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qcacld-3.0: Fix Datapath kernel checkpatch warnings in htt_fw_stats.c

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Fix Datapath kernel checkpatch warnings in htt_fw_stats.c

Change-Id: Ia6b62719abe9186af2e0a581d7d9a26552b7bba1
CRs-Fixed: 2032874
This commit is contained in:
Yun Park
2017-04-04 10:06:18 -07:00
committad av snandini
förälder a63df43b92
incheckning f387e617ca
1 ändrade filer med 240 tillägg och 228 borttagningar
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468
core/dp/htt/htt_fw_stats.c
Visa fil

@@ -1,5 +1,5 @@
/*
* Copyright (c) 2012-2016 The Linux Foundation. All rights reserved.
* Copyright (c) 2012-2017 The Linux Foundation. All rights reserved.
*
* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
*
@@ -59,80 +59,83 @@ static char *bw_str_arr[] = {"20MHz", "40MHz", "80MHz", "160MHz"};
* trick to use to avoid the code duplication.
*/
#define tx_rate_stats_print_cmn(_tx_rate_info, _concise) \
{ \
qdf_print("TX Rate Info:"); \
\
/* MCS */ \
qdf_print("MCS counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_tx_rate_info->mcs[0], \
_tx_rate_info->mcs[1], \
_tx_rate_info->mcs[2], \
_tx_rate_info->mcs[3], \
_tx_rate_info->mcs[4], \
_tx_rate_info->mcs[5], \
_tx_rate_info->mcs[6], \
_tx_rate_info->mcs[7], \
_tx_rate_info->mcs[8], \
_tx_rate_info->mcs[9]); \
\
/* SGI */ \
qdf_print("SGI counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_tx_rate_info->sgi[0], \
_tx_rate_info->sgi[1], \
_tx_rate_info->sgi[2], \
_tx_rate_info->sgi[3], \
_tx_rate_info->sgi[4], \
_tx_rate_info->sgi[5], \
_tx_rate_info->sgi[6], \
_tx_rate_info->sgi[7], \
_tx_rate_info->sgi[8], \
_tx_rate_info->sgi[9]); \
\
/* NSS */ \
qdf_print("NSS counts: 1x1 %d, 2x2 %d, 3x3 %d", \
_tx_rate_info->nss[0], \
_tx_rate_info->nss[1], _tx_rate_info->nss[2]);\
\
/* BW */ \
if (sizeof(_tx_rate_info->bw) / sizeof(_tx_rate_info->bw[0]) == 3)\
qdf_print("BW counts: %s %d, %s %d, %s %d", \
bw_str_arr[0], _tx_rate_info->bw[0], \
bw_str_arr[1], _tx_rate_info->bw[1], \
bw_str_arr[2], _tx_rate_info->bw[2]); \
else if (sizeof(_tx_rate_info->bw) / sizeof(_tx_rate_info->bw[0]) == 4)\
qdf_print("BW counts: %s %d, %s %d, %s %d, %s %d", \
bw_str_arr[0], _tx_rate_info->bw[0], \
bw_str_arr[1], _tx_rate_info->bw[1], \
bw_str_arr[2], _tx_rate_info->bw[2], \
bw_str_arr[3], _tx_rate_info->bw[3]); \
\
\
/* Preamble */ \
qdf_print("Preamble (O C H V) counts: %d, %d, %d, %d",\
_tx_rate_info->pream[0], \
_tx_rate_info->pream[1], \
_tx_rate_info->pream[2], \
_tx_rate_info->pream[3]); \
\
/* STBC rate counts */ \
qdf_print("STBC rate counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_tx_rate_info->stbc[0], \
_tx_rate_info->stbc[1], \
_tx_rate_info->stbc[2], \
_tx_rate_info->stbc[3], \
_tx_rate_info->stbc[4], \
_tx_rate_info->stbc[5], \
_tx_rate_info->stbc[6], \
_tx_rate_info->stbc[7], \
_tx_rate_info->stbc[8], \
_tx_rate_info->stbc[9]); \
\
/* LDPC and TxBF counts */ \
qdf_print("LDPC Counts: %d", _tx_rate_info->ldpc);\
qdf_print("RTS Counts: %d", _tx_rate_info->rts_cnt);\
/* RSSI Values for last ack frames */ \
qdf_print("Ack RSSI: %d", _tx_rate_info->ack_rssi);\
}
do { \
qdf_print("TX Rate Info:"); \
\
/* MCS */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"MCS counts (0..9)", \
_tx_rate_info->mcs[0], \
_tx_rate_info->mcs[1], \
_tx_rate_info->mcs[2], \
_tx_rate_info->mcs[3], \
_tx_rate_info->mcs[4], \
_tx_rate_info->mcs[5], \
_tx_rate_info->mcs[6], \
_tx_rate_info->mcs[7], \
_tx_rate_info->mcs[8], \
_tx_rate_info->mcs[9]); \
\
/* SGI */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"SGI counts (0..9)", \
_tx_rate_info->sgi[0], \
_tx_rate_info->sgi[1], \
_tx_rate_info->sgi[2], \
_tx_rate_info->sgi[3], \
_tx_rate_info->sgi[4], \
_tx_rate_info->sgi[5], \
_tx_rate_info->sgi[6], \
_tx_rate_info->sgi[7], \
_tx_rate_info->sgi[8], \
_tx_rate_info->sgi[9]); \
\
/* NSS */ \
qdf_print("NSS counts: 1x1 %d, 2x2 %d, 3x3 %d", \
_tx_rate_info->nss[0], \
_tx_rate_info->nss[1], _tx_rate_info->nss[2]);\
\
/* BW */ \
if (ARRAY_SIZE(_tx_rate_info->bw) == 3) \
qdf_print("BW counts: %s %d, %s %d, %s %d", \
bw_str_arr[0], _tx_rate_info->bw[0], \
bw_str_arr[1], _tx_rate_info->bw[1], \
bw_str_arr[2], _tx_rate_info->bw[2]); \
else if (ARRAY_SIZE(_tx_rate_info->bw) == 4) \
qdf_print("BW counts: %s %d, %s %d, %s %d, %s %d", \
bw_str_arr[0], _tx_rate_info->bw[0], \
bw_str_arr[1], _tx_rate_info->bw[1], \
bw_str_arr[2], _tx_rate_info->bw[2], \
bw_str_arr[3], _tx_rate_info->bw[3]); \
\
\
/* Preamble */ \
qdf_print("Preamble (O C H V) counts: %d, %d, %d, %d",\
_tx_rate_info->pream[0], \
_tx_rate_info->pream[1], \
_tx_rate_info->pream[2], \
_tx_rate_info->pream[3]); \
\
/* STBC rate counts */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"STBC rate counts (0..9)", \
_tx_rate_info->stbc[0], \
_tx_rate_info->stbc[1], \
_tx_rate_info->stbc[2], \
_tx_rate_info->stbc[3], \
_tx_rate_info->stbc[4], \
_tx_rate_info->stbc[5], \
_tx_rate_info->stbc[6], \
_tx_rate_info->stbc[7], \
_tx_rate_info->stbc[8], \
_tx_rate_info->stbc[9]); \
\
/* LDPC and TxBF counts */ \
qdf_print("LDPC Counts: %d", _tx_rate_info->ldpc);\
qdf_print("RTS Counts: %d", _tx_rate_info->rts_cnt);\
/* RSSI Values for last ack frames */ \
qdf_print("Ack RSSI: %d", _tx_rate_info->ack_rssi);\
} while (0)
static void htt_t2h_stats_tx_rate_stats_print(wlan_dbg_tx_rate_info_t *
tx_rate_info, int concise)
@@ -157,112 +160,118 @@ static void htt_t2h_stats_tx_rate_stats_print_v2(wlan_dbg_tx_rate_info_v2_t *
* trick to use to avoid the code duplication.
*/
#define rx_rate_stats_print_cmn(_rx_phy_info, _concise) \
{ \
qdf_print("RX Rate Info:"); \
\
/* MCS */ \
qdf_print("MCS counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_rx_phy_info->mcs[0], \
_rx_phy_info->mcs[1], \
_rx_phy_info->mcs[2], \
_rx_phy_info->mcs[3], \
_rx_phy_info->mcs[4], \
_rx_phy_info->mcs[5], \
_rx_phy_info->mcs[6], \
_rx_phy_info->mcs[7], \
_rx_phy_info->mcs[8], \
_rx_phy_info->mcs[9]); \
\
/* SGI */ \
qdf_print("SGI counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_rx_phy_info->sgi[0], \
_rx_phy_info->sgi[1], \
_rx_phy_info->sgi[2], \
_rx_phy_info->sgi[3], \
_rx_phy_info->sgi[4], \
_rx_phy_info->sgi[5], \
_rx_phy_info->sgi[6], \
_rx_phy_info->sgi[7], \
_rx_phy_info->sgi[8], \
_rx_phy_info->sgi[9]); \
\
/* NSS */ \
/* nss[0] just holds the count of non-stbc frames that were sent at 1x1 \
* rates and nsts holds the count of frames sent with stbc. \
* It was decided to not include PPDUs sent w/ STBC in nss[0]\
* since it would be easier to change the value that needs to be\
* printed (from "stbc+non-stbc count to only non-stbc count")\
* if needed in the future. Hence the addition in the host code\
* at this line. */ \
qdf_print("NSS counts: 1x1 %d, 2x2 %d, 3x3 %d, 4x4 %d",\
_rx_phy_info->nss[0] + _rx_phy_info->nsts, \
_rx_phy_info->nss[1], \
_rx_phy_info->nss[2], \
_rx_phy_info->nss[3]); \
\
/* NSTS */ \
qdf_print("NSTS count: %d", _rx_phy_info->nsts); \
\
/* BW */ \
if (sizeof(_rx_phy_info->bw) / sizeof(_rx_phy_info->bw[0]) == 3)\
qdf_print("BW counts: %s %d, %s %d, %s %d", \
bw_str_arr[0], _rx_phy_info->bw[0], \
bw_str_arr[1], _rx_phy_info->bw[1], \
bw_str_arr[2], _rx_phy_info->bw[2]); \
else if (sizeof(_rx_phy_info->bw) / sizeof(_rx_phy_info->bw[0]) == 4) \
qdf_print("BW counts: %s %d, %s %d, %s %d, %s %d", \
bw_str_arr[0], _rx_phy_info->bw[0], \
bw_str_arr[1], _rx_phy_info->bw[1], \
bw_str_arr[2], _rx_phy_info->bw[2], \
bw_str_arr[3], _rx_phy_info->bw[3]); \
\
/* Preamble */ \
qdf_print("Preamble counts: %d, %d, %d, %d, %d, %d",\
_rx_phy_info->pream[0], \
_rx_phy_info->pream[1], \
_rx_phy_info->pream[2], \
_rx_phy_info->pream[3], \
_rx_phy_info->pream[4], \
_rx_phy_info->pream[5]); \
\
/* STBC rate counts */ \
qdf_print("STBC rate counts (0..9): %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
_rx_phy_info->stbc[0], \
_rx_phy_info->stbc[1], \
_rx_phy_info->stbc[2], \
_rx_phy_info->stbc[3], \
_rx_phy_info->stbc[4], \
_rx_phy_info->stbc[5], \
_rx_phy_info->stbc[6], \
_rx_phy_info->stbc[7], \
_rx_phy_info->stbc[8], \
_rx_phy_info->stbc[9]); \
\
/* LDPC and TxBF counts */ \
qdf_print("LDPC TXBF Counts: %d, %d", \
_rx_phy_info->ldpc, _rx_phy_info->txbf);\
/* RSSI Values for last received frames */ \
qdf_print("RSSI (data, mgmt): %d, %d", _rx_phy_info->data_rssi,\
_rx_phy_info->mgmt_rssi); \
\
qdf_print("RSSI Chain 0 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain0 >> 24) & 0xff), \
((_rx_phy_info->rssi_chain0 >> 16) & 0xff), \
((_rx_phy_info->rssi_chain0 >> 8) & 0xff), \
((_rx_phy_info->rssi_chain0 >> 0) & 0xff)); \
\
qdf_print("RSSI Chain 1 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain1 >> 24) & 0xff), \
((_rx_phy_info->rssi_chain1 >> 16) & 0xff), \
((_rx_phy_info->rssi_chain1 >> 8) & 0xff), \
((_rx_phy_info->rssi_chain1 >> 0) & 0xff)); \
\
qdf_print("RSSI Chain 2 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain2 >> 24) & 0xff), \
((_rx_phy_info->rssi_chain2 >> 16) & 0xff), \
((_rx_phy_info->rssi_chain2 >> 8) & 0xff), \
((_rx_phy_info->rssi_chain2 >> 0) & 0xff)); \
}
do { \
qdf_print("RX Rate Info:"); \
\
/* MCS */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"MCS counts (0..9)", \
_rx_phy_info->mcs[0], \
_rx_phy_info->mcs[1], \
_rx_phy_info->mcs[2], \
_rx_phy_info->mcs[3], \
_rx_phy_info->mcs[4], \
_rx_phy_info->mcs[5], \
_rx_phy_info->mcs[6], \
_rx_phy_info->mcs[7], \
_rx_phy_info->mcs[8], \
_rx_phy_info->mcs[9]); \
\
/* SGI */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"SGI counts (0..9)", \
_rx_phy_info->sgi[0], \
_rx_phy_info->sgi[1], \
_rx_phy_info->sgi[2], \
_rx_phy_info->sgi[3], \
_rx_phy_info->sgi[4], \
_rx_phy_info->sgi[5], \
_rx_phy_info->sgi[6], \
_rx_phy_info->sgi[7], \
_rx_phy_info->sgi[8], \
_rx_phy_info->sgi[9]); \
\
/*
* NSS \
* nss[0] just holds the count of non-stbc frames that were \
* sent at 1x1 rates and nsts holds the count of frames sent \
* with stbc. \
* It was decided to not include PPDUs sent w/ STBC in nss[0] \
* since it would be easier to change the value that needs to \
* be printed (from stbc+non-stbc count to only non-stbc count)\
* if needed in the future. Hence the addition in the host code\
* at this line.
*/ \
qdf_print("NSS counts: 1x1 %d, 2x2 %d, 3x3 %d, 4x4 %d",\
_rx_phy_info->nss[0] + _rx_phy_info->nsts,\
_rx_phy_info->nss[1], \
_rx_phy_info->nss[2], \
_rx_phy_info->nss[3]); \
\
/* NSTS */ \
qdf_print("NSTS count: %d", _rx_phy_info->nsts); \
\
/* BW */ \
if (ARRAY_SIZE(_rx_phy_info->bw) == 3) \
qdf_print("BW counts: %s %d, %s %d, %s %d", \
bw_str_arr[0], _rx_phy_info->bw[0], \
bw_str_arr[1], _rx_phy_info->bw[1], \
bw_str_arr[2], _rx_phy_info->bw[2]); \
else if (ARRAY_SIZE(_rx_phy_info->bw) == 4) \
qdf_print("BW counts: %s %d, %s %d, %s %d, %s %d", \
bw_str_arr[0], _rx_phy_info->bw[0], \
bw_str_arr[1], _rx_phy_info->bw[1], \
bw_str_arr[2], _rx_phy_info->bw[2], \
bw_str_arr[3], _rx_phy_info->bw[3]); \
\
/* Preamble */ \
qdf_print("Preamble counts: %d, %d, %d, %d, %d, %d",\
_rx_phy_info->pream[0], \
_rx_phy_info->pream[1], \
_rx_phy_info->pream[2], \
_rx_phy_info->pream[3], \
_rx_phy_info->pream[4], \
_rx_phy_info->pream[5]); \
\
/* STBC rate counts */ \
qdf_print("%s: %d, %d, %d, %d, %d, %d, %d, %d, %d, %d",\
"STBC rate counts (0..9)", \
_rx_phy_info->stbc[0], \
_rx_phy_info->stbc[1], \
_rx_phy_info->stbc[2], \
_rx_phy_info->stbc[3], \
_rx_phy_info->stbc[4], \
_rx_phy_info->stbc[5], \
_rx_phy_info->stbc[6], \
_rx_phy_info->stbc[7], \
_rx_phy_info->stbc[8], \
_rx_phy_info->stbc[9]); \
\
/* LDPC and TxBF counts */ \
qdf_print("LDPC TXBF Counts: %d, %d", \
_rx_phy_info->ldpc, _rx_phy_info->txbf);\
/* RSSI Values for last received frames */ \
qdf_print("RSSI (data, mgmt): %d, %d", _rx_phy_info->data_rssi,\
_rx_phy_info->mgmt_rssi); \
\
qdf_print("RSSI Chain 0 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain0 >> 24) & 0xff),\
((_rx_phy_info->rssi_chain0 >> 16) & 0xff),\
((_rx_phy_info->rssi_chain0 >> 8) & 0xff),\
((_rx_phy_info->rssi_chain0 >> 0) & 0xff));\
\
qdf_print("RSSI Chain 1 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain1 >> 24) & 0xff),\
((_rx_phy_info->rssi_chain1 >> 16) & 0xff),\
((_rx_phy_info->rssi_chain1 >> 8) & 0xff),\
((_rx_phy_info->rssi_chain1 >> 0) & 0xff));\
\
qdf_print("RSSI Chain 2 (0x%02x 0x%02x 0x%02x 0x%02x)",\
((_rx_phy_info->rssi_chain2 >> 24) & 0xff),\
((_rx_phy_info->rssi_chain2 >> 16) & 0xff),\
((_rx_phy_info->rssi_chain2 >> 8) & 0xff),\
((_rx_phy_info->rssi_chain2 >> 0) & 0xff));\
} while (0)
static void htt_t2h_stats_rx_rate_stats_print(wlan_dbg_rx_rate_info_t *
rx_phy_info, int concise)
@@ -447,7 +456,7 @@ htt_t2h_stats_rx_reorder_stats_print(struct rx_reorder_stats *stats_ptr,
stats_ptr->rxdesc_err_fcs);
qdf_print(" %u Unicast frames with invalid peer handler",
stats_ptr->rxdesc_uc_msdus_inv_peer);
qdf_print(" %u unicast frame directly to DUT with invalid peer handler",
qdf_print(" %u unicast frame to DUT with invalid peer handler",
stats_ptr->rxdesc_direct_msdus_inv_peer);
qdf_print(" %u Broadcast/Multicast frames with invalid peer handler",
stats_ptr->rxdesc_bmc_msdus_inv_peer);
@@ -473,7 +482,7 @@ htt_t2h_stats_rx_reorder_stats_print(struct rx_reorder_stats *stats_ptr,
static void
htt_t2h_stats_rx_rem_buf_stats_print(
struct rx_remote_buffer_mgmt_stats *stats_ptr, int concise)
struct rx_remote_buffer_mgmt_stats *stats_ptr, int concise)
{
qdf_print("Rx Remote Buffer Statistics:");
qdf_print(" %u MSDU's reaped for Rx processing",
@@ -712,6 +721,7 @@ htt_t2h_tx_ppdu_bitmaps_pr(uint32_t *queued_ptr, uint32_t *acked_ptr)
for (word = 0; word < 2; word++) {
uint32_t queued = *(queued_ptr + word);
uint32_t acked = *(acked_ptr + word);
for (j = 0; j < 32; j++, i++) {
if (queued & (1 << j)) {
queued_str[i] = '1';
@@ -770,6 +780,7 @@ static void htt_make_u8_list_str(uint32_t *aligned_data,
{
uint8_t *p8 = (uint8_t *) aligned_data;
char *buf_p = buffer;
while (max_elems-- > 0) {
int bytes;
uint8_t val;
@@ -799,6 +810,7 @@ static void htt_make_u16_list_str(uint32_t *aligned_data,
{
uint16_t *p16 = (uint16_t *) aligned_data;
char *buf_p = buffer;
while (max_elems-- > 0) {
int bytes;
uint16_t val;
@@ -868,6 +880,7 @@ htt_t2h_tx_ppdu_log_print(struct ol_fw_tx_dbg_ppdu_msg_hdr *hdr,
#define BUF_SIZE 80
char buf[BUF_SIZE];
uint8_t *p8;
time_enqueue_us =
HTT_TICK_TO_USEC(record->timestamp_enqueue,
hdr->microsec_per_tick);
@@ -876,34 +889,39 @@ htt_t2h_tx_ppdu_log_print(struct ol_fw_tx_dbg_ppdu_msg_hdr *hdr,
hdr->microsec_per_tick);
start_pn_lsbs =
((*
(msg_word +
OL_FW_TX_DBG_PPDU_START_PN_LSBS_WORD)) &
OL_FW_TX_DBG_PPDU_START_PN_LSBS_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_START_PN_LSBS_WORD)) &
OL_FW_TX_DBG_PPDU_START_PN_LSBS_M) >>
OL_FW_TX_DBG_PPDU_START_PN_LSBS_S;
num_mpdus =
((*(msg_word + OL_FW_TX_DBG_PPDU_NUM_MPDUS_WORD))&
OL_FW_TX_DBG_PPDU_NUM_MPDUS_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_NUM_MPDUS_WORD))&
OL_FW_TX_DBG_PPDU_NUM_MPDUS_M) >>
OL_FW_TX_DBG_PPDU_NUM_MPDUS_S;
peer_id =
((*(msg_word + OL_FW_TX_DBG_PPDU_PEER_ID_WORD)) &
OL_FW_TX_DBG_PPDU_PEER_ID_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_PEER_ID_WORD)) &
OL_FW_TX_DBG_PPDU_PEER_ID_M) >>
OL_FW_TX_DBG_PPDU_PEER_ID_S;
ext_tid =
((*(msg_word + OL_FW_TX_DBG_PPDU_EXT_TID_WORD)) &
OL_FW_TX_DBG_PPDU_EXT_TID_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_EXT_TID_WORD)) &
OL_FW_TX_DBG_PPDU_EXT_TID_M) >>
OL_FW_TX_DBG_PPDU_EXT_TID_S;
rate_code =
((*(msg_word + OL_FW_TX_DBG_PPDU_RATE_CODE_WORD))&
OL_FW_TX_DBG_PPDU_RATE_CODE_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_RATE_CODE_WORD))&
OL_FW_TX_DBG_PPDU_RATE_CODE_M) >>
OL_FW_TX_DBG_PPDU_RATE_CODE_S;
rate_flags =
((*(msg_word + OL_FW_TX_DBG_PPDU_RATE_FLAGS_WORD))&
OL_FW_TX_DBG_PPDU_RATE_FLAGS_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_RATE_FLAGS_WORD))&
OL_FW_TX_DBG_PPDU_RATE_FLAGS_M) >>
OL_FW_TX_DBG_PPDU_RATE_FLAGS_S;
tries =
((*(msg_word + OL_FW_TX_DBG_PPDU_TRIES_WORD)) &
OL_FW_TX_DBG_PPDU_TRIES_M) >>
((*(msg_word +
OL_FW_TX_DBG_PPDU_TRIES_WORD)) &
OL_FW_TX_DBG_PPDU_TRIES_M) >>
OL_FW_TX_DBG_PPDU_TRIES_S;
qdf_print(" - PPDU tx to peer %d, TID %d", peer_id,
@@ -918,23 +936,22 @@ htt_t2h_tx_ppdu_log_print(struct ol_fw_tx_dbg_ppdu_msg_hdr *hdr,
record->num_bytes);
if (complete) {
qdf_print
(" enqueued: %u, completed: %u usec)",
(" enqueued: %u, completed: %u usec)",
time_enqueue_us, time_completion_us);
qdf_print
(" %d tries, last tx used rate %d ",
tries, rate_code);
tries, rate_code);
qdf_print("on %d MHz chan (flags = %#x)",
htt_rate_flags_to_mhz
(rate_flags), rate_flags);
qdf_print
(" enqueued and acked MPDU bitmaps:");
htt_rate_flags_to_mhz
(rate_flags), rate_flags);
qdf_print(" enqueued and acked MPDU bitmaps:");
htt_t2h_tx_ppdu_bitmaps_pr(msg_word +
OL_FW_TX_DBG_PPDU_ENQUEUED_LSBS_WORD,
msg_word +
OL_FW_TX_DBG_PPDU_BLOCK_ACK_LSBS_WORD);
OL_FW_TX_DBG_PPDU_ENQUEUED_LSBS_WORD,
msg_word +
OL_FW_TX_DBG_PPDU_BLOCK_ACK_LSBS_WORD);
} else {
qdf_print
(" enqueued: %d us, not yet completed",
qdf_print(
" enqueued: %d us, not yet completed",
time_enqueue_us);
}
/* skip the regular msg fields to reach the tail area */
@@ -1157,18 +1174,16 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
case HTT_DBG_STATS_RX_RATE_INFO:
{
wlan_dbg_rx_rate_info_t *rx_phy_info;
rx_phy_info =
(wlan_dbg_rx_rate_info_t *) (msg_word + 1);
rx_phy_info = (wlan_dbg_rx_rate_info_t *) (msg_word + 1);
htt_t2h_stats_rx_rate_stats_print(rx_phy_info, concise);
break;
}
case HTT_DBG_STATS_RX_RATE_INFO_V2:
{
wlan_dbg_rx_rate_info_v2_t *rx_phy_info;
rx_phy_info =
(wlan_dbg_rx_rate_info_v2_t *) (msg_word + 1);
rx_phy_info = (wlan_dbg_rx_rate_info_v2_t *) (msg_word + 1);
htt_t2h_stats_rx_rate_stats_print_v2(rx_phy_info, concise);
break;
}
@@ -1183,8 +1198,7 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
("HTT_DBG_STATS_TX_PPDU_LOG -- length = 0!");
break;
}
hdr =
(struct ol_fw_tx_dbg_ppdu_msg_hdr *)(msg_word + 1);
hdr = (struct ol_fw_tx_dbg_ppdu_msg_hdr *)(msg_word + 1);
record = (struct ol_fw_tx_dbg_ppdu_base *)(hdr + 1);
htt_t2h_tx_ppdu_log_print(hdr, record, length, concise);
}
@@ -1192,18 +1206,16 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
case HTT_DBG_STATS_TX_RATE_INFO:
{
wlan_dbg_tx_rate_info_t *tx_rate_info;
tx_rate_info =
(wlan_dbg_tx_rate_info_t *) (msg_word + 1);
tx_rate_info = (wlan_dbg_tx_rate_info_t *) (msg_word + 1);
htt_t2h_stats_tx_rate_stats_print(tx_rate_info, concise);
break;
}
case HTT_DBG_STATS_TX_RATE_INFO_V2:
{
wlan_dbg_tx_rate_info_v2_t *tx_rate_info;
tx_rate_info =
(wlan_dbg_tx_rate_info_v2_t *) (msg_word + 1);
tx_rate_info = (wlan_dbg_tx_rate_info_v2_t *) (msg_word + 1);
htt_t2h_stats_tx_rate_stats_print_v2(tx_rate_info, concise);
break;
}
@@ -1211,7 +1223,8 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
{
struct rx_remote_buffer_mgmt_stats *rx_rem_buf;
rx_rem_buf = (struct rx_remote_buffer_mgmt_stats *)(msg_word + 1);
rx_rem_buf =
(struct rx_remote_buffer_mgmt_stats *)(msg_word + 1);
htt_t2h_stats_rx_rem_buf_stats_print(rx_rem_buf, concise);
break;
}
@@ -1228,8 +1241,7 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
{
struct wlan_dbg_txbf_snd_stats *txbf_snd_buf;
txbf_snd_buf =
(struct wlan_dbg_txbf_snd_stats *)(msg_word + 1);
txbf_snd_buf = (struct wlan_dbg_txbf_snd_stats *)(msg_word + 1);
htt_t2h_stats_txbf_snd_buf_stats_print(txbf_snd_buf);
break;
}
@@ -1263,24 +1275,24 @@ void htt_t2h_stats_print(uint8_t *stats_data, int concise)
case HTT_DBG_STATS_TIDQ:
{
struct wlan_dbg_tidq_stats *tidq_stats;
tidq_stats = (struct wlan_dbg_tidq_stats *)(msg_word + 1);
tidq_stats = (struct wlan_dbg_tidq_stats *)(msg_word + 1);
htt_t2h_stats_tidq_stats_print(tidq_stats, concise);
break;
}
case HTT_DBG_STATS_TX_MU_INFO:
{
struct wlan_dbg_tx_mu_stats *tx_mu_stats;
tx_mu_stats = (struct wlan_dbg_tx_mu_stats *)(msg_word + 1);
tx_mu_stats = (struct wlan_dbg_tx_mu_stats *)(msg_word + 1);
htt_t2h_stats_tx_mu_stats_print(tx_mu_stats, concise);
break;
}
case HTT_DBG_STATS_SIFS_RESP_INFO:
{
struct wlan_dbg_sifs_resp_stats *sifs_stats;
sifs_stats = (struct wlan_dbg_sifs_resp_stats *)(msg_word + 1);
sifs_stats = (struct wlan_dbg_sifs_resp_stats *)(msg_word + 1);
htt_t2h_stats_sifs_resp_stats_print(sifs_stats, concise);
break;
}