auth_type), respbuflen); ret = sizeof(auth_type); goto done; } else { /* SET operation */ parse_arguments(respbuf + header_len, &auth_type, 1, &user_data_len); if (user_data_len == 1) { PRINTM(MINFO, "SET: auth_type %d\n", auth_type); if (((auth_type < MLAN_AUTH_MODE_OPEN) || (auth_type > MLAN_AUTH_MODE_SAE)) && (auth_type != MLAN_AUTH_MODE_AUTO)) { ret = -EINVAL; goto done; } auth_mode = auth_type; if (MLAN_STATUS_SUCCESS != woal_set_auth_mode(priv, MOAL_IOCTL_WAIT, auth_mode)) { ret = -EFAULT; goto done; } } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; } } done: LEAVE(); return ret; } #endif /** * @brief Set/get user provisioned local power constraint * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_11h_local_pwr_constraint(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_11h_cfg *ds_11hcfg = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_LOCAL_POWER_CONSTRAINT; req->req_id = MLAN_IOCTL_11H_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_POWER_CONS); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { req->action = MLAN_ACT_SET; ds_11hcfg->param.usr_local_power_constraint = (t_s8)data; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { data = (int)ds_11hcfg->param.usr_local_power_constraint; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/get HT stream configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_ht_stream_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_11n_cfg *cfg = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_11n_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_11N_CFG_STREAM_CFG; req->req_id = MLAN_IOCTL_11N_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_HT_STREAM_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { if (data != HT_STREAM_MODE_1X1 && data != HT_STREAM_MODE_2X2) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; cfg->param.stream_cfg = data; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = ((mlan_ds_11n_cfg *)req->pbuf)->param.stream_cfg; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set mimo switch configurations * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_mimo_switch(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2] = {0}; mlan_ds_radio_cfg *radio = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_radio_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } radio = (mlan_ds_radio_cfg *)req->pbuf; radio->sub_command = MLAN_OID_MIMO_SWITCH; req->req_id = MLAN_IOCTL_RADIO_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MIMO_SWITCH); if ((int)strlen(respbuf) > header_len) { /* SET operation */ req->action = MLAN_ACT_SET; parse_arguments(respbuf + header_len, data, 2, &user_data_len); if (user_data_len == 2) { radio->param.mimo_switch_cfg.txpath_antmode = data[0]; radio->param.mimo_switch_cfg.rxpath_antmode = data[1]; } else { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } } else { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get thermal reading * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_thermal(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ds_misc_cfg *cfg = NULL; mlan_ioctl_req *req = NULL; int ret = 0, header_len = 0, data = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_THERMAL; req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_THERMAL); if ((int)strlen(respbuf) != header_len) { PRINTM(MERROR, "Set is not supported for this command\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = (int)cfg->param.thermal; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get beacon interval * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_beacon_interval(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data = 0; mlan_ds_bss *bss = NULL; mlan_ioctl_req *req = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (req == NULL) { ret = -ENOMEM; goto done; } bss = (mlan_ds_bss *)req->pbuf; bss->sub_command = MLAN_OID_IBSS_BCN_INTERVAL; req->req_id = MLAN_IOCTL_BSS; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_BCN_INTERVAL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len == 1) { if ((data < MLAN_MIN_BEACON_INTERVAL) || (data > MLAN_MAX_BEACON_INTERVAL)) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; bss->param.bcn_interval = data; } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = ((mlan_ds_bss *)req->pbuf)->param.bcn_interval; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef STA_SUPPORT /** * @brief Get signal * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_signal(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { /** Input data size */ #define IN_DATA_SIZE 2 /** Output data size */ #define OUT_DATA_SIZE 12 int ret = 0; int in_data[IN_DATA_SIZE]; int out_data[OUT_DATA_SIZE]; mlan_ds_get_signal signal; int data_length = 0; int user_data_len = 0, header_len = 0; ENTER(); memset(in_data, 0, sizeof(in_data)); memset(out_data, 0, sizeof(out_data)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_SIGNAL); if ((int)strlen(respbuf) != header_len) parse_arguments(respbuf + header_len, in_data, IN_DATA_SIZE, &user_data_len); if (priv->media_connected == MFALSE) { PRINTM(MERROR, "Can not get RSSI in disconnected state\n"); ret = -ENOTSUPP; goto done; } if (user_data_len) { if (user_data_len > IN_DATA_SIZE) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } switch (user_data_len) { case 0: /* No checking, get everything */ break; case 2: /* Check subtype range */ if (in_data[1] < 1 || in_data[1] > 4) { ret = -EINVAL; goto done; } /* Fall through */ case 1: /* Check type range */ if (in_data[0] < 1 || in_data[0] > 3) { ret = -EINVAL; goto done; } break; default: ret = -EINVAL; goto done; } memset(&signal, 0, sizeof(mlan_ds_get_signal)); if (MLAN_STATUS_SUCCESS != woal_get_signal_info(priv, MOAL_IOCTL_WAIT, &signal)) { ret = -EFAULT; goto done; } PRINTM(MINFO, "RSSI Beacon Last : %d\n", (int)signal.bcn_rssi_last); PRINTM(MINFO, "RSSI Beacon Average: %d\n", (int)signal.bcn_rssi_avg); PRINTM(MINFO, "RSSI Data Last : %d\n", (int)signal.data_rssi_last); PRINTM(MINFO, "RSSI Data Average : %d\n", (int)signal.data_rssi_avg); PRINTM(MINFO, "SNR Beacon Last : %d\n", (int)signal.bcn_snr_last); PRINTM(MINFO, "SNR Beacon Average : %d\n", (int)signal.bcn_snr_avg); PRINTM(MINFO, "SNR Data Last : %d\n", (int)signal.data_snr_last); PRINTM(MINFO, "SNR Data Average : %d\n", (int)signal.data_snr_avg); PRINTM(MINFO, "NF Beacon Last : %d\n", (int)signal.bcn_nf_last); PRINTM(MINFO, "NF Beacon Average : %d\n", (int)signal.bcn_nf_avg); PRINTM(MINFO, "NF Data Last : %d\n", (int)signal.data_nf_last); PRINTM(MINFO, "NF Data Average : %d\n", (int)signal.data_nf_avg); /* Check type */ switch (in_data[0]) { case 0: /* Send everything */ out_data[data_length++] = signal.bcn_rssi_last; out_data[data_length++] = signal.bcn_rssi_avg; out_data[data_length++] = signal.data_rssi_last; out_data[data_length++] = signal.data_rssi_avg; out_data[data_length++] = signal.bcn_snr_last; out_data[data_length++] = signal.bcn_snr_avg; out_data[data_length++] = signal.data_snr_last; out_data[data_length++] = signal.data_snr_avg; out_data[data_length++] = signal.bcn_nf_last; out_data[data_length++] = signal.bcn_nf_avg; out_data[data_length++] = signal.data_nf_last; out_data[data_length++] = signal.data_nf_avg; break; case 1: /* RSSI */ /* Check subtype */ switch (in_data[1]) { case 0: /* Everything */ out_data[data_length++] = signal.bcn_rssi_last; out_data[data_length++] = signal.bcn_rssi_avg; out_data[data_length++] = signal.data_rssi_last; out_data[data_length++] = signal.data_rssi_avg; break; case 1: /* bcn last */ out_data[data_length++] = signal.bcn_rssi_last; break; case 2: /* bcn avg */ out_data[data_length++] = signal.bcn_rssi_avg; break; case 3: /* data last */ out_data[data_length++] = signal.data_rssi_last; break; case 4: /* data avg */ out_data[data_length++] = signal.data_rssi_avg; break; default: break; } break; case 2: /* SNR */ /* Check subtype */ switch (in_data[1]) { case 0: /* Everything */ out_data[data_length++] = signal.bcn_snr_last; out_data[data_length++] = signal.bcn_snr_avg; out_data[data_length++] = signal.data_snr_last; out_data[data_length++] = signal.data_snr_avg; break; case 1: /* bcn last */ out_data[data_length++] = signal.bcn_snr_last; break; case 2: /* bcn avg */ out_data[data_length++] = signal.bcn_snr_avg; break; case 3: /* data last */ out_data[data_length++] = signal.data_snr_last; break; case 4: /* data avg */ out_data[data_length++] = signal.data_snr_avg; break; default: break; } break; case 3: /* NF */ /* Check subtype */ switch (in_data[1]) { case 0: /* Everything */ out_data[data_length++] = signal.bcn_nf_last; out_data[data_length++] = signal.bcn_nf_avg; out_data[data_length++] = signal.data_nf_last; out_data[data_length++] = signal.data_nf_avg; break; case 1: /* bcn last */ out_data[data_length++] = signal.bcn_nf_last; break; case 2: /* bcn avg */ out_data[data_length++] = signal.bcn_nf_avg; break; case 3: /* data last */ out_data[data_length++] = signal.data_nf_last; break; case 4: /* data avg */ out_data[data_length++] = signal.data_nf_avg; break; default: break; } break; default: break; } moal_memcpy_ext(priv->phandle, respbuf, out_data, (data_length * sizeof(int)), respbuflen); ret = data_length * sizeof(int); done: LEAVE(); return ret; } static int woal_signal_ext_enable(moal_private *priv, t_u8 enable) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_snmp_mib *snmp = NULL; mlan_status status = MLAN_STATUS_SUCCESS; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_get_info)); if (req == NULL) { ret = -ENOMEM; goto done; } snmp = (mlan_ds_snmp_mib *)req->pbuf; snmp->sub_command = MLAN_OID_SNMP_MIB_SIGNALEXT_ENABLE; req->req_id = MLAN_IOCTL_SNMP_MIB; req->action = MLAN_ACT_SET; snmp->param.signalext_enable = enable; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get signal * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_signal_ext(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { #define PATH_SIZE 13 int ret = 0; int data = 0, path = 0, data_len = 0; int user_data_len = 0, header_len = 0; int out_data[PATH_SIZE * MAX_PATH_NUM] = {0}; mlan_ioctl_req *req = NULL; mlan_ds_get_info *info = NULL; mlan_ds_get_signal signal_get[MAX_PATH_NUM]; mlan_status status = MLAN_STATUS_SUCCESS; int path_num; t_u8 enable = 1; ENTER(); if (priv->media_connected == MFALSE) { PRINTM(MERROR, "Can not get RSSI in disconnected state\n"); ret = -ENOTSUPP; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_get_info)); if (req == NULL) { ret = -ENOMEM; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_SIGNAL_EXT); if ((int)strlen(respbuf) != header_len) { parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data < PATH_ALL || data > PATH_AB) { PRINTM(MERROR, "Wrong arguments\n"); ret = -EINVAL; goto done; } /** Enable signalext feature in firmware */ if (MLAN_STATUS_SUCCESS != woal_signal_ext_enable(priv, enable)) { ret = -EFAULT; goto done; } woal_sched_timeout(1000); enable = 0; /* Fill request buffer */ info = (mlan_ds_get_info *)req->pbuf; info->sub_command = MLAN_OID_GET_SIGNAL_EXT; req->req_id = MLAN_IOCTL_GET_INFO; req->action = MLAN_ACT_GET; info->param.path_id = (t_u16)data; /* Send IOCTL request to MLAN */ if (MLAN_STATUS_SUCCESS != woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT)) { woal_signal_ext_enable(priv, enable); ret = -EFAULT; goto done; } if (MLAN_STATUS_SUCCESS != woal_signal_ext_enable(priv, enable)) { ret = -EFAULT; goto done; } path_num = 1; if (data == PATH_ALL) { moal_memcpy_ext(priv->phandle, signal_get, info->param.signal_ext, sizeof(signal_get), sizeof(signal_get)); path_num = MAX_PATH_NUM; } else moal_memcpy_ext(priv->phandle, signal_get, info->param.signal_ext, sizeof(mlan_ds_get_signal), sizeof(signal_get)); for (path = 0; path < path_num; path++) { if (signal_get[path].selector == PATH_AB) PRINTM(MINFO, "PATH A+B:\n"); else if (signal_get[path].selector == PATH_A) PRINTM(MINFO, "PATH A:\n"); else if (signal_get[path].selector == PATH_B) PRINTM(MINFO, "PATH B:\n"); PRINTM(MINFO, "RSSI Beacon Last : %d\n", (int)signal_get[path].bcn_rssi_last); PRINTM(MINFO, "RSSI Beacon Average: %d\n", (int)signal_get[path].bcn_rssi_avg); PRINTM(MINFO, "RSSI Data Last : %d\n", (int)signal_get[path].data_rssi_last); PRINTM(MINFO, "RSSI Data Average : %d\n", (int)signal_get[path].data_rssi_avg); PRINTM(MINFO, "SNR Beacon Last : %d\n", (int)signal_get[path].bcn_snr_last); PRINTM(MINFO, "SNR Beacon Average : %d\n", (int)signal_get[path].bcn_snr_avg); PRINTM(MINFO, "SNR Data Last : %d\n", (int)signal_get[path].data_snr_last); PRINTM(MINFO, "SNR Data Average : %d\n", (int)signal_get[path].data_snr_avg); PRINTM(MINFO, "NF Beacon Last : %d\n", (int)signal_get[path].bcn_nf_last); PRINTM(MINFO, "NF Beacon Average : %d\n", (int)signal_get[path].bcn_nf_avg); PRINTM(MINFO, "NF Data Last : %d\n", (int)signal_get[path].data_nf_last); PRINTM(MINFO, "NF Data Average : %d\n", (int)signal_get[path].data_nf_avg); out_data[data_len++] = (int)signal_get[path].selector; out_data[data_len++] = (int)signal_get[path].bcn_rssi_last; out_data[data_len++] = (int)signal_get[path].bcn_rssi_avg; out_data[data_len++] = (int)signal_get[path].data_rssi_last; out_data[data_len++] = (int)signal_get[path].data_rssi_avg; out_data[data_len++] = (int)signal_get[path].bcn_snr_last; out_data[data_len++] = (int)signal_get[path].bcn_snr_avg; out_data[data_len++] = (int)signal_get[path].data_snr_last; out_data[data_len++] = (int)signal_get[path].data_snr_avg; out_data[data_len++] = (int)signal_get[path].bcn_nf_last; out_data[data_len++] = (int)signal_get[path].bcn_nf_avg; out_data[data_len++] = (int)signal_get[path].data_nf_last; out_data[data_len++] = (int)signal_get[path].data_nf_avg; } moal_memcpy_ext( priv->phandle, respbuf, out_data, (MIN((PATH_SIZE * MAX_PATH_NUM), data_len) * sizeof(int)), respbuflen); ret = data_len * sizeof(int); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get signalext v2 * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_signal_ext_v2(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { #define PATH_SIZE 13 int ret = 0; int data = 0, path = 0, data_len = 0; int user_data_len = 0, header_len = 0; int out_data[PATH_SIZE * MAX_PATH_NUM] = {0}; mlan_ioctl_req *req = NULL; mlan_ds_get_info *info = NULL; mlan_ds_get_signal signal_get[MAX_PATH_NUM]; mlan_status status = MLAN_STATUS_SUCCESS; int path_num; ENTER(); if (priv->media_connected == MFALSE) { PRINTM(MERROR, "Can not get RSSI in disconnected state\n"); ret = -ENOTSUPP; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_get_info)); if (req == NULL) { ret = -ENOMEM; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_SIGNAL_EXT_V2); if ((int)strlen(respbuf) != header_len) { parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); } if (user_data_len > 1) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data < PATH_ALL || data > PATH_AB) { PRINTM(MERROR, "Wrong arguments\n"); ret = -EINVAL; goto done; } /* Fill request buffer */ info = (mlan_ds_get_info *)req->pbuf; info->sub_command = MLAN_OID_GET_SIGNAL_EXT; req->req_id = MLAN_IOCTL_GET_INFO; req->action = MLAN_ACT_GET; info->param.path_id = (t_u16)data; /* Send IOCTL request to MLAN */ if (MLAN_STATUS_SUCCESS != woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "Enable signalextcfg: mlanutl mlanX signalextcfg 1" " before issuing this command\n"); ret = -EFAULT; goto done; } path_num = 1; if (data == PATH_ALL) { moal_memcpy_ext(priv->phandle, signal_get, info->param.signal_ext, sizeof(signal_get), sizeof(signal_get)); path_num = MAX_PATH_NUM; } else moal_memcpy_ext(priv->phandle, signal_get, info->param.signal_ext, sizeof(mlan_ds_get_signal), sizeof(signal_get)); PRINTM(MMSG, "data=%d path_num=%d\n", data, path_num); for (path = 0; path < path_num; path++) { if (signal_get[path].selector == PATH_AB) PRINTM(MINFO, "PATH A+B:\n"); else if (signal_get[path].selector == PATH_A) PRINTM(MINFO, "PATH A:\n"); else if (signal_get[path].selector == PATH_B) PRINTM(MINFO, "PATH B:\n"); PRINTM(MINFO, "RSSI Beacon Last : %d\n", (int)signal_get[path].bcn_rssi_last); PRINTM(MINFO, "RSSI Beacon Average: %d\n", (int)signal_get[path].bcn_rssi_avg); PRINTM(MINFO, "RSSI Data Last : %d\n", (int)signal_get[path].data_rssi_last); PRINTM(MINFO, "RSSI Data Average : %d\n", (int)signal_get[path].data_rssi_avg); PRINTM(MINFO, "SNR Beacon Last : %d\n", (int)signal_get[path].bcn_snr_last); PRINTM(MINFO, "SNR Beacon Average : %d\n", (int)signal_get[path].bcn_snr_avg); PRINTM(MINFO, "SNR Data Last : %d\n", (int)signal_get[path].data_snr_last); PRINTM(MINFO, "SNR Data Average : %d\n", (int)signal_get[path].data_snr_avg); PRINTM(MINFO, "NF Beacon Last : %d\n", (int)signal_get[path].bcn_nf_last); PRINTM(MINFO, "NF Beacon Average : %d\n", (int)signal_get[path].bcn_nf_avg); PRINTM(MINFO, "NF Data Last : %d\n", (int)signal_get[path].data_nf_last); PRINTM(MINFO, "NF Data Average : %d\n", (int)signal_get[path].data_nf_avg); out_data[data_len++] = (int)signal_get[path].selector; out_data[data_len++] = (int)signal_get[path].bcn_rssi_last; out_data[data_len++] = (int)signal_get[path].bcn_rssi_avg; out_data[data_len++] = (int)signal_get[path].data_rssi_last; out_data[data_len++] = (int)signal_get[path].data_rssi_avg; out_data[data_len++] = (int)signal_get[path].bcn_snr_last; out_data[data_len++] = (int)signal_get[path].bcn_snr_avg; out_data[data_len++] = (int)signal_get[path].data_snr_last; out_data[data_len++] = (int)signal_get[path].data_snr_avg; out_data[data_len++] = (int)signal_get[path].bcn_nf_last; out_data[data_len++] = (int)signal_get[path].bcn_nf_avg; out_data[data_len++] = (int)signal_get[path].data_nf_last; out_data[data_len++] = (int)signal_get[path].data_nf_avg; } moal_memcpy_ext( priv->phandle, respbuf, out_data, (MIN((PATH_SIZE * MAX_PATH_NUM), data_len) * sizeof(int)), respbuflen); ret = data_len * sizeof(int); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set signalext cfg * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return The result of this processing. */ static int woal_priv_signalext_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int enable = 0; int ret = 0; int user_data_len = 0, header_len = 0; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SIGNALEXT_CFG); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } else { /* SET operation */ parse_arguments(respbuf + header_len, &enable, 1, &user_data_len); if (user_data_len == 1) { if (enable != 0x0 && enable != 0x1) { PRINTM(MERROR, "Invalid arguments!\n"); ret = -EINVAL; goto done; } ret = woal_signal_ext_enable(priv, enable); } else { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } } done: LEAVE(); return ret; } #endif /* #ifdef STA_SUPPORT */ #if defined(STA_SUPPORT) /** * @brief Make PMF bit required/optional * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 -- success, otherwise fail */ static int woal_priv_set_get_pmfcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[2] = {0, 0}; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; mlan_ds_misc_pmfcfg *pmfcfg; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv->phandle->card_info->embedded_supp) { PRINTM(MERROR, "Not supported cmd on this card\n"); ret = -EOPNOTSUPP; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PMFCFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of arguments\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; pmfcfg = (mlan_ds_misc_pmfcfg *)&cfg->param.pmfcfg; cfg->sub_command = MLAN_OID_MISC_PMFCFG; req->req_id = MLAN_IOCTL_MISC_CFG; if (user_data_len == 0) req->action = MLAN_ACT_GET; else { pmfcfg->mfpc = (t_u8)data[0]; pmfcfg->mfpr = (t_u8)data[1]; req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg->param.pmfcfg, sizeof(mlan_ds_misc_pmfcfg), respbuflen); ret = sizeof(mlan_ds_misc_pmfcfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif /** * @brief Get/Set inactivity timeout extend * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_inactivity_timeout_ext(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[4]; mlan_ioctl_req *req = NULL; mlan_ds_pm_cfg *pmcfg = NULL; pmlan_ds_inactivity_to inac_to = NULL; int ret = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_INACTIVITYTO); memset(data, 0, sizeof(data)); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len != 0 && user_data_len != 3 && user_data_len != 4) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pmcfg = (mlan_ds_pm_cfg *)req->pbuf; inac_to = &pmcfg->param.inactivity_to; pmcfg->sub_command = MLAN_OID_PM_CFG_INACTIVITY_TO; req->req_id = MLAN_IOCTL_PM_CFG; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (user_data_len) { inac_to->timeout_unit = data[0]; inac_to->unicast_timeout = data[1]; inac_to->mcast_timeout = data[2]; if (user_data_len == 4) inac_to->ps_entry_timeout = data[3]; req->action = MLAN_ACT_SET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } } else { data[0] = inac_to->timeout_unit; data[1] = inac_to->unicast_timeout; data[2] = inac_to->mcast_timeout; data[3] = inac_to->ps_entry_timeout; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Enable/Disable amsdu_aggr_ctrl * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_11n_amsdu_aggr_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; int ret = 0, data[2] = {0}; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_AMSDU_AGGR_CTRL); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_AMSDU_AGGR_CTRL; req->req_id = MLAN_IOCTL_11N_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, 1, &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; cfg_11n->param.amsdu_aggr_ctrl.enable = data[0]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = cfg_11n->param.amsdu_aggr_ctrl.enable; data[1] = cfg_11n->param.amsdu_aggr_ctrl.curr_buf_size; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Transmit beamforming capabilities * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_tx_bf_cap_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *bf_cfg = NULL; int ret = 0, bf_cap = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TX_BF_CAP); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } bf_cfg = (mlan_ds_11n_cfg *)req->pbuf; bf_cfg->sub_command = MLAN_OID_11N_CFG_TX_BF_CAP; req->req_id = MLAN_IOCTL_11N_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &bf_cap, 1, &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; bf_cfg->param.tx_bf_cap = bf_cap; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } bf_cap = bf_cfg->param.tx_bf_cap; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&bf_cap, sizeof(bf_cap), respbuflen); ret = sizeof(bf_cap); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef SDIO /** * @brief Turn on/off the sdio clock * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_sdio_clock_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data = 2; int user_data_len = 0, header_len = 0; /* Initialize the clock state as on */ static int clock_state = 1; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SDIO_CLOCK); if ((int)strlen(respbuf) == header_len) { /* GET operation */ moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&clock_state, sizeof(clock_state), respbuflen); ret = sizeof(clock_state); goto done; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } } switch (data) { case CMD_DISABLED: PRINTM(MINFO, "SDIO clock is turned off\n"); ret = woal_sdio_set_bus_clock(priv->phandle, MFALSE); clock_state = data; break; case CMD_ENABLED: PRINTM(MINFO, "SDIO clock is turned on\n"); ret = woal_sdio_set_bus_clock(priv->phandle, MTRUE); clock_state = data; break; default: ret = -EINVAL; PRINTM(MINFO, "sdioclock: wrong parameter\n"); break; } done: LEAVE(); return ret; } #endif #ifdef SDIO /** * @brief Set SDIO Multi-point aggregation control parameters * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_sdio_mpa_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0, data[6]; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset(data, 0, sizeof(data)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MPA_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 6) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_SDIO_MPA_CTRL; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; /* Get the values first, then modify these values if * user had modified them */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "woal_request_ioctl returned %d\n", ret); ret = -EFAULT; goto done; } if (user_data_len == 0) { data[0] = misc->param.mpa_ctrl.tx_enable; data[1] = misc->param.mpa_ctrl.rx_enable; data[2] = misc->param.mpa_ctrl.tx_buf_size; data[3] = misc->param.mpa_ctrl.rx_buf_size; data[4] = misc->param.mpa_ctrl.tx_max_ports; data[5] = misc->param.mpa_ctrl.rx_max_ports; PRINTM(MINFO, "Get Param: %d %d %d %d %d %d\n", data[0], data[1], data[2], data[3], data[4], data[5]); moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); goto done; } switch (user_data_len) { case 6: misc->param.mpa_ctrl.rx_max_ports = data[5]; /* fall through */ case 5: misc->param.mpa_ctrl.tx_max_ports = data[4]; /* fall through */ case 4: misc->param.mpa_ctrl.rx_buf_size = data[3]; /* fall through */ case 3: misc->param.mpa_ctrl.tx_buf_size = data[2]; /* fall through */ case 2: misc->param.mpa_ctrl.rx_enable = data[1]; /* fall through */ case 1: /* Set cmd */ req->action = MLAN_ACT_SET; PRINTM(MINFO, "Set Param: %d %d %d %d %d %d\n", data[0], data[1], data[2], data[3], data[4], data[5]); misc->param.mpa_ctrl.tx_enable = data[0]; break; default: PRINTM(MERROR, "Default case error\n"); ret = -EINVAL; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif /** * @brief Configure sleep parameters * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_sleep_params_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_pm_cfg *pm = NULL; mlan_ds_sleep_params *psleep_params = NULL; int data[6] = {0}, i; int user_data_len = 0, header_len = 0; #ifdef DEBUG_LEVEL1 char err_str[][36] = {{"sleep clock error in ppm"}, {"wakeup offset in usec"}, {"clock stabilization time in usec"}, {"control periodic calibration(0-2)"}, {"control of external sleepClock(0-2)"}, {"value of reserved for debug"}}; #endif mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); memset(data, 0, sizeof(data)); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_pm_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pm = (mlan_ds_pm_cfg *)req->pbuf; pm->sub_command = MLAN_OID_PM_CFG_SLEEP_PARAMS; req->req_id = MLAN_IOCTL_PM_CFG; psleep_params = (pmlan_ds_sleep_params)&pm->param.sleep_params; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SLEEP_PARAMS); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 6) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } #define MIN_VAL 0x0000 #define MAX_VAL 0xFFFF for (i = 0; i < 6; i++) { if ((i == 3) || (i == 4)) { /* These two cases are handled below the loop */ continue; } if (data[i] < MIN_VAL || data[i] > MAX_VAL) { PRINTM(MERROR, "Invalid %s (0-65535)!\n", err_str[i]); ret = -EINVAL; goto done; } } if (data[3] < 0 || data[3] > 2) { PRINTM(MERROR, "Invalid control periodic calibration (0-2)!\n"); ret = -EINVAL; goto done; } if (data[4] < 0 || data[4] > 2) { PRINTM(MERROR, "Invalid control of external sleep clock (0-2)!\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; psleep_params->error = data[0]; psleep_params->offset = data[1]; psleep_params->stable_time = data[2]; psleep_params->cal_control = data[3]; psleep_params->ext_sleep_clk = data[4]; psleep_params->reserved = data[5]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = psleep_params->error; data[1] = psleep_params->offset; data[2] = psleep_params->stable_time; data[3] = psleep_params->cal_control; data[4] = psleep_params->ext_sleep_clk; data[5] = psleep_params->reserved; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef UAP_SUPPORT /** * @brief Set/Get network monitor configurations * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_net_monitor_ioctl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int user_data_len = 0, header_len = 0; int data_length = 0; int data[5] = {0}; int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_misc_net_monitor *net_mon = NULL; mlan_status status = MLAN_STATUS_SUCCESS; #if defined(STA_CFG80211) || defined(UAP_CFG80211) moal_handle *handle = priv->phandle; monitor_iface *mon_if = NULL; struct net_device *ndev = NULL; #endif ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_NET_MON); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { LEAVE(); return -ENOMEM; } misc = (mlan_ds_misc_cfg *)req->pbuf; net_mon = (mlan_ds_misc_net_monitor *)&misc->param.net_mon; misc->sub_command = MLAN_OID_MISC_NET_MONITOR; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len == 1 || user_data_len == 4 || user_data_len == 5) { if (data[0] != MFALSE && data[0] != CHANNEL_SPEC_SNIFFER_MODE) { PRINTM(MERROR, "NET_MON: Activity should be enable(=1/2)/disable(=0)\n"); ret = -EINVAL; goto done; } if ((data[0] == MFALSE && user_data_len != 1) || (data[0] == CHANNEL_SPEC_SNIFFER_MODE && (user_data_len != 4 && user_data_len != 5))) { PRINTM(MERROR, "NET_MON: Sniffer activity not match with user_data_len\n"); ret = -EINVAL; goto done; } net_mon->enable_net_mon = data[0]; if (data[0] == CHANNEL_SPEC_SNIFFER_MODE) { int i; if (user_data_len != 4 && user_data_len != 5) { PRINTM(MERROR, "NET_MON: Invalid number of args!\n"); ret = -EINVAL; goto done; } /* Supported filter flags */ if (!data[1] || data[1] & ~(MLAN_NETMON_DATA_FRAME | MLAN_NETMON_MANAGEMENT_FRAME | MLAN_NETMON_CONTROL_FRAME)) { PRINTM(MERROR, "NET_MON: Invalid filter flag\n"); ret = -EINVAL; goto done; } if (user_data_len > 2) { /* Supported bands */ for (i = 0; i < (int)(sizeof(SupportedInfraBand) / sizeof(SupportedInfraBand[0])); i++) if (data[2] == SupportedInfraBand[i]) break; if (i == sizeof(SupportedInfraBand)) { PRINTM(MERROR, "NET_MON: Invalid band\n"); ret = -EINVAL; goto done; } } /* Supported channel */ if (user_data_len > 3 && (data[3] < 1 || data[3] > MLAN_MAX_CHANNEL)) { PRINTM(MERROR, "NET_MON: Invalid channel number\n"); ret = -EINVAL; goto done; } if (user_data_len == 5) { /* Secondary channel offset */ if (!(data[2] & (BAND_GN | BAND_AN))) { PRINTM(MERROR, "No 11n in band, can not set " "secondary channel offset\n"); ret = -EINVAL; goto done; } if ((data[4] != CHANNEL_BW_20MHZ) && (data[4] != CHANNEL_BW_40MHZ_ABOVE) && (data[4] != CHANNEL_BW_40MHZ_BELOW) && (data[4] != CHANNEL_BW_80MHZ)) { PRINTM(MERROR, "Invalid secondary channel bandwidth, " "only allowed 0, 1, 3 or 4\n"); ret = -EINVAL; goto done; } net_mon->chan_bandwidth = data[4]; } net_mon->filter_flag = data[1]; net_mon->band = data[2]; net_mon->channel = data[3]; } req->action = MLAN_ACT_SET; } else { PRINTM(MERROR, "NET_MON: Invalid number of args!\n"); ret = -EINVAL; goto done; } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "NET_MON: woal_request_ioctl fail\n"); ret = -EFAULT; goto done; } #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (req->action == MLAN_ACT_SET) { if (data[0]) { /** Enable sniffer mode: 1/2 */ if (!handle->mon_if) { mon_if = woal_prepare_mon_if(priv, "rtap", 0, data[0]); if (!mon_if) { PRINTM(MFATAL, "Prepare mon_if fail.\n"); ret = -EFAULT; goto done; } ndev = mon_if->mon_ndev; ret = register_netdevice(ndev); if (ret) { PRINTM(MFATAL, "register net_device failed, ret=%d\n", ret); free_netdev(ndev); ret = -EFAULT; goto done; } handle->mon_if = mon_if; } /* Save band channel config */ handle->mon_if->band_chan_cfg.band = net_mon->band; handle->mon_if->band_chan_cfg.channel = net_mon->channel; handle->mon_if->band_chan_cfg.chan_bandwidth = net_mon->chan_bandwidth; } else { /** Disable sniffer mode: 0 */ if (handle->mon_if) { ndev = handle->mon_if->mon_ndev; handle->mon_if = NULL; unregister_netdevice(ndev); } } } #endif data[0] = net_mon->enable_net_mon; data[1] = net_mon->filter_flag; data[2] = net_mon->band; data[3] = net_mon->channel; data[4] = net_mon->chan_bandwidth; data_length = 5; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(int) * data_length, respbuflen); ret = sizeof(int) * data_length; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif #if defined(STA_CFG80211) && defined(UAP_CFG80211) /** * @brief Set/Get monitor mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise fail */ static int woal_priv_set_get_monitor_mode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data = 0; int user_data_len = 0, header_len = 0; t_u32 action = MLAN_ACT_GET; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MONITOR_MODE); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); action = MLAN_ACT_SET; } if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (action == MLAN_ACT_SET) { if (data == 1) { priv->phandle->wiphy->interface_modes |= MBIT(NL80211_IFTYPE_MONITOR); } else if (data == 0) { priv->phandle->wiphy->interface_modes &= ~(MBIT(NL80211_IFTYPE_MONITOR)); } else { PRINTM(MERROR, "Invalid input arguments\n"); ret = -EINVAL; goto done; } } data = !!(priv->phandle->wiphy->interface_modes & MBIT(NL80211_IFTYPE_MONITOR)); ret = sprintf(respbuf, "Monitor mode: %d\n", data) + 1; done: LEAVE(); return ret; } #endif /** * @brief This function get nop list. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_nop_list(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *ds_11hcfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11H_CFG; req->action = MLAN_ACT_GET; ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_NOP_CHAN_LIST; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status == MLAN_STATUS_FAILURE) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&ds_11hcfg->param.nop_chan_list, sizeof(mlan_ds_11h_nop_chan_list), respbuflen); ret = sizeof(mlan_ds_11h_nop_chan_list); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief clear NOP list * * @param priv A pointer to moal_private structure * @return 0 --success, otherwise fail */ static int woal_uap_clear_nop(moal_private *priv) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *ds_11hcfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11H_CFG; req->action = MLAN_ACT_CLEAR; ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_CHAN_NOP_INFO; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status == MLAN_STATUS_FAILURE) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief This function clear nop flags. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_clear_nop(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; #if defined(STA_CFG80211) || defined(UAP_CFG80211) struct wiphy *wiphy = priv->phandle->wiphy; #endif ENTER(); PRINTM(MCMND, "clear nop\n"); ret = woal_uap_clear_nop(priv); #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (IS_STA_OR_UAP_CFG80211(priv->phandle->params.cfg80211_wext)) { if (wiphy) woal_clear_wiphy_dfs_state(wiphy); } #endif ret = sizeof(int); LEAVE(); return ret; } /** * @brief This function detects fake RADAR. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return positive for success, negative for failure. */ static int woal_priv_fake_radar(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_snmp_mib *snmp = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); #ifdef UAP_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (priv && priv->chan.chan && !(priv->chan.chan->flags & IEEE80211_CHAN_RADAR)) { PRINTM(MERROR, "Current op channel NOT DFS\n"); LEAVE(); return -EINVAL; } #endif #endif ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_snmp_mib)); if (ioctl_req == NULL) { LEAVE(); return -ENOMEM; } snmp = (mlan_ds_snmp_mib *)ioctl_req->pbuf; ioctl_req->req_id = MLAN_IOCTL_SNMP_MIB; snmp->sub_command = MLAN_OID_SNMP_MIB_DOT11H_FAKERADAR; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get DFS Testing settings * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dfs_testing(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *ds_11hcfg = NULL; int ret = 0; int data[5] = {0}; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS_TESTING); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_DFS_TESTING; req->req_id = MLAN_IOCTL_11H_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 5) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if ((unsigned)data[0] > 1800) { PRINTM(MERROR, "The maximum user CAC is 1800 seconds (30 mins).\n"); ret = -EINVAL; goto done; } if ((unsigned)data[1] > 0xFFFF) { PRINTM(MERROR, "The maximum user NOP is 65535 sec.\n"); ret = -EINVAL; goto done; } if ((unsigned)data[3] > 0xFF) { PRINTM(MERROR, "The maximum user fixed channel is 255.\n"); ret = -EINVAL; goto done; } if ((unsigned)data[4] != 0 && ((unsigned)data[4] != 1)) { PRINTM(MERROR, "CAC restart should be 0/1\n"); ret = -EINVAL; goto done; } ds_11hcfg->param.dfs_testing.usr_cac_period_msec = (t_u32)data[0] * 1000; ds_11hcfg->param.dfs_testing.usr_nop_period_sec = (t_u16)data[1]; ds_11hcfg->param.dfs_testing.usr_no_chan_change = data[2] ? 1 : 0; ds_11hcfg->param.dfs_testing.usr_fixed_new_chan = (t_u8)data[3]; ds_11hcfg->param.dfs_testing.usr_cac_restart = (t_u8)data[4]; priv->phandle->cac_restart = (t_u8)data[4]; priv->phandle->cac_period_jiffies = (t_u32)data[0] * HZ; priv->phandle->usr_nop_period_sec = (t_u16)data[1]; req->action = MLAN_ACT_SET; #ifdef UAP_SUPPORT priv->user_cac_period_msec = ds_11hcfg->param.dfs_testing.usr_cac_period_msec; #endif } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { data[0] = ds_11hcfg->param.dfs_testing.usr_cac_period_msec / 1000; data[1] = ds_11hcfg->param.dfs_testing.usr_nop_period_sec; data[2] = ds_11hcfg->param.dfs_testing.usr_no_chan_change; data[3] = ds_11hcfg->param.dfs_testing.usr_fixed_new_chan; data[4] = ds_11hcfg->param.dfs_testing.usr_cac_restart; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get DFS W53 settings * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dfs53cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *ds_11hcfg = NULL; int ret = 0; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS53_CFG); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_DFS_W53_CFG; req->req_id = MLAN_IOCTL_11H_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args !\n"); ret = -EINVAL; goto done; } if (data > DFS_W53_OLD) { PRINTM(MERROR, "Invalid config !\n"); ret = -EINVAL; goto done; } ds_11hcfg->param.dfs_w53_cfg.dfs53cfg = (t_u8)data; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&ds_11hcfg->param.dfs_w53_cfg.dfs53cfg, sizeof(ds_11hcfg->param.dfs_w53_cfg.dfs53cfg), respbuflen); ret = sizeof(t_u8); } PRINTM(MIOCTL, "dfs w53 cfg %d\n", ds_11hcfg->param.dfs_w53_cfg.dfs53cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get DFS mode settings * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dfs_mode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *ds_11hcfg = NULL; int ret = 0; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS_MODE); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ ds_11hcfg = (mlan_ds_11h_cfg *)req->pbuf; ds_11hcfg->sub_command = MLAN_OID_11H_DFS_MODE; req->req_id = MLAN_IOCTL_11H_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args !\n"); ret = -EINVAL; goto done; } if (data > DFS_MODE_ENH) { PRINTM(MERROR, "Invalid config for dfs_mode!\n"); ret = -EINVAL; goto done; } ds_11hcfg->param.dfs_mode = (t_u8)data; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&ds_11hcfg->param.dfs_mode, sizeof(ds_11hcfg->param.dfs_mode), respbuflen); ret = sizeof(t_u8); } PRINTM(MIOCTL, "dfs_mode %d\n", ds_11hcfg->param.dfs_mode); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef UAP_SUPPORT /** * @brief determine the center frquency center index for bandwidth * of 80 MHz and 160 MHz * ** @param priv Pointer to moal_private structure * @param band band * @param pri_chan primary channel * @param chan_bw channel bandwidth * * @return channel center frequency center, if found; O, otherwise */ static t_u8 woal_get_center_freq_idx(moal_private *priv, t_u16 band, t_u32 pri_chan, t_u8 chan_bw) { t_u8 center_freq_idx = 0; if (band & BAND_AAC) { switch (pri_chan) { case 36: case 40: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 38; break; } /* fall through */ case 44: case 48: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 46; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 42; break; } /* fall through */ case 52: case 56: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 54; break; } /* fall through */ case 60: case 64: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 62; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 58; break; } else if (chan_bw == CHANNEL_BW_160MHZ) { center_freq_idx = 50; break; } /* fall through */ case 68: case 72: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 70; break; } /* fall through */ case 76: case 80: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 78; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 74; break; } /* fall through */ case 84: case 88: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 86; break; } /* fall through */ case 92: case 96: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 94; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 90; break; } /* fall through */ case 100: case 104: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 102; break; } /* fall through */ case 108: case 112: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 110; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 106; break; } /* fall through */ case 116: case 120: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 118; break; } /* fall through */ case 124: case 128: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 126; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 122; } else if (chan_bw == CHANNEL_BW_160MHZ) { center_freq_idx = 114; } break; case 132: case 136: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 134; break; } /* fall through */ case 140: case 144: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 126; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 138; } break; case 149: case 153: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 151; break; } /* fall through */ case 157: case 161: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 159; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 155; break; } /* fall through */ case 165: case 169: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 167; break; } /* fall through */ case 173: case 177: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 175; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 171; break; } /* fall through */ case 184: case 188: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 186; break; } /* fall through */ case 192: case 196: if (chan_bw == CHANNEL_BW_40MHZ_ABOVE || chan_bw == CHANNEL_BW_40MHZ_BELOW) { center_freq_idx = 194; break; } else if (chan_bw == CHANNEL_BW_80MHZ) { center_freq_idx = 190; break; } /* fall through */ default: /* error. go to the default */ center_freq_idx = 42; } } return center_freq_idx; } #endif #if defined(UAP_SUPPORT) /** * @brief This function handles channel switch with CSA/ECSA IE. * ** @param priv Pointer to moal_private structure * @param block_tx 0-no need block traffic 1- need block traffic * @param oper_class oper_class * @param channel channel * @param switch count how many csa/ecsa beacon will send out * @param band_width 1-40Mhz above, 3-40Mhz below, 4-80Mhz, 5-160Mhz * @param ecsa MTRUE/MFALSE; * * @return channel center frequency center, if found; O, otherwise */ static int woal_channel_switch(moal_private *priv, t_u8 block_tx, t_u8 oper_class, t_u8 channel, t_u8 switch_count, t_u8 band_width, t_u8 ecsa) { IEEEtypes_ExtChanSwitchAnn_t *ext_chan_switch = NULL; IEEEtypes_ChanSwitchAnn_t *chan_switch = NULL; custom_ie *pcust_chansw_ie = NULL; t_u8 center_freq_idx = 0; IEEEtypes_Header_t *pChanSwWrap_ie = NULL; IEEEtypes_WideBWChanSwitch_t *pbwchansw_ie = NULL; IEEEtypes_VhtTpcEnvelope_t *pvhttpcEnv_ie = NULL; mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; t_u8 bw; t_u8 new_oper_class = oper_class; int ret = 0; ENTER(); ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CUSTOM_IE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; ioctl_req->action = MLAN_ACT_SET; misc->param.cust_ie.type = TLV_TYPE_MGMT_IE; misc->param.cust_ie.len = (sizeof(custom_ie) - MAX_IE_SIZE); pcust_chansw_ie = (custom_ie *)&misc->param.cust_ie.ie_data_list[0]; pcust_chansw_ie->ie_index = 0xffff; /*Auto index */ pcust_chansw_ie->ie_length = sizeof(IEEEtypes_ChanSwitchAnn_t); pcust_chansw_ie->mgmt_subtype_mask = MGMT_MASK_BEACON | MGMT_MASK_PROBE_RESP; /*Add IE for BEACON/probe resp*/ chan_switch = (IEEEtypes_ChanSwitchAnn_t *)pcust_chansw_ie->ie_buffer; chan_switch->element_id = CHANNEL_SWITCH_ANN; chan_switch->len = 3; chan_switch->chan_switch_mode = block_tx; chan_switch->new_channel_num = channel; chan_switch->chan_switch_count = switch_count; DBG_HEXDUMP(MCMD_D, "CSA IE", (t_u8 *)pcust_chansw_ie->ie_buffer, pcust_chansw_ie->ie_length); switch (band_width) { case CHANNEL_BW_40MHZ_ABOVE: case CHANNEL_BW_40MHZ_BELOW: bw = 40; break; case CHANNEL_BW_80MHZ: bw = 80; break; case CHANNEL_BW_160MHZ: bw = 160; break; default: bw = 20; break; } if (!new_oper_class && ecsa) woal_priv_get_nonglobal_operclass_by_bw_channel( priv, bw, channel, &new_oper_class); if (new_oper_class) { pcust_chansw_ie->ie_length += sizeof(IEEEtypes_ExtChanSwitchAnn_t); ext_chan_switch = (IEEEtypes_ExtChanSwitchAnn_t *)(pcust_chansw_ie->ie_buffer + sizeof(IEEEtypes_ChanSwitchAnn_t)); ext_chan_switch->element_id = EXTEND_CHANNEL_SWITCH_ANN; ext_chan_switch->len = 4; ext_chan_switch->chan_switch_mode = block_tx; ext_chan_switch->new_oper_class = new_oper_class; ext_chan_switch->new_channel_num = channel; ext_chan_switch->chan_switch_count = switch_count; DBG_HEXDUMP(MCMD_D, "ECSA IE", (t_u8 *)(pcust_chansw_ie->ie_buffer + sizeof(IEEEtypes_ChanSwitchAnn_t)), pcust_chansw_ie->ie_length - sizeof(IEEEtypes_ChanSwitchAnn_t)); } /* bandwidth 40/80/160 should set channel switch wrapper ie for 11ac 5G * channel*/ if (band_width && channel > 14) { pChanSwWrap_ie = (IEEEtypes_Header_t *)(pcust_chansw_ie->ie_buffer + pcust_chansw_ie->ie_length); pChanSwWrap_ie->element_id = EXT_POWER_CONSTR; pChanSwWrap_ie->len = sizeof(IEEEtypes_WideBWChanSwitch_t); pbwchansw_ie = (IEEEtypes_WideBWChanSwitch_t *)((t_u8 *)pChanSwWrap_ie + sizeof(IEEEtypes_Header_t)); pbwchansw_ie->ieee_hdr.element_id = BW_CHANNEL_SWITCH; pbwchansw_ie->ieee_hdr.len = sizeof(IEEEtypes_WideBWChanSwitch_t) - sizeof(IEEEtypes_Header_t); center_freq_idx = woal_get_center_freq_idx(priv, BAND_AAC, channel, band_width); if (band_width == CHANNEL_BW_40MHZ_ABOVE || band_width == CHANNEL_BW_40MHZ_BELOW) { pbwchansw_ie->new_channel_width = 0; pbwchansw_ie->new_channel_center_freq0 = center_freq_idx; } else if (band_width == CHANNEL_BW_80MHZ) { pbwchansw_ie->new_channel_width = 1; pbwchansw_ie->new_channel_center_freq0 = center_freq_idx - 4; pbwchansw_ie->new_channel_center_freq1 = center_freq_idx + 4; } else if (band_width == CHANNEL_BW_160MHZ) { pbwchansw_ie->new_channel_width = 2; pbwchansw_ie->new_channel_center_freq0 = center_freq_idx - 8; pbwchansw_ie->new_channel_center_freq1 = center_freq_idx + 8; } else PRINTM(MERROR, "Invalid bandwidth.Support value 1/3/4/5 for 40+/40-/80/160MHZ\n"); /*prepare the VHT Transmit Power Envelope IE*/ pvhttpcEnv_ie = (IEEEtypes_VhtTpcEnvelope_t *)((t_u8 *)pChanSwWrap_ie + sizeof(IEEEtypes_Header_t) + sizeof(IEEEtypes_WideBWChanSwitch_t)); pvhttpcEnv_ie->ieee_hdr.element_id = VHT_TX_POWER_ENV; pvhttpcEnv_ie->ieee_hdr.len = sizeof(IEEEtypes_VhtTpcEnvelope_t) - sizeof(IEEEtypes_Header_t); /* Local Max TX Power Count= 3, * Local TX Power Unit Inter=EIP(0) */ pvhttpcEnv_ie->tpc_info = 3; pvhttpcEnv_ie->local_max_tp_20mhz = 0xff; pvhttpcEnv_ie->local_max_tp_40mhz = 0xff; pvhttpcEnv_ie->local_max_tp_80mhz = 0xff; pvhttpcEnv_ie->local_max_tp_160mhz_80_80mhz = 0xff; pChanSwWrap_ie->len += sizeof(IEEEtypes_VhtTpcEnvelope_t); pcust_chansw_ie->ie_length += pChanSwWrap_ie->len + sizeof(IEEEtypes_Header_t); DBG_HEXDUMP(MCMD_D, "Channel switch wrapper IE", (t_u8 *)pChanSwWrap_ie, pChanSwWrap_ie->len + sizeof(IEEEtypes_Header_t)); } if (block_tx) { if (netif_carrier_ok(priv->netdev)) netif_carrier_off(priv->netdev); woal_stop_queue(priv->netdev); priv->uap_tx_blocked = MTRUE; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Failed to set ECSA IE\n"); ret = -EFAULT; goto done; } priv->phandle->chsw_wait_q_woken = MFALSE; /* wait for channel switch to complete */ wait_event_interruptible_timeout( priv->phandle->chsw_wait_q, priv->phandle->chsw_wait_q_woken, (u32)HZ * (switch_count + 2) * 110 / 1000); pcust_chansw_ie->ie_index = 0xffff; /*Auto index */ pcust_chansw_ie->mgmt_subtype_mask = 0; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Failed to clear ECSA IE\n"); } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } #endif #ifdef UAP_SUPPORT /** * @brief Given bandwidth and channel, create Band_Config * * @param priv A pointer to moal_private * @param bandcfg A pointer to Band_Config_t structure * @param channel A pointer to cfg80211_chan_def structure * @param bandwidth 0/1/3/4 * * @return N/A */ static void woal_convert_chanbw_to_bandconfig(moal_private *priv, Band_Config_t *bandcfg, t_u8 channel, t_u8 bandwidth) { ENTER(); if (channel <= MAX_BG_CHANNEL) bandcfg->chanBand = BAND_2GHZ; else bandcfg->chanBand = BAND_5GHZ; switch (bandwidth) { case CHANNEL_BW_40MHZ_ABOVE: bandcfg->chanWidth = CHAN_BW_40MHZ; bandcfg->chan2Offset = SEC_CHAN_ABOVE; break; case CHANNEL_BW_40MHZ_BELOW: bandcfg->chanWidth = CHAN_BW_40MHZ; bandcfg->chan2Offset = SEC_CHAN_BELOW; break; case CHANNEL_BW_80MHZ: bandcfg->chanWidth = CHAN_BW_80MHZ; bandcfg->chan2Offset = woal_get_second_channel_offset(priv, channel); break; case CHANNEL_BW_20MHZ: default: bandcfg->chanWidth = CHAN_BW_20MHZ; break; } LEAVE(); return; } /** * @brief Get DFS channel list * * @param priv A pointer to moal_private * * @return N/A */ static void woal_get_dfs_chan_list(moal_private *priv) { #if defined(STA_CFG80211) || defined(UAP_CFG80211) struct wiphy *wiphy = priv->phandle->wiphy; struct ieee80211_supported_band *sband; #endif int i; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfp_misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (IS_STA_OR_UAP_CFG80211(priv->phandle->params.cfg80211_wext) && wiphy) { sband = wiphy->bands[NL80211_BAND_5GHZ]; if (sband) { for (i = 0; i < sband->n_channels; i++) { if (sband->channels[i].flags & IEEE80211_CHAN_RADAR) { priv->auto_dfs_cfg.dfs_chan_list [priv->auto_dfs_cfg.num_of_chan] = sband->channels[i].hw_value; priv->auto_dfs_cfg.num_of_chan++; } } return; } } #endif /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) goto done; /* Fill request buffer */ cfp_misc = (mlan_ds_misc_cfg *)req->pbuf; cfp_misc->sub_command = MLAN_OID_MISC_CFP_TABLE; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; cfp_misc->param.cfp.band = BAND_A; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) goto done; for (i = 0; i < cfp_misc->param.cfp.num_chan; i++) { if (cfp_misc->param.cfp.cfp_tbl[i].dynamic.flags & NXP_CHANNEL_DISABLED) continue; if (cfp_misc->param.cfp.cfp_tbl[i].passive_scan_or_radar_detect) { priv->auto_dfs_cfg .dfs_chan_list[priv->auto_dfs_cfg.num_of_chan] = cfp_misc->param.cfp.cfp_tbl[i].channel; priv->auto_dfs_cfg.num_of_chan++; } } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return; } /** * @brief Process dfs cac command * * @param priv a pointer to moal_private structure * @param ch_rpt_req a pointer to mlan_ds_11h_chan_rep_req structure * * @return MLAN_STATUS_FAILRUE or MLAN_STATUS_SUCCESS */ mlan_status woal_do_dfs_cac(moal_private *priv, mlan_ds_11h_chan_rep_req *ch_rpt_req) { mlan_ioctl_req *req = NULL; mlan_ds_11h_cfg *p11h_cfg = NULL; mlan_ds_11h_chan_rep_req *pchan_rpt_req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (NULL == req) { LEAVE(); return MLAN_STATUS_FAILURE; } p11h_cfg = (mlan_ds_11h_cfg *)req->pbuf; pchan_rpt_req = &p11h_cfg->param.chan_rpt_req; moal_memcpy_ext(priv->phandle, pchan_rpt_req, ch_rpt_req, sizeof(mlan_ds_11h_chan_rep_req), sizeof(mlan_ds_11h_chan_rep_req)); if (priv->bss_type == MLAN_BSS_TYPE_DFS) p11h_cfg->sub_command = MLAN_OID_11H_CHAN_REPORT_REQUEST; else p11h_cfg->sub_command = MLAN_OID_11H_CHANNEL_CHECK; req->req_id = MLAN_IOCTL_11H_CFG; req->action = MLAN_ACT_SET; /* Send Channel Check command and wait until the report is ready */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return status; } /** * @brief Get Next DFS channel from dfs_chan_list * * @param priv a pointer to moal_private structure * * @return N/A * */ static t_u8 woal_get_next_dfs_chan(moal_private *priv) { int i; int idx = priv->curr_cac_idx; mlan_ds_11h_chan_dfs_state ch_dfs_state; t_u8 chan = 0; ENTER(); idx++; if (idx >= priv->auto_dfs_cfg.num_of_chan) idx = 0; for (i = 0; i < priv->auto_dfs_cfg.num_of_chan; i++) { if (priv->chan_rpt_req.chanNum != priv->auto_dfs_cfg.dfs_chan_list[idx]) { memset(&ch_dfs_state, 0, sizeof(ch_dfs_state)); ch_dfs_state.channel = priv->auto_dfs_cfg.dfs_chan_list[idx]; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs_state)) { PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); continue; } if (ch_dfs_state.dfs_state != DFS_UNAVAILABLE) { chan = priv->auto_dfs_cfg.dfs_chan_list[idx]; priv->curr_cac_idx = idx; break; } } idx++; if (idx >= priv->auto_dfs_cfg.num_of_chan) idx = 0; } LEAVE(); return chan; } /** * @brief Process auto dfs cac * * @param priv a pointer to moal_private structure * * @return N/A * */ static void woal_do_auto_dfs(moal_private *priv) { mlan_ds_11h_chan_rep_req chan_rpt_req; ENTER(); if (priv->auto_dfs_cfg.multi_chan_dfs && priv->auto_dfs_cfg.num_of_chan) { memset(&chan_rpt_req, 0, sizeof(chan_rpt_req)); chan_rpt_req.startFreq = START_FREQ_11A_BAND; chan_rpt_req.chanNum = woal_get_next_dfs_chan(priv); if (priv->chan_rpt_req.chanNum) { if (woal_11h_cancel_chan_report_ioctl(priv, MOAL_IOCTL_WAIT)) PRINTM(MERROR, "%s: woal_11h_cancel_chan_report_ioctl failed \n", __func__); memset(&priv->chan_rpt_req, 0, sizeof(mlan_ds_11h_chan_rep_req)); } if (chan_rpt_req.chanNum) { chan_rpt_req.bandcfg.chanBand = BAND_5GHZ; chan_rpt_req.bandcfg.chanWidth = priv->auto_dfs_cfg.bw; chan_rpt_req.millisec_dwell_time = priv->auto_dfs_cfg.cac_timer; moal_memcpy_ext(priv->phandle, &priv->chan_rpt_req, &chan_rpt_req, sizeof(mlan_ds_11h_chan_rep_req), sizeof(mlan_ds_11h_chan_rep_req)); PRINTM(MCMND, "ZeroDFS: AUTO DFS Start Radar detect on channel=%d, bandwidth=%d, cac time=%d\n", chan_rpt_req.chanNum, (int)(chan_rpt_req.bandcfg.chanWidth), chan_rpt_req.millisec_dwell_time); if (MLAN_STATUS_SUCCESS != woal_do_dfs_cac(priv, &chan_rpt_req)) PRINTM(MERROR, "%s: woal_do_dfs_cac failed \n", __func__); } } LEAVE(); return; } /* * @brief prepare and send WOAL_EVENT_CHAN_RPT/WOAL_EVENT_RADAR * * @param priv A pointer moal_private structure * @param type WOAL_EVENT_CHAN_RPT/WOAL_EVENT_RADAR * @param channel channel * @param radar MTRUE/MFALSE * * @return N/A */ void woal_chan_event(moal_private *priv, t_u8 type, t_u8 channel, t_u8 radar) { struct woal_event *evt; unsigned long flags; moal_handle *handle = priv->phandle; evt = kzalloc(sizeof(struct woal_event), GFP_ATOMIC); if (!evt) { PRINTM(MERROR, "Fail to alloc memory for deauth event\n"); LEAVE(); return; } evt->priv = priv; evt->type = type; evt->radar_info.channel = channel; evt->radar_info.radar = radar; INIT_LIST_HEAD(&evt->link); spin_lock_irqsave(&handle->evt_lock, flags); list_add_tail(&evt->link, &handle->evt_queue); spin_unlock_irqrestore(&handle->evt_lock, flags); queue_work(handle->evt_workqueue, &handle->evt_work); } /** * @brief Get active UAP handler * * @param handle a pointer to moal_handle structure * * @return N/A * */ static moal_private *woal_get_active_uap_interface(moal_handle *handle) { int i; moal_private *priv = NULL; for (i = 0; i < handle->priv_num; i++) { if (GET_BSS_ROLE(handle->priv[i]) == MLAN_BSS_ROLE_UAP) { if (handle->priv[i]->bss_started == MTRUE) { priv = handle->priv[i]; break; } } } return priv; } /** * @brief handle auto uap channel switch * * @param priv a pointer to moal_private structure * @param channel channel * * @return N/A * */ static void woal_auto_uap_channel_switch(moal_private *priv, t_u8 channel) { moal_private *pmpriv = NULL; chan_band_info chaninfo; moal_handle *ref_handle; t_u8 band_width = CHANNEL_BW_20MHZ; pmpriv = woal_get_active_uap_interface(priv->phandle); if (!pmpriv) { ref_handle = (moal_handle *)priv->phandle->pref_mac; pmpriv = woal_get_active_uap_interface(ref_handle); } if (pmpriv) { if (MLAN_STATUS_SUCCESS != woal_set_get_ap_channel(pmpriv, MLAN_ACT_GET, MOAL_IOCTL_WAIT, &chaninfo)) { PRINTM(MERROR, "Fail to get ap channel \n"); return; } if (chaninfo.channel != channel) { switch (chaninfo.bandcfg.chanWidth) { case CHAN_BW_40MHZ: if (chaninfo.bandcfg.chan2Offset == SEC_CHAN_BELOW) band_width = CHANNEL_BW_40MHZ_BELOW; else if (chaninfo.bandcfg.chan2Offset == SEC_CHAN_ABOVE) band_width = CHANNEL_BW_40MHZ_ABOVE; break; case CHAN_BW_80MHZ: band_width = CHANNEL_BW_80MHZ; break; default: band_width = CHANNEL_BW_20MHZ; break; } #define DEF_SWITCH_COUNT 10 woal_channel_switch(pmpriv, MTRUE, 0, channel, DEF_SWITCH_COUNT, band_width, MTRUE); } } } /** * @brief Process channel event * * @param priv a pointer to moal_private structure * @param type WOAL_EVENT_CHAN_RPT/WOAL_EVENT_RADAR * @param channel channel * @param radar radar * * @return N/A * */ void woal_process_chan_event(moal_private *priv, t_u8 type, t_u8 channel, t_u8 radar) { mlan_ds_11h_chan_rep_req chan_rpt_req; if (!priv->auto_dfs_cfg.start_auto_zero_dfs) return; if (type == WOAL_EVENT_CHAN_RPT) { if (priv->auto_dfs_cfg.uap_chan_switch && !radar) { priv->auto_dfs_cfg.uap_chan_switch = MFALSE; PRINTM(MCMND, "Trying uap_chan_switch to %d\n", channel); woal_auto_uap_channel_switch(priv, channel); } woal_do_auto_dfs(priv); } else if (type == WOAL_EVENT_RADAR) { memset(&chan_rpt_req, 0, sizeof(chan_rpt_req)); chan_rpt_req.startFreq = START_FREQ_11A_BAND; chan_rpt_req.chanNum = woal_get_next_dfs_chan(priv); if (priv->chan_rpt_req.chanNum) { if (woal_11h_cancel_chan_report_ioctl(priv, MOAL_IOCTL_WAIT)) PRINTM(MERROR, "%s: woal_11h_cancel_chan_report_ioctl failed \n", __func__); memset(&priv->chan_rpt_req, 0, sizeof(mlan_ds_11h_chan_rep_req)); } if (chan_rpt_req.chanNum) { chan_rpt_req.bandcfg.chanBand = BAND_5GHZ; chan_rpt_req.bandcfg.chanWidth = priv->auto_dfs_cfg.bw; chan_rpt_req.millisec_dwell_time = priv->auto_dfs_cfg.cac_timer; moal_memcpy_ext(priv->phandle, &priv->chan_rpt_req, &chan_rpt_req, sizeof(mlan_ds_11h_chan_rep_req), sizeof(mlan_ds_11h_chan_rep_req)); PRINTM(MCMND, "ZeroDFS: AUTO DFS Start Radar detect on channel=%d, bandwidth=%d, cac time=%d\n", chan_rpt_req.chanNum, (int)(chan_rpt_req.bandcfg.chanWidth), chan_rpt_req.millisec_dwell_time); if (MLAN_STATUS_SUCCESS != woal_do_dfs_cac(priv, &chan_rpt_req)) PRINTM(MERROR, "%s: woal_do_dfs_cac failed \n", __func__); } } } /** * @brief check if channel under nop * * @param priv a pointer to moal_private structure * @param channel WIFI channel * * @return length */ static t_u8 woal_is_channel_under_nop(moal_private *priv, t_u8 channel) { mlan_ds_11h_chan_nop_info chan_nop_info; t_u8 ret = MFALSE; ENTER(); memset(&chan_nop_info, 0, sizeof(chan_nop_info)); chan_nop_info.curr_chan = channel; woal_uap_get_channel_nop_info(priv, MOAL_IOCTL_WAIT, &chan_nop_info); if (chan_nop_info.chan_under_nop) ret = MTRUE; LEAVE(); return ret; } /** * @brief Process dfs cac command * * @param priv a pointer to moal_private structure * @param respbuf respbuf buffer * @param respbuflen respbuf length * * @return length */ static int woal_priv_do_dfs_cac(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int data[3] = {0}; int user_data_len = 0, header_len = 0; mlan_ds_11h_chan_rep_req chan_rpt_req; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_11h_chan_dfs_state ch_dfs_state; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS_CAC); if ((int)strlen(respbuf) >= header_len) { memset(&chan_rpt_req, 0, sizeof(chan_rpt_req)); /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len >= 1) { if (!data[0] || (priv->chan_rpt_req.chanNum && (priv->chan_rpt_req.chanNum != data[0]))) { if (priv->chan_rpt_pending || (priv->bss_type == MLAN_BSS_TYPE_DFS)) { if (woal_11h_cancel_chan_report_ioctl( priv, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "%s: woal_11h_cancel_chan_report_ioctl failed \n", __func__); LEAVE(); return -EFAULT; } priv->chan_rpt_pending = MFALSE; } memset(&priv->chan_rpt_req, 0, sizeof(mlan_ds_11h_chan_rep_req)); PRINTM(MCMND, "DFS: Stop Radar detect\n"); if (!data[0]) { if (priv->bss_type == MLAN_BSS_TYPE_UAP) woal_uap_11h_ctrl(priv, MFALSE); LEAVE(); return ret; } } if (data[0] == priv->chan_rpt_req.chanNum && priv->bss_type == MLAN_BSS_TYPE_UAP) woal_uap_11h_ctrl(priv, MFALSE); memset(&ch_dfs_state, 0, sizeof(ch_dfs_state)); ch_dfs_state.channel = data[0]; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs_state)) { PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); LEAVE(); return -EFAULT; } if (!ch_dfs_state.dfs_required || ch_dfs_state.dfs_state == DFS_UNAVAILABLE) { PRINTM(MCMND, "DFS: This channel=%d under NOP or not DFS channel\n", data[0]); LEAVE(); return -EINVAL; } if (woal_is_channel_under_nop(priv, data[0])) { PRINTM(MCMND, "DFS: This channel=%d under NOP\n", data[0]); LEAVE(); return -EINVAL; } chan_rpt_req.startFreq = START_FREQ_11A_BAND; chan_rpt_req.chanNum = data[0]; chan_rpt_req.bandcfg.chanBand = BAND_5GHZ; chan_rpt_req.bandcfg.chanWidth = CHAN_BW_20MHZ; chan_rpt_req.millisec_dwell_time = DEF_CAC_DWELL_TIME; chan_rpt_req.host_based = MTRUE; } if (user_data_len >= 2) { if (data[1] < 0 || data[1] > CHANNEL_BW_80MHZ) { PRINTM(MERROR, "Inavalid bandwidth %d\n", data[1]); LEAVE(); return -EINVAL; } woal_convert_chanbw_to_bandconfig(priv, &chan_rpt_req.bandcfg, chan_rpt_req.chanNum, data[1]); } if (user_data_len >= 3) chan_rpt_req.millisec_dwell_time = MIN(MAX_CAC_DWELL_TIME, data[2] * 1000); #if defined(STA_CFG80211) || defined(UAP_CFG80211) else { if ((woal_is_etsi_country( priv->phandle->country_code) == MTRUE)) { if (chan_rpt_req.chanNum == 120 || chan_rpt_req.chanNum == 124 || chan_rpt_req.chanNum == 128) { chan_rpt_req.millisec_dwell_time = DEF_CAC_DWELL_TIME * 10; } if (chan_rpt_req.chanNum == 116 && user_data_len >= 2 && data[1] > 0) chan_rpt_req.millisec_dwell_time = DEF_CAC_DWELL_TIME * 10; } } #endif moal_memcpy_ext(priv->phandle, &priv->chan_rpt_req, &chan_rpt_req, sizeof(mlan_ds_11h_chan_rep_req), sizeof(mlan_ds_11h_chan_rep_req)); PRINTM(MCMND, "DFS: Start Radar detect on channel=%d, bandwidth=%d, cac time=%d\n", chan_rpt_req.chanNum, (int)(chan_rpt_req.bandcfg.chanWidth), chan_rpt_req.millisec_dwell_time); status = woal_do_dfs_cac(priv, &chan_rpt_req); if (status != MLAN_STATUS_SUCCESS) ret = -EFAULT; else priv->chan_rpt_pending = MTRUE; } LEAVE(); return ret; } /** * @brief Set Auto Zero DFS configure * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_auto_dfs_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int header_len = 0; auto_zero_dfs_cfg *auto_dfs_cfg = NULL; int i; int idx = 0; mlan_ds_11h_chan_dfs_state ch_dfs_state; mlan_ds_11h_chan_rep_req chan_rpt_req; ENTER(); if (priv->bss_type != MLAN_BSS_TYPE_DFS) { PRINTM(MWARN, "Invalid BSS type\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_AUTODFS); auto_dfs_cfg = (auto_zero_dfs_cfg *)(respbuf + header_len); /** Auto DFS is enabled and save config to moal_private structure */ if (auto_dfs_cfg->start_auto_zero_dfs) { if (priv->auto_dfs_cfg.start_auto_zero_dfs || priv->chan_rpt_req.chanNum) { if (woal_11h_cancel_chan_report_ioctl( priv, MOAL_IOCTL_WAIT)) { PRINTM(MERROR, "%s: woal_11h_cancel_chan_report_ioctl failed \n", __func__); ret = -EFAULT; goto done; } memset(&priv->chan_rpt_req, 0, sizeof(mlan_ds_11h_chan_rep_req)); } memset(&priv->auto_dfs_cfg, 0, sizeof(auto_zero_dfs_cfg)); if (auto_dfs_cfg->cac_start_chan) { memset(&ch_dfs_state, 0, sizeof(ch_dfs_state)); ch_dfs_state.channel = auto_dfs_cfg->cac_start_chan; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs_state)) { PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); ret = -EFAULT; goto done; } if (!ch_dfs_state.dfs_required || ch_dfs_state.dfs_state == DFS_UNAVAILABLE) { PRINTM(MCMND, "ZeroDFS: This channel=%d under NOP or not DFS channel\n", auto_dfs_cfg->cac_start_chan); LEAVE(); return -EINVAL; } } priv->auto_dfs_cfg.cac_start_chan = auto_dfs_cfg->cac_start_chan; if (auto_dfs_cfg->cac_timer) priv->auto_dfs_cfg.cac_timer = MIN(MAX_CAC_DWELL_TIME, auto_dfs_cfg->cac_timer * 1000); else priv->auto_dfs_cfg.cac_timer = DEF_CAC_DWELL_TIME; if ((auto_dfs_cfg->bw != CHANNEL_BW_20MHZ) && (auto_dfs_cfg->bw != CHANNEL_BW_40MHZ_ABOVE) && (auto_dfs_cfg->bw != CHANNEL_BW_40MHZ_BELOW) && (auto_dfs_cfg->bw != CHANNEL_BW_80MHZ)) { PRINTM(MERROR, "ZeroDFS: Invalid bw = %d\n", auto_dfs_cfg->bw); LEAVE(); return -EINVAL; } priv->auto_dfs_cfg.bw = auto_dfs_cfg->bw; priv->auto_dfs_cfg.uap_chan_switch = auto_dfs_cfg->uap_chan_switch; priv->auto_dfs_cfg.multi_chan_dfs = auto_dfs_cfg->multi_chan_dfs; if (auto_dfs_cfg->num_of_chan) { for (i = 0; i < auto_dfs_cfg->num_of_chan; i++) { memset(&ch_dfs_state, 0, sizeof(ch_dfs_state)); ch_dfs_state.channel = auto_dfs_cfg->dfs_chan_list[i]; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs_state)) { PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); ret = -EFAULT; goto done; } if (!ch_dfs_state.dfs_required) continue; priv->auto_dfs_cfg.dfs_chan_list[idx] = auto_dfs_cfg->dfs_chan_list[i]; idx++; } priv->auto_dfs_cfg.num_of_chan = idx; } if (!priv->auto_dfs_cfg.num_of_chan) woal_get_dfs_chan_list(priv); priv->curr_cac_idx = -1; if (!priv->auto_dfs_cfg.cac_start_chan) priv->auto_dfs_cfg.cac_start_chan = woal_get_next_dfs_chan(priv); PRINTM(MCMND, "Start Auto ZeroDFS\n"); PRINTM(MCMND, "cac_start_chan=%d\n", priv->auto_dfs_cfg.cac_start_chan); PRINTM(MCMND, "cac_timer=%d\n", priv->auto_dfs_cfg.cac_timer); PRINTM(MCMND, "bw=%d\n", priv->auto_dfs_cfg.bw); PRINTM(MCMND, "uap_chan_switch=%d\n", priv->auto_dfs_cfg.uap_chan_switch); PRINTM(MCMND, "multi_chan_dfs=%d\n", priv->auto_dfs_cfg.multi_chan_dfs); PRINTM(MCMND, "num of chan=%d\n", priv->auto_dfs_cfg.num_of_chan); DBG_HEXDUMP(MCMD_D, "dfs chan list", priv->auto_dfs_cfg.dfs_chan_list, priv->auto_dfs_cfg.num_of_chan); if (priv->auto_dfs_cfg.cac_start_chan) { priv->auto_dfs_cfg.start_auto_zero_dfs = MTRUE; memset(&chan_rpt_req, 0, sizeof(chan_rpt_req)); chan_rpt_req.startFreq = START_FREQ_11A_BAND; chan_rpt_req.chanNum = priv->auto_dfs_cfg.cac_start_chan; chan_rpt_req.bandcfg.chanBand = BAND_5GHZ; chan_rpt_req.bandcfg.chanWidth = priv->auto_dfs_cfg.bw; chan_rpt_req.millisec_dwell_time = priv->auto_dfs_cfg.cac_timer; moal_memcpy_ext(priv->phandle, &priv->chan_rpt_req, &chan_rpt_req, sizeof(mlan_ds_11h_chan_rep_req), sizeof(mlan_ds_11h_chan_rep_req)); PRINTM(MCMND, "ZeroDFS: AUTO DFS Start Radar detect on channel=%d, bandwidth=%d, cac time=%d\n", chan_rpt_req.chanNum, (int)(chan_rpt_req.bandcfg.chanWidth), chan_rpt_req.millisec_dwell_time); if (MLAN_STATUS_SUCCESS != woal_do_dfs_cac(priv, &chan_rpt_req)) { PRINTM(MERROR, "%s: woal_do_dfs_cac failed \n", __func__); ret = -EFAULT; } } } else { PRINTM(MCMND, "Stop Auto ZeroDFS\n"); if (woal_11h_cancel_chan_report_ioctl(priv, MOAL_IOCTL_WAIT)) PRINTM(MERROR, "%s: woal_11h_cancel_chan_report_ioctl failed \n", __func__); memset(&priv->chan_rpt_req, 0, sizeof(mlan_ds_11h_chan_rep_req)); memset(&priv->auto_dfs_cfg, 0, sizeof(auto_zero_dfs_cfg)); } done: LEAVE(); return ret; } #endif /** * @brief Set/Get CFP table codes * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cfp_code(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0; int data[2] = {0}; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_ds_misc_cfp_code *cfp_code = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CFP_CODE); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; cfp_code = &misc_cfg->param.cfp_code; misc_cfg->sub_command = MLAN_OID_MISC_CFP_CODE; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } cfp_code->cfp_code_bg = data[0]; if (user_data_len == 2) cfp_code->cfp_code_a = data[1]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { data[0] = cfp_code->cfp_code_bg; data[1] = cfp_code->cfp_code_a; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief mcast aggr group configure * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_mcast_aggr_group_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int header_len = 0; mcast_aggr_group *mcast_cfg = NULL; int index = 0; struct mcast_node *node = NULL; unsigned long flags; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MCAST_AGGR_GROUP); mcast_cfg = (mcast_aggr_group *)(respbuf + header_len); if (mcast_cfg->action == ACTION_ADD) { if (priv->num_mcast_addr >= MLAN_MAX_MULTICAST_LIST_SIZE) { PRINTM(MERROR, "mcast_aggr_group already full!\n"); ret = -EINVAL; goto done; } woal_add_mcast_node(priv, mcast_cfg->mcast_addr); } else if (mcast_cfg->action == ACTION_REMOVE) { woal_remove_mcast_node(priv, mcast_cfg->mcast_addr); } memset(mcast_cfg, 0, sizeof(mcast_aggr_group)); spin_lock_irqsave(&priv->mcast_lock, flags); list_for_each_entry (node, &priv->mcast_list, link) { moal_memcpy_ext(priv->phandle, &mcast_cfg->mac_list[index], node->mcast_addr, ETH_ALEN, ETH_ALEN); index++; } spin_unlock_irqrestore(&priv->mcast_lock, flags); mcast_cfg->num_mcast_addr = index; priv->num_mcast_addr = index; ret = header_len + sizeof(mcast_aggr_group); done: LEAVE(); return ret; } /** * @brief mcast aggr configure * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_mc_aggr_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_mc_aggr_cfg *mc_cfg; int ret = 0; int header_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_MC_AGGR_CFG; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MC_AGGR_CFG); mc_cfg = (mlan_ds_mc_aggr_cfg *)(respbuf + header_len); ioctl_req->action = mc_cfg->action; misc->param.mc_aggr_cfg.enable_bitmap = mc_cfg->enable_bitmap; misc->param.mc_aggr_cfg.mask_bitmap = mc_cfg->mask_bitmap; misc->param.mc_aggr_cfg.cts2self_offset = mc_cfg->cts2self_offset; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } mc_cfg->enable_bitmap = misc->param.mc_aggr_cfg.enable_bitmap; mc_cfg->mask_bitmap = misc->param.mc_aggr_cfg.mask_bitmap; mc_cfg->cts2self_offset = misc->param.mc_aggr_cfg.cts2self_offset; ret = header_len + sizeof(misc->param.mc_aggr_cfg); if (mc_cfg->mask_bitmap & MC_AGGR_CTRL) { if (mc_cfg->enable_bitmap & MC_AGGR_CTRL) priv->enable_mc_aggr = MTRUE; else priv->enable_mc_aggr = MFALSE; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief per peer stats configure * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_stats(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_stats *stats; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0; int header_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_STATS; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_STATS); stats = (mlan_ds_stats *)(respbuf + header_len); ioctl_req->action = stats->action; moal_memcpy_ext(priv->phandle, &misc->param.stats, stats, sizeof(mlan_ds_stats) + stats->tlv_len - 1, sizeof(mlan_ds_stats) + stats->tlv_len - 1); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf + header_len, (mlan_ds_stats *)&misc->param.stats, ioctl_req->buf_len, respbuflen - header_len); ret = header_len + ioctl_req->buf_len; done: LEAVE(); return ret; } /** * @brief get channel load results * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_get_ch_load_results(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_ch_load *cl_cfg; int ret = 0; int header_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CH_LOAD_RESULTS; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CH_LOAD_RESULTS); cl_cfg = (mlan_ds_ch_load *)(respbuf + header_len); ioctl_req->action = cl_cfg->action; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EAGAIN; goto done; } cl_cfg->ch_load_param = misc->param.ch_load.ch_load_param; cl_cfg->noise = misc->param.ch_load.noise; cl_cfg->rx_quality = misc->param.ch_load.rx_quality; ret = header_len + sizeof(misc->param.ch_load); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief get channel load * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return 0 --success, otherwise fail */ static int woal_priv_get_ch_load(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_ch_load *cl_cfg; int ret = 0; int header_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CH_LOAD; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CH_LOAD); cl_cfg = (mlan_ds_ch_load *)(respbuf + header_len); ioctl_req->action = cl_cfg->action; misc->param.ch_load.ch_load_param = cl_cfg->ch_load_param; misc->param.ch_load.noise = cl_cfg->noise; misc->param.ch_load.rx_quality = cl_cfg->rx_quality; misc->param.ch_load.duration = cl_cfg->duration; status = woal_request_ioctl(priv, ioctl_req, MOAL_NO_WAIT); if (status != MLAN_STATUS_SUCCESS && status != MLAN_STATUS_PENDING) { ret = -EFAULT; goto done; } ret = header_len + sizeof(misc->param.ch_load); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get Tx/Rx antenna * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_tx_rx_ant(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0; mlan_ds_radio_cfg *radio = NULL; mlan_ioctl_req *req = NULL; int data[3] = {0}; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ANT_CFG); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_radio_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } radio = (mlan_ds_radio_cfg *)req->pbuf; radio->sub_command = MLAN_OID_ANT_CFG; req->req_id = MLAN_IOCTL_RADIO_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (priv->phandle->feature_control & FEATURE_CTRL_STREAM_2X2) { radio->param.ant_cfg.tx_antenna = data[0]; radio->param.ant_cfg.rx_antenna = data[0]; if (user_data_len == 2) radio->param.ant_cfg.rx_antenna = data[1]; #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (IS_CARD9098(priv->phandle->card_type) || IS_CARD9097(priv->phandle->card_type)) { woal_cfg80211_notify_antcfg( priv, priv->phandle->wiphy, radio); } #endif } else { radio->param.ant_cfg_1x1.antenna = data[0]; if (user_data_len == 2) radio->param.ant_cfg_1x1.evaluate_time = data[1]; } req->action = MLAN_ACT_SET; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { if (priv->phandle->feature_control & FEATURE_CTRL_STREAM_2X2) { data[0] = radio->param.ant_cfg.tx_antenna; data[1] = radio->param.ant_cfg.rx_antenna; if (data[0] && data[1]) ret = sizeof(int) * 2; else ret = sizeof(int) * 1; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); } else { data[0] = (int)radio->param.ant_cfg_1x1.antenna; data[1] = (int)radio->param.ant_cfg_1x1.evaluate_time; data[2] = (int)radio->param.ant_cfg_1x1.current_antenna; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /* * @brief Set/Get CWMode * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_cwmode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_cw_mode_ctrl *cwmode; int ret = 0; int header_len = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CWMODE_CTRL; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CWMODE); if ((int)strlen(respbuf) == header_len) { /* GET operation */ ioctl_req->action = MLAN_ACT_GET; } else { /* SET operation */ ioctl_req->action = MLAN_ACT_SET; cwmode = (mlan_ds_cw_mode_ctrl *)(respbuf + header_len + sizeof(t_u8)); misc->param.cwmode.mode = cwmode->mode; misc->param.cwmode.txPower = cwmode->txPower; misc->param.cwmode.rateInfo = cwmode->rateInfo; misc->param.cwmode.channel = cwmode->channel; misc->param.cwmode.chanInfo = cwmode->chanInfo; misc->param.cwmode.pktLength = cwmode->pktLength; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&misc->param.cwmode, sizeof(misc->param.cwmode), respbuflen); ret = sizeof(misc->param.cwmode); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get out band independent reset * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_ind_rst_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0; mlan_ds_misc_cfg *misc = NULL; mlan_ioctl_req *req = NULL; int data[2] = {0}; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_IND_RST_CFG); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)req->pbuf; memset(misc, 0, sizeof(mlan_ds_misc_cfg)); misc->sub_command = MLAN_OID_MISC_IND_RST_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if ((user_data_len == 1) || (user_data_len == 2)) { req->action = MLAN_ACT_SET; /* ir_mode */ if (data[0] < 0 || data[0] > 2) { PRINTM(MERROR, "Invalid ir mode parameter!\n"); ret = -EINVAL; goto done; } misc->param.ind_rst_cfg.ir_mode = data[0]; /* gpio_pin */ if (user_data_len == 2) { if ((data[1] != 0xFF) && (data[1] < 0)) { PRINTM(MERROR, "Invalid gpio pin no!\n"); ret = -EINVAL; goto done; } misc->param.ind_rst_cfg.gpio_pin = data[1]; } } } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = (int)misc->param.ind_rst_cfg.ir_mode; data[1] = (int)misc->param.ind_rst_cfg.gpio_pin; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get/Set system clock * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_sysclock(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int data[65]; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int ret = 0, i = 0; int user_data_len = 0, header_len = 0; int data_length = 0, length_index = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SYSCLOCK); memset(data, 0, sizeof(data)); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len > MLAN_MAX_CLK_NUM) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_SYS_CLOCK; req->req_id = MLAN_IOCTL_MISC_CFG; if (user_data_len) { /* SET operation */ req->action = MLAN_ACT_SET; /* Set configurable clocks */ cfg->param.sys_clock.sys_clk_type = MLAN_CLK_CONFIGURABLE; cfg->param.sys_clock.sys_clk_num = MIN(MLAN_MAX_CLK_NUM, user_data_len); for (i = 0; i < cfg->param.sys_clock.sys_clk_num; i++) cfg->param.sys_clock.sys_clk[i] = (t_u16)data[i]; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } } else { /* GET operation */ req->action = MLAN_ACT_GET; /* Get configurable clocks */ cfg->param.sys_clock.sys_clk_type = MLAN_CLK_CONFIGURABLE; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } /* Current system clock */ data[1] = (int)cfg->param.sys_clock.cur_sys_clk; data_length = 1; length_index = MIN(cfg->param.sys_clock.sys_clk_num, MLAN_MAX_CLK_NUM); /* Configurable clocks */ for (i = 1; i <= length_index; i++) data[i + data_length] = (int)cfg->param.sys_clock.sys_clk[i - 1]; data_length += length_index; /* Get supported clocks */ cfg->param.sys_clock.sys_clk_type = MLAN_CLK_SUPPORTED; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } length_index = MIN(cfg->param.sys_clock.sys_clk_num, MLAN_MAX_CLK_NUM); /* Supported clocks */ for (i = 1; i <= length_index; i++) data[i + data_length] = (int)cfg->param.sys_clock.sys_clk[i - 1]; data_length += length_index; /* Send length as first element */ data[0] = data_length; data_length++; moal_memcpy_ext(priv->phandle, respbuf, data, sizeof(int) * data_length, respbuflen); ret = data_length * sizeof(int); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Get GTK/PTK * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_key(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0, copy_len = 0; int header_len = 0; unsigned int i; t_u8 key_ascii[256]; t_u8 *tmp; mlan_ds_sec_cfg *sec = NULL; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_GET_KEY); if ((int)strlen(respbuf) != header_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } memset(key_ascii, 0x00, sizeof(key_ascii)); tmp = key_ascii; if (priv->media_connected == MFALSE) { PRINTM(MERROR, "Can't get key in un-associated state\n"); ret = -EFAULT; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_sec_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Get Unicast Key */ req->req_id = MLAN_IOCTL_SEC_CFG; req->action = MLAN_ACT_GET; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_QUERY_KEY; sec->param.encrypt_key.key_index = 0; sec->param.encrypt_key.key_flags = 0; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (sec->param.encrypt_key.key_len) { sprintf((char *)tmp, "\n%s", "PTK: "); tmp += 5; for (i = 0; i < sec->param.encrypt_key.key_len; i++) tmp += sprintf((char *)tmp, "%02x", sec->param.encrypt_key.key_material[i]); } /* Get Multicase Key */ req->req_id = MLAN_IOCTL_SEC_CFG; req->action = MLAN_ACT_GET; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_QUERY_KEY; sec->param.encrypt_key.key_index = 0; sec->param.encrypt_key.key_flags = KEY_FLAG_GROUP_KEY; memset(sec->param.encrypt_key.mac_addr, 0x0, MLAN_MAC_ADDR_LENGTH); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (sec->param.encrypt_key.key_len) { sprintf((char *)tmp, "\n%s", "GTK: "); tmp += 5; for (i = 0; i < sec->param.encrypt_key.key_len; i++) tmp += sprintf((char *)tmp, "%02x", sec->param.encrypt_key.key_material[i]); } /* Get IGTK Key */ req->req_id = MLAN_IOCTL_SEC_CFG; req->action = MLAN_ACT_GET; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_QUERY_KEY; sec->param.encrypt_key.key_index = 0; sec->param.encrypt_key.key_flags = KEY_FLAG_AES_MCAST_IGTK; memset(sec->param.encrypt_key.mac_addr, 0x0, MLAN_MAC_ADDR_LENGTH); status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (sec->param.encrypt_key.key_len) { sprintf((char *)tmp, "\n%s", "IGTK: "); tmp += 6; for (i = 0; i < sec->param.encrypt_key.key_len; i++) tmp += sprintf((char *)tmp, "%02x", sec->param.encrypt_key.key_material[i]); } copy_len = tmp - key_ascii; moal_memcpy_ext(priv->phandle, respbuf, &key_ascii, copy_len, respbuflen); ret = copy_len; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Associate to a specific indexed entry in the ScanTable * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_associate_ssid_bssid(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0, copy_len = 0; int header_len = 0; mlan_ssid_bssid ssid_bssid; #ifdef REASSOCIATION mlan_bss_info bss_info; #endif char buf[64]; t_u8 buflen; t_u8 mac_idx; t_u8 i; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ASSOCIATE); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } copy_len = strlen(respbuf) - header_len; mac_idx = 0; buflen = MIN(copy_len, (int)(sizeof(buf) - 1)); memset(buf, 0, sizeof(buf)); memset(&ssid_bssid, 0, sizeof(ssid_bssid)); if (buflen < (3 * ETH_ALEN) + 2) { PRINTM(MERROR, "Associate: Insufficient length in IOCTL input\n"); /* buffer should be at least 3 characters per BSSID octet "00:" ** plus a space separater and at least 1 char in the SSID */ ret = -EINVAL; goto done; } moal_memcpy_ext(priv->phandle, buf, respbuf + header_len, buflen, sizeof(buf)); /* Skip white space */ for (i = 0; (i < buflen) && (buf[i] == ' '); i++) ; /* Copy/Convert the BSSID */ for (; (i < buflen) && (mac_idx < ETH_ALEN) && (buf[i] != ' '); i++) { if (buf[i] == ':') { mac_idx++; } else { ssid_bssid.bssid[mac_idx] = (t_u8)woal_atox(buf + i); while (((i < buflen) && isxdigit(buf[i + 1]))) /* Skip entire hex value */ i++; } } /* Skip one space between the BSSID and start of the SSID */ i++; /* Copy the SSID */ ssid_bssid.ssid.ssid_len = buflen - i; moal_memcpy_ext(priv->phandle, ssid_bssid.ssid.ssid, buf + i, sizeof(ssid_bssid.ssid.ssid), sizeof(ssid_bssid.ssid.ssid)); PRINTM(MCMND, "iwpriv assoc: AP=[" MACSTR "], ssid(%d)=[%s]\n", MAC2STR(ssid_bssid.bssid), (int)ssid_bssid.ssid.ssid_len, ssid_bssid.ssid.ssid); if (MLAN_STATUS_SUCCESS != woal_bss_start(priv, MOAL_IOCTL_WAIT, &ssid_bssid)) { ret = -EFAULT; goto done; } #ifdef REASSOCIATION memset(&bss_info, 0x00, sizeof(bss_info)); if (MLAN_STATUS_SUCCESS == woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info)) { moal_memcpy_ext(priv->phandle, &priv->prev_ssid_bssid.ssid, &bss_info.ssid, sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); moal_memcpy_ext(priv->phandle, &priv->prev_ssid_bssid.bssid, &bss_info.bssid, MLAN_MAC_ADDR_LENGTH, sizeof(mlan_802_11_mac_addr)); } #endif /* REASSOCIATION */ done: LEAVE(); return ret; } /* Maximum input output characters in group WOAL_SET_GET_256_CHAR */ #define MAX_IN_OUT_CHAR 256 /** Tx BF Global conf argument index */ #define BF_ENABLE_PARAM 1 #define SOUND_ENABLE_PARAM 2 #define FB_TYPE_PARAM 3 #define SNR_THRESHOLD_PARAM 4 #define SOUND_INTVL_PARAM 5 #define BF_MODE_PARAM 6 #define BF_CFG_ACT_GET 0 #define BF_CFG_ACT_SET 1 /** * @brief Set/Get Transmit beamforming configuration * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_tx_bf_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0; int ret = 0, copy_len = 0; int bf_action = 0, interval = 0; int snr = 0, i, tmp_val = 0; t_u8 buf[MAX_IN_OUT_CHAR], char_count = 0; t_u8 *str, *token, *pos; t_u16 action = 0; mlan_ds_11n_tx_bf_cfg bf_cfg; mlan_trigger_sound_args *bf_sound = NULL; mlan_tx_bf_peer_args *tx_bf_peer = NULL; mlan_snr_thr_args *bf_snr = NULL; mlan_bf_periodicity_args *bf_periodicity = NULL; mlan_bf_global_cfg_args *bf_global = NULL; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TX_BF_CFG); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } memset(&bf_cfg, 0, sizeof(bf_cfg)); /* Pointer to corresponding buffer */ bf_sound = bf_cfg.body.bf_sound; tx_bf_peer = bf_cfg.body.tx_bf_peer; bf_snr = bf_cfg.body.bf_snr; bf_periodicity = bf_cfg.body.bf_periodicity; bf_global = &bf_cfg.body.bf_global_cfg; /* Total characters in buffer */ char_count = strlen(respbuf) - header_len; copy_len = char_count; memset(buf, 0, sizeof(buf)); if (char_count) { if (copy_len > (int)sizeof(buf)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } moal_memcpy_ext(priv->phandle, buf, respbuf + header_len, copy_len, sizeof(buf)); if (char_count > 1 && buf[1] != ';') { PRINTM(MERROR, "No action argument. Separate with ';'\n"); ret = -EINVAL; goto done; } /* Replace ';' with NULL in the string to separate args */ for (i = 0; i < char_count; i++) { if (buf[i] == ';') buf[i] = '\0'; } /* The first byte represents the beamforming action */ if (woal_atoi(&bf_action, &buf[0]) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } switch (bf_action) { case BF_GLOBAL_CONFIGURATION: if (char_count == 1) { action = MLAN_ACT_GET; bf_cfg.action = BF_CFG_ACT_GET; } else { action = MLAN_ACT_SET; bf_cfg.action = BF_CFG_ACT_SET; /* Eliminate action field */ token = &buf[2]; for (i = 1, str = &buf[2]; token != NULL; i++) { token = strstr(str, " "); pos = str; if (token != NULL) { *token = '\0'; str = token + 1; } woal_atoi(&tmp_val, pos); switch (i) { case BF_ENABLE_PARAM: bf_global->bf_enbl = (t_u8)tmp_val; break; case SOUND_ENABLE_PARAM: bf_global->sounding_enbl = (t_u8)tmp_val; break; case FB_TYPE_PARAM: bf_global->fb_type = (t_u8)tmp_val; break; case SNR_THRESHOLD_PARAM: bf_global->snr_threshold = (t_u8)tmp_val; break; case SOUND_INTVL_PARAM: bf_global->sounding_interval = (t_u16)tmp_val; break; case BF_MODE_PARAM: bf_global->bf_mode = (t_u8)tmp_val; break; default: PRINTM(MERROR, "Invalid Argument\n"); ret = -EINVAL; goto done; } } } break; case TRIGGER_SOUNDING_FOR_PEER: /* First arg = 2 BfAction * Second arg = 17 MAC "00:50:43:20:BF:64" */ if (char_count != 19) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } woal_mac2u8(bf_sound->peer_mac, &buf[2]); action = MLAN_ACT_SET; bf_cfg.action = BF_CFG_ACT_SET; break; case SET_GET_BF_PERIODICITY: /* First arg = 2 BfAction * Second arg = 18 MAC "00:50:43:20:BF:64;" * Third arg = 1 (min char) TX BF interval * 10 (max char) u32 maximum value * 4294967295 */ if (char_count < 19 || char_count > 30) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } woal_mac2u8(bf_periodicity->peer_mac, &buf[2]); if (char_count == 19) { action = MLAN_ACT_GET; bf_cfg.action = BF_CFG_ACT_GET; } else { action = MLAN_ACT_SET; bf_cfg.action = BF_CFG_ACT_SET; if (woal_atoi(&interval, &buf[20]) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } bf_periodicity->interval = interval; } break; case TX_BF_FOR_PEER_ENBL: /* Handle only SET operation here * First arg = 2 BfAction * Second arg = 18 MAC "00:50:43:20:BF:64;" * Third arg = 2 enable/disable bf * Fourth arg = 2 enable/disable sounding * Fifth arg = 1 FB Type */ if (char_count != 25 && char_count != 1) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } if (char_count == 1) { action = MLAN_ACT_GET; bf_cfg.action = BF_CFG_ACT_GET; } else { woal_mac2u8(tx_bf_peer->peer_mac, &buf[2]); woal_atoi(&tmp_val, &buf[20]); tx_bf_peer->bf_enbl = (t_u8)tmp_val; woal_atoi(&tmp_val, &buf[22]); tx_bf_peer->sounding_enbl = (t_u8)tmp_val; woal_atoi(&tmp_val, &buf[24]); tx_bf_peer->fb_type = (t_u8)tmp_val; action = MLAN_ACT_SET; bf_cfg.action = BF_CFG_ACT_SET; } break; case SET_SNR_THR_PEER: /* First arg = 2 BfAction * Second arg = 18 MAC "00:50:43:20:BF:64;" * Third arg = 1/2 SNR u8 - can be 1/2 charerters */ if (char_count != 1 && !(char_count == 21 || char_count == 22)) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } if (char_count == 1) { action = MLAN_ACT_GET; bf_cfg.action = BF_CFG_ACT_GET; } else { woal_mac2u8(bf_snr->peer_mac, &buf[2]); if (woal_atoi(&snr, &buf[20]) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } bf_snr->snr = snr; action = MLAN_ACT_SET; bf_cfg.action = BF_CFG_ACT_SET; } break; default: ret = -EINVAL; goto done; } /* Save the value */ bf_cfg.bf_action = bf_action; if (MLAN_STATUS_SUCCESS != woal_set_get_tx_bf_cfg(priv, action, &bf_cfg)) { ret = -EFAULT; goto done; } } else { ret = -EINVAL; goto done; } switch (bf_action) { case BF_GLOBAL_CONFIGURATION: moal_memcpy_ext(priv->phandle, respbuf, bf_global, sizeof(mlan_bf_global_cfg_args), respbuflen); ret = sizeof(mlan_bf_global_cfg_args); break; case TRIGGER_SOUNDING_FOR_PEER: moal_memcpy_ext(priv->phandle, respbuf, bf_sound, sizeof(mlan_bf_global_cfg_args), respbuflen); ret = sizeof(mlan_bf_global_cfg_args); break; case SET_GET_BF_PERIODICITY: moal_memcpy_ext(priv->phandle, respbuf, bf_periodicity, sizeof(mlan_bf_periodicity_args), respbuflen); ret = sizeof(mlan_bf_periodicity_args); break; case TX_BF_FOR_PEER_ENBL: moal_memcpy_ext(priv->phandle, respbuf, tx_bf_peer, sizeof(mlan_tx_bf_peer_args), respbuflen); ret = sizeof(mlan_tx_bf_peer_args); break; case SET_SNR_THR_PEER: moal_memcpy_ext(priv->phandle, respbuf, bf_snr, sizeof(mlan_snr_thr_args), respbuflen); ret = sizeof(mlan_snr_thr_args); break; /** Default case not required as bf_action value already * sanitized */ } done: LEAVE(); return ret; } #ifdef SDIO /** * @brief Cmd53 read/write register * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cmd53rdwr(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0; int ret = 0; t_u8 *buf = NULL; t_u8 *data = NULL; t_u8 rw, mode; t_u16 blklen = 0, blknum = 0; int reg = 0; t_u32 pattern_len = 0, total_len = 0; t_u16 cmd_len; gfp_t flag; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_SD_CMD53_RW); flag = (in_atomic() || irqs_disabled()) ? GFP_ATOMIC : GFP_KERNEL; data = kzalloc(WOAL_2K_BYTES, flag); if (!data) { PRINTM(MERROR, "Cannot allocate buffer for command!\n"); ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, &cmd_len, respbuf + header_len, sizeof(cmd_len), sizeof(cmd_len)); buf = respbuf + header_len + sizeof(cmd_len); rw = buf[0]; /* read/write (0/1) */ reg = buf[5]; /* address */ reg = (reg << 8) | buf[4]; reg = (reg << 8) | buf[3]; reg = (reg << 8) | buf[2]; mode = buf[6]; /* byte mode/block mode (0/1) */ blklen = buf[8]; /* block size */ blklen = (blklen << 8) | buf[7]; blknum = buf[10]; /* block number or byte number */ blknum = (blknum << 8) | buf[9]; if (mode == BYTE_MODE) blklen = 1; else mode = BLOCK_MODE; total_len = (mode == BLOCK_MODE) ? blknum * blklen : blknum; if (total_len > WOAL_2K_BYTES) { PRINTM(MERROR, "Total data length is too large!\n"); ret = -EINVAL; goto done; } PRINTM(MINFO, "CMD53 read/write, addr = %#x, mode = %d, " "block size = %d, block(byte) number = %d\n", reg, mode, blklen, blknum); if (!rw) { sdio_claim_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (sdio_readsb( ((struct sdio_mmc_card *)priv->phandle->card)->func, respbuf, reg, total_len)) { PRINTM(MERROR, "sdio_readsb: reading memory 0x%x failed\n", reg); goto done; } sdio_release_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); ret = total_len; } else { int pos = 0; pattern_len = cmd_len - 11; if (pattern_len > total_len) pattern_len = total_len; /* Copy/duplicate the pattern to data buffer */ for (pos = 0; pos < (int)total_len; pos++) data[pos] = buf[11 + (pos % pattern_len)]; sdio_claim_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); if (sdio_writesb( ((struct sdio_mmc_card *)priv->phandle->card)->func, reg, data, total_len)) PRINTM(MERROR, "sdio_writesb: writing memory 0x%x failed\n", reg); sdio_release_host( ((struct sdio_mmc_card *)priv->phandle->card)->func); } done: kfree(data); LEAVE(); return ret; } #endif /* SDIO */ /** * @brief Set/Get Port Control mode * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_port_ctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; mlan_ioctl_req *req = NULL; mlan_ds_sec_cfg *sec = NULL; int ret = 0, data = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_sec_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_CFG_PORT_CTRL_ENABLED; req->req_id = MLAN_IOCTL_SEC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PORT_CTRL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len == 1) { sec->param.port_ctrl_enabled = data; req->action = MLAN_ACT_SET; } else { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, &sec->param.port_ctrl_enabled, sizeof(int), respbuflen); ret = sizeof(int); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Private IOCTL entry to get the By-passed TX packet from * upper layer * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_bypassed_packet(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0; int ret = 0; struct sk_buff *skb = NULL; struct ethhdr *eth; t_u16 moreLen = 0, copyLen = 0; ENTER(); #define MLAN_BYPASS_PKT_EXTRA_OFFSET (4) header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PB_BYPASS); copyLen = strlen(respbuf) - header_len; moreLen = MLAN_MIN_DATA_HEADER_LEN + MLAN_BYPASS_PKT_EXTRA_OFFSET + sizeof(mlan_buffer); skb = alloc_skb(copyLen + moreLen, GFP_KERNEL); if (skb == NULL) { PRINTM(MERROR, "kmalloc no memory !!\n"); LEAVE(); return -ENOMEM; } skb_reserve(skb, moreLen); moal_memcpy_ext(priv->phandle, skb_put(skb, copyLen), respbuf + header_len, copyLen, copyLen); eth = (struct ethhdr *)skb->data; eth->h_proto = __constant_htons(eth->h_proto); skb->dev = priv->netdev; HEXDUMP("Bypass TX Data", skb->data, MIN(skb->len, 100)); woal_hard_start_xmit(skb, priv->netdev); LEAVE(); return ret; } /** * @brief Set Robustcoex gpiocfg * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_robustcoex(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[3] = {0}; mlan_ds_misc_cfg *robust_coex_cfg = NULL; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } robust_coex_cfg = (mlan_ds_misc_cfg *)req->pbuf; while (respbuf[0] == ' ') { /** skip space */ respbuf++; } if (strncmp(respbuf, "gpiocfg", strlen("gpiocfg")) == 0) { header_len = strlen("gpiocfg") + 1; parse_arguments(respbuf + header_len, data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len > 3) { PRINTM(MERROR, "Invalid parameter number\n"); ret = -EINVAL; goto done; } if (data[0] != ROBUSTCOEX_GPIOCFG_ENABLE && data[0] != ROBUSTCOEX_GPIOCFG_DISABLE) { PRINTM(MERROR, "Invalid parameter number\n"); ret = -EINVAL; goto done; } if (data[0] == ROBUSTCOEX_GPIOCFG_ENABLE) { if (user_data_len != 3) { PRINTM(MMSG, "Please provide gpio num and gpio polarity for ROBUSTCOEX_GPIOCFG_ENABLE\n"); ret = -EINVAL; goto done; } robust_coex_cfg->param.robustcoexparams.method = ROBUSTCOEX_GPIO_CFG; robust_coex_cfg->param.robustcoexparams.enable = ROBUSTCOEX_GPIOCFG_ENABLE; robust_coex_cfg->param.robustcoexparams.gpio_num = data[1]; robust_coex_cfg->param.robustcoexparams.gpio_polarity = data[2]; } else { robust_coex_cfg->param.robustcoexparams.method = ROBUSTCOEX_GPIO_CFG; robust_coex_cfg->param.robustcoexparams.enable = ROBUSTCOEX_GPIOCFG_DISABLE; robust_coex_cfg->param.robustcoexparams.gpio_num = 0; robust_coex_cfg->param.robustcoexparams.gpio_polarity = 0; } req->action = MLAN_ACT_SET; req->req_id = MLAN_IOCTL_MISC_CFG; robust_coex_cfg->sub_command = MLAN_OID_MISC_ROBUSTCOEX; } else { PRINTM(MERROR, "Invalid parameter\n"); ret = -EFAULT; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set DMCS mapping policy or get DMCS status * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dmcs(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[2] = {0}; mlan_ds_misc_cfg *dmcs_cfg = NULL; mlan_ioctl_req *req = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DMCS); dmcs_cfg = (mlan_ds_misc_cfg *)req->pbuf; parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } req->req_id = MLAN_IOCTL_MISC_CFG; dmcs_cfg->sub_command = MLAN_OID_MISC_DMCS_CONFIG; dmcs_cfg->param.dmcs_policy.subcmd = data[0]; switch (data[0]) { case 0: if (user_data_len != 2) { PRINTM(MERROR, "Please provide mapping policy\n"); ret = -EINVAL; goto done; } req->action = MLAN_ACT_SET; dmcs_cfg->param.dmcs_policy.mapping_policy = data[1]; break; case 1: req->action = MLAN_ACT_GET; break; default: break; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (req->action == MLAN_ACT_GET) { moal_memcpy_ext(priv->phandle, respbuf, &dmcs_cfg->param.dmcs_status, sizeof(mlan_ds_misc_dmcs_status), respbuflen); } ret = sizeof(mlan_ds_misc_dmcs_status); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set and get boot sleep configure * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_bootsleep(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = MLAN_STATUS_SUCCESS; int user_data_len = 0; int header_len = 0; int allowed = 1; int data[1] = {0}; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { LEAVE(); return -ENOMEM; } misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_BOOT_SLEEP; req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_BOOTSLEEP); if ((int)strlen(respbuf) == header_len) { req->action = MLAN_ACT_GET; } else { req->action = MLAN_ACT_SET; parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != allowed) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } misc->param.boot_sleep = data[0] ? 1 : 0; PRINTM(MIOCTL, "boot sleep cfg:%u\n", misc->param.boot_sleep); } ret = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT_TIMEOUT); if (ret != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, &misc->param.boot_sleep, sizeof(misc->param.boot_sleep), respbuflen); ret = sizeof(misc->param.boot_sleep); PRINTM(MIOCTL, "boot sleep cfg: %u\n", misc->param.boot_sleep); done: if (ret != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * * @brief Set and get txwatchdog check * * @param priv Pointer to moal_private structure * * @param respbuf Pointer to response buffer * * @param resplen Response buffer length * * * * @return Number of bytes written, negative for failure. * */ static int woal_priv_txwatchdog(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int header_len = 0; int user_data_len = 0; int data[1] = {0}; int allowed = 1; t_u32 action; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TXWATCHDOG); if (strlen(respbuf) == header_len) { action = MLAN_ACT_GET; ret = sizeof(t_u32); } else { action = MLAN_ACT_SET; parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != allowed) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } } if (action == MLAN_ACT_SET) { priv->txwatchdog_disable = ((*data == 0) ? MTRUE : MFALSE); } else { *data = ((priv->txwatchdog_disable == MTRUE) ? 0 : 1); } memcpy(respbuf, data, sizeof(t_u32)); PRINTM(MINFO, "priv->txwatchdog_disable:%u, action:%u, data[0]=%d\n", priv->txwatchdog_disable, action, data[0]); done: LEAVE(); return ret; } #if defined(PCIE) /** * @brief Enable SSU support * @param priv Pointer to moal_private structure * @param used_len used length * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_ssu_cmd(moal_private *priv, t_u8 used_len, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ds_misc_cfg *ssu_cfg = NULL; mlan_ioctl_req *req = NULL; ssu_params_cfg *ssu_params; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } ssu_cfg = (mlan_ds_misc_cfg *)req->pbuf; memset(&ssu_cfg->param.ssu_params, 0, sizeof(mlan_ds_ssu_params)); if (!used_len) { req->action = MLAN_ACT_SET; ssu_cfg->param.ssu_params.nskip = 0; ssu_cfg->param.ssu_params.nsel = 1; ssu_cfg->param.ssu_params.adcdownsample = 3; ssu_cfg->param.ssu_params.mask_adc_pkt = 0; ssu_cfg->param.ssu_params.out_16bits = 1; } else { ssu_params = (ssu_params_cfg *)respbuf; DBG_HEXDUMP(MCMD_D, "User SSU params:", respbuf, sizeof(mlan_ds_ssu_params)); if (ssu_params->ssu_mode == 2) req->action = MLAN_ACT_DEFAULT; else { req->action = MLAN_ACT_SET; ssu_cfg->param.ssu_params.nskip = ssu_params->nskip; ssu_cfg->param.ssu_params.nsel = ssu_params->nsel; ssu_cfg->param.ssu_params.adcdownsample = ssu_params->adcdownsample; ssu_cfg->param.ssu_params.mask_adc_pkt = ssu_params->mask_adc_pkt; ssu_cfg->param.ssu_params.out_16bits = ssu_params->out_16bits; ssu_cfg->param.ssu_params.spec_pwr_enable = ssu_params->spec_pwr_enable; ssu_cfg->param.ssu_params.rate_deduction = ssu_params->rate_deduction; ssu_cfg->param.ssu_params.n_pkt_avg = ssu_params->n_pkt_avg; } } req->req_id = MLAN_IOCTL_MISC_CFG; ssu_cfg->sub_command = MLAN_OID_MISC_SSU; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #endif /** * @brief Configure the hal/phy cfg params * * The command structure contains the following parameters * dot11b_psd_mask: 1: enable, 0: disable * Reserved : reserved 7 params for future such use * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_hal_phy_cfg_cmd(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int ret = 0; mlan_ds_hal_phy_cfg_params *data_ptr; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = (mlan_ds_hal_phy_cfg_params *)respbuf; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_MISC_CFG; cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_HAL_PHY_CFG; cfg->param.hal_phy_cfg_params.dot11b_psd_mask_cfg = data_ptr->dot11b_psd_mask_cfg; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Enable/disable CSI support * * The command structure contains the following parameters * csi_enable: 1: enable, 0: diable * csi_filter_cnt: Number of CSI filters * csi_filter: CSI filters * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_csi_cmd(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *cfg = NULL; int ret = 0; mlan_ds_csi_params *data_ptr; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); data_ptr = (mlan_ds_csi_params *)respbuf; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_MISC_CFG; cfg = (mlan_ds_misc_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_MISC_CSI; cfg->param.csi_params.csi_enable = data_ptr->csi_enable; if (data_ptr->csi_enable == 1) { cfg->param.csi_params.head_id = data_ptr->head_id; cfg->param.csi_params.tail_id = data_ptr->tail_id; cfg->param.csi_params.csi_filter_cnt = data_ptr->csi_filter_cnt; cfg->param.csi_params.chip_id = data_ptr->chip_id; if (cfg->param.csi_params.csi_filter_cnt > CSI_FILTER_MAX) cfg->param.csi_params.csi_filter_cnt = CSI_FILTER_MAX; moal_memcpy_ext(priv->phandle, cfg->param.csi_params.csi_filter, data_ptr->csi_filter, sizeof(mlan_csi_filter_t) * cfg->param.csi_params.csi_filter_cnt, sizeof(mlan_csi_filter_t) * CSI_FILTER_MAX); } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief configure 11ax HE capability or HE operation * * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param len length used * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative value */ static int woal_priv_11axcfg_cmd(moal_private *priv, t_u8 *respbuf, t_u8 len, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_11ax_cfg *cfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11ax_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11AX_CFG; req->action = MLAN_ACT_SET; cfg = (mlan_ds_11ax_cfg *)req->pbuf; cfg->sub_command = MLAN_OID_11AX_HE_CFG; if (len) moal_memcpy_ext(priv->phandle, (t_u8 *)&cfg->param.he_cfg, respbuf, len, sizeof(mlan_ds_11ax_he_cfg)); else req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg->param.he_cfg, sizeof(mlan_ds_11ax_he_cfg), respbuflen); ret = sizeof(mlan_ds_11ax_he_cfg); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Configure TWT Setup parameters * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param len Length used * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative * value */ static int woal_priv_twt_setup(moal_private *priv, t_u8 *respbuf, t_u8 len, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_twtcfg *cfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_twtcfg)); if (req == NULL) { PRINTM(MERROR, "Failed to allocate ioctl_req!\n"); ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11AX_CFG; req->action = MLAN_ACT_SET; cfg = (mlan_ds_twtcfg *)req->pbuf; cfg->sub_command = MLAN_OID_11AX_TWT_CFG; cfg->sub_id = MLAN_11AX_TWT_SETUP_SUBID; if (len) { moal_memcpy_ext(priv->phandle, (t_u8 *)&cfg->param.twt_setup, respbuf, len, sizeof(mlan_ds_twt_setup)); } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "woal_request_ioctl failed!\n"); ret = -EFAULT; goto done; } ret = sizeof(mlan_ds_twt_setup); done: if (status != MLAN_STATUS_PENDING) { kfree(req); } LEAVE(); return ret; } /** * @brief Configure TWT Tear down parameters * * @param priv Pointer to the mlan_private driver data struct * @param respbuf A pointer to response buffer * @param len Length used * @param respbuflen Available length of response buffer * * @return Number of bytes written if successful else negative * value */ static int woal_priv_twt_teardown(moal_private *priv, t_u8 *respbuf, t_u8 len, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_twtcfg *cfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_twtcfg)); if (req == NULL) { PRINTM(MERROR, "Failed to allocate ioctl_req!\n"); ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_11AX_CFG; req->action = MLAN_ACT_SET; cfg = (mlan_ds_twtcfg *)req->pbuf; cfg->sub_command = MLAN_OID_11AX_TWT_CFG; cfg->sub_id = MLAN_11AX_TWT_TEARDOWN_SUBID; if (len) { moal_memcpy_ext(priv->phandle, (t_u8 *)&cfg->param.twt_teardown, respbuf, len, sizeof(mlan_ds_twt_teardown)); } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "woal_request_ioctl failed!\n"); ret = -EFAULT; goto done; } ret = sizeof(mlan_ds_twt_teardown); done: if (status != MLAN_STATUS_PENDING) { kfree(req); } LEAVE(); return ret; } #ifdef WIFI_DIRECT_SUPPORT #if defined(UAP_CFG80211) /** * @brief Set/Get P2P NoA (Notice of Absence) parameters * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cfg_noa(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[7]; mlan_ds_wifi_direct_config noa_cfg; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CFG_NOA); memset(&noa_cfg, 0, sizeof(noa_cfg)); memset(data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 5) { PRINTM(MERROR, "invalid parameters\n"); ret = -EINVAL; goto done; } noa_cfg.flags |= WIFI_DIRECT_NOA; if (woal_p2p_config(priv, MLAN_ACT_GET, &noa_cfg) != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Could not get P2P noa config\n"); ret = -EINVAL; goto done; } if ((int)strlen(respbuf) == header_len) { /* GET operation */ moal_memcpy_ext(priv->phandle, respbuf, &noa_cfg, sizeof(noa_cfg), respbuflen); ret = sizeof(noa_cfg); } else { switch (user_data_len) { case 5: noa_cfg.noa_interval = (t_u32)data[4]; /* fall through */ case 4: noa_cfg.noa_duration = (t_u32)data[3]; /* fall through */ case 3: if (data[2] < 1 || data[2] > 255) { PRINTM(MERROR, "Invalid number of absence intervals\n"); ret = -EINVAL; goto done; } noa_cfg.noa_count = (t_u8)data[2]; /* fall through */ case 2: if (data[1] < 0 || data[1] > 255) { PRINTM(MERROR, "Invalid Index\n"); ret = -EINVAL; goto done; } noa_cfg.index = (t_u16)data[1]; /* fall through */ case 1: if (data[0] < 0 || data[0] > 1) { PRINTM(MERROR, "Invalid noa enable\n"); ret = -EINVAL; goto done; } noa_cfg.noa_enable = (t_u8)data[0]; noa_cfg.flags |= WIFI_DIRECT_NOA; break; default: break; } if (woal_p2p_config(priv, MLAN_ACT_SET, &noa_cfg) != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "woal_p2p_config fail\n"); ret = -EFAULT; } } done: LEAVE(); return ret; } /** * @brief Set/Get P2P OPP-PS parameters * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cfg_opp_ps(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[7]; mlan_ds_wifi_direct_config opp_ps_cfg; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CFG_OPP_PS); memset(&opp_ps_cfg, 0, sizeof(opp_ps_cfg)); memset(data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "invalid parameters\n"); ret = -EINVAL; goto done; } opp_ps_cfg.flags |= WIFI_DIRECT_OPP_PS; if (woal_p2p_config(priv, MLAN_ACT_GET, &opp_ps_cfg) != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Could not get P2P opp ps config\n"); ret = -EINVAL; goto done; } if ((int)strlen(respbuf) == header_len) { /* GET operation */ moal_memcpy_ext(priv->phandle, respbuf, &opp_ps_cfg, sizeof(opp_ps_cfg), respbuflen); ret = sizeof(opp_ps_cfg); } else { switch (user_data_len) { case 2: opp_ps_cfg.ct_window = (t_u8)data[1]; /* fall through */ case 1: if (data[0] < 0 || data[0] > 1) { PRINTM(MERROR, "Invalid ps enable\n"); ret = -EINVAL; goto done; } opp_ps_cfg.opp_ps_enable = (t_u8)data[0]; opp_ps_cfg.flags |= WIFI_DIRECT_OPP_PS; /* fall through */ default: break; } if (woal_p2p_config(priv, MLAN_ACT_SET, &opp_ps_cfg) != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "woal_p2p_config fail\n"); ret = -EINVAL; } } done: LEAVE(); return ret; } #endif #endif /** * @brief Set/Get GPIO TSF latch clock sync config parameters * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cfg_clock_sync(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[5]; mlan_ds_gpio_tsf_latch *clock_sync_cfg = NULL; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CFG_CLOCK_SYNC); memset(data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 5) { PRINTM(MERROR, "invalid parameters\n"); ret = -EINVAL; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ req->req_id = MLAN_IOCTL_MISC_CFG; misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; misc_cfg->sub_command = MLAN_OID_MISC_GPIO_TSF_LATCH; clock_sync_cfg = &misc_cfg->param.gpio_tsf_latch_config; memset(clock_sync_cfg, 0, sizeof(mlan_ds_gpio_tsf_latch)); if ((int)strlen(respbuf) == header_len) { /* GET operation */ req->action = MLAN_ACT_GET; user_data_len = 0; } else { req->action = MLAN_ACT_SET; switch (user_data_len) { case 5: clock_sync_cfg->clock_sync_gpio_pulse_width = (t_u16)data[4]; /* fall through */ case 4: if (data[3] < 0 || data[3] > 1) { PRINTM(MERROR, "Invalid Level/Trigger\n"); ret = -EINVAL; goto done; } clock_sync_cfg->clock_sync_gpio_level_toggle = (t_u8)data[3]; /* fall through */ case 3: if (data[2] < 1 || data[2] > 255) { PRINTM(MERROR, "Invalid number of GPIO Pin Number\n"); ret = -EINVAL; goto done; } clock_sync_cfg->clock_sync_gpio_pin_number = (t_u8)data[2]; /* fall through */ case 2: if (data[1] < 0 || data[1] > 2) { PRINTM(MERROR, "Invalid Role\n"); ret = -EINVAL; goto done; } clock_sync_cfg->clock_sync_Role = (t_u8)data[1]; /* fall through */ case 1: if (data[0] < 0 || data[0] > 2) { PRINTM(MERROR, "Invalid Mode\n"); ret = -EINVAL; goto done; } clock_sync_cfg->clock_sync_mode = (t_u8)data[0]; break; default: break; } } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)clock_sync_cfg, sizeof(mlan_ds_gpio_tsf_latch), respbuflen); ret = sizeof(mlan_ds_gpio_tsf_latch); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get GPIO TSF latch get tsf info config parameters * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_cfg_get_tsf_info(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[1]; mlan_ds_tsf_info *tsf_info; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CFG_GET_TSF_INFO); memset(data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 1) { PRINTM(MERROR, "invalid parameters\n"); ret = -EINVAL; goto done; } /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; misc_cfg->sub_command = MLAN_OID_MISC_GET_TSF_INFO; tsf_info = &misc_cfg->param.tsf_info; memset(tsf_info, 0, sizeof(mlan_ds_tsf_info)); if (user_data_len == 1) { if (data[0] < 0 || data[0] > 1) { PRINTM(MERROR, "Invalid tsf Format\n"); ret = -EINVAL; goto done; } tsf_info->tsf_format = data[0]; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)tsf_info, sizeof(mlan_ds_tsf_info), respbuflen); ret = sizeof(mlan_ds_tsf_info); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef UAP_SUPPORT /** * @brief Set/Get target channel * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_target_channel(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[1]; ENTER(); if (!priv || (priv->bss_type != MLAN_BSS_TYPE_UAP)) { PRINTM(MERROR, "priv is null or interface is not AP"); ret = -EFAULT; LEAVE(); return ret; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TARGET_CHANNEL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len > 1) { PRINTM(MERROR, "Invalid parameter number\n"); ret = -EINVAL; goto done; } if (user_data_len) priv->target_chan = data[0]; } data[0] = priv->target_chan; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(int); done: LEAVE(); return ret; } /** * @brief Set/Get backup channel * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_backup_channel(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int header_len = 0, user_data_len = 0; int ret = 0, data[1]; ENTER(); if (!priv || (priv->bss_type != MLAN_BSS_TYPE_UAP)) { PRINTM(MERROR, "priv is null or interface is not AP"); ret = -EFAULT; LEAVE(); return ret; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_BACKUP_CHANNEL); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len > 1) { PRINTM(MERROR, "Invalid parameter number\n"); ret = -EINVAL; goto done; } if (user_data_len) priv->backup_chan = data[0]; } data[0] = priv->backup_chan; moal_memcpy_ext(priv->phandle, respbuf, &data, sizeof(data), respbuflen); ret = sizeof(int); done: LEAVE(); return ret; } #endif #if defined(STA_CFG80211) || defined(UAP_CFG80211) #ifdef WIFI_DIRECT_SUPPORT #define DEF_NOA_INTERVAL 100 /** ** @brief Set/Get P2P NoA (Notice of Absence) parameters ** @param priv Pointer to moal_private structure ** @param respbuf Pointer to response buffer ** @param resplen Response buffer length ** ** @return Number of bytes written, negative for failure. **/ static int woal_p2p_ps_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int user_data_len = 0; int ret = 0, data[2]; u32 duration = priv->phandle->noa_duration; u32 interval = 0; ENTER(); if (strlen(respbuf) > strlen("P2P_PERIODIC_SLEEP")) { memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen("P2P_PERIODIC_SLEEP") + 1, data, ARRAY_SIZE(data), &user_data_len); } if ((user_data_len != 1) && (user_data_len != 2)) { PRINTM(MERROR, " Invalid parameter number for P2P_PERIODIC_SLEEP"); ret = -EINVAL; goto done; } if (data[0] < DEF_NOA_INTERVAL) interval = DEF_NOA_INTERVAL; else interval = (data[0] + DEF_NOA_INTERVAL - 1) / DEF_NOA_INTERVAL * DEF_NOA_INTERVAL; if (user_data_len == 2) duration = data[1]; if (duration >= interval) { PRINTM(MERROR, " Invalid noa duration/interval! duration=%d interval=%d\n", duration, interval); ret = -EINVAL; goto done; } priv->phandle->noa_interval = interval; priv->phandle->noa_duration = duration; PRINTM(MIOCTL, "configure noa interval=%d, duration=%d\n", priv->phandle->noa_interval, priv->phandle->noa_duration); done: LEAVE(); return ret; } #endif #endif /** * @brief Set/Get DFS repeater mode * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dfs_repeater_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0, data[1] = {0}; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc_cfg = NULL; mlan_ds_misc_dfs_repeater *dfs_repeater = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS_REPEATER_CFG); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ req->req_id = MLAN_IOCTL_MISC_CFG; misc_cfg = (mlan_ds_misc_cfg *)req->pbuf; misc_cfg->sub_command = MLAN_OID_MISC_DFS_REAPTER_MODE; dfs_repeater = (mlan_ds_misc_dfs_repeater *)&misc_cfg->param.dfs_repeater; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } if ((data[0] != MTRUE) && (data[0] != MFALSE)) { PRINTM(MERROR, "Invalid DFS repeater mode %d\n", data[0]); ret = -EINVAL; goto done; } dfs_repeater->mode = (t_u16)data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)dfs_repeater, sizeof(mlan_ds_misc_dfs_repeater), respbuflen); ret = sizeof(mlan_ds_misc_dfs_repeater); } /* Store current value of DFS repeater mode for futher references. eg., * for avoiding CAC timers */ priv->phandle->dfs_repeater_mode = dfs_repeater->mode; done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_CFG80211) || defined(UAP_CFG80211) /** * @brief Set/Get MIRACAST configuration parameters * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_miracast_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0, data[3] = {0, 0, 0}; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_MIRACAST_CFG); if ((int)strlen(respbuf) == header_len) { /* GET operation */ data[0] = priv->phandle->miracast_mode; data[1] = priv->phandle->miracast_scan_time; data[2] = priv->phandle->scan_chan_gap; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); } else { /* SET operation */ memset(data, 0, sizeof(data)); parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 3) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } if (data[0] < 0 || data[0] > 2 || data[1] < 0 || data[2] < 0) { PRINTM(MERROR, "Invalid argument\n"); ret = -EINVAL; goto done; } } if (user_data_len >= 1) priv->phandle->miracast_mode = (t_u8)data[0]; if (user_data_len >= 2) priv->phandle->miracast_scan_time = (t_u16)data[1]; if (user_data_len == 3) priv->phandle->scan_chan_gap = (t_u16)data[2]; done: LEAVE(); return ret; } /** * @brief Configuring scan gap for miracast mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return 0 --success, otherwise failure */ static int woal_set_scan_chan_gap(moal_private *priv, t_u8 *respbuf, int respbuflen) { t_u32 data[2]; int ret = 0; int user_data_len = 0; ENTER(); if (strlen(respbuf) > strlen("SCAN_TIMING")) { memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen("SCAN_TIMING") + 1, data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len != 2) { PRINTM(MERROR, "Invalid arguments for scan timing\n"); ret = -EINVAL; goto done; } priv->phandle->miracast_scan_time = (t_u16)data[0]; priv->phandle->scan_chan_gap = (t_u16)data[1]; done: LEAVE(); return ret; } #endif #endif /** * @brief Set/Get control to coex RX window size configuration * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_coex_rx_winsize(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0, data = 0; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_COEX_RX_WINSIZE); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ req->req_id = MLAN_IOCTL_11N_CFG; cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_COEX_RX_WINSIZE; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } if ((data != MTRUE) && (data != MFALSE)) { PRINTM(MERROR, "Invalid coex RX window size parameter %d\n", data); ret = -EINVAL; goto done; } cfg_11n->param.coex_rx_winsize = data; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg_11n->param.coex_rx_winsize, sizeof(t_u32), respbuflen); ret = sizeof(t_u32); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get control to TX AMPDU configuration on infra link * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_txaggrctrl(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0, data = 0; mlan_ioctl_req *req = NULL; mlan_ds_11n_cfg *cfg_11n = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TX_AGGR_CTRL); /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11n_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ req->req_id = MLAN_IOCTL_11N_CFG; cfg_11n = (mlan_ds_11n_cfg *)req->pbuf; cfg_11n->sub_command = MLAN_OID_11N_CFG_TX_AGGR_CTRL; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } if ((data != MTRUE) && (data != MFALSE)) { PRINTM(MERROR, "Invalid txaggrctrl parameter %d\n", data); ret = -EINVAL; goto done; } cfg_11n->param.txaggrctrl = data; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!user_data_len) { moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&cfg_11n->param.txaggrctrl, sizeof(t_u32), respbuflen); ret = sizeof(t_u32); } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get control to enable/disable auto TDLS * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_auto_tdls(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0, data = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_AUTO_TDLS); if ((int)strlen(respbuf) == header_len) { /* GET operation */ data = priv->enable_auto_tdls; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } if ((data != MTRUE) && (data != MFALSE)) { PRINTM(MERROR, "Invalid autotdls parameter %d\n", data); ret = -EINVAL; goto done; } priv->enable_auto_tdls = (t_u8)data; } done: LEAVE(); return ret; } #ifdef PCIE /** * @brief Read/Write PCIE register * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_pcie_reg_rw(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { moal_handle *handle = priv->phandle; int data[3]; t_u32 reg; t_u32 value; int ret = MLAN_STATUS_SUCCESS; int user_data_len = 0, header_len = 0; ENTER(); memset(data, 0, sizeof(data)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PCIE_REG_RW); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if ((user_data_len != 1) && (user_data_len != 2)) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } reg = (t_u32)data[0]; if (user_data_len == 1) { if (moal_read_reg(handle, reg, &value)) { ret = -EFAULT; goto done; } data[1] = value; } else { value = data[1]; if (moal_write_reg(handle, reg, value)) { ret = -EFAULT; goto done; } } moal_memcpy_ext(handle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: LEAVE(); return ret; } /** * @brief Read/Write PCIE register/memory from BAR0 * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_pcie_bar0_reg_rw(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { moal_handle *handle = priv->phandle; pcie_service_card *card = (pcie_service_card *)handle->card; int data[3]; t_u32 reg; t_u32 value; int ret = MLAN_STATUS_SUCCESS; int user_data_len = 0, header_len = 0; ENTER(); memset(data, 0, sizeof(data)); header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_PCIE_BAR0_REG_RW); if ((int)strlen(respbuf) == header_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if ((user_data_len != 1) && (user_data_len != 2)) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } reg = (t_u32)data[0]; if (user_data_len == 1) { value = ioread32(card->pci_mmap + reg); if (value == MLAN_STATUS_FAILURE) { ret = -EFAULT; goto done; } data[1] = value; } else { value = data[1]; iowrite32(value, card->pci_mmap + reg); } moal_memcpy_ext(handle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: LEAVE(); return ret; } #endif /** * @brief Get SOC temperature * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_get_sensor_temp(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *pcfg = NULL; int ret = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } pcfg = (mlan_ds_misc_cfg *)req->pbuf; pcfg->sub_command = MLAN_OID_MISC_GET_SENSOR_TEMP; req->req_id = MLAN_IOCTL_MISC_CFG; req->action = MLAN_ACT_GET; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } memset(respbuf, 0, respbuflen); moal_memcpy_ext(priv->phandle, respbuf, &pcfg->param.sensor_temp.temperature, sizeof(t_u32), respbuflen); ret = sizeof(t_u32); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) #if defined(STA_CFG80211) || defined(UAP_CFG80211) /** * @brief Enable/disable DFS offload * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_dfs_offload_enable(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0, dfs_offload_en = 0, user_data_len = 0, header_len = 0, dfs_offload; ENTER(); if (!priv) { PRINTM(MERROR, "priv is NULL\n"); ret = -EFAULT; goto done; } dfs_offload = moal_extflg_isset(priv->phandle, EXT_DFS_OFFLOAD); if (woal_is_any_interface_active(priv->phandle)) { PRINTM(MERROR, "DFS offload enable/disable do not allowed after BSS started!\n"); ret = -EFAULT; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DFS_OFFLOAD); parse_arguments(respbuf + header_len, &dfs_offload_en, sizeof(dfs_offload_en) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } if (dfs_offload_en != 0 && dfs_offload_en != 1) { PRINTM(MERROR, "Invalid args!\n"); ret = -EINVAL; goto done; } if (dfs_offload != dfs_offload_en) { dfs_offload = dfs_offload_en; if (dfs_offload) moal_extflg_set(priv->phandle, EXT_DFS_OFFLOAD); else moal_extflg_clear(priv->phandle, EXT_DFS_OFFLOAD); } done: LEAVE(); return ret; } #endif #endif /** * @brief Set/Get TDLS CS off channel value * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_tdls_cs_chan(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0; int user_data_len = 0, header_len = 0, data = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_TDLS_CS_CHANNEL; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen("TDLS_CS_CHAN"); if ((int)strlen(respbuf) == header_len) { /* GET operation */ ioctl_req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len + 1, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } ioctl_req->action = MLAN_ACT_SET; misc->param.tdls_cs_channel = (t_u8)data; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } ret = sprintf(respbuf, "off channel %d\n", misc->param.tdls_cs_channel) + 1; PRINTM(MIOCTL, "tdls CS channel %d\n", misc->param.tdls_cs_channel); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get TDLS idle timeout value * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_tdls_idle_time(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0; int user_data_len = 0, header_len = 0, data = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_TDLS_IDLE_TIME; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TDLS_IDLE_TIME); if ((int)strlen(respbuf) == header_len) { /* GET operation */ ioctl_req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } ioctl_req->action = MLAN_ACT_SET; misc->param.tdls_idle_time = (t_u16)data; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&misc->param.tdls_idle_time, sizeof(t_u16), respbuflen); ret = sizeof(t_u16); PRINTM(MIOCTL, "tdls idle time %d\n", misc->param.tdls_idle_time); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Set/Get dynamic bandwidth * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_config_dyn_bw(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0; int user_data_len = 0, header_len = 0, data = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_DYN_BW; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DYN_BW); if ((int)strlen(respbuf) == header_len) { /* GET operation */ ioctl_req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, sizeof(data) / sizeof(int), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid number of args! %d\n", user_data_len); ret = -EINVAL; goto done; } ioctl_req->action = MLAN_ACT_SET; misc->param.dyn_bw = (t_u16)data; } status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&misc->param.dyn_bw, sizeof(t_u16), respbuflen); ret = sizeof(t_u16); PRINTM(MIOCTL, "Dynamic bandwidth %d\n", misc->param.dyn_bw); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } #if defined(UAP_SUPPORT) /** * @brief Check validation of channel and oper class * * @param priv Pointer to moal_private structure * @param channel channel * @param oper_class oper_class * @return SUCCESS/FAIL */ static int woal_check_valid_channel_operclass(moal_private *priv, int channel, int oper_class) { int ret = 0; mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_OPER_CLASS_CHECK; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; ioctl_req->action = MLAN_ACT_GET; misc->param.bw_chan_oper.oper_class = (t_u8)oper_class; misc->param.bw_chan_oper.channel = (t_u8)channel; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Enable radar detect for DFS channel * * @param priv A pointer to moal private structure * @param chan channel * @return N/A */ static void woal_enable_dfs(moal_private *priv, t_u8 channel, t_u8 wait_option) { mlan_ioctl_req *req = NULL; mlan_ds_11h_chan_rep_req *pchan_rpt_req = NULL; mlan_ds_11h_cfg *p11h_cfg = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); PRINTM(MCMND, "Enable Radar detect, chan %d\n", channel); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_11h_cfg)); if (NULL == req) { PRINTM(MIOCTL, "No Memory to allocate ioctl buffer\n"); LEAVE(); return; } p11h_cfg = (mlan_ds_11h_cfg *)req->pbuf; pchan_rpt_req = &p11h_cfg->param.chan_rpt_req; pchan_rpt_req->startFreq = 5000; pchan_rpt_req->chanNum = channel; pchan_rpt_req->host_based = MTRUE; pchan_rpt_req->millisec_dwell_time = 0; p11h_cfg->sub_command = MLAN_OID_11H_CHANNEL_CHECK; req->req_id = MLAN_IOCTL_11H_CFG; req->action = MLAN_ACT_SET; /* Send Channel Check command and wait until the report is ready */ status = woal_request_ioctl(priv, req, wait_option); if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return; } /** * @brief send CSA/ECSA action frame * ** @param priv Pointer to moal_private structure * @param block_tx 0-no need block traffic 1- need block traffic * @param oper_class oper_class * @param channel channel * @param switch count how many csa/ecsa beacon will send out * @param wait_option * * @return channel center frequency center, if found; O, otherwise */ static int woal_action_channel_switch(moal_private *priv, t_u8 block_tx, t_u8 oper_class, t_u8 channel, t_u8 switch_count, t_u8 wait_option) { mlan_status ret = MLAN_STATUS_SUCCESS; mlan_ds_bss *bss = NULL; mlan_ioctl_req *req = NULL; ENTER(); req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_bss)); if (req == NULL) { ret = MLAN_STATUS_FAILURE; goto done; } bss = (mlan_ds_bss *)req->pbuf; bss->sub_command = MLAN_OID_ACTION_CHAN_SWITCH; req->req_id = MLAN_IOCTL_BSS; req->action = MLAN_ACT_SET; bss->param.chanswitch.chan_switch_mode = block_tx; bss->param.chanswitch.new_channel_num = channel; if (!switch_count) bss->param.chanswitch.chan_switch_count = DEF_NUM_PKTS; else bss->param.chanswitch.chan_switch_count = MIN(switch_count, MAX_NUM_PKTS); bss->param.chanswitch.new_oper_class = oper_class; ret = woal_request_ioctl(priv, req, wait_option); done: if (ret != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } #ifdef UAP_SUPPORT /** * @brief move the uAP to transition channel * * @param priv Pointer to moal_private structure * * @return N/A */ void woal_move_to_next_channel(moal_private *priv) { mlan_ds_11h_chan_dfs_state ch_dfs; t_u8 next_chan = 0; if (priv->target_chan) { next_chan = priv->target_chan; priv->target_chan = 0; } else if (priv->backup_chan) { next_chan = priv->backup_chan; } if (!next_chan) return; memset(&ch_dfs, 0, sizeof(ch_dfs)); ch_dfs.channel = next_chan; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs)) PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); if (ch_dfs.dfs_required) woal_enable_dfs(priv, next_chan, MOAL_NO_WAIT); woal_action_channel_switch(priv, MTRUE, 0, next_chan, 0, MOAL_NO_WAIT); return; } #endif /** * @brief Set extended channel switch ie * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * * @return Number of bytes written, negative for failure. */ static int woal_priv_extend_channel_switch(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0; int data[5] = {0}; mlan_ds_11h_chan_dfs_state ch_dfs; ENTER(); if (!priv || !priv->phandle || (priv->bss_role != MLAN_BSS_ROLE_UAP) || (priv->bss_started != MTRUE)) { PRINTM(MERROR, "priv or handle is null or interface is not AP/GO" "or AP is not started\n"); ret = -EFAULT; LEAVE(); return ret; } parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_EXTEND_CHAN_SWITCH), data, ARRAY_SIZE(data), &user_data_len); if (sizeof(int) * user_data_len > sizeof(data)) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; LEAVE(); return ret; } if (user_data_len < 4) { PRINTM(MERROR, "Too few arguments\n"); ret = -EINVAL; LEAVE(); return ret; } memset(&ch_dfs, 0, sizeof(ch_dfs)); ch_dfs.channel = data[2]; if (woal_11h_chan_dfs_state(priv, MLAN_ACT_GET, &ch_dfs)) { PRINTM(MERROR, "%s: woal_11h_chan_dfs_state failed \n", __func__); ret = -EFAULT; LEAVE(); return ret; } if (ch_dfs.dfs_required && (ch_dfs.dfs_state == DFS_UNAVAILABLE || ch_dfs.dfs_state == DFS_USABLE)) { PRINTM(MERROR, "DFS: Channel=%d is not Available, cannot switch to this channel\n", data[2]); ret = -EFAULT; LEAVE(); return ret; } if (ch_dfs.dfs_required) woal_enable_dfs(priv, data[2], MOAL_IOCTL_WAIT); if (data[1]) { if (woal_check_valid_channel_operclass(priv, data[2], data[1])) { PRINTM(MERROR, "Wrong channel switch parameters!\n"); ret = -EINVAL; goto done; } } if (data[3]) woal_channel_switch(priv, data[0], data[1], data[2], data[3], data[4], MFALSE); else woal_action_channel_switch(priv, data[0], data[1], data[2], data[4], MOAL_IOCTL_WAIT); done: LEAVE(); return ret; } /** * @brief P2P extended channel switch * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_p2p_ecsa(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int user_data_len = 0, header_len = 0; int data[2] = {0}; t_u8 bw = 0, oper_class = 0, channel = 0; IEEEtypes_ExtChanSwitchAnn_t *ext_chan_switch = NULL; custom_ie *pcust_chansw_ie = NULL; mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } if (priv->bss_role != MLAN_BSS_ROLE_UAP) { PRINTM(MERROR, "Extended Channel Switch is only allowed for AP/GO mode\n"); ret = -EFAULT; goto done; } if (priv->bss_started != MTRUE) { PRINTM(MERROR, "AP is not started!\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CUSTOM_IE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; ioctl_req->action = MLAN_ACT_SET; misc->param.cust_ie.type = TLV_TYPE_MGMT_IE; misc->param.cust_ie.len = (sizeof(custom_ie) - MAX_IE_SIZE); pcust_chansw_ie = (custom_ie *)&misc->param.cust_ie.ie_data_list[0]; pcust_chansw_ie->ie_index = 0xffff; /*Auto index */ pcust_chansw_ie->ie_length = sizeof(IEEEtypes_ExtChanSwitchAnn_t); pcust_chansw_ie->mgmt_subtype_mask = MGMT_MASK_BEACON | MGMT_MASK_PROBE_RESP; /*Add IE for BEACON/probe resp*/ ext_chan_switch = (IEEEtypes_ExtChanSwitchAnn_t *)pcust_chansw_ie->ie_buffer; header_len = strlen("P2P_ECSA"); parse_arguments(respbuf + header_len + 1, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 2) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EFAULT; goto done; } channel = data[0]; /* bandwidth 20:20M 40:40M 80:80M*/ bw = data[1]; if (bw != 20 && bw != 40 && bw != 80) { PRINTM(MERROR, "Unsupported bandwidth\n"); ret = -EINVAL; goto done; } if (channel >= 52 && channel <= 144) { PRINTM(MERROR, "Switch to DFS channel is not allowed!\n"); ret = -EINVAL; goto done; } woal_priv_get_nonglobal_operclass_by_bw_channel(priv, bw, channel, &oper_class); if (oper_class == 0) { PRINTM(MERROR, "Wrong parameters!\n"); ret = -EFAULT; goto done; } ext_chan_switch->element_id = EXTEND_CHANNEL_SWITCH_ANN; ext_chan_switch->len = 4; ext_chan_switch->chan_switch_mode = 1; ext_chan_switch->new_oper_class = oper_class; ext_chan_switch->new_channel_num = channel; ext_chan_switch->chan_switch_count = DEF_CHAN_SWITCH_COUNT; if (ext_chan_switch->chan_switch_mode) { if (netif_carrier_ok(priv->netdev)) netif_carrier_off(priv->netdev); woal_stop_queue(priv->netdev); priv->uap_tx_blocked = MTRUE; } DBG_HEXDUMP(MCMD_D, "ECSA IE", (t_u8 *)pcust_chansw_ie->ie_buffer, pcust_chansw_ie->ie_length); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } priv->phandle->chsw_wait_q_woken = MFALSE; /* wait for channel switch to complete */ wait_event_interruptible_timeout( priv->phandle->chsw_wait_q, priv->phandle->chsw_wait_q_woken, (u32)HZ * (ext_chan_switch->chan_switch_count + 2) * 110 / 1000); pcust_chansw_ie->ie_index = 0xffff; /*Auto index */ pcust_chansw_ie->mgmt_subtype_mask = 0; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Failed to clear ECSA IE\n"); } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } #endif /** * @brief Set random mac configure value (ON/OFF) * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_config_random_mac(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; int header_len = 0, space_len = 0, i; t_u8 rand_data[3]; const t_u8 zero_mac[MLAN_MAC_ADDR_LENGTH] = {0, 0, 0, 0, 0, 0}; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } header_len = strlen("FAKEMAC"); if ((int)strlen(respbuf) >= header_len) { for (i = 0; i < (int)(strlen(respbuf) - header_len - 1); i++) { if (respbuf[header_len + 1 + i] != ' ') break; } space_len = i; if (strncmp(respbuf + header_len + 1 + space_len, "On", strlen("On")) == 0) { if (memcmp(priv->random_mac, zero_mac, MLAN_MAC_ADDR_LENGTH)) { ret = sprintf(respbuf, "FAKEMAC has been On\n") + 1; goto done; } moal_memcpy_ext(priv->phandle, priv->random_mac, priv->current_addr, ETH_ALEN, MLAN_MAC_ADDR_LENGTH); get_random_bytes(rand_data, 3); moal_memcpy_ext(priv->phandle, priv->random_mac + 3, rand_data, 3, 3); PRINTM(MMSG, "FAKEMAC parameter is On\n"); } else if (strncmp(respbuf + header_len + 1 + space_len, "Off", strlen("Off")) == 0) { memset(priv->random_mac, 0, ETH_ALEN); PRINTM(MMSG, "FAKEMAC parameter is Off\n"); } else { PRINTM(MERROR, "Invalid parameter!\n"); ret = -EINVAL; goto done; } } else { PRINTM(MERROR, "Invalid parameter!\n"); ret = -EINVAL; goto done; } done: LEAVE(); return ret; } /** * @brief enable/disable roaming offload to firmware * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_set_roam_offload(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int user_data_len = 0, header_len = 0, ret = 0; int data = 0; #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) t_u8 enable = 0; #endif #endif ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) { ret = -EFAULT; goto done; } #endif #endif header_len = strlen("SETROAMOFFLOAD"); parse_arguments(respbuf + header_len + 1, &data, 1, &user_data_len); if (data < 0 || data > 5) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) if (!data) { woal_cfg80211_vendor_event(priv, event_set_key_mgmt_offload, &enable, sizeof(enable)); } #endif #endif ret = woal_enable_fw_roaming(priv, data); done: LEAVE(); return ret; } /** * @brief set roaming offload aplist to firmware * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_set_roam_offload_aplist(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_ds_misc_roam_offload *roam = NULL; mlan_ds_misc_roam_offload_aplist *aplist = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0, i = 0; int user_data_len = 0, header_len = 0; int ap_count = 0; char *begin = NULL, *end = NULL; t_u8 mac_addr[6]; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) { ret = -EFAULT; goto done; } #endif #endif ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_ROAM_OFFLOAD_APLIST; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; roam = (mlan_ds_misc_roam_offload *)&misc->param.roam_offload; /*Set enable to invalid value(valid: 0, 1, 2)*/ roam->enable = 3; aplist = &roam->aplist; header_len = strlen("SETROAMOFFLAPLIST"); user_data_len = strlen(respbuf) - header_len; if (!user_data_len) { /* GET operation */ ioctl_req->action = MLAN_ACT_GET; } else { begin = &respbuf[header_len + 1]; end = begin; while (begin && *begin == ' ') { begin++; end++; } while (end && *end != ' ') end++; if (end != NULL) *end = '\0'; end++; if (begin) { if (woal_atoi(&ap_count, begin) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } } aplist->ap_num = ap_count; if (ap_count > 0 && ap_count <= MAX_AP_LIST) { /* SET operation */ ioctl_req->action = MLAN_ACT_SET; for (i = 0; i < ap_count; i++) { begin = end; while (begin && *begin == ' ') { begin++; end++; } while (end && *end != ' ' && *end != '\0') end++; if (end == begin) { PRINTM(MERROR, "AP number %d is wrong\n", ap_count); ret = -EINVAL; goto done; } if (end != NULL) *end = '\0'; end++; woal_mac2u8(mac_addr, begin); moal_memcpy_ext(priv->phandle, aplist->ap_mac[i], mac_addr, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); } } else { PRINTM(MERROR, "AP number is wrong.Support max 8 APs\n"); ret = -EINVAL; goto done; } } DBG_HEXDUMP(MERROR, "APLIST", (t_u8 *)aplist->ap_mac, aplist->ap_num * MLAN_MAC_ADDR_LENGTH); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Configure roaming offload to firmware * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_roam_offload_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0, user_data_len = 0, header_len = 0, data = 0; char *begin = NULL, *end = NULL, *pvariable_name = NULL; t_u8 mac_addr[MLAN_MAC_ADDR_LENGTH]; woal_roam_offload_cfg roam_offload_cfg; t_u8 len = 0; int count = 0, i = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) { ret = -EFAULT; goto done; } #endif #endif memset((char *)&roam_offload_cfg, 0, sizeof(roam_offload_cfg)); header_len = strlen("CFGROAMOFFLOAD"); user_data_len = strlen(respbuf) - header_len; if (!user_data_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } roam_offload_cfg.band_rssi.band_preferred = 0xff; roam_offload_cfg.trigger_condition = 0xff; end = &respbuf[header_len]; while (((t_u8 *)end - &respbuf[header_len]) < user_data_len - 1) { end++; begin = end; while (begin && *begin == ' ') { begin++; end++; } while (end && *end != ' ' && *end != '\0' && *end != '=') end++; if (end == begin) { PRINTM(MERROR, "Invalid command specified!\n"); ret = -EINVAL; goto done; } if (end) *end = '\0'; pvariable_name = begin; if (((t_u8 *)end - &respbuf[header_len]) >= user_data_len) { PRINTM(MERROR, "Invalid command length!\n"); ret = -EINVAL; goto done; } end++; begin = end; while (begin && (*begin == ' ' || *begin == '=')) { begin++; end++; } while (end && *end != ' ' && *end != '\0' && *end != '=') end++; if (end == begin) { PRINTM(MERROR, "Invalid command specified!\n"); ret = -EINVAL; goto done; } if (end != NULL) *end = '\0'; if (pvariable_name && begin) { if (strcmp(pvariable_name, "AUTO_RECONNECT") == 0) { woal_atoi(&data, begin); } else if (strcmp(pvariable_name, "BSSID") == 0) { woal_mac2u8(mac_addr, begin); moal_memcpy_ext(priv->phandle, roam_offload_cfg.bssid, mac_addr, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); } else if (strcmp(pvariable_name, "BLACKLIST") == 0) { if (woal_atoi(&count, begin) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } if (count > 0 && count <= MAX_AP_LIST) { roam_offload_cfg.black_list.ap_num = count; for (i = 0; i < count; i++) { end++; begin = end; while (begin && *begin == ' ') { begin++; end++; } while (end && *end != ' ' && *end != '\0') end++; if (end == begin) { PRINTM(MERROR, "BSSID %d is wrong\n", count); ret = -EINVAL; goto done; } if (end != NULL) *end = '\0'; woal_mac2u8(mac_addr, begin); moal_memcpy_ext( priv->phandle, roam_offload_cfg .black_list .ap_mac[i], mac_addr, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); } } else { PRINTM(MERROR, "BSSID number is wrong.Support max %d BSSIDs\n", MAX_AP_LIST); ret = -EINVAL; goto done; } } else if (strcmp(pvariable_name, "SSID") == 0) { if (woal_atoi(&count, begin) != MLAN_STATUS_SUCCESS) { ret = -EINVAL; goto done; } if (count > 0 && count <= MAX_SSID_NUM) { roam_offload_cfg.ssid_list.ssid_num = count; for (i = 0; i < count; i++) { end++; begin = end; while (begin && *begin == ' ') { begin++; end++; } while (end && *end != ' ' && *end != '\0') { end++; len++; } if ((end == begin) || len >= MLAN_MAX_SSID_LENGTH) { PRINTM(MERROR, "SSID %d is wrong\n", count); ret = -EINVAL; goto done; } if (end != NULL) *end = '\0'; roam_offload_cfg.ssid_list .ssids[i] .ssid_len = len + 1; moal_memcpy_ext( priv->phandle, (t_u8 *)&roam_offload_cfg .ssid_list .ssids[i] .ssid, begin, len + 1, MLAN_MAX_SSID_LENGTH); len = 0; } } else { PRINTM(MERROR, "SSID number is wrong.Support max %d SSIDs\n", MAX_SSID_NUM); ret = -EINVAL; goto done; } } else if (strcmp(pvariable_name, "RETRY_COUNT") == 0) { woal_atoi(&data, begin); roam_offload_cfg.retry_count = (t_u8)data; } else if (strcmp(pvariable_name, "TRIGGER_CONDITION") == 0) { woal_atoi(&data, begin); roam_offload_cfg.trigger_condition = (t_u16)data; } else if (strcmp(pvariable_name, "MAX_RSSI") == 0) { woal_atoi(&data, begin); roam_offload_cfg.max_rssi = (t_u8)data; roam_offload_cfg.rssi_param_set_flag = 1; } else if (strcmp(pvariable_name, "MIN_RSSI") == 0) { woal_atoi(&data, begin); roam_offload_cfg.min_rssi = (t_u8)data; roam_offload_cfg.rssi_param_set_flag = 1; } else if (strcmp(pvariable_name, "STEP_RSSI") == 0) { woal_atoi(&data, begin); roam_offload_cfg.step_rssi = (t_u8)data; roam_offload_cfg.rssi_param_set_flag = 1; } else if (strcmp(pvariable_name, "BAND_PREFER") == 0) { woal_atoi(&data, begin); roam_offload_cfg.band_rssi.band_preferred = (t_u8)data; roam_offload_cfg.band_rssi_flag = 1; } else if (strcmp(pvariable_name, "RSSI_HYSTERESIS") == 0) { woal_atoi(&data, begin); roam_offload_cfg.band_rssi.rssi_hysteresis = (t_u8)data; roam_offload_cfg.band_rssi_flag = 1; } else if (strcmp(pvariable_name, "BSSTYPE") == 0) { woal_atoi(&data, begin); roam_offload_cfg.bgscan_cfg.bss_type = (t_u8)data; roam_offload_cfg.bgscan_set_flag++; } else if (strcmp(pvariable_name, "CHANSPERSCAN") == 0) { woal_atoi(&data, begin); roam_offload_cfg.bgscan_cfg.channels_per_scan = (t_u8)data; roam_offload_cfg.bgscan_set_flag++; } else if (strcmp(pvariable_name, "BGRPTCONDITION") == 0) { woal_atoi(&data, begin); roam_offload_cfg.bgscan_cfg.bg_rpt_condition = (t_u32)data; roam_offload_cfg.bgscan_set_flag++; } else if (strcmp(pvariable_name, "SCANINTERVAL") == 0) { woal_atoi(&data, begin); roam_offload_cfg.bgscan_cfg.scan_interval = (t_u32)data; roam_offload_cfg.bgscan_set_flag++; } else if (strcmp(pvariable_name, "EESMODE") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.ees_mode = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "EESRPTCONDITION") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.ees_rpt_condition = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "HIGHSCANPERIOD") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.high_scan_period = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "HIGHSCANCOUNT") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.high_scan_count = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "MIDSCANPERIOD") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.mid_scan_period = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "MIDSCANCOUNT") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.mid_scan_count = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "LOWSCANPERIOD") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.low_scan_period = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "LOWSCANCOUNT") == 0) { woal_atoi(&data, begin); roam_offload_cfg.ees_cfg.low_scan_count = (t_u16)data; roam_offload_cfg.ees_param_set_flag++; } else if (strcmp(pvariable_name, "BCNMISSTHRESHOLD") == 0) { woal_atoi(&data, begin); roam_offload_cfg.bcn_miss_threshold = (t_u8)data; } else if (strcmp(pvariable_name, "PREBCNMISSTHRESHOLD") == 0) { woal_atoi(&data, begin); roam_offload_cfg.pre_bcn_miss_threshold = (t_u8)data; } else if (strcmp(pvariable_name, "REPEATCOUNT") == 0) { woal_atoi(&data, begin); roam_offload_cfg.repeat_count = (t_u16)data; } else { PRINTM(MERROR, "Un-support parameter: %s\n", pvariable_name); ret = -EINVAL; goto done; } } } if (priv->phandle->fw_roam_enable == AUTO_RECONNECT) { moal_memcpy_ext(priv->phandle, priv->phandle->auto_reconnect_bssid, roam_offload_cfg.bssid, MLAN_MAC_ADDR_LENGTH, sizeof(mlan_802_11_mac_addr)); moal_memcpy_ext(priv->phandle, &priv->phandle->auto_reconnect_ssid, &roam_offload_cfg.ssid_list.ssids[0], sizeof(mlan_802_11_ssid), sizeof(mlan_802_11_ssid)); priv->phandle->auto_reconnect_retry_count = (t_u8)data; } else { if (moal_extflg_isset(priv->phandle, EXT_ROAMOFFLOAD_IN_HS)) moal_memcpy_ext(priv->phandle, (void *)&priv->phandle->fw_roam_params, (void *)&roam_offload_cfg, sizeof(roam_offload_cfg), sizeof(priv->phandle->fw_roam_params)); else { if (woal_config_fw_roaming(priv, ROAM_OFFLOAD_PARAM_CFG, &roam_offload_cfg)) { PRINTM(MERROR, "%s: config fw roaming failed \n", __func__); ret = -EFAULT; } } } done: LEAVE(); return ret; } /** * @brief Configure roaming SSID passphrase * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_set_roam_passphrase(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_sec_cfg *sec = NULL; int ret = 0, action = -1; int user_data_len = 0, header_len = 0; char *begin, *end, *opt, *item; mlan_status status = MLAN_STATUS_SUCCESS; woal_roam_offload_cfg roam_offload_cfg; mlan_ds_passphrase *ssid_passphrase = NULL; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) { ret = -EFAULT; goto done; } #endif #endif memset((char *)&roam_offload_cfg, 0, sizeof(roam_offload_cfg)); header_len = strlen("SETROAMPASSPHRASE"); user_data_len = strlen(respbuf) - header_len; if (!user_data_len) { PRINTM(MERROR, "Invalid number of parameters\n"); ret = -EINVAL; goto done; } /* Parse the buf to get the cmd_action */ begin = respbuf + header_len; while (begin && *begin == ' ') begin++; end = woal_strsep(&begin, ';', '/'); if (end) action = woal_atox(end); PRINTM(MMSG, "action= %d\n", action); if (action != 1 || end[1] != '\0') { PRINTM(MERROR, "Invalid action argument %s\n", end); ret = -EINVAL; goto done; } req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_sec_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } req->req_id = MLAN_IOCTL_SEC_CFG; sec = (mlan_ds_sec_cfg *)req->pbuf; sec->sub_command = MLAN_OID_SEC_CFG_PASSPHRASE; sec->multi_passphrase = 1; req->action = MLAN_ACT_SET; /*Parse the buffer like "ssid=xxx passphrase=xxxx;ssid=xxx * passphrase=xxx"*/ while (begin) { while (begin && *begin == ' ') begin++; end = woal_strsep(&begin, ';', '/'); item = woal_strsep(&end, ' ', '/'); opt = woal_strsep(&item, '=', '/'); while (opt) { if (roam_offload_cfg.userset_passphrase >= MAX_SEC_SSID_NUM - 1) { PRINTM(MERROR, "Support max %d security SSIDs!\n", MAX_SEC_SSID_NUM); break; } ssid_passphrase = &sec->param.roam_passphrase [roam_offload_cfg.userset_passphrase]; if (!opt || !item || !end) { PRINTM(MERROR, "Invalid option\n"); ret = -EINVAL; goto done; } else if (!strnicmp(opt, "ssid", strlen(opt))) { if (strlen(end) > MLAN_MAX_SSID_LENGTH) { PRINTM(MERROR, "SSID length exceeds max length\n"); ret = -EFAULT; goto done; } ssid_passphrase->ssid.ssid_len = strlen(item); strncpy((char *)ssid_passphrase->ssid.ssid, item, MIN(strlen(item), MLAN_MAX_SSID_LENGTH)); PRINTM(MINFO, "ssid=%s, len=%d\n", ssid_passphrase->ssid.ssid, (int)ssid_passphrase->ssid.ssid_len); } else if (!strnicmp(opt, "passphrase", strlen(opt)) && req->action == MLAN_ACT_SET) { if (strlen(item) < MLAN_MIN_PASSPHRASE_LENGTH || strlen(item) > MLAN_MAX_PASSPHRASE_LENGTH) { PRINTM(MERROR, "Invalid length for passphrase\n"); ret = -EINVAL; goto done; } ssid_passphrase->psk_type = MLAN_PSK_PASSPHRASE; moal_memcpy_ext(priv->phandle, ssid_passphrase->psk.passphrase .passphrase, item, strlen(item), MLAN_MAX_PASSPHRASE_LENGTH); ssid_passphrase->psk.passphrase.passphrase_len = strlen(item); PRINTM(MINFO, "passphrase=%s, len=%d\n", ssid_passphrase->psk.passphrase .passphrase, (int)ssid_passphrase->psk.passphrase .passphrase_len); } else { PRINTM(MERROR, "Invalid option %s\n", opt); ret = -EINVAL; goto done; } if (!end || *end == '\0') break; while (end && *end == ' ') end++; item = woal_strsep(&end, ' ', '/'); opt = woal_strsep(&item, '=', '/'); } roam_offload_cfg.userset_passphrase++; } if (moal_extflg_isset(priv->phandle, EXT_ROAMOFFLOAD_IN_HS)) { moal_memcpy_ext(priv->phandle, (char *)priv->phandle->ssid_passphrase, (char *)sec->param.roam_passphrase, MAX_SEC_SSID_NUM * sizeof(mlan_ds_passphrase), MAX_SEC_SSID_NUM * sizeof(mlan_ds_passphrase)); priv->phandle->fw_roam_params.userset_passphrase = roam_offload_cfg.userset_passphrase; goto done; } if (woal_config_fw_roaming(priv, ROAM_OFFLOAD_ENABLE, &roam_offload_cfg)) { PRINTM(MERROR, "%s: config fw roaming failed \n", __func__); ret = -EFAULT; goto done; } status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Download start keep alive parameters * * @param priv Pointer to moal_private structure * @param mkeep_alive_id keep alive ID number * @param ip_pke IP packet from host * @param ip_pke_len IP packet length from host * @param src_mac Source MAC address * @param dst_mac Destination MAC address * @param period_msec Send keep alive packet interval * @return 0: success fail otherwise */ int woal_start_mkeep_alive(moal_private *priv, t_u8 mkeep_alive_id, t_u8 *ip_pkt, t_u16 ip_pkt_len, t_u8 *src_mac, t_u8 *dst_mac, t_u32 period_msec, t_u32 retry_interval, t_u8 retry_cnt) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; int ret = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CLOUD_KEEP_ALIVE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; if (mkeep_alive_id >= MAX_KEEP_ALIVE_ID) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EFAULT; goto done; } /* SET operation */ ioctl_req->action = MLAN_ACT_SET; misc->param.keep_alive.mkeep_alive_id = mkeep_alive_id; misc->param.keep_alive.enable = true; misc->param.keep_alive.send_interval = period_msec; misc->param.keep_alive.retry_interval = retry_interval; misc->param.keep_alive.retry_count = retry_cnt; moal_memcpy_ext(priv->phandle, misc->param.keep_alive.dst_mac, dst_mac, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); moal_memcpy_ext(priv->phandle, misc->param.keep_alive.src_mac, src_mac, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); misc->param.keep_alive.pkt_len = MIN(ip_pkt_len, MKEEP_ALIVE_IP_PKT_MAX); moal_memcpy_ext(priv->phandle, misc->param.keep_alive.packet, ip_pkt, ip_pkt_len, MKEEP_ALIVE_IP_PKT_MAX); status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Download stop keep alive parameters * * @param priv Pointer to moal_private structure * @param mkeep_alive_id keep alive ID number * @param ip_pkt Last packet * @param ip_pkt_len Last packet length * @return 0: success fail otherwise */ int woal_stop_mkeep_alive(moal_private *priv, t_u8 mkeep_alive_id, t_u8 reset, t_u8 *ip_pkt, t_u8 *pkt_len) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; mlan_status status = MLAN_STATUS_SUCCESS; mlan_ds_misc_keep_alive *misc_keep_alive = NULL; int ret = 0; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CLOUD_KEEP_ALIVE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; misc_keep_alive = &misc->param.keep_alive; if (mkeep_alive_id >= MAX_KEEP_ALIVE_ID) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EFAULT; goto done; } /* GET operation */ ioctl_req->action = MLAN_ACT_GET; misc_keep_alive->mkeep_alive_id = mkeep_alive_id; misc_keep_alive->enable = false; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (!misc_keep_alive->enable) { PRINTM(MERROR, "ID %d is already stop\n", mkeep_alive_id); goto done; } if (reset) ioctl_req->action = MLAN_ACT_RESET; else /* SET operation */ ioctl_req->action = MLAN_ACT_SET; misc_keep_alive->mkeep_alive_id = mkeep_alive_id; misc_keep_alive->enable = false; status = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) if (IS_STA_CFG80211(priv->phandle->params.cfg80211_wext)) { ret = woal_mkeep_alive_vendor_event(priv, &misc->param.keep_alive); if (ret) PRINTM(MERROR, "Keep alive vendor event upload failed\n"); } #endif #endif if (pkt_len) { *pkt_len = MIN(misc_keep_alive->pkt_len, (MKEEP_ALIVE_IP_PKT_MAX - 1)); PRINTM(MINFO, "keep alive stop pkt_len is %d\n", *pkt_len); } if (*pkt_len && ip_pkt) moal_memcpy_ext(priv->phandle, ip_pkt, misc_keep_alive->packet, *pkt_len, *pkt_len); done: if (status != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Save cloud keep alive params in driver handle * * @param priv Pointer to moal_private structure * @params Other params for keep alive * @return Number of bytes written, negative for failure. */ int woal_priv_save_cloud_keep_alive_params(moal_private *priv, t_u8 mkeep_alive_id, t_u8 enable, t_u16 ether_type, t_u8 *ip_pkt, t_u16 ip_pkt_len, t_u8 *src_mac, t_u8 *dst_mac, t_u32 period_msec, t_u32 retry_interval, t_u8 retry_cnt) { mlan_ioctl_req *ioctl_req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; mlan_ds_misc_keep_alive *keep_alive = NULL; moal_handle *phandle = NULL; ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is null\n"); ret = -EFAULT; goto done; } phandle = priv->phandle; ioctl_req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (ioctl_req == NULL) { ret = -ENOMEM; goto done; } misc = (mlan_ds_misc_cfg *)ioctl_req->pbuf; misc->sub_command = MLAN_OID_MISC_CLOUD_KEEP_ALIVE; ioctl_req->req_id = MLAN_IOCTL_MISC_CFG; if (mkeep_alive_id >= MAX_KEEP_ALIVE_ID) { PRINTM(MERROR, "Invalid parameters\n"); ret = -EINVAL; goto done; } /* GET operation */ ioctl_req->action = MLAN_ACT_GET; misc->param.keep_alive.mkeep_alive_id = mkeep_alive_id; misc->param.keep_alive.enable = true; ret = woal_request_ioctl(priv, ioctl_req, MOAL_IOCTL_WAIT); if (ret != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } if (misc->param.keep_alive.enable) { PRINTM(MERROR, "ID %d is in use\n", mkeep_alive_id); ret = -EINVAL; goto done; } keep_alive = &phandle->keep_alive[mkeep_alive_id]; keep_alive->mkeep_alive_id = mkeep_alive_id; keep_alive->enable = enable; if (enable) { keep_alive->cached = true; keep_alive->send_interval = period_msec; keep_alive->retry_interval = retry_interval; keep_alive->retry_count = retry_cnt; moal_memcpy_ext(phandle, keep_alive->dst_mac, dst_mac, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); moal_memcpy_ext(phandle, keep_alive->src_mac, src_mac, MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH); keep_alive->pkt_len = MIN(ip_pkt_len, MKEEP_ALIVE_IP_PKT_MAX); moal_memcpy_ext(phandle, keep_alive->packet, ip_pkt, ip_pkt_len, MKEEP_ALIVE_IP_PKT_MAX); if (ether_type) keep_alive->ether_type = ether_type; else keep_alive->ether_type = 0; } done: if (ret != MLAN_STATUS_PENDING) kfree(ioctl_req); LEAVE(); return ret; } /** * @brief Cloud keep alive feature * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_cloud_keep_alive(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; cloud_keep_alive *keep_alive = NULL; int header_len = 0; ENTER(); header_len = strlen(PRIV_CMD_CLOUD_KEEP_ALIVE); keep_alive = (cloud_keep_alive *)(respbuf + header_len); if (keep_alive->enable) { ret = woal_priv_save_cloud_keep_alive_params( priv, keep_alive->mkeep_alive_id, keep_alive->enable, 0, keep_alive->pkt, keep_alive->pkt_len, keep_alive->src_mac, keep_alive->dst_mac, keep_alive->sendInterval, keep_alive->retryInterval, keep_alive->retryCount); } else { if (0 != woal_stop_mkeep_alive(priv, keep_alive->mkeep_alive_id, keep_alive->reset, keep_alive->pkt, &keep_alive->pkt_len)) { ret = -EFAULT; return ret; } ret = respbuflen; } LEAVE(); return ret; } /** * @brief Set/Get static rx abort config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_rx_abort_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[2] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RX_ABORT_CFG); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_RX_ABORT_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2 || (data[0] == MTRUE && user_data_len != 2)) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (data[0] == MTRUE && data[1] > 0x7f) { PRINTM(MERROR, "Invalid threshold value\n"); ret = -EINVAL; goto done; } misc->param.rx_abort_cfg.enable = (t_u8)data[0]; if (user_data_len == 2) misc->param.rx_abort_cfg.rssi_threshold = (t_s8)data[1]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.rx_abort_cfg.enable; data[1] = misc->param.rx_abort_cfg.rssi_threshold; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get dynamic rx abort config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_rx_abort_cfg_ext(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[3] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RX_ABORT_CFG_EXT); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_RX_ABORT_CFG_EXT; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 3 || (data[0] == MTRUE && user_data_len != 3)) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (data[0] == MTRUE) { if (data[1] > 0x7f) { PRINTM(MERROR, "Invalid margin value\n"); ret = -EINVAL; goto done; } if (data[2] > 0x7f) { PRINTM(MERROR, "Invalid ceil threshold value\n"); ret = -EINVAL; goto done; } } misc->param.rx_abort_cfg_ext.enable = (t_u8)data[0]; if (user_data_len > 1) { misc->param.rx_abort_cfg_ext.rssi_margin = (t_s8)data[1]; misc->param.rx_abort_cfg_ext.ceil_rssi_threshold = (t_s8)data[2]; } req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.rx_abort_cfg_ext.enable; data[1] = misc->param.rx_abort_cfg_ext.rssi_margin; data[2] = misc->param.rx_abort_cfg_ext.ceil_rssi_threshold; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Enable/Disable Un-associated Dot11mc FTM Frame exchanges * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_dot11mc_unassoc_ftm_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[1] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_DOT11MC_UNASSOC_FTM_CFG); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_DOT11MC_UNASSOC_FTM_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 1) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if ((data[0] != MTRUE) && (data[0] != MFALSE)) { PRINTM(MERROR, "Invalid state for unassoc ftm\n"); ret = -EINVAL; goto done; } misc->param.dot11mc_unassoc_ftm_cfg.state = (t_u16)data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.dot11mc_unassoc_ftm_cfg.state; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Tx AMPDU protection mode * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_tx_ampdu_prot_mode(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[1] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TX_AMPDU_PROT_MODE); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_TX_AMPDU_PROT_MODE; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 1) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (data[0] > TX_AMPDU_DYNAMIC_RTS_CTS) { PRINTM(MERROR, "Invalid protection mode\n"); ret = -EINVAL; goto done; } misc->param.tx_ampdu_prot_mode.mode = (t_u16)data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.tx_ampdu_prot_mode.mode; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get Tx rate adapt config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_rate_adapt_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[4] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_RATE_ADAPT_CFG); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_RATE_ADAPT_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len < 1) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (data[0] > RATEADAPT_ALGO_SR) { PRINTM(MERROR, "Invalid Rateadapt Algorithm\n"); ret = -EINVAL; goto done; } if (data[0] == RATEADAPT_ALGO_SR && user_data_len > 1) { if ((data[1] & data[2]) == 0xff) { /* dynamic CCA noise based rate adapation enable * request nothing to do here */ } else if (data[1] > 100 || data[2] > 100) { PRINTM(MERROR, "Invalid success rate threshold value\n"); ret = -EINVAL; goto done; } if (data[3] < 10 || data[3] > 0xffff) { PRINTM(MERROR, "Invalid interval value\n"); ret = -EINVAL; goto done; } } misc->param.rate_adapt_cfg.sr_rateadapt = (t_u8)data[0]; if (data[0] == RATEADAPT_ALGO_SR && user_data_len > 1) { misc->param.rate_adapt_cfg.ra_low_thresh = (t_u8)data[1]; misc->param.rate_adapt_cfg.ra_high_thresh = (t_u8)data[2]; misc->param.rate_adapt_cfg.ra_interval = (t_u16)data[3]; } req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.rate_adapt_cfg.sr_rateadapt; data[1] = misc->param.rate_adapt_cfg.ra_low_thresh; data[2] = misc->param.rate_adapt_cfg.ra_high_thresh; data[3] = misc->param.rate_adapt_cfg.ra_interval; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get global cck desense config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_cck_desense_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[5] = {0}; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_CCK_DESENSE_CFG); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_CCK_DESENSE_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 5) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (data[0] > CCK_DESENSE_MODE_DYN_ENH) { PRINTM(MERROR, "Invalid cck desense mode\n"); ret = -EINVAL; goto done; } if ((data[0] == CCK_DESENSE_MODE_DISABLED && user_data_len > 1) || (data[0] == CCK_DESENSE_MODE_DYNAMIC && user_data_len != 3) || (data[0] == CCK_DESENSE_MODE_DYN_ENH && (user_data_len < 3 || user_data_len == 4))) { PRINTM(MERROR, "Invalid number of args for requested mode\n"); ret = -EINVAL; goto done; } if (user_data_len > 1) { if (data[1] > 0x7f) { PRINTM(MERROR, "Invalid margin value\n"); ret = -EINVAL; goto done; } if (data[2] > 0x7f) { PRINTM(MERROR, "Invalid ceil threshold value\n"); ret = -EINVAL; goto done; } } if (user_data_len > 3) { if (data[3] > 0xff || data[4] > 0xff) { PRINTM(MERROR, "Invalid ON/OFF intervals value\n"); ret = -EINVAL; goto done; } } misc->param.cck_desense_cfg.mode = (t_u8)data[0]; if (user_data_len > 1) { misc->param.cck_desense_cfg.margin = (t_s8)data[1]; misc->param.cck_desense_cfg.ceil_thresh = (t_s8)data[2]; } if (data[0] == CCK_DESENSE_MODE_DYN_ENH) { if (user_data_len > 3) { misc->param.cck_desense_cfg.num_on_intervals = (t_u8)data[3]; misc->param.cck_desense_cfg.num_off_intervals = (t_u8)data[4]; } else { /* set these to 0xff. This will indicate the FW * to use previously set values. */ misc->param.cck_desense_cfg.num_on_intervals = 0xff; misc->param.cck_desense_cfg.num_off_intervals = 0xff; } } req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.cck_desense_cfg.mode; data[1] = misc->param.cck_desense_cfg.margin; data[2] = misc->param.cck_desense_cfg.ceil_thresh; data[3] = misc->param.cck_desense_cfg.num_on_intervals; data[4] = misc->param.cck_desense_cfg.num_off_intervals; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief set/get low power mode * * @param priv Pointer to moal_private structure * @param respbuf Pointer to response buffer * @param resplen Response buffer length * @return Number of bytes written, negative for failure. */ static int woal_priv_set_get_lpm(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = 0; mlan_ioctl_req *req = NULL; mlan_ds_power_cfg *cfg = NULL; int data = 0; int user_data_len = 0, header_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (IS_CARD9098(priv->phandle->card_type) || IS_CARD9097(priv->phandle->card_type)) { header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_LPM); if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ parse_arguments(respbuf + header_len, &data, 1, &user_data_len); } if (user_data_len >= 2) { PRINTM(MERROR, "Too many arguments\n"); ret = -EINVAL; goto done; } else { req = woal_alloc_mlan_ioctl_req( sizeof(mlan_ds_power_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } cfg = (mlan_ds_power_cfg *)req->pbuf; if (user_data_len == 0) { req->action = MLAN_ACT_GET; } else { cfg->param.lpm = data; req->action = MLAN_ACT_SET; } } cfg->sub_command = MLAN_OID_POWER_LOW_POWER_MODE; req->req_id = MLAN_IOCTL_POWER_CFG; status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data = cfg->param.lpm; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)&data, sizeof(data), respbuflen); ret = sizeof(data); } else PRINTM(MERROR, "Low power mode command is not supported!\n"); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Set/Get HW ARB config * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_arbcfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; int ret = 0; int data[1]; int header_len = 0, user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_ARB_CFG); user_data_len = strlen(respbuf) - header_len; /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_ARB_CONFIG; req->req_id = MLAN_IOCTL_MISC_CFG; if ((int)strlen(respbuf) == header_len) { /* GET operation */ user_data_len = 0; req->action = MLAN_ACT_GET; } else { /* SET operation */ parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len != 1) { PRINTM(MERROR, "Invalid Parameter\n"); ret = -EFAULT; goto done; } if (data[0] < 0 || data[0] > 4) { PRINTM(MERROR, "Invalid Parameter: arb mode 0-4\n"); ret = -EFAULT; goto done; } misc->param.arb_cfg.arb_mode = (t_u32)data[0]; req->action = MLAN_ACT_SET; } /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } data[0] = misc->param.arb_cfg.arb_mode; moal_memcpy_ext(priv->phandle, respbuf, (t_u32 *)data, sizeof(data), respbuflen); ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } /** * @brief Timer function for TP state command. * * @param data pointer to a buffer * * @return N/A */ void woal_tp_acnt_timer_func(void *context) { moal_handle *phandle = (moal_handle *)context; int i = 0; if (phandle == NULL) return; PRINTM(MDATA, "####### CPU%d: tp acnt timer\n", smp_processor_id()); /* Tx TP accounting */ for (i = 0; i < MAX_TP_ACCOUNT_DROP_POINT_NUM; i++) { phandle->tp_acnt.tx_bytes_rate[i] = phandle->tp_acnt.tx_bytes[i] - phandle->tp_acnt.tx_bytes_last[i]; phandle->tp_acnt.tx_bytes_last[i] = phandle->tp_acnt.tx_bytes[i]; phandle->tp_acnt.tx_packets_rate[i] = phandle->tp_acnt.tx_packets[i] - phandle->tp_acnt.tx_packets_last[i]; phandle->tp_acnt.tx_packets_last[i] = phandle->tp_acnt.tx_packets[i]; } phandle->tp_acnt.tx_pending = atomic_read(&phandle->tx_pending); /* Tx Interrupt accounting */ phandle->tp_acnt.tx_intr_rate = phandle->tp_acnt.tx_intr_cnt - phandle->tp_acnt.tx_intr_last; phandle->tp_acnt.tx_intr_last = phandle->tp_acnt.tx_intr_cnt; /* Rx TP accounting */ for (i = 0; i < MAX_TP_ACCOUNT_DROP_POINT_NUM; i++) { phandle->tp_acnt.rx_bytes_rate[i] = phandle->tp_acnt.rx_bytes[i] - phandle->tp_acnt.rx_bytes_last[i]; phandle->tp_acnt.rx_bytes_last[i] = phandle->tp_acnt.rx_bytes[i]; phandle->tp_acnt.rx_packets_rate[i] = phandle->tp_acnt.rx_packets[i] - phandle->tp_acnt.rx_packets_last[i]; phandle->tp_acnt.rx_packets_last[i] = phandle->tp_acnt.rx_packets[i]; } phandle->tp_acnt.rx_pending = atomic_read(&phandle->rx_pending); // Interrupt accounting, RX phandle->tp_acnt.rx_intr_rate = phandle->tp_acnt.rx_intr_cnt - phandle->tp_acnt.rx_intr_last; phandle->tp_acnt.rx_intr_last = phandle->tp_acnt.rx_intr_cnt; phandle->tp_acnt.rx_amsdu_cnt_rate = phandle->tp_acnt.rx_amsdu_cnt - phandle->tp_acnt.rx_amsdu_cnt_last; phandle->tp_acnt.rx_amsdu_cnt_last = phandle->tp_acnt.rx_amsdu_cnt; phandle->tp_acnt.rx_amsdu_pkt_cnt_rate = phandle->tp_acnt.rx_amsdu_pkt_cnt - phandle->tp_acnt.rx_amsdu_pkt_cnt_last; phandle->tp_acnt.rx_amsdu_pkt_cnt_last = phandle->tp_acnt.rx_amsdu_pkt_cnt; phandle->tp_acnt.tx_amsdu_cnt_rate = phandle->tp_acnt.tx_amsdu_cnt - phandle->tp_acnt.tx_amsdu_cnt_last; phandle->tp_acnt.tx_amsdu_cnt_last = phandle->tp_acnt.tx_amsdu_cnt; phandle->tp_acnt.tx_amsdu_pkt_cnt_rate = phandle->tp_acnt.tx_amsdu_pkt_cnt - phandle->tp_acnt.tx_amsdu_pkt_cnt_last; phandle->tp_acnt.tx_amsdu_pkt_cnt_last = phandle->tp_acnt.tx_amsdu_pkt_cnt; /* re-arm timer */ woal_mod_timer(&phandle->tp_acnt.timer, 1000); } /** * @brief set tp state to mlan * * @param priv pointer to moal_private * * @return N/A */ void woal_set_tp_state(moal_private *priv) { mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; moal_handle *handle = priv->phandle; mlan_status status = MLAN_STATUS_SUCCESS; req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) return; /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_TP_STATE; req->req_id = MLAN_IOCTL_MISC_CFG; misc->param.tp_state.on = handle->tp_acnt.on; misc->param.tp_state.drop_point = handle->tp_acnt.drop_point; req->action = MLAN_ACT_SET; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_PENDING) kfree(req); return; } /** * @brief Set/Get TP statistics. * * @param priv A pointer to moal_private structure * @param respbuf A pointer to response buffer * @param respbuflen Available length of response buffer * * @return Number of bytes written, negative for failure. */ static int woal_priv_set_tp_state(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { moal_handle *handle = priv->phandle; int ret = 0; int data[2]; int header_len = 0, user_data_len = 0; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -EINVAL; goto done; } header_len = strlen(CMD_NXP) + strlen(PRIV_CMD_TP_STATE); user_data_len = strlen(respbuf) - header_len; parse_arguments(respbuf + header_len, data, ARRAY_SIZE(data), &user_data_len); if (user_data_len > 2) { PRINTM(MERROR, "Invalid number of args!\n"); ret = -EINVAL; goto done; } if (user_data_len) { handle->tp_acnt.on = data[0]; /* Enable TP statistics collection */ if (data[0] == 1) { handle->tp_acnt.drop_point = data[1]; if (handle->is_tp_acnt_timer_set == MFALSE) { woal_initialize_timer(&handle->tp_acnt.timer, woal_tp_acnt_timer_func, handle); handle->is_tp_acnt_timer_set = MTRUE; woal_mod_timer(&handle->tp_acnt.timer, 1000); } } else { if (handle->is_tp_acnt_timer_set) { woal_cancel_timer(&handle->tp_acnt.timer); handle->is_tp_acnt_timer_set = MFALSE; } memset((void *)&handle->tp_acnt, 0, sizeof(moal_tp_acnt_t)); } woal_set_tp_state(priv); } /* Get command results */ if (user_data_len == 0) { moal_memcpy_ext(handle, respbuf, (t_u8 *)(&handle->tp_acnt), sizeof(handle->tp_acnt), respbuflen); ret = sizeof(handle->tp_acnt); } done: LEAVE(); return ret; } static int woal_priv_ips_cfg(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { moal_handle *handle = priv->phandle; mlan_ioctl_req *req = NULL; mlan_ds_misc_cfg *misc = NULL; t_u32 data[1]; int ret = 0; int user_data_len = 0; mlan_status status = MLAN_STATUS_SUCCESS; ENTER(); if (strlen(respbuf) == (strlen(CMD_NXP) + strlen(PRIV_CMD_IPS_CFG))) { /* GET operation */ user_data_len = 0; } else { /* SET operation */ memset((char *)data, 0, sizeof(data)); parse_arguments(respbuf + strlen(CMD_NXP) + strlen(PRIV_CMD_IPS_CFG), data, ARRAY_SIZE(data), &user_data_len); } if (user_data_len) { /* Allocate an IOCTL request buffer */ req = woal_alloc_mlan_ioctl_req(sizeof(mlan_ds_misc_cfg)); if (req == NULL) { ret = -ENOMEM; goto done; } /* Fill request buffer */ misc = (mlan_ds_misc_cfg *)req->pbuf; misc->sub_command = MLAN_OID_MISC_IPS_CFG; req->req_id = MLAN_IOCTL_MISC_CFG; misc->param.ips_ctrl = data[0]; req->action = MLAN_ACT_SET; /* Send IOCTL request to MLAN */ status = woal_request_ioctl(priv, req, MOAL_IOCTL_WAIT); if (status != MLAN_STATUS_SUCCESS) { ret = -EFAULT; goto done; } handle->ips_ctrl = data[0]; } else { data[0] = handle->ips_ctrl; moal_memcpy_ext(priv->phandle, respbuf, (t_u8 *)data, sizeof(data), respbuflen); } ret = sizeof(data); done: if (status != MLAN_STATUS_PENDING) kfree(req); LEAVE(); return ret; } static int woal_priv_get_uuid(moal_private *priv, t_u8 *respbuf, t_u32 respbuflen) { int ret = -1; mlan_fw_info fw_info; ENTER(); if (!respbuf) { PRINTM(MERROR, "response buffer is not available!\n"); ret = -1; } else { fw_info.uuid_lo = fw_info.uuid_hi = 0x0ULL; woal_request_get_fw_info(priv, MOAL_IOCTL_WAIT, &fw_info); snprintf(respbuf, MLAN_MAX_UUID_LEN + 1, "%016llx%016llx", fw_info.uuid_lo, fw_info.uuid_hi); ret = strlen(respbuf); } LEAVE(); return ret; } /** * @brief Set priv command for Android * @param dev A pointer to net_device structure * @param req A pointer to ifreq structure * * @return 0 --success, otherwise fail */ int woal_android_priv_cmd(struct net_device *dev, struct ifreq *req) { int ret = 0; android_wifi_priv_cmd priv_cmd; moal_private *priv = (moal_private *)netdev_priv(dev); char *buf = NULL; char *pdata; #ifdef STA_SUPPORT int power_mode = 0; int band = 0; char *pband = NULL; mlan_bss_info bss_info; mlan_ds_get_signal signal; mlan_rate_cfg_t rate; t_u8 country_code[COUNTRY_CODE_LEN]; int copy_len = 0; #endif int len = 0; gfp_t flag; char *cmd_buf = NULL; #if defined(STA_CFG80211) || defined(UAP_CFG80211) int cfg80211_wext; #endif ENTER(); if (!priv || !priv->phandle) { PRINTM(MERROR, "priv or handle is NULL\n"); ret = -EFAULT; goto done; } #if defined(STA_CFG80211) || defined(UAP_CFG80211) cfg80211_wext = priv->phandle->params.cfg80211_wext; #endif if (copy_from_user(&priv_cmd, req->ifr_data, sizeof(android_wifi_priv_cmd))) { ret = -EFAULT; goto done; } #define CMD_BUF_LEN 4096 if (priv_cmd.used_len < 0 || priv_cmd.total_len <= 0 || priv_cmd.used_len > priv_cmd.total_len) { PRINTM(MERROR, "Invalid Android priv cmd len. used_len: %d, total_len: %d\n", priv_cmd.used_len, priv_cmd.total_len); ret = -EINVAL; goto done; } if (priv_cmd.total_len + 1 > CMD_BUF_LEN) priv_cmd.total_len = CMD_BUF_LEN - 1; flag = (in_atomic() || irqs_disabled()) ? GFP_ATOMIC : GFP_KERNEL; buf = kzalloc(CMD_BUF_LEN, flag); if (!buf) { PRINTM(MERROR, "%s: failed to allocate memory\n", __FUNCTION__); ret = -ENOMEM; goto done; } #ifdef USERSPACE_32BIT_OVER_KERNEL_64BIT moal_memcpy_ext(priv->phandle, &cmd_buf, &priv_cmd.buf, sizeof(cmd_buf), sizeof(cmd_buf)); #else cmd_buf = priv_cmd.buf; #endif if (copy_from_user(buf, (const void __user *)cmd_buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } buf[CMD_BUF_LEN - 1] = '\0'; PRINTM(MIOCTL, "Android priv cmd: [%s] on [%s]\n", buf, req->ifr_name); if (strncmp(buf, CMD_NXP, strlen(CMD_NXP)) && woal_check_driver_status(priv->phandle)) { PRINTM(MERROR, "%s fail when driver hang\n", buf); ret = -EFAULT; goto done; } if (strncmp(buf, CMD_NXP, strlen(CMD_NXP)) == 0) { /* This command has come from mlanutl app */ /* Check command */ if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_VERSION, strlen(PRIV_CMD_VERSION)) == 0) { /* Get version */ len = woal_get_priv_driver_version(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BANDCFG, strlen(PRIV_CMD_BANDCFG)) == 0) { /* Set/Get band configuration */ len = woal_setget_priv_bandcfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HOSTCMD, strlen(PRIV_CMD_HOSTCMD)) == 0) { /* hostcmd configuration */ len = woal_priv_hostcmd(priv, buf, priv_cmd.total_len, MOAL_IOCTL_WAIT); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_11AXCMDCFG, strlen(PRIV_CMD_11AXCMDCFG)) == 0) { /* 11ax command */ pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_11AXCMDCFG); len = priv_cmd.total_len - strlen(CMD_NXP) + strlen(PRIV_CMD_11AXCMDCFG); len = woal_setget_priv_11axcmdcfg(priv, pdata, len, MOAL_IOCTL_WAIT); len += strlen(CMD_NXP) + strlen(PRIV_CMD_11AXCMDCFG); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RANGE_EXT, strlen(PRIV_CMD_RANGE_EXT)) == 0) { len = woal_setget_priv_range_ext(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HTTXCFG, strlen(PRIV_CMD_HTTXCFG)) == 0) { /* Set/Get HT Tx configuration */ len = woal_setget_priv_httxcfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HTCAPINFO, strlen(PRIV_CMD_HTCAPINFO)) == 0) { /* Set/Get HT Capability information */ len = woal_setget_priv_htcapinfo(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ADDBAPARA, strlen(PRIV_CMD_ADDBAPARA)) == 0) { /* Set/Get Add BA parameters */ len = woal_setget_priv_addbapara(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AGGRPRIOTBL, strlen(PRIV_CMD_AGGRPRIOTBL)) == 0) { /* Set/Get Aggregation priority table parameters */ len = woal_setget_priv_aggrpriotbl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ADDBAREJECT, strlen(PRIV_CMD_ADDBAREJECT)) == 0) { /* Set/Get Add BA reject parameters */ len = woal_setget_priv_addbareject(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DELBA, strlen(PRIV_CMD_DELBA)) == 0) { /* Delete selective BA based on parameters */ len = woal_priv_delba(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_REJECTADDBAREQ, strlen(PRIV_CMD_REJECTADDBAREQ)) == 0) { /* Set/Get the reject addba requst conditions*/ len = woal_priv_rejectaddbareq(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_VHTCFG, strlen(PRIV_CMD_VHTCFG)) == 0) { /* Set/Get 11AC configuration */ len = woal_setget_priv_vhtcfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_OPERMODECFG, strlen(PRIV_CMD_OPERMODECFG)) == 0) { /* Set/Get 11AC configuration */ len = woal_setget_priv_opermodecfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DATARATE, strlen(PRIV_CMD_DATARATE)) == 0) { /* Get data rate */ len = woal_get_priv_datarate(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TXRATECFG, strlen(PRIV_CMD_TXRATECFG)) == 0) { /* Set/Get tx rate cfg */ len = woal_setget_priv_txratecfg(priv, buf, priv_cmd.total_len); goto handled; #if defined(STA_SUPPORT) || defined(UAP_SUPPORT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GETLOG, strlen(PRIV_CMD_GETLOG)) == 0) { /* Get wireless stats information */ len = woal_get_priv_getlog(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CUSTOMIE, strlen(PRIV_CMD_CUSTOMIE)) == 0) { /* Custom IE configuration */ len = woal_priv_customie(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ESUPPMODE, strlen(PRIV_CMD_ESUPPMODE)) == 0) { /* Esupplicant mode configuration */ len = woal_setget_priv_esuppmode(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PASSPHRASE, strlen(PRIV_CMD_PASSPHRASE)) == 0) { /* Esupplicant passphrase configuration */ len = woal_setget_priv_passphrase(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DEAUTH, strlen(PRIV_CMD_DEAUTH)) == 0) { /* Deauth */ len = woal_priv_deauth(priv, buf, priv_cmd.total_len); goto handled; #ifdef UAP_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AP_DEAUTH, strlen(PRIV_CMD_AP_DEAUTH)) == 0) { /* AP Deauth */ len = woal_priv_ap_deauth(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_STA_LIST, strlen(PRIV_CMD_GET_STA_LIST)) == 0) { /* Get STA list */ len = woal_priv_get_sta_list(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BSS_CONFIG, strlen(PRIV_CMD_BSS_CONFIG)) == 0) { /* BSS config */ len = woal_priv_bss_config(priv, buf, priv_cmd.total_len); goto handled; #endif #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_SUPPORT) && defined(UAP_SUPPORT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BSSROLE, strlen(PRIV_CMD_BSSROLE)) == 0) { /* BSS Role */ len = woal_priv_bssrole(priv, buf, (t_u32)priv_cmd.total_len); goto handled; #endif #endif #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SETUSERSCAN, strlen(PRIV_CMD_SETUSERSCAN)) == 0) { /* Set user scan */ len = woal_priv_setuserscan(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GETSCANTABLE, strlen(PRIV_CMD_GETSCANTABLE)) == 0) { /* Get scan table */ len = woal_priv_getscantable(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GETCHANSTATS, strlen(PRIV_CMD_GETCHANSTATS)) == 0) { /* Get channel statistics */ len = woal_priv_get_chanstats(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_EXTCAPCFG, strlen(PRIV_CMD_EXTCAPCFG)) == 0) { /* Extended capabilities configure */ len = woal_priv_extcapcfg(priv, buf, (t_u32)priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CANCELSCAN, strlen(PRIV_CMD_CANCELSCAN)) == 0) { /* Cancel scan */ len = woal_cancel_scan(priv, MOAL_IOCTL_WAIT); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DEEPSLEEP, strlen(PRIV_CMD_DEEPSLEEP)) == 0) { /* Deep sleep */ len = woal_priv_setgetdeepsleep(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_IPADDR, strlen(PRIV_CMD_IPADDR)) == 0) { /* IP address */ len = woal_priv_setgetipaddr(priv, buf, (t_u32)priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_WPSSESSION, strlen(PRIV_CMD_WPSSESSION)) == 0) { /* WPS Session */ len = woal_priv_setwpssession(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_OTPUSERDATA, strlen(PRIV_CMD_OTPUSERDATA)) == 0) { /* OTP user data */ len = woal_priv_otpuserdata(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_COUNTRYCODE, strlen(PRIV_CMD_COUNTRYCODE)) == 0) { /* Country code */ len = woal_priv_set_get_countrycode(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFPINFO, strlen(PRIV_CMD_CFPINFO)) == 0) { /* CFP info */ len = woal_priv_get_cfpinfo(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TCPACKENH, strlen(PRIV_CMD_TCPACKENH)) == 0) { /* TCP ack enhancement */ len = woal_priv_setgettcpackenh(priv, buf, priv_cmd.total_len); goto handled; #ifdef REASSOCIATION } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ASSOCBSSID, strlen(PRIV_CMD_ASSOCBSSID)) == 0) { /* Associate to essid */ len = woal_priv_assocessid(priv, buf, priv_cmd.total_len, 1); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ASSOCESSID, strlen(PRIV_CMD_ASSOCESSID)) == 0) { /* Associate to essid */ len = woal_priv_assocessid(priv, buf, priv_cmd.total_len, 0); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AUTOASSOC, strlen(PRIV_CMD_AUTOASSOC)) == 0) { /* Auto assoc */ len = woal_priv_setgetautoassoc(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_WAKEUPREASON, strlen(PRIV_CMD_WAKEUPREASON)) == 0) { /* wakeup reason */ len = woal_priv_getwakeupreason(priv, buf, priv_cmd.total_len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_LISTENINTERVAL, strlen(PRIV_CMD_LISTENINTERVAL)) == 0) { /* Listen Interval */ len = woal_priv_set_get_listeninterval( priv, buf, priv_cmd.total_len); goto handled; #endif #ifdef DEBUG_LEVEL1 } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DRVDBG, strlen(PRIV_CMD_DRVDBG)) == 0) { /* Driver debug bit mask */ len = woal_priv_set_get_drvdbg(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HSCFG, strlen(PRIV_CMD_HSCFG)) == 0) { /* HS configuration */ len = woal_priv_hscfg(priv, buf, priv_cmd.total_len, MTRUE); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HSSETPARA, strlen(PRIV_CMD_HSSETPARA)) == 0) { /* Set HS parameter */ len = woal_priv_hssetpara(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MGMT_FILTER, strlen(PRIV_CMD_MGMT_FILTER)) == 0) { /* Management frame filter wakeup */ len = woal_priv_mgmt_filter(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SCANCFG, strlen(PRIV_CMD_SCANCFG)) == 0) { /* Scan configuration */ len = woal_priv_set_get_scancfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GETNLNUM, strlen(PRIV_CMD_GETNLNUM)) == 0) { /* Scan configuration */ len = woal_priv_getnlnum(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AGGRCTRL, strlen(PRIV_CMD_AGGRCTRL)) == 0) { /* aggregation control */ len = woal_priv_set_get_aggrctrl(priv, buf, priv_cmd.total_len); goto handled; #ifdef USB } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_USBAGGRCTRL, strlen(PRIV_CMD_USBAGGRCTRL)) == 0) { /* USB aggregation control */ len = woal_priv_set_get_usbaggrctrl(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SET_BSS_MODE, strlen(PRIV_CMD_SET_BSS_MODE)) == 0) { /* Set bss mode */ len = woal_priv_set_bss_mode(priv, buf, priv_cmd.total_len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SET_AP, strlen(PRIV_CMD_SET_AP)) == 0) { /* Set AP */ len = woal_priv_set_ap(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SET_POWER, strlen(PRIV_CMD_SET_POWER)) == 0) { /* Set power management parameters */ len = woal_priv_set_power(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SET_ESSID, strlen(PRIV_CMD_SET_ESSID)) == 0) { /* Set essid */ len = woal_priv_set_essid(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SET_AUTH, strlen(PRIV_CMD_SET_AUTH)) == 0) { /* Set authentication mode parameters */ len = woal_priv_set_auth(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_AP, strlen(PRIV_CMD_GET_AP)) == 0) { /* Get AP */ len = woal_priv_get_ap(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_POWER, strlen(PRIV_CMD_GET_POWER)) == 0) { /* Get power management parameters */ len = woal_priv_get_power(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PSMODE, strlen(PRIV_CMD_PSMODE)) == 0) { /* Set/Get PS mode */ len = woal_priv_set_get_psmode(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_WARMRESET, strlen(PRIV_CMD_WARMRESET)) == 0) { /* Performs warm reset */ len = woal_priv_warmreset(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TXPOWERCFG, strlen(PRIV_CMD_TXPOWERCFG)) == 0) { /* TX power configurations */ len = woal_priv_txpowercfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RX_ABORT_CFG_EXT, strlen(PRIV_CMD_RX_ABORT_CFG_EXT)) == 0) { /* dynamic Rx Abort config */ len = woal_priv_rx_abort_cfg_ext(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RX_ABORT_CFG, strlen(PRIV_CMD_RX_ABORT_CFG)) == 0) { /* static Rx Abort config */ len = woal_priv_rx_abort_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TX_AMPDU_PROT_MODE, strlen(PRIV_CMD_TX_AMPDU_PROT_MODE)) == 0) { /* tx ampdu protection mode setting */ len = woal_priv_tx_ampdu_prot_mode(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DOT11MC_UNASSOC_FTM_CFG, strlen(PRIV_CMD_DOT11MC_UNASSOC_FTM_CFG)) == 0) { /* setting for dot11mc un-associated case FTM frame * exchange */ len = woal_priv_dot11mc_unassoc_ftm_cfg( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RATE_ADAPT_CFG, strlen(PRIV_CMD_RATE_ADAPT_CFG)) == 0) { /* rate adapt config */ len = woal_priv_rate_adapt_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CCK_DESENSE_CFG, strlen(PRIV_CMD_CCK_DESENSE_CFG)) == 0) { /* cck desense config */ len = woal_priv_cck_desense_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PSCFG, strlen(PRIV_CMD_PSCFG)) == 0) { /* PS configurations */ len = woal_priv_pscfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BCNTIMEOUTCFG, strlen(PRIV_CMD_BCNTIMEOUTCFG)) == 0) { /* Beacon timeout configurations */ len = woal_priv_bcntimeoutcfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SLEEPPD, strlen(PRIV_CMD_SLEEPPD)) == 0) { /* Sleep period */ len = woal_priv_sleeppd(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TXCONTROL, strlen(PRIV_CMD_TXCONTROL)) == 0) { /* Tx control */ len = woal_priv_txcontrol(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_REGRDWR, strlen(PRIV_CMD_REGRDWR)) == 0) { /* Register Read/Write */ len = woal_priv_regrdwr(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RDEEPROM, strlen(PRIV_CMD_RDEEPROM)) == 0) { /* Read the EEPROM contents of the card */ len = woal_priv_rdeeprom(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MEMRDWR, strlen(PRIV_CMD_MEMRDWR)) == 0) { /* Memory Read/Write */ len = woal_priv_memrdwr(priv, buf, priv_cmd.total_len); goto handled; #ifdef SDIO } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SDCMD52RW, strlen(PRIV_CMD_SDCMD52RW)) == 0) { /* Cmd52 read/write register */ len = woal_priv_sdcmd52rw(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SDIO_CLOCK, strlen(PRIV_CMD_SDIO_CLOCK)) == 0) { /* Turn on/off the sdio clock */ len = woal_priv_sdio_clock_ioctl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MPA_CTRL, strlen(PRIV_CMD_MPA_CTRL)) == 0) { /* Set SDIO Multi-point aggregation * control parameters */ len = woal_priv_sdio_mpa_ctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SD_CMD53_RW, strlen(PRIV_CMD_SD_CMD53_RW)) == 0) { /* Cmd53 read/write register */ len = woal_priv_cmd53rdwr(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ROBUSTCOEX, strlen(PRIV_CMD_ROBUSTCOEX)) == 0) { /* Set Robustcoex GPIOcfg */ pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_ROBUSTCOEX); len = priv_cmd.total_len - strlen(PRIV_CMD_ROBUSTCOEX) - strlen(CMD_NXP); len = woal_priv_robustcoex(priv, pdata, len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DMCS, strlen(PRIV_CMD_DMCS)) == 0) { /* Set/Get DMCS config */ len = woal_priv_dmcs(priv, buf, priv_cmd.total_len); goto handled; #if defined(PCIE) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SSU, strlen(PRIV_CMD_SSU)) == 0) { /* Set SSU config */ pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_SSU); len = priv_cmd.used_len - strlen(PRIV_CMD_SSU) - strlen(CMD_NXP); len = woal_priv_ssu_cmd(priv, len, pdata, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HAL_PHY_CFG, strlen(PRIV_CMD_HAL_PHY_CFG)) == 0) { /* Set hal_phy config */ pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_HAL_PHY_CFG); len = priv_cmd.total_len - strlen(PRIV_CMD_HAL_PHY_CFG) - strlen(CMD_NXP); len = woal_priv_hal_phy_cfg_cmd(priv, pdata, len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CSI, strlen(PRIV_CMD_CSI)) == 0) { /* Set CSI config */ pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_CSI); len = priv_cmd.total_len - strlen(PRIV_CMD_CSI) - strlen(CMD_NXP); priv->csi_seq = 0; len = woal_priv_csi_cmd(priv, pdata, len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ARPFILTER, strlen(PRIV_CMD_ARPFILTER)) == 0) { /* ARPFilter Configuration */ len = woal_priv_arpfilter(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AUTO_ARP, strlen(PRIV_CMD_AUTO_ARP)) == 0) { /* Auto ARP enable/disable */ len = woal_priv_set_get_auto_arp(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HOTSPOTCFG, strlen(PRIV_CMD_HOTSPOTCFG)) == 0) { /* Hotspot CFG */ len = woal_priv_hotspotcfg(priv, buf, priv_cmd.total_len); goto handled; #ifdef RX_PACKET_COALESCE } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RX_COAL_CFG, strlen(PRIV_CMD_RX_COAL_CFG)) == 0) { /* RX packet coalescing Configuration */ len = woal_priv_rx_pkt_coalesce_cfg(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MGMT_FRAME_CTRL, strlen(PRIV_CMD_MGMT_FRAME_CTRL)) == 0) { /* Mgmt Frame Passthrough Ctrl */ len = woal_priv_mgmt_frame_passthru_ctrl( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_QCONFIG, strlen(PRIV_CMD_QCONFIG)) == 0) { /* Queue config */ len = woal_priv_qconfig(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ADDTS, strlen(PRIV_CMD_ADDTS)) == 0) { /* Send an ADDTS TSPEC */ len = woal_priv_wmm_addts_req_ioctl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DELTS, strlen(PRIV_CMD_DELTS)) == 0) { /* Send a DELTS TSPE */ len = woal_priv_wmm_delts_req_ioctl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_QSTATUS, strlen(PRIV_CMD_QSTATUS)) == 0) { /* Get the status of the WMM queues */ len = woal_priv_wmm_queue_status_ioctl( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TS_STATUS, strlen(PRIV_CMD_TS_STATUS)) == 0) { /* Get the status of the WMM Traffic Streams */ len = woal_priv_wmm_ts_status_ioctl(priv, buf, priv_cmd.total_len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_QOS_CFG, strlen(PRIV_CMD_QOS_CFG)) == 0) { t_u32 action = MLAN_ACT_GET; if (strlen(buf) == strlen(CMD_NXP) + strlen(PRIV_CMD_QOS_CFG)) { pdata = buf; /* GET operation */ } else { pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_QOS_CFG); action = MLAN_ACT_SET; /* SET operation */ } if (MLAN_STATUS_SUCCESS != woal_priv_qos_cfg(priv, action, pdata)) { ret = -EFAULT; goto done; } if (action == MLAN_ACT_GET) len = sizeof(t_u8); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MAC_CTRL, strlen(PRIV_CMD_MAC_CTRL)) == 0) { /* MAC CTRL */ len = woal_priv_macctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GETWAP, strlen(PRIV_CMD_GETWAP)) == 0) { /* Get WAP */ len = woal_priv_getwap(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_REGION_CODE, strlen(PRIV_CMD_REGION_CODE)) == 0) { /* Region Code */ len = woal_priv_region_code(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_FWMACADDR, strlen(PRIV_CMD_FWMACADDR)) == 0) { /* Set FW MAC address */ len = woal_priv_fwmacaddr(priv, buf, priv_cmd.total_len); goto handled; #if defined(STA_CFG80211) || defined(UAP_CFG80211) #if CFG80211_VERSION_CODE >= KERNEL_VERSION(2, 6, 39) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_OFFCHANNEL, strlen(PRIV_CMD_OFFCHANNEL)) == 0) { if (IS_STA_CFG80211(cfg80211_wext)) { /* Set offchannel */ len = woal_priv_offchannel(priv, buf, priv_cmd.total_len); } else len = sprintf(buf, "CFG80211 is not enabled\n") + 1; goto handled; #endif #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DSCP_MAP, strlen(PRIV_CMD_DSCP_MAP)) == 0) { /* Set/Get DSCP Map */ len = woal_priv_set_get_dscp_map(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_VEREXT, strlen(PRIV_CMD_VEREXT)) == 0) { /* Get Extended version */ len = woal_priv_get_driver_verext(priv, buf, priv_cmd.total_len); goto handled; #ifdef USB #ifdef CONFIG_USB_SUSPEND } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_USB_SUSPEND, strlen(PRIV_CMD_USB_SUSPEND)) == 0) { /* Makes USB device to suspend */ len = woal_priv_enter_usb_suspend(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_USB_RESUME, strlen(PRIV_CMD_USB_RESUME)) == 0) { /* Makes USB device to resume */ len = woal_priv_exit_usb_suspend(priv, buf, priv_cmd.total_len); goto handled; #endif /* CONFIG_USB_SUSPEND */ #endif #if defined(STA_SUPPORT) && defined(STA_WEXT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_RADIO_CTRL, strlen(PRIV_CMD_RADIO_CTRL)) == 0) { /* Set/Get radio */ len = woal_priv_radio_ctrl(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_WMM_CFG, strlen(PRIV_CMD_WMM_CFG)) == 0) { /* Implement WMM enable command */ len = woal_priv_wmm_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MIN_BA_THRESH_CFG, strlen(PRIV_CMD_MIN_BA_THRESH_CFG)) == 0) { /* Implement Minimum BA threshold configuration command */ len = woal_priv_min_ba_threshold_cfg( priv, buf, priv_cmd.total_len); goto handled; #if defined(STA_SUPPORT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_11D_CFG, strlen(PRIV_CMD_11D_CFG)) == 0) { /* Implement 802.11D enable command */ len = woal_priv_11d_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_11D_CLR_TBL, strlen(PRIV_CMD_11D_CLR_TBL)) == 0) { /* Implement 802.11D clear chan table command */ len = woal_priv_11d_clr_chan_tbl(priv, buf, priv_cmd.total_len); goto handled; #endif #ifndef OPCHAN } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_WWS_CFG, strlen(PRIV_CMD_WWS_CFG)) == 0) { /* Set/Get WWS configuration */ len = woal_priv_wws_cfg(priv, buf, priv_cmd.total_len); goto handled; #endif #if defined(REASSOCIATION) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_REASSOCTRL, strlen(PRIV_CMD_REASSOCTRL)) == 0) { /* Set/Get reassociation settings */ len = woal_priv_set_get_reassoc(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TXBUF_CFG, strlen(PRIV_CMD_TXBUF_CFG)) == 0) { /* Get Transmit buffer size */ len = woal_priv_txbuf_cfg(priv, buf, priv_cmd.total_len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AUTH_TYPE, strlen(PRIV_CMD_AUTH_TYPE)) == 0) { /* Set/Get auth type */ len = woal_priv_auth_type(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_POWER_CONS, strlen(PRIV_CMD_POWER_CONS)) == 0) { /* Set/get user provisioned local power constraint */ len = woal_priv_11h_local_pwr_constraint( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_HT_STREAM_CFG, strlen(PRIV_CMD_HT_STREAM_CFG)) == 0) { /* Set/get HT stream configurations */ len = woal_priv_ht_stream_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MIMO_SWITCH, strlen(PRIV_CMD_MIMO_SWITCH)) == 0) { /* Set mimo switch configurations */ len = woal_priv_mimo_switch(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_THERMAL, strlen(PRIV_CMD_THERMAL)) == 0) { /* Get thermal reading */ len = woal_priv_thermal(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BCN_INTERVAL, strlen(PRIV_CMD_BCN_INTERVAL)) == 0) { /* Set/Get beacon interval */ len = woal_priv_beacon_interval(priv, buf, priv_cmd.total_len); goto handled; #ifdef STA_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SIGNALEXT_CFG, strlen(PRIV_CMD_SIGNALEXT_CFG)) == 0) { /* Set signalext flag */ len = woal_priv_signalext_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_SIGNAL_EXT_V2, strlen(PRIV_CMD_GET_SIGNAL_EXT_V2)) == 0) { /* Get signal info */ len = woal_priv_get_signal_ext_v2(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_SIGNAL_EXT, strlen(PRIV_CMD_GET_SIGNAL_EXT)) == 0) { /* Get signal info */ len = woal_priv_get_signal_ext(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_SIGNAL, strlen(PRIV_CMD_GET_SIGNAL)) == 0) { /* Get signal */ len = woal_priv_get_signal(priv, buf, priv_cmd.total_len); goto handled; #endif #if defined(STA_SUPPORT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PMFCFG, strlen(PRIV_CMD_PMFCFG)) == 0) { /* Configure PMF */ len = woal_priv_set_get_pmfcfg(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_INACTIVITYTO, strlen(PRIV_CMD_INACTIVITYTO)) == 0) { /* Get/Set inactivity timeout extend */ len = woal_priv_inactivity_timeout_ext( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AMSDU_AGGR_CTRL, strlen(PRIV_CMD_AMSDU_AGGR_CTRL)) == 0) { /* Enable/Disable amsdu_aggr_ctrl */ len = woal_priv_11n_amsdu_aggr_ctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MCAST_AGGR_GROUP, strlen(PRIV_CMD_MCAST_AGGR_GROUP)) == 0) { /* mcast_aggr_group cfg*/ len = woal_priv_mcast_aggr_group_cfg( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MC_AGGR_CFG, strlen(PRIV_CMD_MC_AGGR_CFG)) == 0) { /* mc_aggr_cfg*/ len = woal_priv_mc_aggr_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_STATS, strlen(PRIV_CMD_STATS)) == 0) { /* stats */ len = woal_priv_stats(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CH_LOAD, strlen(PRIV_CMD_CH_LOAD)) == 0) { /* mc_aggr_cfg*/ len = woal_priv_get_ch_load(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CH_LOAD_RESULTS, strlen(PRIV_CMD_CH_LOAD_RESULTS)) == 0) { /* mc_aggr_cfg*/ len = woal_priv_get_ch_load_results(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TX_BF_CAP, strlen(PRIV_CMD_TX_BF_CAP)) == 0) { /* Set/Get Transmit beamforming capabilities */ len = woal_priv_tx_bf_cap_ioctl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SLEEP_PARAMS, strlen(PRIV_CMD_SLEEP_PARAMS)) == 0) { /* Configure sleep parameters */ len = woal_priv_sleep_params_ioctl(priv, buf, priv_cmd.total_len); goto handled; #ifdef UAP_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_NET_MON, strlen(PRIV_CMD_NET_MON)) == 0) { /* Set/Get network monitor configurations */ len = woal_priv_net_monitor_ioctl(priv, buf, priv_cmd.total_len); goto handled; #endif #if defined(STA_CFG80211) && defined(UAP_CFG80211) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MONITOR_MODE, strlen(PRIV_CMD_MONITOR_MODE)) == 0) { if (IS_STA_CFG80211(cfg80211_wext)) { /* Set/Get monitor mode */ len = woal_priv_set_get_monitor_mode( priv, buf, priv_cmd.total_len); } else len = sprintf(buf, "CFG80211 is not enabled\n") + 1; goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS_TESTING, strlen(PRIV_CMD_DFS_TESTING)) == 0) { /* Set/Get DFS Testing settings */ len = woal_priv_dfs_testing(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CLEAR_NOP, strlen(PRIV_CMD_CLEAR_NOP)) == 0) { /* Set/Get DFS Testing settings */ len = woal_priv_clear_nop(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_NOP_LIST, strlen(PRIV_CMD_NOP_LIST)) == 0) { /* Set/Get DFS Testing settings */ len = woal_priv_nop_list(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_FAKE_RADAR, strlen(PRIV_CMD_FAKE_RADAR)) == 0) { /* mcast_aggr_group cfg*/ len = woal_priv_fake_radar(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS53_CFG, strlen(PRIV_CMD_DFS53_CFG)) == 0) { /* Set/Get DFS W53 settings */ len = woal_priv_dfs53cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS_MODE, strlen(PRIV_CMD_DFS_MODE)) == 0) { /* Set/Get DFS mode settings */ len = woal_priv_dfs_mode(priv, buf, priv_cmd.total_len); goto handled; #ifdef UAP_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS_CAC, strlen(PRIV_CMD_DFS_CAC)) == 0) { /* perform CAC */ len = woal_priv_do_dfs_cac(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AUTODFS, strlen(PRIV_CMD_AUTODFS)) == 0) { len = woal_priv_auto_dfs_cfg(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ARB_CFG, strlen(PRIV_CMD_ARB_CFG)) == 0) { /* Set/Get CFP table codes */ len = woal_priv_arbcfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFP_CODE, strlen(PRIV_CMD_CFP_CODE)) == 0) { /* Set/Get CFP table codes */ len = woal_priv_cfp_code(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CWMODE, strlen(PRIV_CMD_CWMODE)) == 0) { /* Set/Get Tx CWMode */ len = woal_priv_set_get_cwmode(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ANT_CFG, strlen(PRIV_CMD_ANT_CFG)) == 0) { /* Set/Get Tx/Rx antenna */ len = woal_priv_set_get_tx_rx_ant(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_SYSCLOCK, strlen(PRIV_CMD_SYSCLOCK)) == 0) { /* Get/Set system clock */ len = woal_priv_sysclock(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_KEY, strlen(PRIV_CMD_GET_KEY)) == 0) { /* Get GTK/PTK */ len = woal_priv_get_key(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_ASSOCIATE, strlen(PRIV_CMD_ASSOCIATE)) == 0) { /* Associate to a specific indexed entry in the * ScanTable */ len = woal_priv_associate_ssid_bssid( priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TX_BF_CFG, strlen(PRIV_CMD_TX_BF_CFG)) == 0) { /* Set/Get Transmit beamforming configuration */ len = woal_priv_tx_bf_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BOOTSLEEP, strlen(PRIV_CMD_BOOTSLEEP)) == 0) { len = woal_priv_bootsleep(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PORT_CTRL, strlen(PRIV_CMD_PORT_CTRL)) == 0) { /* Set/Get Port Control mode */ len = woal_priv_port_ctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TXWATCHDOG, strlen(PRIV_CMD_TXWATCHDOG)) == 0) { len = woal_priv_txwatchdog(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PB_BYPASS, strlen(PRIV_CMD_PB_BYPASS)) == 0) { /* Private IOCTL entry to get the By-passed TX packet * from upper layer */ len = woal_priv_bypassed_packet(priv, buf, priv_cmd.total_len); goto handled; #ifdef WIFI_DIRECT_SUPPORT #if defined(UAP_CFG80211) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFG_NOA, strlen(PRIV_CMD_CFG_NOA)) == 0) { /* Set/Get P2P NoA (Notice of Absence) parameters */ len = woal_priv_cfg_noa(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFG_OPP_PS, strlen(PRIV_CMD_CFG_OPP_PS)) == 0) { /* Set/Get P2P OPP-PS parameters */ len = woal_priv_cfg_opp_ps(priv, buf, priv_cmd.total_len); goto handled; #endif #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFG_CLOCK_SYNC, strlen(PRIV_CMD_CFG_CLOCK_SYNC)) == 0) { /* Set/Get P2P NoA (Notice of Absence) parameters */ len = woal_priv_cfg_clock_sync(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_CFG_GET_TSF_INFO, strlen(PRIV_CMD_CFG_GET_TSF_INFO)) == 0) { /* Get TSF info */ len = woal_priv_cfg_get_tsf_info(priv, buf, priv_cmd.total_len); goto handled; #ifdef UAP_SUPPORT } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TARGET_CHANNEL, strlen(PRIV_CMD_TARGET_CHANNEL)) == 0) { /* Get/Set Target channel*/ len = woal_priv_target_channel(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_BACKUP_CHANNEL, strlen(PRIV_CMD_BACKUP_CHANNEL)) == 0) { /* Get/Set Backup channel*/ len = woal_priv_backup_channel(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS_REPEATER_CFG, strlen(PRIV_CMD_DFS_REPEATER_CFG)) == 0) { /* Set/Get DFS_REPEATER mode */ len = woal_priv_dfs_repeater_cfg(priv, buf, priv_cmd.total_len); goto handled; #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_CFG80211) || defined(UAP_CFG80211) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_MIRACAST_CFG, strlen(PRIV_CMD_MIRACAST_CFG)) == 0) { /* Set/Get MIRACAST configuration parameters */ len = woal_priv_miracast_cfg(priv, buf, priv_cmd.total_len); goto handled; #endif #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_COEX_RX_WINSIZE, strlen(PRIV_CMD_COEX_RX_WINSIZE)) == 0) { /* Set/Get control to coex RX window size */ len = woal_priv_coex_rx_winsize(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TX_AGGR_CTRL, strlen(PRIV_CMD_TX_AGGR_CTRL)) == 0) { /* Set/Get control to TX AMPDU on infra link */ len = woal_priv_txaggrctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_AUTO_TDLS, strlen(PRIV_CMD_AUTO_TDLS)) == 0) { /* Set/Get control to enable/disable auto TDLS */ len = woal_priv_auto_tdls(priv, buf, priv_cmd.total_len); goto handled; #ifdef PCIE } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PCIE_REG_RW, strlen(PRIV_CMD_PCIE_REG_RW)) == 0) { /* Read/Write PCIE register */ len = woal_priv_pcie_reg_rw(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PCIE_BAR0_REG_RW, strlen(PRIV_CMD_PCIE_BAR0_REG_RW)) == 0) { /* Read/Write PCIE register/memory from BAR0 */ len = woal_priv_pcie_bar0_reg_rw(priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TDLS_IDLE_TIME, strlen(PRIV_CMD_TDLS_IDLE_TIME)) == 0) { /* Set/Get TDLS idle timeout value */ len = woal_priv_tdls_idle_time(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_SENSOR_TEMP, strlen(PRIV_CMD_GET_SENSOR_TEMP)) == 0) { /* Get SOC temperature */ len = woal_priv_get_sensor_temp(priv, buf, priv_cmd.total_len); goto handled; #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 14, 0) #if defined(STA_CFG80211) || defined(UAP_CFG80211) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DFS_OFFLOAD, strlen(PRIV_CMD_DFS_OFFLOAD)) == 0) { /* Enable/disable DFS offload */ if (IS_STA_OR_UAP_CFG80211(cfg80211_wext)) len = woal_priv_dfs_offload_enable( priv, buf, priv_cmd.total_len); else len = sprintf(buf, "CFG80211 is not enabled\n") + 1; goto handled; #endif #endif #if defined(UAP_SUPPORT) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_EXTEND_CHAN_SWITCH, strlen(PRIV_CMD_EXTEND_CHAN_SWITCH)) == 0) { /* Extended channel switch */ len = woal_priv_extend_channel_switch( priv, buf, priv_cmd.total_len); goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DYN_BW, strlen(PRIV_CMD_DYN_BW)) == 0) { /* Set/Get dynamic bandwidth */ len = woal_priv_config_dyn_bw(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_IND_RST_CFG, strlen(PRIV_CMD_IND_RST_CFG)) == 0) { /* Set/Get out band independent reset */ len = woal_priv_ind_rst_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_PER_PKT_CFG, strlen(PRIV_CMD_PER_PKT_CFG)) == 0) { /* Get/Set per packet Txctl and Rxinfo configuration */ len = woal_priv_per_pkt_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_DEAUTH_CTRL, strlen(PRIV_CMD_DEAUTH_CTRL)) == 0) { len = woal_priv_deauth_ctrl(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_11AXCFG, strlen(PRIV_CMD_11AXCFG)) == 0) { pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_11AXCFG); len = priv_cmd.used_len - strlen(PRIV_CMD_11AXCFG) - strlen(CMD_NXP); len = woal_priv_11axcfg_cmd(priv, pdata, len, priv_cmd.total_len); len += strlen(PRIV_CMD_11AXCFG) + strlen(CMD_NXP); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TWT_SETUP, strlen(PRIV_CMD_TWT_SETUP)) == 0) { pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_TWT_SETUP); len = priv_cmd.used_len - strlen(PRIV_CMD_TWT_SETUP) - strlen(CMD_NXP); len = woal_priv_twt_setup(priv, pdata, len, priv_cmd.total_len); len += strlen(PRIV_CMD_TWT_SETUP) + strlen(CMD_NXP); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TWT_TEARDOWN, strlen(PRIV_CMD_TWT_TEARDOWN)) == 0) { pdata = buf + strlen(CMD_NXP) + strlen(PRIV_CMD_TWT_TEARDOWN); len = priv_cmd.used_len - strlen(PRIV_CMD_TWT_TEARDOWN) - strlen(CMD_NXP); len = woal_priv_twt_teardown(priv, pdata, len, priv_cmd.total_len); len += strlen(PRIV_CMD_TWT_TEARDOWN) + strlen(CMD_NXP); goto handled; #if defined(STA_CFG80211) || defined(UAP_CFG80211) } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_CFG_CHAN_LIST, strlen(PRIV_CMD_GET_CFG_CHAN_LIST)) == 0) { /* Get txpwrlimit */ if (IS_STA_OR_UAP_CFG80211(cfg80211_wext)) len = woal_priv_getcfgchanlist( priv, buf, priv_cmd.total_len); else len = sprintf(buf, "CFG80211 is not enabled\n") + 1; goto handled; #endif } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_LPM, strlen(PRIV_CMD_LPM)) == 0) { /* Set/Get low power mode */ len = woal_priv_set_get_lpm(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_TP_STATE, strlen(PRIV_CMD_TP_STATE)) == 0) { /* Set/Get TP accounting state */ len = woal_priv_set_tp_state(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_IPS_CFG, strlen(PRIV_CMD_IPS_CFG)) == 0) { len = woal_priv_ips_cfg(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf + strlen(CMD_NXP), PRIV_CMD_GET_SB_UUID, strlen(PRIV_CMD_GET_SB_UUID)) == 0) { len = woal_priv_get_uuid(priv, buf, priv_cmd.total_len); goto handled; } else { PRINTM(MERROR, "Unknown NXP PRIVATE command %s, ignored\n", buf); ret = -EFAULT; goto done; } } #ifdef STA_SUPPORT if (strncmp(buf, "RSSILOW-THRESHOLD", strlen("RSSILOW-THRESHOLD")) == 0) { pdata = buf + strlen("RSSILOW-THRESHOLD") + 1; if (MLAN_STATUS_SUCCESS != woal_set_rssi_low_threshold(priv, pdata, MOAL_IOCTL_WAIT)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SCAN-CFG", strlen("SCAN-CFG")) == 0) { PRINTM(MIOCTL, "Set SCAN CFG\n"); if (MLAN_STATUS_SUCCESS != woal_set_scan_cfg(priv, buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "RSSI", strlen("RSSI")) == 0) { if (MLAN_STATUS_SUCCESS != woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &bss_info)) { ret = -EFAULT; goto done; } if (bss_info.media_connected) { if (MLAN_STATUS_SUCCESS != woal_get_signal_info(priv, MOAL_IOCTL_WAIT, &signal)) { ret = -EFAULT; goto done; } len = sprintf(buf, "%.32s rssi %d\n", bss_info.ssid.ssid, signal.bcn_rssi_avg) + 1; } else { len = sprintf(buf, "OK\n") + 1; } } else if (strncmp(buf, "LINKSPEED", strlen("LINKSPEED")) == 0) { if (MLAN_STATUS_SUCCESS != woal_set_get_data_rate(priv, MLAN_ACT_GET, &rate)) { ret = -EFAULT; goto done; } PRINTM(MIOCTL, "tx rate=%d\n", (int)rate.rate); len = sprintf(buf, "LinkSpeed %d\n", (int)(rate.rate * 500000 / 1000000)) + 1; } else #endif if (strncmp(buf, "MACADDR", strlen("MACADDR")) == 0) { len = sprintf(buf, "Macaddr = %02X:%02X:%02X:%02X:%02X:%02X\n", priv->current_addr[0], priv->current_addr[1], priv->current_addr[2], priv->current_addr[3], priv->current_addr[4], priv->current_addr[5]) + 1; } #ifdef STA_SUPPORT else if (strncmp(buf, "GETPOWER", strlen("GETPOWER")) == 0) { if (MLAN_STATUS_SUCCESS != woal_get_powermode(priv, &power_mode)) { ret = -EFAULT; goto done; } len = sprintf(buf, "powermode = %d\n", power_mode) + 1; } else if (strncmp(buf, "SCAN-ACTIVE", strlen("SCAN-ACTIVE")) == 0) { if (MLAN_STATUS_SUCCESS != woal_set_scan_type(priv, MLAN_SCAN_TYPE_ACTIVE)) { ret = -EFAULT; goto done; } priv->scan_type = MLAN_SCAN_TYPE_ACTIVE; PRINTM(MIOCTL, "Set Active Scan\n"); len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SCAN-PASSIVE", strlen("SCAN-PASSIVE")) == 0) { if (MLAN_STATUS_SUCCESS != woal_set_scan_type(priv, MLAN_SCAN_TYPE_PASSIVE)) { ret = -EFAULT; goto done; } priv->scan_type = MLAN_SCAN_TYPE_PASSIVE; PRINTM(MIOCTL, "Set Passive Scan\n"); len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "POWERMODE", strlen("POWERMODE")) == 0) { pdata = buf + strlen("POWERMODE") + 1; if (!moal_extflg_isset(priv->phandle, EXT_HW_TEST)) { if (MLAN_STATUS_SUCCESS != woal_set_powermode(priv, pdata)) { ret = -EFAULT; goto done; } } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SETROAMING", strlen("SETROAMING")) == 0) { pdata = buf + strlen("SETROAMING") + 1; #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) goto done; #endif #endif #ifdef STA_CFG80211 if (*pdata == '1') { priv->roaming_enabled = MTRUE; PRINTM(MIOCTL, "Roaming enabled\n"); } else if (*pdata == '0') { priv->roaming_enabled = MFALSE; PRINTM(MIOCTL, "Roaming disabled\n"); } #endif len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "ROAM", strlen("ROAM")) == 0) { pdata = buf + strlen("ROAM") + 1; #ifdef STA_CFG80211 #if CFG80211_VERSION_CODE >= KERNEL_VERSION(3, 8, 0) if (moal_extflg_isset(priv->phandle, EXT_HOST_MLME)) goto done; #endif #endif #ifdef STA_CFG80211 if (*pdata == '1') { priv->roaming_enabled = MTRUE; PRINTM(MIOCTL, "Roaming enabled\n"); } else if (*pdata == '0') { priv->roaming_enabled = MFALSE; PRINTM(MIOCTL, "Roaming disabled\n"); } #endif len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "COUNTRY", strlen("COUNTRY")) == 0) { copy_len = strlen(buf) - strlen("COUNTRY") - 1; if (copy_len > COUNTRY_CODE_LEN || copy_len <= 0) { PRINTM(MERROR, "Invalid country length\n"); ret = -EFAULT; goto done; } memset(country_code, 0, sizeof(country_code)); moal_memcpy_ext(priv->phandle, country_code, buf + strlen("COUNTRY") + 1, copy_len, COUNTRY_CODE_LEN); PRINTM(MIOCTL, "Set COUNTRY %s\n", country_code); if (priv->phandle->params.cntry_txpwr) { if (MLAN_STATUS_SUCCESS != woal_request_country_power_table(priv, country_code)) { ret = -EFAULT; goto done; } } #ifdef STA_CFG80211 if (IS_STA_CFG80211(cfg80211_wext)) { PRINTM(MIOCTL, "Notify country code=%s\n", country_code); if (!moal_extflg_isset(priv->phandle, EXT_DISABLE_REGD_BY_DRIVER)) regulatory_hint(priv->wdev->wiphy, country_code); len = sprintf(buf, "OK\n") + 1; goto done; } #endif if (MLAN_STATUS_SUCCESS != woal_set_region_code(priv, country_code)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (memcmp(buf, WEXT_CSCAN_HEADER, WEXT_CSCAN_HEADER_SIZE) == 0) { PRINTM(MIOCTL, "Set Combo Scan\n"); if (MLAN_STATUS_SUCCESS != woal_set_combo_scan(priv, buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "GETBAND", strlen("GETBAND")) == 0) { if (MLAN_STATUS_SUCCESS != woal_get_band(priv, &band)) { ret = -EFAULT; goto done; } len = sprintf(buf, "Band %d\n", band) + 1; } else if (strncmp(buf, "SETBAND", strlen("SETBAND")) == 0) { pband = buf + strlen("SETBAND") + 1; if (MLAN_STATUS_SUCCESS != woal_set_band(priv, pband)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } #endif else if (strncmp(buf, "START", strlen("START")) == 0) { len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "STOP", strlen("STOP")) == 0) { len = sprintf(buf, "OK\n") + 1; } #ifdef UAP_SUPPORT else if (strncmp(buf, "AP_BSS_START", strlen("AP_BSS_START")) == 0) { ret = woal_uap_bss_ctrl(priv, MOAL_IOCTL_WAIT, UAP_BSS_START); if (ret) goto done; len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "AP_BSS_STOP", strlen("AP_BSS_STOP")) == 0) { ret = woal_uap_bss_ctrl(priv, MOAL_IOCTL_WAIT, UAP_BSS_STOP); if (ret) goto done; len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "AP_SET_CFG", strlen("AP_SET_CFG")) == 0) { if (priv_cmd.total_len <= (int)strlen("AP_SET_CFG") + 1) goto done; pdata = buf + strlen("AP_SET_CFG") + 1; ret = woal_uap_set_ap_cfg(priv, pdata, priv_cmd.total_len - strlen("AP_SET_CFG") - 1); if (ret) goto done; len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "WL_FW_RELOAD", strlen("WL_FW_RELOAD")) == 0) { len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "AP_GET_STA_LIST", strlen("AP_GET_STA_LIST")) == 0) { /* TODO Add STA list support */ len = sprintf(buf, "OK\n") + 1; } #endif else if (strncmp(buf, "SETSUSPENDOPT", strlen("SETSUSPENDOPT")) == 0) { /* it will be done by GUI */ len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SETSUSPENDMODE", strlen("SETSUSPENDMODE")) == 0) { /* it will be done by GUI */ len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "BTCOEXMODE", strlen("BTCOEXMODE")) == 0) { len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "BTCOEXSCAN-START", strlen("BTCOEXSCAN-START")) == 0) { len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "BTCOEXSCAN-STOP", strlen("BTCOEXSCAN-STOP")) == 0) { len = sprintf(buf, "OK\n") + 1; } #ifdef STA_SUPPORT else if (strncmp(buf, "BGSCAN-START", strlen("BGSCAN-START")) == 0) { len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "BGSCAN-CONFIG", strlen("BGSCAN-CONFIG")) == 0) { if (MLAN_STATUS_SUCCESS != woal_set_bg_scan(priv, buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } priv->bg_scan_start = MTRUE; priv->bg_scan_reported = MFALSE; len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "BGSCAN-STOP", strlen("BGSCAN-STOP")) == 0) { if (priv->bg_scan_start && !priv->scan_cfg.rssi_threshold) { if (MLAN_STATUS_FAILURE == woal_stop_bg_scan(priv, MOAL_NO_WAIT)) { ret = -EFAULT; goto done; } priv->bg_scan_start = MFALSE; priv->bg_scan_reported = MFALSE; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "RXFILTER-START", strlen("RXFILTER-START")) == 0) { #ifdef MEF_CFG_RX_FILTER ret = woal_set_rxfilter(priv, MTRUE); if (ret) goto done; #endif len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "RXFILTER-STOP", strlen("RXFILTER-STOP")) == 0) { #ifdef MEF_CFG_RX_FILTER ret = woal_set_rxfilter(priv, MFALSE); if (ret) goto done; #endif len = sprintf(buf, "OK\n") + 1; } #ifdef STA_CFG80211 else if (strncmp(buf, "GET_EVENT", strlen("GET_EVENT")) == 0) { if (IS_STA_CFG80211(cfg80211_wext)) { if (priv->last_event & EVENT_BG_SCAN_REPORT) woal_inform_bss_from_scan_result( priv, NULL, MOAL_IOCTL_WAIT); } len = sprintf(buf, "EVENT=%d\n", priv->last_event) + 1; priv->last_event = 0; } else if (strncmp(buf, "GET_802_11W", strlen("GET_802_11W")) == 0) { len = sprintf(buf, "802_11W=ENABLED\n") + 1; } #endif /* STA_CFG80211 */ else if (strncmp(buf, "RXFILTER-ADD", strlen("RXFILTER-ADD")) == 0) { pdata = buf + strlen("RXFILTER-ADD") + 1; if (MLAN_STATUS_SUCCESS != woal_add_rxfilter(priv, pdata)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "RXFILTER-REMOVE", strlen("RXFILTER-REMOVE")) == 0) { pdata = buf + strlen("RXFILTER-REMOVE") + 1; if (MLAN_STATUS_SUCCESS != woal_remove_rxfilter(priv, pdata)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "QOSINFO", strlen("QOSINFO")) == 0) { pdata = buf + strlen("QOSINFO") + 1; #ifdef STA_SUPPORT if (MLAN_STATUS_SUCCESS != woal_priv_qos_cfg(priv, MLAN_ACT_SET, pdata)) { ret = -EFAULT; goto done; } #endif len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SLEEPPD", strlen("SLEEPPD")) == 0) { pdata = buf + strlen("SLEEPPD") + 1; if (MLAN_STATUS_SUCCESS != woal_set_sleeppd(priv, pdata)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "SET_AP_WPS_P2P_IE", strlen("SET_AP_WPS_P2P_IE")) == 0) { pdata = buf + strlen("SET_AP_WPS_P2P_IE") + 1; /* Android cmd format: * "SET_AP_WPS_P2P_IE 1" -- beacon IE * "SET_AP_WPS_P2P_IE 2" -- proberesp IE * "SET_AP_WPS_P2P_IE 4" -- assocresp IE */ #if defined(STA_CFG80211) && defined(UAP_CFG80211) #if CFG80211_VERSION_CODE < KERNEL_VERSION(3, 2, 0) if (MLAN_STATUS_SUCCESS != woal_set_ap_wps_p2p_ie(priv, (t_u8 *)pdata, priv_cmd.used_len - strlen("SET_AP_WPS_P2P_IE") - 1)) { ret = -EFAULT; goto done; } #endif #endif len = sprintf(buf, "OK\n") + 1; } #endif else if (strncmp(buf, "P2P_DEV_ADDR", strlen("P2P_DEV_ADDR")) == 0) { memset(buf, 0x0, (size_t)priv_cmd.total_len); moal_memcpy_ext(priv->phandle, buf, priv->current_addr, ETH_ALEN, (t_u32)priv_cmd.total_len); len = ETH_ALEN; } else if (strncmp(buf, ("P2P_GET_NOA"), strlen("P2P_GET_NOA")) == 0) { /* TODO * Just return '\0' */ memset(buf, 0x0, (size_t)priv_cmd.total_len); *buf = 0; len = 1; } else if (strnicmp(buf, "MIRACAST", strlen("MIRACAST")) == 0) { pdata = buf + strlen("MIRACAST"); /* Android cmd format: * "MIRACAST 0" -- disabled * "MIRACAST 1" -- operating as source * "MIRACAST 2" -- operating as sink */ #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (MLAN_STATUS_SUCCESS != woal_set_miracast_mode(priv, (t_u8 *)pdata, priv_cmd.used_len - strlen("MIRACAST"))) { ret = -EFAULT; goto done; } #endif #endif len = sprintf(buf, "OK\n") + 1; } else if (strnicmp(buf, "SCAN_TIMING", strlen("SCAN_TIMING")) == 0) { #ifdef WIFI_DIRECT_SUPPORT #if defined(STA_CFG80211) || defined(UAP_CFG80211) if (MLAN_STATUS_SUCCESS != woal_set_scan_chan_gap(priv, buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } #endif #endif len = sprintf(buf, "OK\n") + 1; } else if (strnicmp(buf, "BA_WSIZE_RX", strlen("BA_WSIZE_RX")) == 0) { pdata = buf + strlen("BA_WSIZE_RX") + 1; len = priv_cmd.total_len - strlen("BA_WSIZE_RX") - 1; if (MLAN_STATUS_SUCCESS != woal_set_rx_ba_winsize(priv, pdata, len)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strnicmp(buf, "BA_WSIZE_TX", strlen("BA_WSIZE_TX")) == 0) { pdata = buf + strlen("BA_WSIZE_TX") + 1; len = priv_cmd.total_len - strlen("BA_WSIZE_TX") - 1; if (MLAN_STATUS_SUCCESS != woal_set_tx_ba_winsize(priv, pdata, len)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "FAKE_SCAN_COMPLETE", strlen("FAKE_SCAN_COMPLETE")) == 0) { pdata = buf + strlen("FAKE_SCAN_COMPLETE") + 1; #ifdef STA_CFG80211 if (*pdata == '1') { priv->fake_scan_complete = MTRUE; PRINTM(MIOCTL, "fake scan complete enabled\n"); } else if (*pdata == '0') { priv->fake_scan_complete = MFALSE; PRINTM(MIOCTL, "fake scan complete disabled\n"); } #endif len = sprintf(buf, "OK\n") + 1; } #if defined(STA_CFG80211) || defined(UAP_CFG80211) #ifdef WIFI_DIRECT_SUPPORT else if (strncmp(buf, "P2P_PERIODIC_SLEEP", strlen("P2P_PERIODIC_SLEEP")) == 0) { if (MLAN_STATUS_SUCCESS != woal_p2p_ps_cfg(priv, buf, priv_cmd.total_len)) { ret = -EFAULT; goto done; } len = sprintf(buf, "OK\n") + 1; } #endif #endif else if (strncmp(buf, "WLS_BATCHING", strlen("WLS_BATCHING")) == 0) { /* TODO */ len = sprintf(buf, "OK\n") + 1; } else if (strncmp(buf, "TDLS_CS_CHAN", strlen("TDLS_CS_CHAN")) == 0) { len = woal_priv_tdls_cs_chan(priv, buf, priv_cmd.total_len); } #if defined(UAP_SUPPORT) else if (strncmp(buf, "P2P_ECSA", strlen("P2P_ECSA")) == 0) { len = woal_priv_p2p_ecsa(priv, buf, priv_cmd.total_len); } #endif else if (strncmp(buf, "FAKEMAC", strlen("FAKEMAC")) == 0) { len = woal_priv_config_random_mac(priv, buf, priv_cmd.total_len); } else if (strncmp(buf, "SETROAMOFFLOAD", strlen("SETROAMOFFLOAD")) == 0) { len = woal_priv_set_roam_offload(priv, buf, priv_cmd.total_len); } else if (strncmp(buf, "SETROAMOFFLAPLIST", strlen("SETROAMOFFLAPLIST")) == 0) { len = woal_priv_set_roam_offload_aplist(priv, buf, priv_cmd.total_len); } else if (strncmp(buf, "CFGROAMOFFLOAD", strlen("CFGROAMOFFLOAD")) == 0) { len = woal_priv_roam_offload_cfg(priv, buf, priv_cmd.total_len); } else if (strncmp(buf, "SETROAMPASSPHRASE", strlen("SETROAMPASSPHRASE")) == 0) { len = woal_priv_set_roam_passphrase(priv, buf, priv_cmd.total_len); } else if (strncmp(buf, PRIV_CMD_CLOUD_KEEP_ALIVE, strlen(PRIV_CMD_CLOUD_KEEP_ALIVE)) == 0) { len = woal_priv_cloud_keep_alive(priv, buf, priv_cmd.total_len); } else if (strnicmp(buf, PRIV_CMD_TX_RX_HISTOGRAM, strlen(PRIV_CMD_TX_RX_HISTOGRAM)) == 0) { /* Get TX/RX histogram statistic */ len = woal_priv_get_rx_tx_histogram(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf, PRIV_CMD_GET_CHNRGPWR, strlen(PRIV_CMD_GET_CHNRGPWR)) == 0) { /* Get chnrgpwr */ len = woal_priv_get_chnrgpwr(priv, buf, priv_cmd.total_len); goto handled; } else if (strnicmp(buf, PRIV_CMD_GET_TXPWR_LIMIT, strlen(PRIV_CMD_GET_TXPWR_LIMIT)) == 0) { /* Get txpwrlimit */ len = woal_priv_get_txpwrlimit(priv, buf, priv_cmd.total_len); goto handled; } else { PRINTM(MIOCTL, "Unknown PRIVATE command: %s, ignored\n", buf); ret = -EFAULT; goto done; } handled: PRINTM(MIOCTL, "PRIV Command return: %s, length=%d\n", buf, len); if (len > 0) { priv_cmd.used_len = len; if (priv_cmd.used_len <= priv_cmd.total_len) { memset(buf + priv_cmd.used_len, 0, (size_t)(CMD_BUF_LEN - priv_cmd.used_len)); if (copy_to_user((void __user *)cmd_buf, buf, priv_cmd.total_len)) { PRINTM(MERROR, "%s: failed to copy data to user buffer\n", __FUNCTION__); ret = -EFAULT; goto done; } if (copy_to_user(req->ifr_data, &priv_cmd, sizeof(android_wifi_priv_cmd))) { PRINTM(MERROR, "%s: failed to copy command header to user buffer\n", __FUNCTION__); ret = -EFAULT; } } else { PRINTM(MERROR, "%s: the buffer supplied by appl is too small (supplied: %d, used: %d)\n", __FUNCTION__, priv_cmd.total_len, priv_cmd.used_len); ret = -EFAULT; } } else { ret = len; } done: kfree(buf); LEAVE(); return ret; } /******************************************************** Global Functions ********************************************************/ /** * @brief Create a brief scan resp to relay basic BSS info to the app layer * * When the beacon/probe response has not been buffered, use the saved BSS * information available to provide a minimum response for the application * ioctl retrieval routines. Include: * - Timestamp * - Beacon Period * - Capabilities (including WMM Element if available) * - SSID * * @param ppbuffer Output parameter: Buffer used to create basic scan rsp * @param pbss_desc Pointer to a BSS entry in the scan table to create * scan response from for delivery to the application layer * * @return N/A */ void wlan_scan_create_brief_table_entry(t_u8 **ppbuffer, BSSDescriptor_t *pbss_desc) { t_u8 *ptmp_buf = *ppbuffer; t_u8 tmp_ssid_hdr[2]; t_u8 ie_len = 0; ENTER(); moal_memcpy_ext(NULL, ptmp_buf, pbss_desc->time_stamp, sizeof(pbss_desc->time_stamp), sizeof(pbss_desc->time_stamp)); ptmp_buf += sizeof(pbss_desc->time_stamp); moal_memcpy_ext(NULL, ptmp_buf, &pbss_desc->beacon_period, sizeof(pbss_desc->beacon_period), sizeof(pbss_desc->beacon_period)); ptmp_buf += sizeof(pbss_desc->beacon_period); moal_memcpy_ext(NULL, ptmp_buf, &pbss_desc->cap_info, sizeof(pbss_desc->cap_info), sizeof(pbss_desc->cap_info)); ptmp_buf += sizeof(pbss_desc->cap_info); tmp_ssid_hdr[0] = 0; /* Element ID for SSID is zero */ tmp_ssid_hdr[1] = pbss_desc->ssid.ssid_len; moal_memcpy_ext(NULL, ptmp_buf, tmp_ssid_hdr, sizeof(tmp_ssid_hdr), sizeof(tmp_ssid_hdr)); ptmp_buf += sizeof(tmp_ssid_hdr); moal_memcpy_ext(NULL, ptmp_buf, pbss_desc->ssid.ssid, pbss_desc->ssid.ssid_len, pbss_desc->ssid.ssid_len); ptmp_buf += pbss_desc->ssid.ssid_len; if (pbss_desc->wmm_ie.vend_hdr.element_id == WMM_IE) { ie_len = sizeof(IEEEtypes_Header_t) + pbss_desc->wmm_ie.vend_hdr.len; moal_memcpy_ext(NULL, ptmp_buf, &pbss_desc->wmm_ie, ie_len, ie_len); ptmp_buf += ie_len; } if (pbss_desc->pwpa_ie) { if ((*(pbss_desc->pwpa_ie)).vend_hdr.element_id == WPA_IE) { ie_len = sizeof(IEEEtypes_Header_t) + (*(pbss_desc->pwpa_ie)).vend_hdr.len; moal_memcpy_ext(NULL, ptmp_buf, pbss_desc->pwpa_ie, ie_len, ie_len); } ptmp_buf += ie_len; } if (pbss_desc->prsn_ie) { if ((*(pbss_desc->prsn_ie)).ieee_hdr.element_id == RSN_IE) { ie_len = sizeof(IEEEtypes_Header_t) + (*(pbss_desc->prsn_ie)).ieee_hdr.len; moal_memcpy_ext(NULL, ptmp_buf, pbss_desc->prsn_ie, ie_len, ie_len); } ptmp_buf += ie_len; } *ppbuffer = ptmp_buf; LEAVE(); } /** * @brief Create a wlan_ioctl_get_scan_table_entry for a given BSS * Descriptor for inclusion in the ioctl response to the user space * application. * * * @param pbss_desc Pointer to a BSS entry in the scan table to form * scan response from for delivery to the application layer * @param ppbuffer Output parameter: Buffer used to output scan return * struct * @param pspace_left Output parameter: Number of bytes available in the * response buffer. * * @return MLAN_STATUS_SUCCESS, or < 0 with IOCTL error code */ int wlan_get_scan_table_ret_entry(BSSDescriptor_t *pbss_desc, t_u8 **ppbuffer, int *pspace_left) { wlan_ioctl_get_scan_table_entry *prsp_entry; wlan_ioctl_get_scan_table_entry tmp_rsp_entry; int space_needed; t_u8 *pcurrent; int variable_size; const int fixed_size = sizeof(wlan_ioctl_get_scan_table_entry); ENTER(); pcurrent = *ppbuffer; /* The variable size returned is the stored beacon size */ variable_size = pbss_desc->beacon_buf_size; /* If we stored a beacon and its size was zero, set the variable * size return value to the size of the brief scan response * wlan_scan_create_brief_table_entry creates. Also used if * we are not configured to store beacons in the first place */ if (!variable_size) { variable_size = pbss_desc->ssid.ssid_len + 2; variable_size += (sizeof(pbss_desc->beacon_period) + sizeof(pbss_desc->time_stamp) + sizeof(pbss_desc->cap_info)); if (pbss_desc->wmm_ie.vend_hdr.element_id == WMM_IE) { variable_size += (sizeof(IEEEtypes_Header_t) + pbss_desc->wmm_ie.vend_hdr.len); } if (pbss_desc->pwpa_ie) { if ((*(pbss_desc->pwpa_ie)).vend_hdr.element_id == WPA_IE) { variable_size += (sizeof(IEEEtypes_Header_t) + (*(pbss_desc->pwpa_ie)).vend_hdr.len); } } if (pbss_desc->prsn_ie) { if ((*(pbss_desc->prsn_ie)).ieee_hdr.element_id == RSN_IE) { variable_size += (sizeof(IEEEtypes_Header_t) + (*(pbss_desc->prsn_ie)).ieee_hdr.len); } } } space_needed = fixed_size + variable_size; PRINTM(MINFO, "GetScanTable: need(%d), left(%d)\n", space_needed, *pspace_left); if (space_needed >= *pspace_left) { *pspace_left = 0; LEAVE(); return -E2BIG; } *pspace_left -= space_needed; tmp_rsp_entry.fixed_field_length = (sizeof(tmp_rsp_entry) - sizeof(tmp_rsp_entry.fixed_field_length) - sizeof(tmp_rsp_entry.bss_info_length)); moal_memcpy_ext(NULL, tmp_rsp_entry.fixed_fields.bssid, pbss_desc->mac_address, sizeof(prsp_entry->fixed_fields.bssid), sizeof(prsp_entry->fixed_fields.bssid)); tmp_rsp_entry.fixed_fields.rssi = pbss_desc->rssi; tmp_rsp_entry.fixed_fields.channel = pbss_desc->channel; tmp_rsp_entry.fixed_fields.chan_load = pbss_desc->chan_load; tmp_rsp_entry.fixed_fields.network_tsf = pbss_desc->network_tsf; tmp_rsp_entry.bss_info_length = variable_size; /* * Copy fixed fields to user space */ moal_memcpy_ext(NULL, pcurrent, &tmp_rsp_entry, fixed_size, fixed_size); pcurrent += fixed_size; if (pbss_desc->pbeacon_buf) { /* * Copy variable length elements to user space */ moal_memcpy_ext(NULL, pcurrent, pbss_desc->pbeacon_buf, pbss_desc->beacon_buf_size, pbss_desc->beacon_buf_size); pcurrent += pbss_desc->beacon_buf_size; } else { wlan_scan_create_brief_table_entry(&pcurrent, pbss_desc); } *ppbuffer = pcurrent; LEAVE(); return MLAN_STATUS_SUCCESS; } /** * @brief ioctl function - entry point * * @param dev A pointer to net_device structure * @param req A pointer to ifreq structure * @param cmd Command * * @return 0 --success, otherwise fail */ #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 15, 0) int woal_do_ioctl(struct net_device *dev, struct ifreq *req, void __user *data, int cmd) #else int woal_do_ioctl(struct net_device *dev, struct ifreq *req, int cmd) #endif { int ret = 0; ENTER(); #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 15, 0) if (in_compat_syscall()) /* not implemented yet */ return -EOPNOTSUPP; #endif PRINTM(MINFO, "woal_do_ioctl: ioctl cmd = 0x%x\n", cmd); switch (cmd) { case WOAL_ANDROID_DEF_CMD: /** android default ioctl ID is SIOCDEVPRIVATE + 1 */ ret = woal_android_priv_cmd(dev, req); break; case WOAL_CUSTOM_IE_CFG: ret = woal_custom_ie_ioctl(dev, req); break; case WOAL_MGMT_FRAME_TX: ret = woal_send_host_packet(dev, req); break; case WOAL_TDLS_CONFIG: ret = woal_tdls_config_ioctl(dev, req); break; case WOAL_ANDROID_PRIV_CMD: ret = woal_android_priv_cmd(dev, req); break; case WOAL_GET_BSS_TYPE: ret = woal_get_bss_type(dev, req); break; default: #if defined(STA_WEXT) #ifdef STA_SUPPORT ret = woal_wext_do_ioctl(dev, req, cmd); #else ret = -EINVAL; #endif #else ret = -EINVAL; #endif break; } LEAVE(); return ret; }