mwifiex/mxm_wifiex/wlan_src/mlan/mlan_sta_rx.c

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/** @file mlan_sta_rx.c
*
* @brief This file contains the handling of RX in MLAN
* module.
*
*
* Copyright 2008-2020 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:
10/27/2008: initial version
********************************************************/
#include "mlan.h"
#include "mlan_join.h"
#include "mlan_util.h"
#include "mlan_fw.h"
#include "mlan_main.h"
#include "mlan_11n_aggr.h"
#include "mlan_11n_rxreorder.h"
#ifdef DRV_EMBEDDED_SUPPLICANT
#include "authenticator_api.h"
#endif
/********************************************************
Local Variables
********************************************************/
/** Ethernet II header */
typedef struct {
/** Ethernet II header destination address */
t_u8 dest_addr[MLAN_MAC_ADDR_LENGTH];
/** Ethernet II header source address */
t_u8 src_addr[MLAN_MAC_ADDR_LENGTH];
/** Ethernet II header length */
t_u16 ethertype;
} EthII_Hdr_t;
/** IPv4 ARP request header */
typedef MLAN_PACK_START struct {
/** Hardware type */
t_u16 Htype;
/** Protocol type */
t_u16 Ptype;
/** Hardware address length */
t_u8 addr_len;
/** Protocol address length */
t_u8 proto_len;
/** Operation code */
t_u16 op_code;
/** Source mac address */
t_u8 src_mac[MLAN_MAC_ADDR_LENGTH];
/** Sender IP address */
t_u8 src_ip[4];
/** Destination mac address */
t_u8 dst_mac[MLAN_MAC_ADDR_LENGTH];
/** Destination IP address */
t_u8 dst_ip[4];
} MLAN_PACK_END IPv4_ARP_t;
/** IPv6 Nadv packet header */
typedef MLAN_PACK_START struct {
/** IP protocol version */
t_u8 version;
/** flow label */
t_u8 flow_lab[3];
/** Payload length */
t_u16 payload_len;
/** Next header type */
t_u8 next_hdr;
/** Hot limit */
t_u8 hop_limit;
/** Source address */
t_u8 src_addr[16];
/** Destination address */
t_u8 dst_addr[16];
/** ICMP type */
t_u8 icmp_type;
/** IPv6 Code */
t_u8 ipv6_code;
/** IPv6 Checksum */
t_u16 ipv6_checksum;
/** Flags */
t_u32 flags;
/** Target address */
t_u8 taget_addr[16];
/** Reserved */
t_u8 rev[8];
} MLAN_PACK_END IPv6_Nadv_t;
/********************************************************
Global functions
********************************************************/
/**
* @brief This function check and discard IPv4 and IPv6 gratuitous broadcast
* packets
*
* @param prx_pkt A pointer to RxPacketHdr_t structure of received packet
* @param pmadapter A pointer to pmlan_adapter structure
* @return TRUE if found such type of packets, FALSE not found
*/
static t_u8 discard_gratuitous_ARP_msg(RxPacketHdr_t *prx_pkt,
pmlan_adapter pmadapter)
{
t_u8 proto_ARP_type[] = {0x08, 0x06};
t_u8 proto_ARP_type_v6[] = {0x86, 0xDD};
IPv4_ARP_t *parp_hdr;
IPv6_Nadv_t *pNadv_hdr;
t_u8 ret = MFALSE;
/* IPV4 pkt check
* A gratuitous ARP is an ARP packet
* where the source and destination IP are both set to
* the IP of the machine issuing the packet.
*/
if (memcmp(pmadapter, proto_ARP_type, &prx_pkt->eth803_hdr.h803_len,
sizeof(proto_ARP_type)) == 0) {
parp_hdr = (IPv4_ARP_t *)(&prx_pkt->rfc1042_hdr);
/* Graguitous ARP can be ARP request or ARP reply*/
if ((parp_hdr->op_code == mlan_htons(0x01)) ||
(parp_hdr->op_code == mlan_htons(0x02)))
if (memcmp(pmadapter, parp_hdr->src_ip,
parp_hdr->dst_ip, 4) == 0)
ret = MTRUE;
}
/* IPV6 pkt check
* An unsolicited Neighbor Advertisement pkt is
* marked by a cleared Solicited Flag
*/
if (memcmp(pmadapter, proto_ARP_type_v6, &prx_pkt->eth803_hdr.h803_len,
sizeof(proto_ARP_type_v6)) == 0) {
pNadv_hdr = (IPv6_Nadv_t *)(&prx_pkt->rfc1042_hdr);
/* Check Nadv type: next header is ICMPv6 and
* icmp type is Nadv */
if (pNadv_hdr->next_hdr == 0x3A && pNadv_hdr->icmp_type == 0x88)
if ((pNadv_hdr->flags & mlan_htonl(0x40000000)) == 0)
ret = MTRUE;
}
return ret;
}
/**
* @brief This function processes received packet and forwards it
* to kernel/upper layer
*
* @param pmadapter A pointer to mlan_adapter
* @param pmbuf A pointer to mlan_buffer which includes the received packet
*
* @return MLAN_STATUS_SUCCESS or MLAN_STATUS_FAILURE
*/
mlan_status wlan_process_rx_packet(pmlan_adapter pmadapter, pmlan_buffer pmbuf)
{
mlan_status ret = MLAN_STATUS_SUCCESS;
pmlan_private priv = pmadapter->priv[pmbuf->bss_index];
RxPacketHdr_t *prx_pkt;
RxPD *prx_pd;
int hdr_chop;
EthII_Hdr_t *peth_hdr;
t_u8 rfc1042_eth_hdr[MLAN_MAC_ADDR_LENGTH] = {0xaa, 0xaa, 0x03,
0x00, 0x00, 0x00};
t_u8 snap_oui_802_h[MLAN_MAC_ADDR_LENGTH] = {0xaa, 0xaa, 0x03,
0x00, 0x00, 0xf8};
t_u8 appletalk_aarp_type[2] = {0x80, 0xf3};
t_u8 ipx_snap_type[2] = {0x81, 0x37};
#ifdef DRV_EMBEDDED_SUPPLICANT
t_u8 eapol_type[2] = {0x88, 0x8e};
#endif
t_u8 ext_rate_info = 0;
ENTER();
prx_pd = (RxPD *)(pmbuf->pbuf + pmbuf->data_offset);
prx_pkt = (RxPacketHdr_t *)((t_u8 *)prx_pd + prx_pd->rx_pkt_offset);
/** Small debug type */
#define DBG_TYPE_SMALL 2
/** Size of debugging structure */
#define SIZE_OF_DBG_STRUCT 4
if (prx_pd->rx_pkt_type == PKT_TYPE_DEBUG) {
t_u8 dbg_type;
dbg_type = *(t_u8 *)&prx_pkt->eth803_hdr;
if (dbg_type == DBG_TYPE_SMALL) {
PRINTM(MFW_D, "\n");
DBG_HEXDUMP(MFW_D, "FWDBG",
(char *)((t_u8 *)&prx_pkt->eth803_hdr +
SIZE_OF_DBG_STRUCT),
prx_pd->rx_pkt_length);
PRINTM(MFW_D, "FWDBG::\n");
}
goto done;
}
PRINTM(MINFO,
"RX Data: data_len - prx_pd->rx_pkt_offset = %d - %d = %d\n",
pmbuf->data_len, prx_pd->rx_pkt_offset,
pmbuf->data_len - prx_pd->rx_pkt_offset);
HEXDUMP("RX Data: Dest", prx_pkt->eth803_hdr.dest_addr,
sizeof(prx_pkt->eth803_hdr.dest_addr));
HEXDUMP("RX Data: Src", prx_pkt->eth803_hdr.src_addr,
sizeof(prx_pkt->eth803_hdr.src_addr));
if ((memcmp(pmadapter, &prx_pkt->rfc1042_hdr, snap_oui_802_h,
sizeof(snap_oui_802_h)) == 0) ||
((memcmp(pmadapter, &prx_pkt->rfc1042_hdr, rfc1042_eth_hdr,
sizeof(rfc1042_eth_hdr)) == 0) &&
memcmp(pmadapter, &prx_pkt->rfc1042_hdr.snap_type,
appletalk_aarp_type, sizeof(appletalk_aarp_type)) &&
memcmp(pmadapter, &prx_pkt->rfc1042_hdr.snap_type, ipx_snap_type,
sizeof(ipx_snap_type)))) {
/*
* Replace the 803 header and rfc1042 header (llc/snap) with an
* EthernetII header, keep the src/dst and snap_type
* (ethertype). The firmware only passes up SNAP frames
* converting all RX Data from 802.11 to 802.2/LLC/SNAP frames.
* To create the Ethernet II, just move the src, dst address
* right before the snap_type.
*/
peth_hdr =
(EthII_Hdr_t *)((t_u8 *)&prx_pkt->eth803_hdr +
sizeof(prx_pkt->eth803_hdr) +
sizeof(prx_pkt->rfc1042_hdr) -
sizeof(prx_pkt->eth803_hdr.dest_addr) -
sizeof(prx_pkt->eth803_hdr.src_addr) -
sizeof(prx_pkt->rfc1042_hdr.snap_type));
memcpy_ext(pmadapter, peth_hdr->src_addr,
prx_pkt->eth803_hdr.src_addr,
sizeof(peth_hdr->src_addr),
sizeof(peth_hdr->src_addr));
memcpy_ext(pmadapter, peth_hdr->dest_addr,
prx_pkt->eth803_hdr.dest_addr,
sizeof(peth_hdr->dest_addr),
sizeof(peth_hdr->dest_addr));
/* Chop off the RxPD + the excess memory from the 802.2/llc/snap
* header that was removed.
*/
hdr_chop = (t_u32)((t_ptr)peth_hdr - (t_ptr)prx_pd);
} else {
HEXDUMP("RX Data: LLC/SNAP", (t_u8 *)&prx_pkt->rfc1042_hdr,
sizeof(prx_pkt->rfc1042_hdr));
if ((priv->hotspot_cfg & HOTSPOT_ENABLED) &&
discard_gratuitous_ARP_msg(prx_pkt, pmadapter)) {
ret = MLAN_STATUS_SUCCESS;
PRINTM(MDATA,
"Bypass sending Gratuitous ARP frame to Kernel.\n");
goto done;
}
/* Chop off the RxPD */
hdr_chop = (t_u32)((t_ptr)&prx_pkt->eth803_hdr - (t_ptr)prx_pd);
}
/* Chop off the leading header bytes so the it points to the start of
* either the reconstructed EthII frame or the 802.2/llc/snap frame
*/
pmbuf->data_len -= hdr_chop;
pmbuf->data_offset += hdr_chop;
pmbuf->pparent = MNULL;
DBG_HEXDUMP(MDAT_D, "RxPD", (t_u8 *)prx_pd,
MIN(sizeof(RxPD), MAX_DATA_DUMP_LEN));
DBG_HEXDUMP(MDAT_D, "Rx Payload",
((t_u8 *)prx_pd + prx_pd->rx_pkt_offset),
MIN(prx_pd->rx_pkt_length, MAX_DATA_DUMP_LEN));
priv->rxpd_rate = prx_pd->rx_rate;
pmadapter->callbacks.moal_get_system_time(pmadapter->pmoal_handle,
&pmbuf->out_ts_sec,
&pmbuf->out_ts_usec);
PRINTM_NETINTF(MDATA, priv);
PRINTM(MDATA, "%lu.%06lu : Data => kernel seq_num=%d tid=%d\n",
pmbuf->out_ts_sec, pmbuf->out_ts_usec, prx_pd->seq_num,
prx_pd->priority);
#ifdef DRV_EMBEDDED_SUPPLICANT
if (supplicantIsEnabled(priv->psapriv) &&
(!memcmp(pmadapter, &prx_pkt->eth803_hdr.h803_len, eapol_type,
sizeof(eapol_type)))) {
// BML_SET_OFFSET(bufDesc, offset);
if (ProcessEAPoLPkt(priv->psapriv, pmbuf)) {
pmadapter->ops.data_complete(pmadapter, pmbuf, ret);
ret = MLAN_STATUS_SUCCESS;
PRINTM(MMSG,
"host supplicant eapol pkt process done.\n");
LEAVE();
return ret;
}
}
#endif
if (MFALSE || priv->rx_pkt_info) {
ext_rate_info = (t_u8)(prx_pd->rx_info >> 16);
pmbuf->u.rx_info.data_rate =
wlan_index_to_data_rate(priv->adapter, prx_pd->rx_rate,
prx_pd->rate_info,
ext_rate_info);
pmbuf->u.rx_info.channel =
(prx_pd->rx_info & RXPD_CHAN_MASK) >> 5;
pmbuf->u.rx_info.antenna = prx_pd->antenna;
pmbuf->u.rx_info.rssi = prx_pd->snr - prx_pd->nf;
}
ret = pmadapter->callbacks.moal_recv_packet(pmadapter->pmoal_handle,
pmbuf);
if (ret == MLAN_STATUS_FAILURE) {
pmbuf->status_code = MLAN_ERROR_PKT_INVALID;
PRINTM(MERROR,
"STA Rx Error: moal_recv_packet returned error\n");
}
done:
if (ret != MLAN_STATUS_PENDING)
pmadapter->ops.data_complete(pmadapter, pmbuf, ret);
#ifdef USB
else if (IS_USB(pmadapter->card_type))
pmadapter->callbacks.moal_recv_complete(pmadapter->pmoal_handle,
MNULL, MLAN_USB_EP_DATA,
MLAN_STATUS_SUCCESS);
#endif
LEAVE();
return ret;
}
/**
* @brief This function processes the received buffer
*
* @param adapter A pointer to mlan_adapter
* @param pmbuf A pointer to the received buffer
*
* @return MLAN_STATUS_SUCCESS or MLAN_STATUS_FAILURE
*/
mlan_status wlan_ops_sta_process_rx_packet(t_void *adapter, pmlan_buffer pmbuf)
{
pmlan_adapter pmadapter = (pmlan_adapter)adapter;
mlan_status ret = MLAN_STATUS_SUCCESS;
RxPD *prx_pd;
RxPacketHdr_t *prx_pkt;
pmlan_private priv = pmadapter->priv[pmbuf->bss_index];
t_u8 ta[MLAN_MAC_ADDR_LENGTH];
t_u16 rx_pkt_type = 0;
wlan_mgmt_pkt *pmgmt_pkt_hdr = MNULL;
sta_node *sta_ptr = MNULL;
t_u16 adj_rx_rate = 0;
t_u8 antenna = 0;
ENTER();
prx_pd = (RxPD *)(pmbuf->pbuf + pmbuf->data_offset);
/* Endian conversion */
endian_convert_RxPD(prx_pd);
rx_pkt_type = prx_pd->rx_pkt_type;
prx_pkt = (RxPacketHdr_t *)((t_u8 *)prx_pd + prx_pd->rx_pkt_offset);
if ((prx_pd->rx_pkt_offset + prx_pd->rx_pkt_length) !=
(t_u16)pmbuf->data_len) {
PRINTM(MERROR,
"Wrong rx packet: len=%d,rx_pkt_offset=%d,"
" rx_pkt_length=%d\n",
pmbuf->data_len, prx_pd->rx_pkt_offset,
prx_pd->rx_pkt_length);
pmbuf->status_code = MLAN_ERROR_PKT_SIZE_INVALID;
ret = MLAN_STATUS_FAILURE;
pmadapter->ops.data_complete(pmadapter, pmbuf, ret);
goto done;
}
pmbuf->data_len = prx_pd->rx_pkt_offset + prx_pd->rx_pkt_length;
if (pmadapter->priv[pmbuf->bss_index]->mgmt_frame_passthru_mask &&
prx_pd->rx_pkt_type == PKT_TYPE_MGMT_FRAME) {
/* Check if this is mgmt packet and needs to
* forwarded to app as an event
*/
pmgmt_pkt_hdr = (wlan_mgmt_pkt *)((t_u8 *)prx_pd +
prx_pd->rx_pkt_offset);
pmgmt_pkt_hdr->frm_len =
wlan_le16_to_cpu(pmgmt_pkt_hdr->frm_len);
if ((pmgmt_pkt_hdr->wlan_header.frm_ctl &
IEEE80211_FC_MGMT_FRAME_TYPE_MASK) == 0)
wlan_process_802dot11_mgmt_pkt(
pmadapter->priv[pmbuf->bss_index],
(t_u8 *)&pmgmt_pkt_hdr->wlan_header,
pmgmt_pkt_hdr->frm_len + sizeof(wlan_mgmt_pkt) -
sizeof(pmgmt_pkt_hdr->frm_len),
prx_pd);
pmadapter->ops.data_complete(pmadapter, pmbuf, ret);
goto done;
}
if (rx_pkt_type != PKT_TYPE_BAR) {
priv->rxpd_rate_info = prx_pd->rate_info;
priv->rxpd_rate = prx_pd->rx_rate;
priv->rxpd_rx_info = (t_u8)(prx_pd->rx_info >> 16);
if (priv->bss_type == MLAN_BSS_TYPE_STA) {
antenna = wlan_adjust_antenna(priv, prx_pd);
adj_rx_rate = wlan_adjust_data_rate(
priv, priv->rxpd_rate, priv->rxpd_rate_info);
pmadapter->callbacks.moal_hist_data_add(
pmadapter->pmoal_handle, pmbuf->bss_index,
adj_rx_rate, prx_pd->snr, prx_pd->nf, antenna);
}
}
/*
* If the packet is not an unicast packet then send the packet
* directly to os. Don't pass thru rx reordering
*/
if ((!IS_11N_ENABLED(priv)) ||
memcmp(priv->adapter, priv->curr_addr,
prx_pkt->eth803_hdr.dest_addr, MLAN_MAC_ADDR_LENGTH)) {
priv->snr = prx_pd->snr;
priv->nf = prx_pd->nf;
wlan_process_rx_packet(pmadapter, pmbuf);
goto done;
}
if (queuing_ra_based(priv)) {
memcpy_ext(pmadapter, ta, prx_pkt->eth803_hdr.src_addr,
MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH);
if (prx_pd->priority < MAX_NUM_TID) {
PRINTM(MDATA, "adhoc/tdls packet %p " MACSTR "\n",
pmbuf, MAC2STR(ta));
sta_ptr = wlan_get_station_entry(priv, ta);
if (sta_ptr) {
sta_ptr->rx_seq[prx_pd->priority] =
prx_pd->seq_num;
sta_ptr->snr = prx_pd->snr;
sta_ptr->nf = prx_pd->nf;
}
if (!sta_ptr || !sta_ptr->is_11n_enabled) {
wlan_process_rx_packet(pmadapter, pmbuf);
goto done;
}
}
} else {
priv->snr = prx_pd->snr;
priv->nf = prx_pd->nf;
if ((rx_pkt_type != PKT_TYPE_BAR) &&
(prx_pd->priority < MAX_NUM_TID))
priv->rx_seq[prx_pd->priority] = prx_pd->seq_num;
memcpy_ext(pmadapter, ta,
priv->curr_bss_params.bss_descriptor.mac_address,
MLAN_MAC_ADDR_LENGTH, MLAN_MAC_ADDR_LENGTH);
}
if ((priv->port_ctrl_mode == MTRUE && priv->port_open == MFALSE) &&
(rx_pkt_type != PKT_TYPE_BAR)) {
mlan_11n_rxreorder_pkt(priv, prx_pd->seq_num, prx_pd->priority,
ta, (t_u8)prx_pd->rx_pkt_type,
(t_void *)RX_PKT_DROPPED_IN_FW);
if (rx_pkt_type == PKT_TYPE_AMSDU) {
pmbuf->data_len = prx_pd->rx_pkt_length;
pmbuf->data_offset += prx_pd->rx_pkt_offset;
wlan_11n_deaggregate_pkt(priv, pmbuf);
} else {
wlan_process_rx_packet(pmadapter, pmbuf);
}
goto done;
}
/* Reorder and send to OS */
ret = mlan_11n_rxreorder_pkt(priv, prx_pd->seq_num, prx_pd->priority,
ta, (t_u8)prx_pd->rx_pkt_type,
(void *)pmbuf);
if (ret || (rx_pkt_type == PKT_TYPE_BAR))
pmadapter->ops.data_complete(pmadapter, pmbuf, ret);
done:
LEAVE();
return ret;
}