/** @file moal_proc.c * * @brief This file contains functions for proc file. * * * Copyright 2008-2022 NXP * * NXP CONFIDENTIAL * The source code contained or described herein and all documents related to * the source code (Materials) are owned by NXP, its * suppliers and/or its licensors. Title to the Materials remains with NXP, * its suppliers and/or its licensors. The Materials contain * trade secrets and proprietary and confidential information of NXP, its * suppliers and/or its licensors. The Materials are protected by worldwide * copyright and trade secret laws and treaty provisions. No part of the * Materials may be used, copied, reproduced, modified, published, uploaded, * posted, transmitted, distributed, or disclosed in any way without NXP's prior * express written permission. * * No license under any patent, copyright, trade secret or other intellectual * property right is granted to or conferred upon you by disclosure or delivery * of the Materials, either expressly, by implication, inducement, estoppel or * otherwise. Any license under such intellectual property rights must be * express and approved by NXP in writing. * * Alternatively, this software may be distributed under the terms of GPL v2. * SPDX-License-Identifier: GPL-2.0 * */ /******************************************************** Change log: 10/21/2008: initial version ********************************************************/ #include "moal_main.h" #ifdef UAP_SUPPORT #include "moal_uap.h" #endif #ifdef SDIO #include "moal_sdio.h" #endif /******************************************************** Local Variables ********************************************************/ #ifdef CONFIG_PROC_FS #define STATUS_PROC "wifi_status" #define MWLAN_PROC "mwlan" #define WLAN_PROC "adapter%d" /** Proc mwlan directory entry */ static struct proc_dir_entry *proc_mwlan; #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) #define PROC_DIR NULL #elif LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24) #define PROC_DIR (&proc_root) #else #define PROC_DIR proc_net #endif #ifdef STA_SUPPORT static char *szModes[] = { "Unknown", "Managed", "Ad-hoc", "Auto", }; #endif /******************************************************** Global Variables ********************************************************/ int wifi_status; /******************************************************** Local Functions ********************************************************/ /** * @brief Proc read function for info * * @param sfp pointer to seq_file structure * @param data * * @return Number of output data */ static int woal_info_proc_read(struct seq_file *sfp, void *data) { struct net_device *netdev = (struct net_device *)sfp->private; char fmt[MLAN_MAX_VER_STR_LEN]; moal_private *priv = (moal_private *)netdev_priv(netdev); #ifdef STA_SUPPORT int i = 0; moal_handle *handle = NULL; mlan_bss_info info; #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 35) struct dev_mc_list *mcptr = netdev->mc_list; int mc_count = netdev->mc_count; #else struct netdev_hw_addr *mcptr = NULL; int mc_count = netdev_mc_count(netdev); #endif /* < 2.6.35 */ #else #if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 29) int i = 0; #endif /* >= 2.6.29 */ #endif #ifdef UAP_SUPPORT mlan_ds_uap_stats ustats; #endif union { t_u32 l; t_u8 c[4]; } ver; ENTER(); if (priv == NULL) goto exit; #ifdef STA_SUPPORT handle = priv->phandle; if (handle == NULL) goto exit; #endif if (!MODULE_GET) { LEAVE(); return 0; } memset(fmt, 0, sizeof(fmt)); #ifdef UAP_SUPPORT memset(&ustats, 0, sizeof(ustats)); if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_UAP) { seq_printf(sfp, "driver_name = " "\"uap\"\n"); woal_uap_get_version(priv, fmt, sizeof(fmt) - 1); if (MLAN_STATUS_SUCCESS != woal_uap_get_stats(priv, MOAL_IOCTL_WAIT, &ustats)) { MODULE_PUT; LEAVE(); return -EFAULT; } } #endif /* UAP_SUPPORT*/ #ifdef STA_SUPPORT memset(&info, 0, sizeof(info)); if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_STA) { woal_get_version(handle, fmt, sizeof(fmt) - 1); if (MLAN_STATUS_SUCCESS != woal_get_bss_info(priv, MOAL_IOCTL_WAIT, &info)) { MODULE_PUT; LEAVE(); return -EFAULT; } seq_printf(sfp, "driver_name = " "\"wlan\"\n"); } #endif seq_printf(sfp, "driver_version = %s", fmt); seq_printf(sfp, "\ninterface_name=\"%s\"\n", netdev->name); ver.l = handle->fw_release_number; seq_printf(sfp, "firmware_major_version=%u.%u.%u\n", ver.c[2], ver.c[1], ver.c[0]); #ifdef WIFI_DIRECT_SUPPORT if (priv->bss_type == MLAN_BSS_TYPE_WIFIDIRECT) { if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_STA) seq_printf(sfp, "bss_mode = \"WIFIDIRECT-Client\"\n"); else seq_printf(sfp, "bss_mode = \"WIFIDIRECT-GO\"\n"); } #endif #ifdef STA_SUPPORT if (priv->bss_type == MLAN_BSS_TYPE_STA) seq_printf(sfp, "bss_mode =\"%s\"\n", szModes[info.bss_mode]); #endif seq_printf(sfp, "media_state=\"%s\"\n", ((priv->media_connected == MFALSE) ? "Disconnected" : "Connected")); seq_printf(sfp, "mac_address=\"%02x:%02x:%02x:%02x:%02x:%02x\"\n", netdev->dev_addr[0], netdev->dev_addr[1], netdev->dev_addr[2], netdev->dev_addr[3], netdev->dev_addr[4], netdev->dev_addr[5]); #ifdef STA_SUPPORT if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_STA) { seq_printf(sfp, "multicast_count=\"%d\"\n", mc_count); seq_printf(sfp, "essid=\"%s\"\n", info.ssid.ssid); seq_printf(sfp, "bssid=\"%02x:%02x:%02x:%02x:%02x:%02x\"\n", info.bssid[0], info.bssid[1], info.bssid[2], info.bssid[3], info.bssid[4], info.bssid[5]); seq_printf(sfp, "channel=\"%d\"\n", (int)info.bss_chan); seq_printf(sfp, "region_code = \"%02x\"\n", (t_u8)info.region_code); /* * Put out the multicast list */ #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 35) for (i = 0; i < netdev->mc_count; i++) { seq_printf( sfp, "multicast_address[%d]=\"%02x:%02x:%02x:%02x:%02x:%02x\"\n", i, mcptr->dmi_addr[0], mcptr->dmi_addr[1], mcptr->dmi_addr[2], mcptr->dmi_addr[3], mcptr->dmi_addr[4], mcptr->dmi_addr[5]); mcptr = mcptr->next; } #else netdev_for_each_mc_addr (mcptr, netdev) seq_printf( sfp, "multicast_address[%d]=\"%02x:%02x:%02x:%02x:%02x:%02x\"\n", i++, mcptr->addr[0], mcptr->addr[1], mcptr->addr[2], mcptr->addr[3], mcptr->addr[4], mcptr->addr[5]); #endif /* < 2.6.35 */ } #endif seq_printf(sfp, "num_tx_bytes = %lu\n", priv->stats.tx_bytes); seq_printf(sfp, "num_rx_bytes = %lu\n", priv->stats.rx_bytes); seq_printf(sfp, "num_tx_pkts = %lu\n", priv->stats.tx_packets); seq_printf(sfp, "num_rx_pkts = %lu\n", priv->stats.rx_packets); seq_printf(sfp, "num_tx_pkts_dropped = %lu\n", priv->stats.tx_dropped); seq_printf(sfp, "num_rx_pkts_dropped = %lu\n", priv->stats.rx_dropped); seq_printf(sfp, "num_tx_pkts_err = %lu\n", priv->stats.tx_errors); seq_printf(sfp, "num_rx_pkts_err = %lu\n", priv->stats.rx_errors); seq_printf(sfp, "carrier %s\n", ((netif_carrier_ok(priv->netdev)) ? "on" : "off")); #if LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 29) for (i = 0; i < (int)netdev->num_tx_queues; i++) { seq_printf(sfp, "tx queue %d: %s\n", i, ((netif_tx_queue_stopped( netdev_get_tx_queue(netdev, 0))) ? "stopped" : "started")); } #else seq_printf(sfp, "tx queue %s\n", ((netif_queue_stopped(priv->netdev)) ? "stopped" : "started")); #endif #ifdef UAP_SUPPORT if (GET_BSS_ROLE(priv) == MLAN_BSS_ROLE_UAP) { seq_printf(sfp, "tkip_mic_failures = %u\n", ustats.tkip_mic_failures); seq_printf(sfp, "ccmp_decrypt_errors = %u\n", ustats.ccmp_decrypt_errors); seq_printf(sfp, "wep_undecryptable_count = %u\n", ustats.wep_undecryptable_count); seq_printf(sfp, "wep_icv_error_count = %u\n", ustats.wep_icv_error_count); seq_printf(sfp, "decrypt_failure_count = %u\n", ustats.decrypt_failure_count); seq_printf(sfp, "mcast_tx_count = %u\n", ustats.mcast_tx_count); seq_printf(sfp, "failed_count = %u\n", ustats.failed_count); seq_printf(sfp, "retry_count = %u\n", ustats.retry_count); seq_printf(sfp, "multiple_retry_count = %u\n", ustats.multi_retry_count); seq_printf(sfp, "frame_duplicate_count = %u\n", ustats.frame_dup_count); seq_printf(sfp, "rts_success_count = %u\n", ustats.rts_success_count); seq_printf(sfp, "rts_failure_count = %u\n", ustats.rts_failure_count); seq_printf(sfp, "ack_failure_count = %u\n", ustats.ack_failure_count); seq_printf(sfp, "rx_fragment_count = %u\n", ustats.rx_fragment_count); seq_printf(sfp, "mcast_rx_frame_count = %u\n", ustats.mcast_rx_frame_count); seq_printf(sfp, "fcs_error_count = %u\n", ustats.fcs_error_count); seq_printf(sfp, "tx_frame_count = %u\n", ustats.tx_frame_count); seq_printf(sfp, "rsna_tkip_cm_invoked = %u\n", ustats.rsna_tkip_cm_invoked); seq_printf(sfp, "rsna_4way_hshk_failures = %u\n", ustats.rsna_4way_hshk_failures); } #endif /* UAP_SUPPORT */ seq_printf(sfp, "=== tp_acnt.on:%d drop_point:%d ===\n", handle->tp_acnt.on, handle->tp_acnt.drop_point); seq_printf(sfp, "====Tx accounting====\n"); for (i = 0; i < MAX_TP_ACCOUNT_DROP_POINT_NUM; i++) { seq_printf(sfp, "[%d] Tx packets : %lu\n", i, handle->tp_acnt.tx_packets[i]); seq_printf(sfp, "[%d] Tx packets last: %lu\n", i, handle->tp_acnt.tx_packets_last[i]); seq_printf(sfp, "[%d] Tx packets rate: %lu\n", i, handle->tp_acnt.tx_packets_rate[i]); seq_printf(sfp, "[%d] Tx bytes : %lu\n", i, handle->tp_acnt.tx_bytes[i]); seq_printf(sfp, "[%d] Tx bytes last : %lu\n", i, handle->tp_acnt.tx_bytes_last[i]); seq_printf(sfp, "[%d] Tx bytes rate : %luMbps\n", i, handle->tp_acnt.tx_bytes_rate[i] * 8 / 1024 / 1024); } seq_printf(sfp, "Tx amsdu cnt : %lu\n", handle->tp_acnt.tx_amsdu_cnt); seq_printf(sfp, "Tx amsdu cnt last : %lu\n", handle->tp_acnt.tx_amsdu_cnt_last); seq_printf(sfp, "Tx amsdu cnt rate : %lu\n", handle->tp_acnt.tx_amsdu_cnt_rate); seq_printf(sfp, "Tx amsdu pkt cnt : %lu\n", handle->tp_acnt.tx_amsdu_pkt_cnt); seq_printf(sfp, "Tx amsdu pkt cnt last : %lu\n", handle->tp_acnt.tx_amsdu_pkt_cnt_last); seq_printf(sfp, "Tx amsdu pkt cnt rate : %lu\n", handle->tp_acnt.tx_amsdu_pkt_cnt_rate); seq_printf(sfp, "Tx intr cnt : %lu\n", handle->tp_acnt.tx_intr_cnt); seq_printf(sfp, "Tx intr last : %lu\n", handle->tp_acnt.tx_intr_last); seq_printf(sfp, "Tx intr rate : %lu\n", handle->tp_acnt.tx_intr_rate); seq_printf(sfp, "Tx pending : %lu\n", handle->tp_acnt.tx_pending); seq_printf(sfp, "Tx xmit skb realloc : %lu\n", handle->tp_acnt.tx_xmit_skb_realloc_cnt); seq_printf(sfp, "Tx stop queue cnt : %lu\n", handle->tp_acnt.tx_stop_queue_cnt); seq_printf(sfp, "====Rx accounting====\n"); for (i = 0; i < MAX_TP_ACCOUNT_DROP_POINT_NUM; i++) { seq_printf(sfp, "[%d] Rx packets : %lu\n", i, handle->tp_acnt.rx_packets[i]); seq_printf(sfp, "[%d] Rx packets last: %lu\n", i, handle->tp_acnt.rx_packets_last[i]); seq_printf(sfp, "[%d] Rx packets rate: %lu\n", i, handle->tp_acnt.rx_packets_rate[i]); seq_printf(sfp, "[%d] Rx bytes : %lu\n", i, handle->tp_acnt.rx_bytes[i]); seq_printf(sfp, "[%d] Rx bytes last : %lu\n", i, handle->tp_acnt.rx_bytes_last[i]); seq_printf(sfp, "[%d] Rx bytes rate : %luMbps\n", i, handle->tp_acnt.rx_bytes_rate[i] * 8 / 1024 / 1024); } seq_printf(sfp, "Rx amsdu cnt : %lu\n", handle->tp_acnt.rx_amsdu_cnt); seq_printf(sfp, "Rx amsdu cnt last : %lu\n", handle->tp_acnt.rx_amsdu_cnt_last); seq_printf(sfp, "Rx amsdu cnt rate : %lu\n", handle->tp_acnt.rx_amsdu_cnt_rate); seq_printf(sfp, "Rx amsdu pkt cnt : %lu\n", handle->tp_acnt.rx_amsdu_pkt_cnt); seq_printf(sfp, "Rx amsdu pkt cnt last : %lu\n", handle->tp_acnt.rx_amsdu_pkt_cnt_last); seq_printf(sfp, "Rx amsdu pkt cnt rate : %lu\n", handle->tp_acnt.rx_amsdu_pkt_cnt_rate); seq_printf(sfp, "Rx intr cnt : %lu\n", handle->tp_acnt.rx_intr_cnt); seq_printf(sfp, "Rx intr last : %lu\n", handle->tp_acnt.rx_intr_last); seq_printf(sfp, "Rx intr rate : %lu\n", handle->tp_acnt.rx_intr_rate); seq_printf(sfp, "Rx pending : %lu\n", handle->tp_acnt.rx_pending); seq_printf(sfp, "Rx pause : %lu\n", handle->tp_acnt.rx_paused_cnt); seq_printf(sfp, "Rx rdptr full cnt : %lu\n", handle->tp_acnt.rx_rdptr_full_cnt); exit: LEAVE(); MODULE_PUT; return 0; } static int woal_info_proc_open(struct inode *inode, struct file *file) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 16, 0) return single_open(file, woal_info_proc_read, pde_data(inode)); #elif LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0) return single_open(file, woal_info_proc_read, PDE_DATA(inode)); #else return single_open(file, woal_info_proc_read, PDE(inode)->data); #endif } #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0) static const struct proc_ops info_proc_fops = { .proc_open = woal_info_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; #else static const struct file_operations info_proc_fops = { .owner = THIS_MODULE, .open = woal_info_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #endif #ifdef SDIO #define CMD52_STR_LEN 50 /* * @brief Parse cmd52 string * * @param buffer A pointer user buffer * @param len Length user buffer * @param func Parsed func number * @param reg Parsed reg value * @param val Parsed value to set * @return BT_STATUS_SUCCESS */ static int parse_cmd52_string(const char *buffer, size_t len, int *func, int *reg, int *val) { int ret = MLAN_STATUS_SUCCESS; char *string = NULL; char *pos = NULL; gfp_t flag; ENTER(); flag = (in_atomic() || irqs_disabled()) ? GFP_ATOMIC : GFP_KERNEL; string = kzalloc(CMD52_STR_LEN, flag); if (string == NULL) return -ENOMEM; moal_memcpy_ext(NULL, string, buffer + strlen("sdcmd52rw="), len - strlen("sdcmd52rw="), CMD52_STR_LEN - 1); string = strstrip(string); *func = -1; *reg = -1; *val = -1; /* Get func */ pos = strsep(&string, " \t"); if (pos) *func = woal_string_to_number(pos); /* Get reg */ pos = strsep(&string, " \t"); if (pos) *reg = woal_string_to_number(pos); /* Get val (optional) */ pos = strsep(&string, " \t"); if (pos) *val = woal_string_to_number(pos); kfree(string); LEAVE(); return ret; } #endif /** * @brief config proc write function * * @param f file pointer * @param buf pointer to data buffer * @param count data number to write * @param off Offset * * @return number of data */ static ssize_t woal_config_write(struct file *f, const char __user *buf, size_t count, loff_t *off) { char databuf[101]; char *line = NULL; t_u32 config_data = 0; struct seq_file *sfp = f->private_data; moal_handle *handle = (moal_handle *)sfp->private; #ifdef SDIO int func = 0, reg = 0, val = 0; #endif moal_handle *ref_handle = NULL; t_u32 cmd = 0; int copy_len; moal_private *priv = NULL; ENTER(); if (!MODULE_GET) { LEAVE(); return 0; } if (count >= sizeof(databuf)) { MODULE_PUT; LEAVE(); return (int)count; } memset(databuf, 0, sizeof(databuf)); copy_len = MIN((sizeof(databuf) - 1), count); if (copy_from_user(databuf, buf, copy_len)) { MODULE_PUT; LEAVE(); return 0; } line = databuf; if (!strncmp(databuf, "soft_reset", strlen("soft_reset"))) { line += strlen("soft_reset") + 1; config_data = (t_u32)woal_string_to_number(line); PRINTM(MINFO, "soft_reset: %d\n", (int)config_data); if (woal_request_soft_reset(handle) == MLAN_STATUS_SUCCESS) handle->hardware_status = HardwareStatusReset; else PRINTM(MERROR, "Could not perform soft reset\n"); } if (!strncmp(databuf, "drv_mode", strlen("drv_mode"))) { line += strlen("drv_mode") + 1; config_data = (t_u32)woal_string_to_number(line); PRINTM(MINFO, "drv_mode: %d\n", (int)config_data); if (config_data != (t_u32)handle->params.drv_mode) if (woal_switch_drv_mode(handle, config_data) != MLAN_STATUS_SUCCESS) { PRINTM(MERROR, "Could not switch drv mode\n"); } } #ifdef SDIO if (IS_SD(handle->card_type)) { if (!strncmp(databuf, "sdcmd52rw=", strlen("sdcmd52rw=")) && count > strlen("sdcmd52rw=")) { parse_cmd52_string((const char *)databuf, (size_t)count, &func, ®, &val); woal_sdio_read_write_cmd52(handle, func, reg, val); } } #endif /* SD */ if (!strncmp(databuf, "debug_dump", strlen("debug_dump"))) { PRINTM(MERROR, "Recevie debug_dump command\n"); #ifdef USB if (!IS_USB(handle->card_type)) #endif handle->driver_status = MTRUE; ref_handle = (moal_handle *)handle->pref_mac; if (ref_handle) { priv = woal_get_priv(ref_handle, MLAN_BSS_ROLE_ANY); if (priv) { #ifdef DEBUG_LEVEL1 drvdbg &= ~MFW_D; #endif woal_mlan_debug_info(priv); woal_moal_debug_info(priv, NULL, MFALSE); } } priv = woal_get_priv(handle, MLAN_BSS_ROLE_ANY); if (priv) { #ifdef DEBUG_LEVEL1 drvdbg &= ~MFW_D; #endif woal_mlan_debug_info(priv); woal_moal_debug_info(priv, NULL, MFALSE); handle->ops.dump_fw_info(handle); } } if (!strncmp(databuf, "fwdump_file=", strlen("fwdump_file="))) { int len = copy_len - strlen("fwdump_file="); gfp_t flag; if (len) { kfree(handle->fwdump_fname); flag = (in_atomic() || irqs_disabled()) ? GFP_ATOMIC : GFP_KERNEL; handle->fwdump_fname = kzalloc(len, flag); if (handle->fwdump_fname) moal_memcpy_ext(handle, handle->fwdump_fname, databuf + strlen("fwdump_file="), len - 1, len - 1); } } if (!strncmp(databuf, "fw_reload", strlen("fw_reload"))) { if (!strncmp(databuf, "fw_reload=", strlen("fw_reload="))) { line += strlen("fw_reload") + 1; config_data = (t_u32)woal_string_to_number(line); } #ifdef SDIO_MMC else if (IS_SD(handle->card_type)) config_data = FW_RELOAD_SDIO_INBAND_RESET; #endif PRINTM(MMSG, "Request fw_reload=%d\n", config_data); woal_request_fw_reload(handle, config_data); } if (!strncmp(databuf, "drop_point=", strlen("drop_point="))) { line += strlen("drop_point") + 1; config_data = (t_u32)woal_string_to_number(line); if (config_data) { handle->tp_acnt.on = 1; handle->tp_acnt.drop_point = config_data; 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)); } priv = woal_get_priv(handle, MLAN_BSS_ROLE_ANY); if (priv) woal_set_tp_state(priv); PRINTM(MMSG, "on=%d drop_point=%d\n", handle->tp_acnt.on, handle->tp_acnt.drop_point); } if (!strncmp(databuf, "rf_test_mode", strlen("rf_test_mode"))) { line += strlen("rf_test_mode") + 1; config_data = (t_u32)woal_string_to_number(line); PRINTM(MINFO, "RF test mode: %d\n", (int)config_data); if (config_data != (t_u32)handle->rf_test_mode) if (woal_process_rf_test_mode(handle, config_data) != MLAN_STATUS_SUCCESS) PRINTM(MERROR, "Could not set RF test mode\n"); } if (!strncmp(databuf, "tx_antenna", strlen("tx_antenna"))) { line += strlen("tx_antenna") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_TX_ANT; } if (!strncmp(databuf, "rx_antenna", strlen("rx_antenna"))) { line += strlen("rx_antenna") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_RX_ANT; } if (!strncmp(databuf, "radio_mode", strlen("radio_mode"))) { line += strlen("radio_mode") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_RADIO_MODE_CFG; } if (!strncmp(databuf, "channel", strlen("channel"))) { line += strlen("channel") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_RF_CHAN; } if (!strncmp(databuf, "band", strlen("band"))) { line += strlen("band") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_RF_BAND_AG; } if (!strncmp(databuf, "bw", strlen("bw"))) { line += strlen("bw") + 1; config_data = (t_u32)woal_string_to_number(line); cmd = MFG_CMD_RF_CHANNELBW; } if (!strncmp(databuf, "get_and_reset_per", strlen("get_and_reset_per"))) cmd = MFG_CMD_CLR_RX_ERR; if (!strncmp(databuf, "tx_power=", strlen("tx_power=")) && count > strlen("tx_power=")) cmd = MFG_CMD_RFPWR; if (!strncmp(databuf, "tx_frame=", strlen("tx_frame=")) && count > strlen("tx_frame=")) cmd = MFG_CMD_TX_FRAME; if (!strncmp(databuf, "tx_continuous=", strlen("tx_continuous=")) && count > strlen("tx_continuous=")) cmd = MFG_CMD_TX_CONT; if (!strncmp(databuf, "he_tb_tx=", strlen("he_tb_tx=")) && count > strlen("he_tb_tx=")) cmd = MFG_CMD_CONFIG_MAC_HE_TB_TX; if (cmd && handle->rf_test_mode && (woal_process_rf_test_mode_cmd( handle, cmd, (const char *)databuf, (size_t)count, MLAN_ACT_SET, config_data) != MLAN_STATUS_SUCCESS)) { PRINTM(MERROR, "RF test mode cmd error\n"); } if (cmd && !handle->rf_test_mode) PRINTM(MERROR, "RF test mode is disabled\n"); MODULE_PUT; LEAVE(); return (int)count; } /** * @brief config proc read function * * @param sfp pointer to seq_file structure * @param data * * @return number of output data */ static int woal_config_read(struct seq_file *sfp, void *data) { moal_handle *handle = (moal_handle *)sfp->private; int i; ENTER(); if (!MODULE_GET) { LEAVE(); return 0; } seq_printf(sfp, "hardware_status=%d\n", (int)handle->hardware_status); seq_printf(sfp, "netlink_num=%d\n", (int)handle->netlink_num); seq_printf(sfp, "drv_mode=%d\n", (int)handle->params.drv_mode); #ifdef SDIO if (IS_SD(handle->card_type)) { seq_printf(sfp, "sdcmd52rw=%d 0x%0x 0x%02X\n", handle->cmd52_func, handle->cmd52_reg, handle->cmd52_val); } #endif /* SD */ seq_printf(sfp, "rf_test_mode=%u\n", handle->rf_test_mode); if (handle->rf_test_mode && handle->rf_data) { seq_printf(sfp, "tx_antenna=%u\n", handle->rf_data->tx_antenna); seq_printf(sfp, "rx_antenna=%u\n", handle->rf_data->rx_antenna); seq_printf(sfp, "band=%u\n", handle->rf_data->band); seq_printf(sfp, "bw=%u\n", handle->rf_data->bandwidth); if (handle->rf_data->channel) seq_printf(sfp, "channel=%u\n", handle->rf_data->channel); else seq_printf(sfp, "channel=\n"); if (handle->rf_data->radio_mode[0]) seq_printf(sfp, "radio_mode[0]=%u\n", handle->rf_data->radio_mode[0]); else seq_printf(sfp, "radio_mode[0]=\n"); if (handle->rf_data->radio_mode[1]) seq_printf(sfp, "radio_mode[1]=%u\n", handle->rf_data->radio_mode[1]); else seq_printf(sfp, "radio_mode[1]=\n"); seq_printf(sfp, "total rx pkt count=%u\n", handle->rf_data->rx_tot_pkt_count); seq_printf(sfp, "rx multicast/broadcast pkt count=%u\n", handle->rf_data->rx_mcast_bcast_pkt_count); seq_printf(sfp, "rx fcs error pkt count=%u\n", handle->rf_data->rx_pkt_fcs_err_count); if (handle->rf_data->tx_power_data[0]) { seq_printf(sfp, "tx_power=%u", handle->rf_data->tx_power_data[0]); seq_printf(sfp, " %u", handle->rf_data->tx_power_data[1]); seq_printf(sfp, " %u\n", handle->rf_data->tx_power_data[2]); } else seq_printf(sfp, "tx_power=\n"); seq_printf(sfp, "tx_continuous=%u", handle->rf_data->tx_cont_data[0]); if (handle->rf_data->tx_cont_data[0] == MTRUE) { seq_printf(sfp, " %u", handle->rf_data->tx_cont_data[1]); seq_printf(sfp, " 0x%x", handle->rf_data->tx_cont_data[2]); for (i = 3; i < 6; i++) seq_printf(sfp, " %u", handle->rf_data->tx_cont_data[i]); } seq_printf(sfp, "\n"); seq_printf(sfp, "tx_frame=%u", handle->rf_data->tx_frame_data[0]); if (handle->rf_data->tx_frame_data[0] == MTRUE) { seq_printf(sfp, " %u", handle->rf_data->tx_frame_data[1]); seq_printf(sfp, " 0x%x", handle->rf_data->tx_frame_data[2]); for (i = 3; i < 13; i++) seq_printf(sfp, " %u", handle->rf_data->tx_frame_data[i]); for (i = 13; i < 20; i++) seq_printf(sfp, " %u", handle->rf_data->tx_frame_data[i]); seq_printf(sfp, " %02x:%02x:%02x:%02x:%02x:%02x", handle->rf_data->bssid[0], handle->rf_data->bssid[1], handle->rf_data->bssid[2], handle->rf_data->bssid[3], handle->rf_data->bssid[4], handle->rf_data->bssid[5]); } seq_printf(sfp, "\n"); seq_printf(sfp, "he_tb_tx=%u", handle->rf_data->he_tb_tx[0]); if (handle->rf_data->he_tb_tx[0] == MTRUE) { seq_printf(sfp, " %u", handle->rf_data->he_tb_tx[1]); seq_printf(sfp, " %u", handle->rf_data->he_tb_tx[2]); seq_printf(sfp, " %u", handle->rf_data->he_tb_tx[3]); seq_printf(sfp, " %u", handle->rf_data->he_tb_tx[4]); } seq_printf(sfp, "\n"); } MODULE_PUT; LEAVE(); return 0; } static int woal_config_proc_open(struct inode *inode, struct file *file) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 16, 0) return single_open(file, woal_config_read, pde_data(inode)); #elif LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0) return single_open(file, woal_config_read, PDE_DATA(inode)); #else return single_open(file, woal_config_read, PDE(inode)->data); #endif } #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0) static const struct proc_ops config_proc_fops = { .proc_open = woal_config_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, .proc_write = woal_config_write, }; #else static const struct file_operations config_proc_fops = { .owner = THIS_MODULE, .open = woal_config_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, .write = woal_config_write, }; #endif static int woal_drv_dump_read(struct seq_file *sfp, void *data) { moal_handle *handle = (moal_handle *)sfp->private; int ret = 0; ENTER(); if (MODULE_GET == 0) { LEAVE(); return 0; } if (!handle) { PRINTM(MERROR, "handle is NULL!\n"); LEAVE(); return 0; } if (!handle->drv_dump_buf || !handle->drv_dump_len) handle->drv_dump_buf = woal_dump_drv_info(handle, &handle->drv_dump_len); if (!handle->drv_dump_buf || !handle->drv_dump_len) { PRINTM(MERROR, "driver dump buffer is NULL or total length is zero\n"); goto done; } if (sfp->size < handle->drv_dump_len) { PRINTM(MERROR, "drv dump size too big, size=%d, drv_dump_len=%d\n", (int)sfp->size, handle->drv_dump_len); sfp->count = sfp->size; ret = 0; MODULE_PUT; return ret; } memset(sfp->buf, 0x00, sfp->size); sfp->count = handle->drv_dump_len; moal_memcpy_ext(handle, sfp->buf, handle->drv_dump_buf, handle->drv_dump_len, sfp->size); done: moal_vfree(handle, handle->drv_dump_buf); handle->drv_dump_len = 0; handle->drv_dump_buf = NULL; MODULE_PUT; LEAVE(); return 0; } static int woal_drv_dump_proc_open(struct inode *inode, struct file *file) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 16, 0) return single_open(file, woal_drv_dump_read, pde_data(inode)); #elif LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0) return single_open(file, woal_drv_dump_read, PDE_DATA(inode)); #else return single_open(file, woal_drv_dump_read, PDE(inode)->data); #endif } #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0) static const struct proc_ops drv_dump_fops = { .proc_open = woal_drv_dump_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; #else static const struct file_operations drv_dump_fops = { .owner = THIS_MODULE, .open = woal_drv_dump_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #endif static int woal_fw_dump_read(struct seq_file *sfp, void *data) { moal_handle *handle = (moal_handle *)sfp->private; int ret = 0; ENTER(); if (MODULE_GET == 0) { LEAVE(); return 0; } if (!handle) { PRINTM(MERROR, "handle is null!\n"); goto done; } if (handle->fw_dump == MTRUE) { PRINTM(MERROR, "fw dump is in progress\n"); goto done; } if (!handle->fw_dump_buf || !handle->fw_dump_len) { PRINTM(MERROR, "fw dump buffer is NULL or total length is zero\n"); goto done; } if (sfp->size < handle->fw_dump_len) { PRINTM(MERROR, "fw dump size too big, size=%d, fw_dump_len=%ld\n", (int)sfp->size, (long int)handle->fw_dump_len); sfp->count = sfp->size; ret = 0; MODULE_PUT; return ret; } sfp->count = handle->fw_dump_len; moal_memcpy_ext(handle, sfp->buf, handle->fw_dump_buf, handle->fw_dump_len, sfp->size); moal_vfree(handle, handle->fw_dump_buf); handle->fw_dump_buf = NULL; handle->fw_dump_len = 0; done: MODULE_PUT; LEAVE(); return 0; } static int woal_fw_dump_proc_open(struct inode *inode, struct file *file) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 16, 0) return single_open(file, woal_fw_dump_read, pde_data(inode)); #elif LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0) return single_open(file, woal_fw_dump_read, PDE_DATA(inode)); #else return single_open(file, woal_fw_dump_read, PDE(inode)->data); #endif } #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0) static const struct proc_ops fw_dump_fops = { .proc_open = woal_fw_dump_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; #else static const struct file_operations fw_dump_fops = { .owner = THIS_MODULE, .open = woal_fw_dump_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #endif /** * @brief wifi status proc read function * * @param sfp pointer to seq_file structure * @param data * * @return number of output data */ static int woal_wifi_status_read(struct seq_file *sfp, void *data) { ENTER(); if (!MODULE_GET) { LEAVE(); return 0; } seq_printf(sfp, "%d\n", wifi_status); MODULE_PUT; LEAVE(); return 0; } static int woal_wifi_status_proc_open(struct inode *inode, struct file *file) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 16, 0) return single_open(file, woal_wifi_status_read, pde_data(inode)); #elif LINUX_VERSION_CODE >= KERNEL_VERSION(3, 10, 0) return single_open(file, woal_wifi_status_read, PDE_DATA(inode)); #else return single_open(file, woal_wifi_status_read, PDE(inode)->data); #endif } #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 6, 0) static const struct proc_ops wifi_status_proc_fops = { .proc_open = woal_wifi_status_proc_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; #else static const struct file_operations wifi_status_proc_fops = { .owner = THIS_MODULE, .open = woal_wifi_status_proc_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; #endif /******************************************************** Global Functions ********************************************************/ /** * @brief Convert string to number * * @param s Pointer to numbered string * * @return Converted number from string s */ int woal_string_to_number(char *s) { int r = 0; int base = 0; int pn = 1; if (!strncmp(s, "-", 1)) { pn = -1; s++; } if (!strncmp(s, "0x", 2) || !strncmp(s, "0X", 2)) { base = 16; s += 2; } else base = 10; for (; *s; s++) { if ((*s >= '0') && (*s <= '9')) r = (r * base) + (*s - '0'); else if ((*s >= 'A') && (*s <= 'F')) r = (r * base) + (*s - 'A' + 10); else if ((*s >= 'a') && (*s <= 'f')) r = (r * base) + (*s - 'a' + 10); else break; } return r * pn; } /** * @brief This function creates proc mwlan directory * directory structure * * @return MLAN_STATUS_SUCCESS or MLAN_STATUS_FAILURE */ mlan_status woal_root_proc_init(void) { ENTER(); PRINTM(MINFO, "Create /proc/mwlan directory\n"); proc_mwlan = proc_mkdir(MWLAN_PROC, PROC_DIR); if (!proc_mwlan) { PRINTM(MERROR, "woal_root_proc_init: Cannot create /proc/mwlan\n"); LEAVE(); return MLAN_STATUS_FAILURE; } /* create /proc/mwlan/wifi_status */ proc_create_data(STATUS_PROC, 0666, proc_mwlan, &wifi_status_proc_fops, NULL); LEAVE(); return MLAN_STATUS_SUCCESS; } /** * @brief This function removes proc mwlan directory * directory structure * * @return N/A */ void woal_root_proc_remove(void) { ENTER(); remove_proc_entry(STATUS_PROC, proc_mwlan); remove_proc_entry(MWLAN_PROC, PROC_DIR); proc_mwlan = NULL; LEAVE(); } /** * @brief Create the top level proc directory * * @param handle Pointer to woal_handle * * @return N/A */ void woal_proc_init(moal_handle *handle) { struct proc_dir_entry *r; #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26) struct proc_dir_entry *pde = proc_mwlan; #endif char config_proc_dir[20]; char drv_dump_dir[20]; char fw_dump_dir[20]; ENTER(); if (handle->proc_wlan) { PRINTM(MMSG, "woal_proc_init: proc_wlan is already exist %s\n", handle->proc_wlan_name); goto done; } snprintf(handle->proc_wlan_name, sizeof(handle->proc_wlan_name), WLAN_PROC, handle->handle_idx); PRINTM(MINFO, "Create Proc Interface %s\n", handle->proc_wlan_name); #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 26) /* Check if directory already exists */ for (pde = pde->subdir; pde; pde = pde->next) { if (pde->namelen && !strcmp(handle->proc_wlan_name, pde->name)) { /* Directory exists */ PRINTM(MWARN, "proc interface already exists!\n"); handle->proc_wlan = pde; break; } } if (pde == NULL) { handle->proc_wlan = proc_mkdir(handle->proc_wlan_name, proc_mwlan); #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24) if (handle->proc_wlan) atomic_set(&handle->proc_wlan->count, 1); #endif } #else handle->proc_wlan = proc_mkdir(handle->proc_wlan_name, proc_mwlan); #endif if (!handle->proc_wlan) { PRINTM(MERROR, "Cannot create proc interface %s!\n", handle->proc_wlan_name); goto done; } strcpy(config_proc_dir, "config"); #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) r = proc_create_data(config_proc_dir, 0666, handle->proc_wlan, &config_proc_fops, handle); #else r = create_proc_entry(config_proc_dir, 0644, handle->proc_wlan); if (r) { r->data = handle; r->proc_fops = &config_proc_fops; } #endif if (!r) PRINTM(MERROR, "Fail to create proc config\n"); strcpy(drv_dump_dir, "drv_dump"); #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) r = proc_create_data(drv_dump_dir, 0644, handle->proc_wlan, &drv_dump_fops, handle); #else r = create_proc_entry(drv_dump_dir, 0644, handle->proc_wlan); if (r) { r->data = handle; r->proc_fops = &drv_dump_fops; } #endif if (!r) PRINTM(MERROR, "Failed to create proc drv dump\n"); strcpy(fw_dump_dir, "fw_dump"); #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) r = proc_create_data(fw_dump_dir, 0644, handle->proc_wlan, &fw_dump_fops, handle); #else r = create_proc_entry(fw_dump_dir, 0644, handle->proc_wlan); if (r) { r->data = handle; r->proc_fops = &fw_dump_fops; } #endif if (!r) PRINTM(MERROR, "Failed to create proc fw dump\n"); done: LEAVE(); } /** * @brief Remove the top level proc directory * * @param handle pointer moal_handle * * @return N/A */ void woal_proc_exit(moal_handle *handle) { char config_proc_dir[20]; char drv_dump_dir[20]; char fw_dump_dir[20]; ENTER(); PRINTM(MINFO, "Remove Proc Interface %s\n", handle->proc_wlan_name); if (handle->proc_wlan) { strcpy(config_proc_dir, "config"); remove_proc_entry(config_proc_dir, handle->proc_wlan); strcpy(drv_dump_dir, "drv_dump"); remove_proc_entry(drv_dump_dir, handle->proc_wlan); strcpy(fw_dump_dir, "fw_dump"); remove_proc_entry(fw_dump_dir, handle->proc_wlan); #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) /* Remove only if we are the only instance using this */ if (atomic_read(&(handle->proc_wlan->count)) > 1) { PRINTM(MWARN, "More than one interface using proc!\n"); } else { #endif #if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 24) atomic_dec(&(handle->proc_wlan->count)); #endif remove_proc_entry(handle->proc_wlan_name, proc_mwlan); handle->proc_wlan = NULL; #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) } #endif } if (handle->fw_dump_buf) { moal_vfree(handle, handle->fw_dump_buf); handle->fw_dump_buf = NULL; handle->fw_dump_len = 0; } if (handle->drv_dump_buf) { moal_vfree(handle, handle->drv_dump_buf); handle->drv_dump_len = 0; handle->drv_dump_buf = NULL; } LEAVE(); } /** * @brief Create proc file for interface * * @param priv pointer moal_private * * @return N/A */ void woal_create_proc_entry(moal_private *priv) { struct proc_dir_entry *r; struct net_device *dev = priv->netdev; #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) char proc_dir_name[22]; #endif ENTER(); #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) if (!priv->proc_entry) { memset(proc_dir_name, 0, sizeof(proc_dir_name)); memcpy(proc_dir_name, priv->phandle->proc_wlan_name, sizeof(proc_dir_name) - 2); proc_dir_name[strlen(proc_dir_name)] = '/'; if (strlen(dev->name) > ((sizeof(proc_dir_name) - 1) - (strlen(proc_dir_name)))) { PRINTM(MERROR, "Failed to create proc entry, device name is too long\n"); LEAVE(); return; } strcat(proc_dir_name, dev->name); /* Try to create adapterX/dev_name directory first under * /proc/mwlan/ */ priv->proc_entry = proc_mkdir(proc_dir_name, proc_mwlan); if (priv->proc_entry) { /* Success. Continue normally */ #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) if (!priv->phandle->proc_wlan) { priv->phandle->proc_wlan = priv->proc_entry->parent; } atomic_inc(&(priv->phandle->proc_wlan->count)); #endif } else { /* Failure. adapterX/ may not exist. Try to create that * first */ priv->phandle->proc_wlan = proc_mkdir( priv->phandle->proc_wlan_name, proc_mwlan); if (!priv->phandle->proc_wlan) { /* Failure. Something broken */ LEAVE(); return; } else { /* Success. Now retry creating mlanX */ priv->proc_entry = proc_mkdir(proc_dir_name, proc_mwlan); #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) atomic_inc(&(priv->phandle->proc_wlan->count)); #endif } } #else if (priv->phandle->proc_wlan && !priv->proc_entry) { priv->proc_entry = proc_mkdir(dev->name, priv->phandle->proc_wlan); #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) atomic_inc(&(priv->phandle->proc_wlan->count)); #endif /* < 3.10.0 */ #endif /* < 2.6.26 */ strcpy(priv->proc_entry_name, dev->name); if (priv->proc_entry) { #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 26) r = proc_create_data("info", 0, priv->proc_entry, &info_proc_fops, dev); #else r = create_proc_entry("info", 0, priv->proc_entry); if (r) { r->data = dev; r->proc_fops = &info_proc_fops; } #endif if (!r) PRINTM(MMSG, "Fail to create proc info\n"); } } LEAVE(); } /** * @brief Remove proc file * * @param priv Pointer moal_private * * @return N/A */ void woal_proc_remove(moal_private *priv) { ENTER(); if (priv->phandle->proc_wlan && priv->proc_entry) { remove_proc_entry("info", priv->proc_entry); remove_proc_entry(priv->proc_entry_name, priv->phandle->proc_wlan); #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 10, 0) atomic_dec(&(priv->phandle->proc_wlan->count)); #endif priv->proc_entry = NULL; } LEAVE(); } #endif