samsung-sm8650/android_kernel_samsung_sm8650-modules
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d5a23f4cb18f6f71b0e0c5d192ea68fccf7427d8
android_kernel_samsung_sm86…/dp/wifi3.0/dp_stats.c
Harsh Kumar Bijlani 484198b257 qcacmn: Add MSDU counters to account for 11BE puncturing BW stats 
Add MSDU counters to account for 11BE puncturing BW stats.

Change-Id: I2c1d420b8d8b4533dcbf64f206783c07555cac99
CRs-Fixed: 3171770
2022-04-19 01:27:03 -07:00

8303 рядки
264 KiB
C
Неформатований Анотація Історія

/*
* Copyright (c) 2017-2021 The Linux Foundation. All rights reserved.
* Copyright (c) 2021-2022 Qualcomm Innovation Center, Inc. All rights reserved.
*
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all
* copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#include "qdf_types.h"
#include "dp_peer.h"
#include "dp_types.h"
#include "dp_internal.h"
#include "htt_stats.h"
#include "htt_ppdu_stats.h"
#ifdef QCA_PEER_EXT_STATS
#include <cdp_txrx_hist_struct.h>
#include "dp_hist.h"
#endif
#ifdef WIFI_MONITOR_SUPPORT
#include "dp_htt.h"
#include <dp_mon.h>
#endif
#define DP_MAX_STRING_LEN 500
#define DP_HTT_HW_INTR_NAME_LEN HTT_STATS_MAX_HW_INTR_NAME_LEN
#define DP_HTT_HW_MODULE_NAME_LEN HTT_STATS_MAX_HW_MODULE_NAME_LEN
#define DP_HTT_COUNTER_NAME_LEN HTT_MAX_COUNTER_NAME
#define DP_HTT_LOW_WM_HIT_COUNT_LEN HTT_STATS_LOW_WM_BINS
#define DP_HTT_HIGH_WM_HIT_COUNT_LEN HTT_STATS_HIGH_WM_BINS
#define DP_HTT_TX_MCS_LEN HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS
#define DP_HTT_TX_MCS_EXT_LEN HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS
#define DP_HTT_TX_SU_MCS_LEN HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS
#define DP_HTT_TX_SU_MCS_EXT_LEN HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS
#define DP_HTT_TX_MU_MCS_LEN HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS
#define DP_HTT_TX_MU_MCS_EXT_LEN HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS
#define DP_HTT_TX_NSS_LEN HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS
#define DP_HTT_TX_BW_LEN HTT_TX_PDEV_STATS_NUM_BW_COUNTERS
#define DP_HTT_TX_PREAM_LEN HTT_TX_PDEV_STATS_NUM_PREAMBLE_TYPES
#define DP_HTT_TX_PDEV_GI_LEN HTT_TX_PDEV_STATS_NUM_GI_COUNTERS
#define DP_HTT_TX_DCM_LEN HTT_TX_PDEV_STATS_NUM_DCM_COUNTERS
#define DP_HTT_RX_MCS_LEN HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS
#define DP_HTT_RX_MCS_EXT_LEN HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS
#define DP_HTT_RX_PDEV_MCS_LEN_EXT HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS_EXT
#define DP_HTT_RX_NSS_LEN HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS
#define DP_HTT_RX_DCM_LEN HTT_RX_PDEV_STATS_NUM_DCM_COUNTERS
#define DP_HTT_RX_BW_LEN HTT_RX_PDEV_STATS_NUM_BW_COUNTERS
#define DP_HTT_RX_PREAM_LEN HTT_RX_PDEV_STATS_NUM_PREAMBLE_TYPES
#define DP_HTT_RSSI_CHAIN_LEN HTT_RX_PDEV_STATS_NUM_SPATIAL_STREAMS
#define DP_HTT_RX_GI_LEN HTT_RX_PDEV_STATS_NUM_GI_COUNTERS
#define DP_HTT_FW_RING_MGMT_SUBTYPE_LEN HTT_STATS_SUBTYPE_MAX
#define DP_HTT_FW_RING_CTRL_SUBTYPE_LEN HTT_STATS_SUBTYPE_MAX
#define DP_HTT_FW_RING_MPDU_ERR_LEN HTT_RX_STATS_RXDMA_MAX_ERR
#define DP_HTT_TID_NAME_LEN MAX_HTT_TID_NAME
#define DP_HTT_PEER_NUM_SS HTT_RX_PEER_STATS_NUM_SPATIAL_STREAMS
#define DP_HTT_PDEV_TX_GI_LEN HTT_TX_PDEV_STATS_NUM_GI_COUNTERS
#define DP_MAX_INT_CONTEXTS_STRING_LENGTH (6 * WLAN_CFG_INT_NUM_CONTEXTS)
#define DP_NSS_LENGTH (6 * SS_COUNT)
#define DP_MU_GROUP_LENGTH (6 * DP_MU_GROUP_SHOW)
#define DP_MU_GROUP_SHOW 16
#define DP_RXDMA_ERR_LENGTH (6 * HAL_RXDMA_ERR_MAX)
#define DP_REO_ERR_LENGTH (6 * HAL_REO_ERR_MAX)
#define STATS_PROC_TIMEOUT (HZ / 1000)
#define dp_stats_alert(params...) QDF_TRACE_FATAL(QDF_MODULE_ID_DP_STATS, params)
#define dp_stats_err(params...) QDF_TRACE_ERROR(QDF_MODULE_ID_DP_STATS, params)
#define dp_stats_warn(params...) QDF_TRACE_WARN(QDF_MODULE_ID_DP_STATS, params)
#define dp_stats_info(params...) \
__QDF_TRACE_FL(QDF_TRACE_LEVEL_INFO_HIGH, QDF_MODULE_ID_DP_STATS, ## params)
#define dp_stats_debug(params...) QDF_TRACE_DEBUG(QDF_MODULE_ID_DP_STATS, params)
#ifdef WLAN_FEATURE_11BE
static const struct cdp_rate_debug dp_ppdu_rate_string[DOT11_MAX][MAX_MCS] = {
{
{"HE MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
},
{
{"EHT MCS 0 (BPSK 1/2) ", MCS_VALID},
{"EHT MCS 1 (QPSK 1/2) ", MCS_VALID},
{"EHT MCS 2 (QPSK 3/4) ", MCS_VALID},
{"EHT MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"EHT MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"EHT MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"EHT MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"EHT MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"EHT MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"EHT MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"EHT MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"EHT MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"EHT MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"EHT MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"EHT MCS 14 (BPSK-DCM 1/2)", MCS_VALID},
{"EHT MCS 15 (BPSK-DCM 1/2)", MCS_VALID},
{"INVALID ", MCS_INVALID},
}
};
#else
static const struct cdp_rate_debug dp_ppdu_rate_string[DOT11_MAX][MAX_MCS] = {
{
{"HE MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
}
};
#endif
#ifdef WLAN_FEATURE_11BE
static const struct cdp_rate_debug
dp_mu_rate_string[TXRX_TYPE_MU_MAX][MAX_MCS] = {
{
{"HE MU-MIMO MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE MU-MIMO MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE MU-MIMO MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE MU-MIMO MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE MU-MIMO MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE MU-MIMO MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE MU-MIMO MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
},
{
{"HE OFDMA MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE OFDMA MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE OFDMA MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE OFDMA MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE OFDMA MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE OFDMA MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE OFDMA MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE OFDMA MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE OFDMA MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE OFDMA MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE OFDMA MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
{"INVALID ", MCS_INVALID},
}
};
static const struct cdp_rate_debug
dp_mu_be_rate_string[TXRX_TYPE_MU_MAX][MAX_MCS] = {
{
{"EHT MU-MIMO MCS 0 (BPSK 1/2) ", MCS_VALID},
{"EHT MU-MIMO MCS 1 (QPSK 1/2) ", MCS_VALID},
{"EHT MU-MIMO MCS 2 (QPSK 3/4) ", MCS_VALID},
{"EHT MU-MIMO MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"EHT MU-MIMO MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"EHT MU-MIMO MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"EHT MU-MIMO MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"EHT MU-MIMO MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"EHT MU-MIMO MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"EHT MU-MIMO MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"EHT MU-MIMO MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"EHT MU-MIMO MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"EHT MU-MIMO MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"EHT MU-MIMO MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"EHT MU-MIMO MCS 14 (BPSK-DCM 1/2)", MCS_VALID},
{"EHT MU-MIMO MCS 15 (BPSK-DCM 1/2)", MCS_VALID},
{"INVALID ", MCS_INVALID},
},
{
{"EHT OFDMA MCS 0 (BPSK 1/2) ", MCS_VALID},
{"EHT OFDMA MCS 1 (QPSK 1/2) ", MCS_VALID},
{"EHT OFDMA MCS 2 (QPSK 3/4) ", MCS_VALID},
{"EHT OFDMA MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"EHT OFDMA MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"EHT OFDMA MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"EHT OFDMA MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"EHT OFDMA MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"EHT OFDMA MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"EHT OFDMA MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"EHT OFDMA MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"EHT OFDMA MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"EHT OFDMA MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"EHT OFDMA MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"EHT OFDMA MCS 14 (BPSK-DCM 1/2)", MCS_VALID},
{"EHT OFDMA MCS 15 (BPSK-DCM 1/2)", MCS_VALID},
{"INVALID ", MCS_INVALID},
}
};
#else
static const struct cdp_rate_debug
dp_mu_rate_string[TXRX_TYPE_MU_MAX][MAX_MCS] = {
{
{"HE MU-MIMO MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE MU-MIMO MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE MU-MIMO MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE MU-MIMO MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE MU-MIMO MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE MU-MIMO MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE MU-MIMO MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE MU-MIMO MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE MU-MIMO MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
},
{
{"HE OFDMA MCS 0 (BPSK 1/2) ", MCS_VALID},
{"HE OFDMA MCS 1 (QPSK 1/2) ", MCS_VALID},
{"HE OFDMA MCS 2 (QPSK 3/4) ", MCS_VALID},
{"HE OFDMA MCS 3 (16-QAM 1/2) ", MCS_VALID},
{"HE OFDMA MCS 4 (16-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 5 (64-QAM 2/3) ", MCS_VALID},
{"HE OFDMA MCS 6 (64-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 7 (64-QAM 5/6) ", MCS_VALID},
{"HE OFDMA MCS 8 (256-QAM 3/4) ", MCS_VALID},
{"HE OFDMA MCS 9 (256-QAM 5/6) ", MCS_VALID},
{"HE OFDMA MCS 10 (1024-QAM 3/4)", MCS_VALID},
{"HE OFDMA MCS 11 (1024-QAM 5/6)", MCS_VALID},
{"HE OFDMA MCS 12 (4096-QAM 3/4)", MCS_VALID},
{"HE OFDMA MCS 13 (4096-QAM 5/6)", MCS_VALID},
{"INVALID ", MCS_INVALID},
}
};
#endif
const char *mu_reception_mode[TXRX_TYPE_MU_MAX] = {
"MU MIMO", "MU OFDMA"
};
#ifdef QCA_ENH_V3_STATS_SUPPORT
const char *fw_to_hw_delay_bucket[CDP_DELAY_BUCKET_MAX + 1] = {
"0 to 10 ms", "11 to 20 ms",
"21 to 30 ms", "31 to 40 ms",
"41 to 50 ms", "51 to 60 ms",
"61 to 70 ms", "71 to 80 ms",
"81 to 90 ms", "91 to 100 ms",
"101 to 250 ms", "251 to 500 ms", "500+ ms"
};
#elif defined(HW_TX_DELAY_STATS_ENABLE)
const char *fw_to_hw_delay_bucket[CDP_DELAY_BUCKET_MAX + 1] = {
"0 to 2 ms", "2 to 4 ms",
"4 to 6 ms", "6 to 8 ms",
"8 to 10 ms", "10 to 20 ms",
"20 to 30 ms", "30 to 40 ms",
"40 to 50 ms", "50 to 100 ms",
"100 to 250 ms", "250 to 500 ms", "500+ ms"
};
#endif
#ifdef QCA_ENH_V3_STATS_SUPPORT
const char *sw_enq_delay_bucket[CDP_DELAY_BUCKET_MAX + 1] = {
"0 to 1 ms", "1 to 2 ms",
"2 to 3 ms", "3 to 4 ms",
"4 to 5 ms", "5 to 6 ms",
"6 to 7 ms", "7 to 8 ms",
"8 to 9 ms", "9 to 10 ms",
"10 to 11 ms", "11 to 12 ms", "12+ ms"
};
const char *intfrm_delay_bucket[CDP_DELAY_BUCKET_MAX + 1] = {
"0 to 5 ms", "6 to 10 ms",
"11 to 15 ms", "16 to 20 ms",
"21 to 25 ms", "26 to 30 ms",
"31 to 35 ms", "36 to 40 ms",
"41 to 45 ms", "46 to 50 ms",
"51 to 55 ms", "56 to 60 ms", "60+ ms"
};
#endif
#define TID_COUNTER_STATS 1 /* Success/drop stats type */
#define TID_DELAY_STATS 2 /* Delay stats type */
#define TID_RX_ERROR_STATS 3 /* Rx Error stats type */
#ifdef WLAN_SYSFS_DP_STATS
void DP_PRINT_STATS(const char *fmt, ...)
{
void *soc_void = NULL;
va_list val;
uint16_t buf_written = 0;
uint16_t curr_len = 0;
uint16_t max_len = 0;
struct dp_soc *soc = NULL;
soc_void = cds_get_context(QDF_MODULE_ID_SOC);
if (!soc_void)
return;
soc = cdp_soc_t_to_dp_soc(soc_void);
va_start(val, fmt);
QDF_VTRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_INFO_HIGH, (char *)fmt, val);
/* writing to the buffer */
if (soc->sysfs_config && soc->sysfs_config->printing_mode == PRINTING_MODE_ENABLED) {
if (soc->sysfs_config->process_id == qdf_get_current_pid()) {
curr_len = soc->sysfs_config->curr_buffer_length;
max_len = soc->sysfs_config->max_buffer_length;
if ((max_len - curr_len) <= 1)
return;
qdf_spinlock_acquire(&soc->sysfs_config->sysfs_write_user_buffer);
if (soc->sysfs_config->buf) {
buf_written = vscnprintf(soc->sysfs_config->buf + curr_len,
max_len - curr_len, fmt, val);
curr_len += buf_written;
if ((max_len - curr_len) <= 1)
return;
buf_written += scnprintf(soc->sysfs_config->buf + curr_len,
max_len - curr_len, "\n");
soc->sysfs_config->curr_buffer_length += buf_written;
}
qdf_spinlock_release(&soc->sysfs_config->sysfs_write_user_buffer);
}
}
va_end(val);
}
#endif /* WLAN_SYSFS_DP_STATS */
/*
* dp_print_stats_string_tlv: display htt_stats_string_tlv
* @tag_buf: buffer containing the tlv htt_stats_string_tlv
*
* return:void
*/
static inline void dp_print_stats_string_tlv(uint32_t *tag_buf)
{
htt_stats_string_tlv *dp_stats_buf =
(htt_stats_string_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *data = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!data) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Output buffer not allocated"));
return;
}
DP_PRINT_STATS("HTT_STATS_STRING_TLV:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&data[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->data[i]);
}
DP_PRINT_STATS("data = %s\n", data);
qdf_mem_free(data);
}
/*
* dp_print_tx_pdev_stats_cmn_tlv: display htt_tx_pdev_stats_cmn_tlv
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_cmn_tlv
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_cmn_tlv(uint32_t *tag_buf)
{
htt_tx_pdev_stats_cmn_tlv *dp_stats_buf =
(htt_tx_pdev_stats_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_PDEV_STATS_CMN_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("hw_queued = %u",
dp_stats_buf->hw_queued);
DP_PRINT_STATS("hw_reaped = %u",
dp_stats_buf->hw_reaped);
DP_PRINT_STATS("underrun = %u",
dp_stats_buf->underrun);
DP_PRINT_STATS("hw_paused = %u",
dp_stats_buf->hw_paused);
DP_PRINT_STATS("hw_flush = %u",
dp_stats_buf->hw_flush);
DP_PRINT_STATS("hw_filt = %u",
dp_stats_buf->hw_filt);
DP_PRINT_STATS("tx_abort = %u",
dp_stats_buf->tx_abort);
DP_PRINT_STATS("mpdu_requeued = %u",
dp_stats_buf->mpdu_requed);
DP_PRINT_STATS("tx_xretry = %u",
dp_stats_buf->tx_xretry);
DP_PRINT_STATS("data_rc = %u",
dp_stats_buf->data_rc);
DP_PRINT_STATS("mpdu_dropped_xretry = %u",
dp_stats_buf->mpdu_dropped_xretry);
DP_PRINT_STATS("illegal_rate_phy_err = %u",
dp_stats_buf->illgl_rate_phy_err);
DP_PRINT_STATS("cont_xretry = %u",
dp_stats_buf->cont_xretry);
DP_PRINT_STATS("tx_timeout = %u",
dp_stats_buf->tx_timeout);
DP_PRINT_STATS("pdev_resets = %u",
dp_stats_buf->pdev_resets);
DP_PRINT_STATS("phy_underrun = %u",
dp_stats_buf->phy_underrun);
DP_PRINT_STATS("txop_ovf = %u",
dp_stats_buf->txop_ovf);
DP_PRINT_STATS("seq_posted = %u",
dp_stats_buf->seq_posted);
DP_PRINT_STATS("seq_failed_queueing = %u",
dp_stats_buf->seq_failed_queueing);
DP_PRINT_STATS("seq_completed = %u",
dp_stats_buf->seq_completed);
DP_PRINT_STATS("seq_restarted = %u",
dp_stats_buf->seq_restarted);
DP_PRINT_STATS("mu_seq_posted = %u",
dp_stats_buf->mu_seq_posted);
DP_PRINT_STATS("seq_switch_hw_paused = %u",
dp_stats_buf->seq_switch_hw_paused);
DP_PRINT_STATS("next_seq_posted_dsr = %u",
dp_stats_buf->next_seq_posted_dsr);
DP_PRINT_STATS("seq_posted_isr = %u",
dp_stats_buf->seq_posted_isr);
DP_PRINT_STATS("seq_ctrl_cached = %u",
dp_stats_buf->seq_ctrl_cached);
DP_PRINT_STATS("mpdu_count_tqm = %u",
dp_stats_buf->mpdu_count_tqm);
DP_PRINT_STATS("msdu_count_tqm = %u",
dp_stats_buf->msdu_count_tqm);
DP_PRINT_STATS("mpdu_removed_tqm = %u",
dp_stats_buf->mpdu_removed_tqm);
DP_PRINT_STATS("msdu_removed_tqm = %u",
dp_stats_buf->msdu_removed_tqm);
DP_PRINT_STATS("mpdus_sw_flush = %u",
dp_stats_buf->mpdus_sw_flush);
DP_PRINT_STATS("mpdus_hw_filter = %u",
dp_stats_buf->mpdus_hw_filter);
DP_PRINT_STATS("mpdus_truncated = %u",
dp_stats_buf->mpdus_truncated);
DP_PRINT_STATS("mpdus_ack_failed = %u",
dp_stats_buf->mpdus_ack_failed);
DP_PRINT_STATS("mpdus_expired = %u",
dp_stats_buf->mpdus_expired);
DP_PRINT_STATS("mpdus_seq_hw_retry = %u",
dp_stats_buf->mpdus_seq_hw_retry);
DP_PRINT_STATS("ack_tlv_proc = %u",
dp_stats_buf->ack_tlv_proc);
DP_PRINT_STATS("coex_abort_mpdu_cnt_valid = %u",
dp_stats_buf->coex_abort_mpdu_cnt_valid);
DP_PRINT_STATS("coex_abort_mpdu_cnt = %u\n",
dp_stats_buf->coex_abort_mpdu_cnt);
}
/*
* dp_print_tx_pdev_stats_urrn_tlv_v: display htt_tx_pdev_stats_urrn_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_urrn_tlv_v
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_urrn_tlv_v(uint32_t *tag_buf)
{
htt_tx_pdev_stats_urrn_tlv_v *dp_stats_buf =
(htt_tx_pdev_stats_urrn_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *urrn_stats = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!urrn_stats) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_MAX_URRN_STATS);
DP_PRINT_STATS("HTT_TX_PDEV_STATS_URRN_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&urrn_stats[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->urrn_stats[i]);
}
DP_PRINT_STATS("urrn_stats = %s\n", urrn_stats);
qdf_mem_free(urrn_stats);
}
/*
* dp_print_tx_pdev_stats_flush_tlv_v: display htt_tx_pdev_stats_flush_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_flush_tlv_v
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_flush_tlv_v(uint32_t *tag_buf)
{
htt_tx_pdev_stats_flush_tlv_v *dp_stats_buf =
(htt_tx_pdev_stats_flush_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *flush_errs = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!flush_errs) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len,
(uint32_t)HTT_TX_PDEV_MAX_FLUSH_REASON_STATS);
DP_PRINT_STATS("HTT_TX_PDEV_STATS_FLUSH_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&flush_errs[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->flush_errs[i]);
}
DP_PRINT_STATS("flush_errs = %s\n", flush_errs);
qdf_mem_free(flush_errs);
}
/*
* dp_print_tx_pdev_stats_sifs_tlv_v: display htt_tx_pdev_stats_sifs_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_sifs_tlv_v
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_sifs_tlv_v(uint32_t *tag_buf)
{
htt_tx_pdev_stats_sifs_tlv_v *dp_stats_buf =
(htt_tx_pdev_stats_sifs_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *sifs_status = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!sifs_status) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_MAX_SIFS_BURST_STATS);
DP_PRINT_STATS("HTT_TX_PDEV_STATS_SIFS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&sifs_status[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->sifs_status[i]);
}
DP_PRINT_STATS("sifs_status = %s\n", sifs_status);
qdf_mem_free(sifs_status);
}
/*
* dp_print_tx_pdev_stats_phy_err_tlv_v: display htt_tx_pdev_stats_phy_err_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_phy_err_tlv_v
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_phy_err_tlv_v(uint32_t *tag_buf)
{
htt_tx_pdev_stats_phy_err_tlv_v *dp_stats_buf =
(htt_tx_pdev_stats_phy_err_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *phy_errs = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!phy_errs) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_MAX_PHY_ERR_STATS);
DP_PRINT_STATS("HTT_TX_PDEV_STATS_PHY_ERR_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&phy_errs[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->phy_errs[i]);
}
DP_PRINT_STATS("phy_errs = %s\n", phy_errs);
qdf_mem_free(phy_errs);
}
/*
* dp_print_hw_stats_intr_misc_tlv: display htt_hw_stats_intr_misc_tlv
* @tag_buf: buffer containing the tlv htt_hw_stats_intr_misc_tlv
*
* return:void
*/
static inline void dp_print_hw_stats_intr_misc_tlv(uint32_t *tag_buf)
{
htt_hw_stats_intr_misc_tlv *dp_stats_buf =
(htt_hw_stats_intr_misc_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *hw_intr_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!hw_intr_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_HW_STATS_INTR_MISC_TLV:");
for (i = 0; i < DP_HTT_HW_INTR_NAME_LEN; i++) {
index += qdf_snprint(&hw_intr_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->hw_intr_name[i]);
}
DP_PRINT_STATS("hw_intr_name = %s ", hw_intr_name);
DP_PRINT_STATS("mask = %u",
dp_stats_buf->mask);
DP_PRINT_STATS("count = %u\n",
dp_stats_buf->count);
qdf_mem_free(hw_intr_name);
}
/*
* dp_print_hw_stats_wd_timeout_tlv: display htt_hw_stats_wd_timeout_tlv
* @tag_buf: buffer containing the tlv htt_hw_stats_wd_timeout_tlv
*
* return:void
*/
static inline void dp_print_hw_stats_wd_timeout_tlv(uint32_t *tag_buf)
{
htt_hw_stats_wd_timeout_tlv *dp_stats_buf =
(htt_hw_stats_wd_timeout_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *hw_module_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!hw_module_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_HW_STATS_WD_TIMEOUT_TLV:");
for (i = 0; i < DP_HTT_HW_MODULE_NAME_LEN; i++) {
index += qdf_snprint(&hw_module_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->hw_module_name[i]);
}
DP_PRINT_STATS("hw_module_name = %s ", hw_module_name);
DP_PRINT_STATS("count = %u",
dp_stats_buf->count);
qdf_mem_free(hw_module_name);
}
/*
* dp_print_hw_stats_pdev_errs_tlv: display htt_hw_stats_pdev_errs_tlv
* @tag_buf: buffer containing the tlv htt_hw_stats_pdev_errs_tlv
*
* return:void
*/
static inline void dp_print_hw_stats_pdev_errs_tlv(uint32_t *tag_buf)
{
htt_hw_stats_pdev_errs_tlv *dp_stats_buf =
(htt_hw_stats_pdev_errs_tlv *)tag_buf;
DP_PRINT_STATS("HTT_HW_STATS_PDEV_ERRS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("tx_abort = %u",
dp_stats_buf->tx_abort);
DP_PRINT_STATS("tx_abort_fail_count = %u",
dp_stats_buf->tx_abort_fail_count);
DP_PRINT_STATS("rx_abort = %u",
dp_stats_buf->rx_abort);
DP_PRINT_STATS("rx_abort_fail_count = %u",
dp_stats_buf->rx_abort_fail_count);
DP_PRINT_STATS("warm_reset = %u",
dp_stats_buf->warm_reset);
DP_PRINT_STATS("cold_reset = %u",
dp_stats_buf->cold_reset);
DP_PRINT_STATS("tx_flush = %u",
dp_stats_buf->tx_flush);
DP_PRINT_STATS("tx_glb_reset = %u",
dp_stats_buf->tx_glb_reset);
DP_PRINT_STATS("tx_txq_reset = %u",
dp_stats_buf->tx_txq_reset);
DP_PRINT_STATS("rx_timeout_reset = %u\n",
dp_stats_buf->rx_timeout_reset);
}
/*
* dp_print_msdu_flow_stats_tlv: display htt_msdu_flow_stats_tlv
* @tag_buf: buffer containing the tlv htt_msdu_flow_stats_tlv
*
* return:void
*/
static inline void dp_print_msdu_flow_stats_tlv(uint32_t *tag_buf)
{
htt_msdu_flow_stats_tlv *dp_stats_buf =
(htt_msdu_flow_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_MSDU_FLOW_STATS_TLV:");
DP_PRINT_STATS("last_update_timestamp = %u",
dp_stats_buf->last_update_timestamp);
DP_PRINT_STATS("last_add_timestamp = %u",
dp_stats_buf->last_add_timestamp);
DP_PRINT_STATS("last_remove_timestamp = %u",
dp_stats_buf->last_remove_timestamp);
DP_PRINT_STATS("total_processed_msdu_count = %u",
dp_stats_buf->total_processed_msdu_count);
DP_PRINT_STATS("cur_msdu_count_in_flowq = %u",
dp_stats_buf->cur_msdu_count_in_flowq);
DP_PRINT_STATS("sw_peer_id = %u",
dp_stats_buf->sw_peer_id);
DP_PRINT_STATS("tx_flow_no__tid_num__drop_rule = %u\n",
dp_stats_buf->tx_flow_no__tid_num__drop_rule);
}
/*
* dp_print_tx_tid_stats_tlv: display htt_tx_tid_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_tid_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_tid_stats_tlv(uint32_t *tag_buf)
{
htt_tx_tid_stats_tlv *dp_stats_buf =
(htt_tx_tid_stats_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *tid_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!tid_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_TX_TID_STATS_TLV:");
for (i = 0; i < DP_HTT_TID_NAME_LEN; i++) {
index += qdf_snprint(&tid_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tid_name[i]);
}
DP_PRINT_STATS("tid_name = %s ", tid_name);
DP_PRINT_STATS("sw_peer_id__tid_num = %u",
dp_stats_buf->sw_peer_id__tid_num);
DP_PRINT_STATS("num_sched_pending__num_ppdu_in_hwq = %u",
dp_stats_buf->num_sched_pending__num_ppdu_in_hwq);
DP_PRINT_STATS("tid_flags = %u",
dp_stats_buf->tid_flags);
DP_PRINT_STATS("hw_queued = %u",
dp_stats_buf->hw_queued);
DP_PRINT_STATS("hw_reaped = %u",
dp_stats_buf->hw_reaped);
DP_PRINT_STATS("mpdus_hw_filter = %u",
dp_stats_buf->mpdus_hw_filter);
DP_PRINT_STATS("qdepth_bytes = %u",
dp_stats_buf->qdepth_bytes);
DP_PRINT_STATS("qdepth_num_msdu = %u",
dp_stats_buf->qdepth_num_msdu);
DP_PRINT_STATS("qdepth_num_mpdu = %u",
dp_stats_buf->qdepth_num_mpdu);
DP_PRINT_STATS("last_scheduled_tsmp = %u",
dp_stats_buf->last_scheduled_tsmp);
DP_PRINT_STATS("pause_module_id = %u",
dp_stats_buf->pause_module_id);
DP_PRINT_STATS("block_module_id = %u\n",
dp_stats_buf->block_module_id);
DP_PRINT_STATS("tid_tx_airtime = %u\n",
dp_stats_buf->tid_tx_airtime);
qdf_mem_free(tid_name);
}
/*
* dp_print_tx_tid_stats_v1_tlv: display htt_tx_tid_stats_v1_tlv
* @tag_buf: buffer containing the tlv htt_tx_tid_stats_v1_tlv
*
* return:void
*/
static inline void dp_print_tx_tid_stats_v1_tlv(uint32_t *tag_buf)
{
htt_tx_tid_stats_v1_tlv *dp_stats_buf =
(htt_tx_tid_stats_v1_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *tid_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!tid_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_TX_TID_STATS_V1_TLV:");
for (i = 0; i < DP_HTT_TID_NAME_LEN; i++) {
index += qdf_snprint(&tid_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tid_name[i]);
}
DP_PRINT_STATS("tid_name = %s ", tid_name);
DP_PRINT_STATS("sw_peer_id__tid_num = %u",
dp_stats_buf->sw_peer_id__tid_num);
DP_PRINT_STATS("num_sched_pending__num_ppdu_in_hwq = %u",
dp_stats_buf->num_sched_pending__num_ppdu_in_hwq);
DP_PRINT_STATS("tid_flags = %u",
dp_stats_buf->tid_flags);
DP_PRINT_STATS("max_qdepth_bytes = %u",
dp_stats_buf->max_qdepth_bytes);
DP_PRINT_STATS("max_qdepth_n_msdus = %u",
dp_stats_buf->max_qdepth_n_msdus);
DP_PRINT_STATS("rsvd = %u",
dp_stats_buf->rsvd);
DP_PRINT_STATS("qdepth_bytes = %u",
dp_stats_buf->qdepth_bytes);
DP_PRINT_STATS("qdepth_num_msdu = %u",
dp_stats_buf->qdepth_num_msdu);
DP_PRINT_STATS("qdepth_num_mpdu = %u",
dp_stats_buf->qdepth_num_mpdu);
DP_PRINT_STATS("last_scheduled_tsmp = %u",
dp_stats_buf->last_scheduled_tsmp);
DP_PRINT_STATS("pause_module_id = %u",
dp_stats_buf->pause_module_id);
DP_PRINT_STATS("block_module_id = %u\n",
dp_stats_buf->block_module_id);
DP_PRINT_STATS("tid_tx_airtime = %u\n",
dp_stats_buf->tid_tx_airtime);
qdf_mem_free(tid_name);
}
/*
* dp_print_rx_tid_stats_tlv: display htt_rx_tid_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_tid_stats_tlv
*
* return:void
*/
static inline void dp_print_rx_tid_stats_tlv(uint32_t *tag_buf)
{
htt_rx_tid_stats_tlv *dp_stats_buf =
(htt_rx_tid_stats_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *tid_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!tid_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_RX_TID_STATS_TLV:");
DP_PRINT_STATS("sw_peer_id__tid_num = %u",
dp_stats_buf->sw_peer_id__tid_num);
for (i = 0; i < DP_HTT_TID_NAME_LEN; i++) {
index += qdf_snprint(&tid_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tid_name[i]);
}
DP_PRINT_STATS("tid_name = %s ", tid_name);
DP_PRINT_STATS("dup_in_reorder = %u",
dp_stats_buf->dup_in_reorder);
DP_PRINT_STATS("dup_past_outside_window = %u",
dp_stats_buf->dup_past_outside_window);
DP_PRINT_STATS("dup_past_within_window = %u",
dp_stats_buf->dup_past_within_window);
DP_PRINT_STATS("rxdesc_err_decrypt = %u\n",
dp_stats_buf->rxdesc_err_decrypt);
qdf_mem_free(tid_name);
}
/*
* dp_print_counter_tlv: display htt_counter_tlv
* @tag_buf: buffer containing the tlv htt_counter_tlv
*
* return:void
*/
static inline void dp_print_counter_tlv(uint32_t *tag_buf)
{
htt_counter_tlv *dp_stats_buf =
(htt_counter_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *counter_name = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!counter_name) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_COUNTER_TLV:");
for (i = 0; i < DP_HTT_COUNTER_NAME_LEN; i++) {
index += qdf_snprint(&counter_name[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->counter_name[i]);
}
DP_PRINT_STATS("counter_name = %s ", counter_name);
DP_PRINT_STATS("count = %u\n",
dp_stats_buf->count);
qdf_mem_free(counter_name);
}
/*
* dp_print_peer_stats_cmn_tlv: display htt_peer_stats_cmn_tlv
* @tag_buf: buffer containing the tlv htt_peer_stats_cmn_tlv
*
* return:void
*/
static inline void dp_print_peer_stats_cmn_tlv(uint32_t *tag_buf)
{
htt_peer_stats_cmn_tlv *dp_stats_buf =
(htt_peer_stats_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_PEER_STATS_CMN_TLV:");
DP_PRINT_STATS("ppdu_cnt = %u",
dp_stats_buf->ppdu_cnt);
DP_PRINT_STATS("mpdu_cnt = %u",
dp_stats_buf->mpdu_cnt);
DP_PRINT_STATS("msdu_cnt = %u",
dp_stats_buf->msdu_cnt);
DP_PRINT_STATS("pause_bitmap = %u",
dp_stats_buf->pause_bitmap);
DP_PRINT_STATS("block_bitmap = %u",
dp_stats_buf->block_bitmap);
DP_PRINT_STATS("current_timestamp = %u\n",
dp_stats_buf->current_timestamp);
DP_PRINT_STATS("inactive_time = %u",
dp_stats_buf->inactive_time);
}
/*
* dp_print_peer_details_tlv: display htt_peer_details_tlv
* @tag_buf: buffer containing the tlv htt_peer_details_tlv
*
* return:void
*/
static inline void dp_print_peer_details_tlv(uint32_t *tag_buf)
{
htt_peer_details_tlv *dp_stats_buf =
(htt_peer_details_tlv *)tag_buf;
DP_PRINT_STATS("HTT_PEER_DETAILS_TLV:");
DP_PRINT_STATS("peer_type = %u",
dp_stats_buf->peer_type);
DP_PRINT_STATS("sw_peer_id = %u",
dp_stats_buf->sw_peer_id);
DP_PRINT_STATS("vdev_pdev_ast_idx = %u",
dp_stats_buf->vdev_pdev_ast_idx);
DP_PRINT_STATS("mac_addr(upper 4 bytes) = %u",
dp_stats_buf->mac_addr.mac_addr31to0);
DP_PRINT_STATS("mac_addr(lower 2 bytes) = %u",
dp_stats_buf->mac_addr.mac_addr47to32);
DP_PRINT_STATS("peer_flags = %u",
dp_stats_buf->peer_flags);
DP_PRINT_STATS("qpeer_flags = %u\n",
dp_stats_buf->qpeer_flags);
}
/*
* dp_print_tx_peer_rate_stats_tlv: display htt_tx_peer_rate_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_peer_rate_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_peer_rate_stats_tlv(uint32_t *tag_buf)
{
htt_tx_peer_rate_stats_tlv *dp_stats_buf =
(htt_tx_peer_rate_stats_tlv *)tag_buf;
uint8_t i, j;
uint16_t index = 0;
char *tx_gi[HTT_TX_PEER_STATS_NUM_GI_COUNTERS] = {0};
char *tx_gi_ext[HTT_TX_PEER_STATS_NUM_GI_COUNTERS] = {0};
char *str_buf = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!str_buf) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Output buffer not allocated"));
return;
}
for (i = 0; i < HTT_TX_PEER_STATS_NUM_GI_COUNTERS; i++) {
tx_gi[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
tx_gi_ext[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!tx_gi[i] || !tx_gi_ext[i]) {
dp_err("Unable to allocate buffer for tx_gi");
goto fail1;
}
}
DP_PRINT_STATS("HTT_TX_PEER_RATE_STATS_TLV:");
DP_PRINT_STATS("tx_ldpc = %u",
dp_stats_buf->tx_ldpc);
DP_PRINT_STATS("rts_cnt = %u",
dp_stats_buf->rts_cnt);
DP_PRINT_STATS("ack_rssi = %u",
dp_stats_buf->ack_rssi);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_mcs[i]);
}
for (i = 0; i < DP_HTT_TX_MCS_EXT_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + DP_HTT_TX_MCS_LEN,
dp_stats_buf->tx_mcs_ext[i]);
}
DP_PRINT_STATS("tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_SU_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_su_mcs[i]);
}
for (i = 0; i < DP_HTT_TX_SU_MCS_EXT_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + DP_HTT_TX_SU_MCS_LEN,
dp_stats_buf->tx_su_mcs_ext[i]);
}
DP_PRINT_STATS("tx_su_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_MU_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_mu_mcs[i]);
}
for (i = 0; i < DP_HTT_TX_MU_MCS_EXT_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + DP_HTT_TX_MU_MCS_LEN,
dp_stats_buf->tx_mu_mcs_ext[i]);
}
DP_PRINT_STATS("tx_mu_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_NSS_LEN; i++) {
/* 0 stands for NSS 1, 1 stands for NSS 2, etc. */
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", (i + 1),
dp_stats_buf->tx_nss[i]);
}
DP_PRINT_STATS("tx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_BW_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_bw[i]);
}
DP_PRINT_STATS("tx_bw = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_stbc[i]);
}
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS,
dp_stats_buf->tx_stbc_ext[i]);
}
DP_PRINT_STATS("tx_stbc = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_PREAM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_pream[i]);
}
DP_PRINT_STATS("tx_pream = %s ", str_buf);
for (j = 0; j < HTT_TX_PEER_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
for (i = 0; i < HTT_TX_PEER_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&tx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->tx_gi[j][i]);
}
DP_PRINT_STATS("tx_gi[%u] = %s ", j, tx_gi[j]);
}
for (j = 0; j < HTT_TX_PEER_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&tx_gi_ext[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->tx_gi_ext[j][i]);
}
DP_PRINT_STATS("tx_gi_ext[%u] = %s ", j, tx_gi_ext[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_DCM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_dcm[i]);
}
DP_PRINT_STATS("tx_dcm = %s\n", str_buf);
fail1:
for (i = 0; i < HTT_TX_PEER_STATS_NUM_GI_COUNTERS; i++) {
if (tx_gi[i])
qdf_mem_free(tx_gi[i]);
if (tx_gi_ext[i])
qdf_mem_free(tx_gi_ext[i]);
}
qdf_mem_free(str_buf);
}
/*
* dp_print_rx_peer_rate_stats_tlv: display htt_rx_peer_rate_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_peer_rate_stats_tlv
*
* return:void
*/
static inline void dp_print_rx_peer_rate_stats_tlv(uint32_t *tag_buf)
{
htt_rx_peer_rate_stats_tlv *dp_stats_buf =
(htt_rx_peer_rate_stats_tlv *)tag_buf;
uint8_t i, j;
uint16_t index = 0;
char *rssi_chain[DP_HTT_PEER_NUM_SS] = {0};
char *rx_gi[HTT_RX_PEER_STATS_NUM_GI_COUNTERS] = {0};
char *rx_gi_ext[HTT_RX_PEER_STATS_NUM_GI_COUNTERS] = {0};
char *str_buf = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!str_buf) {
dp_stats_err("Output buffer not allocated");
return;
}
for (i = 0; i < DP_HTT_PEER_NUM_SS; i++) {
rssi_chain[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!rssi_chain[i]) {
dp_err("Unable to allocate buffer for rssi_chain");
goto fail1;
}
}
for (i = 0; i < HTT_RX_PEER_STATS_NUM_GI_COUNTERS; i++) {
rx_gi[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
rx_gi_ext[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!rx_gi[i] || !rx_gi_ext[i]) {
dp_err("Unable to allocate buffer for rx_gi");
goto fail1;
}
}
DP_PRINT_STATS("HTT_RX_PEER_RATE_STATS_TLV:");
DP_PRINT_STATS("nsts = %u",
dp_stats_buf->nsts);
DP_PRINT_STATS("rx_ldpc = %u",
dp_stats_buf->rx_ldpc);
DP_PRINT_STATS("rts_cnt = %u",
dp_stats_buf->rts_cnt);
DP_PRINT_STATS("rssi_mgmt = %u",
dp_stats_buf->rssi_mgmt);
DP_PRINT_STATS("rssi_data = %u",
dp_stats_buf->rssi_data);
DP_PRINT_STATS("rssi_comb = %u",
dp_stats_buf->rssi_comb);
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_mcs[i]);
}
for (i = 0; i < DP_HTT_RX_MCS_EXT_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + DP_HTT_RX_MCS_LEN,
dp_stats_buf->rx_mcs_ext[i]);
}
DP_PRINT_STATS("rx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_NSS_LEN; i++) {
/* 0 stands for NSS 1, 1 stands for NSS 2, etc. */
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", (i + 1),
dp_stats_buf->rx_nss[i]);
}
DP_PRINT_STATS("rx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_DCM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_dcm[i]);
}
DP_PRINT_STATS("rx_dcm = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_stbc[i]);
}
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS,
dp_stats_buf->rx_stbc_ext[i]);
}
DP_PRINT_STATS("rx_stbc = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_BW_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_bw[i]);
}
DP_PRINT_STATS("rx_bw = %s ", str_buf);
for (j = 0; j < DP_HTT_PEER_NUM_SS; j++) {
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
index = 0;
for (i = 0; i < HTT_RX_PEER_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&rssi_chain[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rssi_chain[j][i]);
}
DP_PRINT_STATS("rssi_chain[%u] = %s ", j, rssi_chain[j]);
}
for (j = 0; j < HTT_RX_PEER_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&rx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_gi[j][i]);
}
DP_PRINT_STATS("rx_gi[%u] = %s ", j, rx_gi[j]);
}
for (j = 0; j < HTT_RX_PEER_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&rx_gi_ext[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_gi_ext[j][i]);
}
DP_PRINT_STATS("rx_gi_ext[%u] = %s ", j, rx_gi_ext[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PREAM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_pream[i]);
}
DP_PRINT_STATS("rx_pream = %s\n", str_buf);
fail1:
for (i = 0; i < DP_HTT_PEER_NUM_SS; i++) {
if (!rssi_chain[i])
break;
qdf_mem_free(rssi_chain[i]);
}
for (i = 0; i < HTT_RX_PEER_STATS_NUM_GI_COUNTERS; i++) {
if (rx_gi[i])
qdf_mem_free(rx_gi[i]);
if (rx_gi_ext[i])
qdf_mem_free(rx_gi_ext[i]);
}
qdf_mem_free(str_buf);
}
/*
* dp_print_tx_hwq_mu_mimo_sch_stats_tlv: display htt_tx_hwq_mu_mimo_sch_stats
* @tag_buf: buffer containing the tlv htt_tx_hwq_mu_mimo_sch_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_hwq_mu_mimo_sch_stats_tlv(uint32_t *tag_buf)
{
htt_tx_hwq_mu_mimo_sch_stats_tlv *dp_stats_buf =
(htt_tx_hwq_mu_mimo_sch_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_HWQ_MU_MIMO_SCH_STATS_TLV:");
DP_PRINT_STATS("mu_mimo_sch_posted = %u",
dp_stats_buf->mu_mimo_sch_posted);
DP_PRINT_STATS("mu_mimo_sch_failed = %u",
dp_stats_buf->mu_mimo_sch_failed);
DP_PRINT_STATS("mu_mimo_ppdu_posted = %u\n",
dp_stats_buf->mu_mimo_ppdu_posted);
}
/*
* dp_print_tx_hwq_mu_mimo_mpdu_stats_tlv: display htt_tx_hwq_mu_mimo_mpdu_stats
* @tag_buf: buffer containing the tlv htt_tx_hwq_mu_mimo_mpdu_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_hwq_mu_mimo_mpdu_stats_tlv(uint32_t *tag_buf)
{
htt_tx_hwq_mu_mimo_mpdu_stats_tlv *dp_stats_buf =
(htt_tx_hwq_mu_mimo_mpdu_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_HWQ_MU_MIMO_MPDU_STATS_TLV:");
DP_PRINT_STATS("mu_mimo_mpdus_queued_usr = %u",
dp_stats_buf->mu_mimo_mpdus_queued_usr);
DP_PRINT_STATS("mu_mimo_mpdus_tried_usr = %u",
dp_stats_buf->mu_mimo_mpdus_tried_usr);
DP_PRINT_STATS("mu_mimo_mpdus_failed_usr = %u",
dp_stats_buf->mu_mimo_mpdus_failed_usr);
DP_PRINT_STATS("mu_mimo_mpdus_requeued_usr = %u",
dp_stats_buf->mu_mimo_mpdus_requeued_usr);
DP_PRINT_STATS("mu_mimo_err_no_ba_usr = %u",
dp_stats_buf->mu_mimo_err_no_ba_usr);
DP_PRINT_STATS("mu_mimo_mpdu_underrun_usr = %u",
dp_stats_buf->mu_mimo_mpdu_underrun_usr);
DP_PRINT_STATS("mu_mimo_ampdu_underrun_usr = %u\n",
dp_stats_buf->mu_mimo_ampdu_underrun_usr);
}
/*
* dp_print_tx_hwq_mu_mimo_cmn_stats_tlv: display htt_tx_hwq_mu_mimo_cmn_stats
* @tag_buf: buffer containing the tlv htt_tx_hwq_mu_mimo_cmn_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_hwq_mu_mimo_cmn_stats_tlv(uint32_t *tag_buf)
{
htt_tx_hwq_mu_mimo_cmn_stats_tlv *dp_stats_buf =
(htt_tx_hwq_mu_mimo_cmn_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_HWQ_MU_MIMO_CMN_STATS_TLV:");
DP_PRINT_STATS("mac_id__hwq_id__word = %u\n",
dp_stats_buf->mac_id__hwq_id__word);
}
/*
* dp_print_tx_hwq_stats_cmn_tlv: display htt_tx_hwq_stats_cmn_tlv
* @tag_buf: buffer containing the tlv htt_tx_hwq_stats_cmn_tlv
*
* return:void
*/
static inline void dp_print_tx_hwq_stats_cmn_tlv(uint32_t *tag_buf)
{
htt_tx_hwq_stats_cmn_tlv *dp_stats_buf =
(htt_tx_hwq_stats_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_HWQ_STATS_CMN_TLV:");
DP_PRINT_STATS("mac_id__hwq_id__word = %u",
dp_stats_buf->mac_id__hwq_id__word);
DP_PRINT_STATS("xretry = %u",
dp_stats_buf->xretry);
DP_PRINT_STATS("underrun_cnt = %u",
dp_stats_buf->underrun_cnt);
DP_PRINT_STATS("flush_cnt = %u",
dp_stats_buf->flush_cnt);
DP_PRINT_STATS("filt_cnt = %u",
dp_stats_buf->filt_cnt);
DP_PRINT_STATS("null_mpdu_bmap = %u",
dp_stats_buf->null_mpdu_bmap);
DP_PRINT_STATS("user_ack_failure = %u",
dp_stats_buf->user_ack_failure);
DP_PRINT_STATS("ack_tlv_proc = %u",
dp_stats_buf->ack_tlv_proc);
DP_PRINT_STATS("sched_id_proc = %u",
dp_stats_buf->sched_id_proc);
DP_PRINT_STATS("null_mpdu_tx_count = %u",
dp_stats_buf->null_mpdu_tx_count);
DP_PRINT_STATS("mpdu_bmap_not_recvd = %u",
dp_stats_buf->mpdu_bmap_not_recvd);
DP_PRINT_STATS("num_bar = %u",
dp_stats_buf->num_bar);
DP_PRINT_STATS("rts = %u",
dp_stats_buf->rts);
DP_PRINT_STATS("cts2self = %u",
dp_stats_buf->cts2self);
DP_PRINT_STATS("qos_null = %u",
dp_stats_buf->qos_null);
DP_PRINT_STATS("mpdu_tried_cnt = %u",
dp_stats_buf->mpdu_tried_cnt);
DP_PRINT_STATS("mpdu_queued_cnt = %u",
dp_stats_buf->mpdu_queued_cnt);
DP_PRINT_STATS("mpdu_ack_fail_cnt = %u",
dp_stats_buf->mpdu_ack_fail_cnt);
DP_PRINT_STATS("mpdu_filt_cnt = %u",
dp_stats_buf->mpdu_filt_cnt);
DP_PRINT_STATS("false_mpdu_ack_count = %u\n",
dp_stats_buf->false_mpdu_ack_count);
}
/*
* dp_print_tx_hwq_difs_latency_stats_tlv_v: display
* htt_tx_hwq_difs_latency_stats_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_hwq_difs_latency_stats_tlv_v
*
*return:void
*/
static inline void dp_print_tx_hwq_difs_latency_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_hwq_difs_latency_stats_tlv_v *dp_stats_buf =
(htt_tx_hwq_difs_latency_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *difs_latency_hist = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!difs_latency_hist) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len,
(uint32_t)HTT_TX_HWQ_MAX_DIFS_LATENCY_BINS);
DP_PRINT_STATS("HTT_TX_HWQ_DIFS_LATENCY_STATS_TLV_V:");
DP_PRINT_STATS("hist_intvl = %u",
dp_stats_buf->hist_intvl);
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&difs_latency_hist[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->difs_latency_hist[i]);
}
DP_PRINT_STATS("difs_latency_hist = %s\n", difs_latency_hist);
qdf_mem_free(difs_latency_hist);
}
/*
* dp_print_tx_hwq_cmd_result_stats_tlv_v: display htt_tx_hwq_cmd_result_stats
* @tag_buf: buffer containing the tlv htt_tx_hwq_cmd_result_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_hwq_cmd_result_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_hwq_cmd_result_stats_tlv_v *dp_stats_buf =
(htt_tx_hwq_cmd_result_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *cmd_result = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!cmd_result) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_HWQ_MAX_CMD_RESULT_STATS);
DP_PRINT_STATS("HTT_TX_HWQ_CMD_RESULT_STATS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&cmd_result[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->cmd_result[i]);
}
DP_PRINT_STATS("cmd_result = %s ", cmd_result);
qdf_mem_free(cmd_result);
}
/*
* dp_print_tx_hwq_cmd_stall_stats_tlv_v: display htt_tx_hwq_cmd_stall_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_hwq_cmd_stall_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_hwq_cmd_stall_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_hwq_cmd_stall_stats_tlv_v *dp_stats_buf =
(htt_tx_hwq_cmd_stall_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *cmd_stall_status = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!cmd_stall_status) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_HWQ_MAX_CMD_STALL_STATS);
DP_PRINT_STATS("HTT_TX_HWQ_CMD_STALL_STATS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&cmd_stall_status[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->cmd_stall_status[i]);
}
DP_PRINT_STATS("cmd_stall_status = %s\n", cmd_stall_status);
qdf_mem_free(cmd_stall_status);
}
/*
* dp_print_tx_hwq_fes_result_stats_tlv_v: display htt_tx_hwq_fes_result_stats
* @tag_buf: buffer containing the tlv htt_tx_hwq_fes_result_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_hwq_fes_result_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_hwq_fes_result_stats_tlv_v *dp_stats_buf =
(htt_tx_hwq_fes_result_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *fes_result = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!fes_result) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_HWQ_MAX_FES_RESULT_STATS);
DP_PRINT_STATS("HTT_TX_HWQ_FES_RESULT_STATS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&fes_result[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->fes_result[i]);
}
DP_PRINT_STATS("fes_result = %s ", fes_result);
qdf_mem_free(fes_result);
}
/*
* dp_print_tx_selfgen_cmn_stats_tlv: display htt_tx_selfgen_cmn_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_selfgen_cmn_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_selfgen_cmn_stats_tlv(uint32_t *tag_buf)
{
htt_tx_selfgen_cmn_stats_tlv *dp_stats_buf =
(htt_tx_selfgen_cmn_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_SELFGEN_CMN_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("su_bar = %u",
dp_stats_buf->su_bar);
DP_PRINT_STATS("rts = %u",
dp_stats_buf->rts);
DP_PRINT_STATS("cts2self = %u",
dp_stats_buf->cts2self);
DP_PRINT_STATS("qos_null = %u",
dp_stats_buf->qos_null);
DP_PRINT_STATS("delayed_bar_1 = %u",
dp_stats_buf->delayed_bar_1);
DP_PRINT_STATS("delayed_bar_2 = %u",
dp_stats_buf->delayed_bar_2);
DP_PRINT_STATS("delayed_bar_3 = %u",
dp_stats_buf->delayed_bar_3);
DP_PRINT_STATS("delayed_bar_4 = %u",
dp_stats_buf->delayed_bar_4);
DP_PRINT_STATS("delayed_bar_5 = %u",
dp_stats_buf->delayed_bar_5);
DP_PRINT_STATS("delayed_bar_6 = %u",
dp_stats_buf->delayed_bar_6);
DP_PRINT_STATS("delayed_bar_7 = %u\n",
dp_stats_buf->delayed_bar_7);
}
/*
* dp_print_tx_selfgen_ac_stats_tlv: display htt_tx_selfgen_ac_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_selfgen_ac_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_selfgen_ac_stats_tlv(uint32_t *tag_buf)
{
htt_tx_selfgen_ac_stats_tlv *dp_stats_buf =
(htt_tx_selfgen_ac_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_SELFGEN_AC_STATS_TLV:");
DP_PRINT_STATS("ac_su_ndpa = %u",
dp_stats_buf->ac_su_ndpa);
DP_PRINT_STATS("ac_su_ndp = %u",
dp_stats_buf->ac_su_ndp);
DP_PRINT_STATS("ac_mu_mimo_ndpa = %u",
dp_stats_buf->ac_mu_mimo_ndpa);
DP_PRINT_STATS("ac_mu_mimo_ndp = %u",
dp_stats_buf->ac_mu_mimo_ndp);
DP_PRINT_STATS("ac_mu_mimo_brpoll_1 = %u",
dp_stats_buf->ac_mu_mimo_brpoll_1);
DP_PRINT_STATS("ac_mu_mimo_brpoll_2 = %u",
dp_stats_buf->ac_mu_mimo_brpoll_2);
DP_PRINT_STATS("ac_mu_mimo_brpoll_3 = %u\n",
dp_stats_buf->ac_mu_mimo_brpoll_3);
}
/*
* dp_print_tx_selfgen_ax_stats_tlv: display htt_tx_selfgen_ax_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_selfgen_ax_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_selfgen_ax_stats_tlv(uint32_t *tag_buf)
{
htt_tx_selfgen_ax_stats_tlv *dp_stats_buf =
(htt_tx_selfgen_ax_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_SELFGEN_AX_STATS_TLV:");
DP_PRINT_STATS("ax_su_ndpa = %u",
dp_stats_buf->ax_su_ndpa);
DP_PRINT_STATS("ax_su_ndp = %u",
dp_stats_buf->ax_su_ndp);
DP_PRINT_STATS("ax_mu_mimo_ndpa = %u",
dp_stats_buf->ax_mu_mimo_ndpa);
DP_PRINT_STATS("ax_mu_mimo_ndp = %u",
dp_stats_buf->ax_mu_mimo_ndp);
DP_PRINT_STATS("ax_mu_mimo_brpoll_1 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_1);
DP_PRINT_STATS("ax_mu_mimo_brpoll_2 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_2);
DP_PRINT_STATS("ax_mu_mimo_brpoll_3 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_3);
DP_PRINT_STATS("ax_mu_mimo_brpoll_4 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_4);
DP_PRINT_STATS("ax_mu_mimo_brpoll_5 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_5);
DP_PRINT_STATS("ax_mu_mimo_brpoll_6 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_6);
DP_PRINT_STATS("ax_mu_mimo_brpoll_7 = %u",
dp_stats_buf->ax_mu_mimo_brpoll_7);
DP_PRINT_STATS("ax_basic_trigger = %u",
dp_stats_buf->ax_basic_trigger);
DP_PRINT_STATS("ax_bsr_trigger = %u",
dp_stats_buf->ax_bsr_trigger);
DP_PRINT_STATS("ax_mu_bar_trigger = %u",
dp_stats_buf->ax_mu_bar_trigger);
DP_PRINT_STATS("ax_mu_rts_trigger = %u\n",
dp_stats_buf->ax_mu_rts_trigger);
}
/*
* dp_print_tx_selfgen_ac_err_stats_tlv: display htt_tx_selfgen_ac_err_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_selfgen_ac_err_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_selfgen_ac_err_stats_tlv(uint32_t *tag_buf)
{
htt_tx_selfgen_ac_err_stats_tlv *dp_stats_buf =
(htt_tx_selfgen_ac_err_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_SELFGEN_AC_ERR_STATS_TLV:");
DP_PRINT_STATS("ac_su_ndp_err = %u",
dp_stats_buf->ac_su_ndp_err);
DP_PRINT_STATS("ac_su_ndpa_err = %u",
dp_stats_buf->ac_su_ndpa_err);
DP_PRINT_STATS("ac_mu_mimo_ndpa_err = %u",
dp_stats_buf->ac_mu_mimo_ndpa_err);
DP_PRINT_STATS("ac_mu_mimo_ndp_err = %u",
dp_stats_buf->ac_mu_mimo_ndp_err);
DP_PRINT_STATS("ac_mu_mimo_brp1_err = %u",
dp_stats_buf->ac_mu_mimo_brp1_err);
DP_PRINT_STATS("ac_mu_mimo_brp2_err = %u",
dp_stats_buf->ac_mu_mimo_brp2_err);
DP_PRINT_STATS("ac_mu_mimo_brp3_err = %u\n",
dp_stats_buf->ac_mu_mimo_brp3_err);
}
/*
* dp_print_tx_selfgen_ax_err_stats_tlv: display htt_tx_selfgen_ax_err_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_selfgen_ax_err_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_selfgen_ax_err_stats_tlv(uint32_t *tag_buf)
{
htt_tx_selfgen_ax_err_stats_tlv *dp_stats_buf =
(htt_tx_selfgen_ax_err_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_SELFGEN_AX_ERR_STATS_TLV:");
DP_PRINT_STATS("ax_su_ndp_err = %u",
dp_stats_buf->ax_su_ndp_err);
DP_PRINT_STATS("ax_su_ndpa_err = %u",
dp_stats_buf->ax_su_ndpa_err);
DP_PRINT_STATS("ax_mu_mimo_ndpa_err = %u",
dp_stats_buf->ax_mu_mimo_ndpa_err);
DP_PRINT_STATS("ax_mu_mimo_ndp_err = %u",
dp_stats_buf->ax_mu_mimo_ndp_err);
DP_PRINT_STATS("ax_mu_mimo_brp1_err = %u",
dp_stats_buf->ax_mu_mimo_brp1_err);
DP_PRINT_STATS("ax_mu_mimo_brp2_err = %u",
dp_stats_buf->ax_mu_mimo_brp2_err);
DP_PRINT_STATS("ax_mu_mimo_brp3_err = %u",
dp_stats_buf->ax_mu_mimo_brp3_err);
DP_PRINT_STATS("ax_mu_mimo_brp4_err = %u",
dp_stats_buf->ax_mu_mimo_brp4_err);
DP_PRINT_STATS("ax_mu_mimo_brp5_err = %u",
dp_stats_buf->ax_mu_mimo_brp5_err);
DP_PRINT_STATS("ax_mu_mimo_brp6_err = %u",
dp_stats_buf->ax_mu_mimo_brp6_err);
DP_PRINT_STATS("ax_mu_mimo_brp7_err = %u",
dp_stats_buf->ax_mu_mimo_brp7_err);
DP_PRINT_STATS("ax_basic_trigger_err = %u",
dp_stats_buf->ax_basic_trigger_err);
DP_PRINT_STATS("ax_bsr_trigger_err = %u",
dp_stats_buf->ax_bsr_trigger_err);
DP_PRINT_STATS("ax_mu_bar_trigger_err = %u",
dp_stats_buf->ax_mu_bar_trigger_err);
DP_PRINT_STATS("ax_mu_rts_trigger_err = %u\n",
dp_stats_buf->ax_mu_rts_trigger_err);
}
/*
* dp_print_tx_pdev_mu_mimo_sch_stats_tlv: display htt_tx_pdev_mu_mimo_sch_stats
* @tag_buf: buffer containing the tlv htt_tx_pdev_mu_mimo_sch_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_pdev_mu_mimo_sch_stats_tlv(uint32_t *tag_buf)
{
uint8_t i;
htt_tx_pdev_mu_mimo_sch_stats_tlv *dp_stats_buf =
(htt_tx_pdev_mu_mimo_sch_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_PDEV_MU_MIMO_SCH_STATS_TLV:");
DP_PRINT_STATS("mu_mimo_sch_posted = %u",
dp_stats_buf->mu_mimo_sch_posted);
DP_PRINT_STATS("mu_mimo_sch_failed = %u",
dp_stats_buf->mu_mimo_sch_failed);
DP_PRINT_STATS("mu_mimo_ppdu_posted = %u\n",
dp_stats_buf->mu_mimo_ppdu_posted);
DP_PRINT_STATS("11ac MU_MIMO SCH STATS:");
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS; i++) {
DP_PRINT_STATS("ac_mu_mimo_sch_nusers_%u = %u", i,
dp_stats_buf->ac_mu_mimo_sch_nusers[i]);
}
DP_PRINT_STATS("\n11ax MU_MIMO SCH STATS:");
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS; i++) {
DP_PRINT_STATS("ax_mu_mimo_sch_nusers_%u = %u", i,
dp_stats_buf->ax_mu_mimo_sch_nusers[i]);
}
DP_PRINT_STATS("\n11ax OFDMA SCH STATS:");
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS; i++) {
DP_PRINT_STATS("ax_ofdma_sch_nusers_%u = %u", i,
dp_stats_buf->ax_ofdma_sch_nusers[i]);
}
}
/*
* dp_print_tx_pdev_mu_mimo_mpdu_stats_tlv: display
* htt_tx_pdev_mu_mimo_mpdu_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_pdev_mu_mimo_mpdu_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_pdev_mu_mimo_mpdu_stats_tlv(uint32_t *tag_buf)
{
htt_tx_pdev_mpdu_stats_tlv *dp_stats_buf =
(htt_tx_pdev_mpdu_stats_tlv *)tag_buf;
if (dp_stats_buf->tx_sched_mode ==
HTT_STATS_TX_SCHED_MODE_MU_MIMO_AC) {
if (!dp_stats_buf->user_index)
DP_PRINT_STATS(
"HTT_TX_PDEV_MU_MIMO_AC_MPDU_STATS:\n");
if (dp_stats_buf->user_index <
HTT_TX_PDEV_STATS_NUM_AC_MUMIMO_USER_STATS) {
DP_PRINT_STATS(
"ac_mu_mimo_mpdus_queued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_queued_usr);
DP_PRINT_STATS(
"ac_mu_mimo_mpdus_tried_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_tried_usr);
DP_PRINT_STATS(
"ac_mu_mimo_mpdus_failed_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_failed_usr);
DP_PRINT_STATS(
"ac_mu_mimo_mpdus_requeued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_requeued_usr);
DP_PRINT_STATS(
"ac_mu_mimo_err_no_ba_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->err_no_ba_usr);
DP_PRINT_STATS(
"ac_mu_mimo_mpdu_underrun_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdu_underrun_usr);
DP_PRINT_STATS(
"ac_mu_mimo_ampdu_underrun_usr_%u = %u\n",
dp_stats_buf->user_index,
dp_stats_buf->ampdu_underrun_usr);
}
}
if (dp_stats_buf->tx_sched_mode == HTT_STATS_TX_SCHED_MODE_MU_MIMO_AX) {
if (!dp_stats_buf->user_index)
DP_PRINT_STATS(
"HTT_TX_PDEV_MU_MIMO_AX_MPDU_STATS:\n");
if (dp_stats_buf->user_index <
HTT_TX_PDEV_STATS_NUM_AX_MUMIMO_USER_STATS) {
DP_PRINT_STATS(
"ax_mu_mimo_mpdus_queued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_queued_usr);
DP_PRINT_STATS(
"ax_mu_mimo_mpdus_tried_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_tried_usr);
DP_PRINT_STATS(
"ax_mu_mimo_mpdus_failed_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_failed_usr);
DP_PRINT_STATS(
"ax_mu_mimo_mpdus_requeued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_requeued_usr);
DP_PRINT_STATS(
"ax_mu_mimo_err_no_ba_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->err_no_ba_usr);
DP_PRINT_STATS(
"ax_mu_mimo_mpdu_underrun_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdu_underrun_usr);
DP_PRINT_STATS(
"ax_mu_mimo_ampdu_underrun_usr_%u = %u\n",
dp_stats_buf->user_index,
dp_stats_buf->ampdu_underrun_usr);
}
}
if (dp_stats_buf->tx_sched_mode ==
HTT_STATS_TX_SCHED_MODE_MU_OFDMA_AX) {
if (!dp_stats_buf->user_index)
DP_PRINT_STATS(
"HTT_TX_PDEV_AX_MU_OFDMA_MPDU_STATS:\n");
if (dp_stats_buf->user_index <
HTT_TX_PDEV_STATS_NUM_OFDMA_USER_STATS) {
DP_PRINT_STATS(
"ax_mu_ofdma_mpdus_queued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_queued_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_mpdus_tried_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_tried_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_mpdus_failed_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_failed_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_mpdus_requeued_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdus_requeued_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_err_no_ba_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->err_no_ba_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_mpdu_underrun_usr_%u = %u",
dp_stats_buf->user_index,
dp_stats_buf->mpdu_underrun_usr);
DP_PRINT_STATS(
"ax_mu_ofdma_ampdu_underrun_usr_%u = %u\n",
dp_stats_buf->user_index,
dp_stats_buf->ampdu_underrun_usr);
}
}
}
/*
* dp_print_sched_txq_cmd_posted_tlv_v: display htt_sched_txq_cmd_posted_tlv_v
* @tag_buf: buffer containing the tlv htt_sched_txq_cmd_posted_tlv_v
*
* return:void
*/
static inline void dp_print_sched_txq_cmd_posted_tlv_v(uint32_t *tag_buf)
{
htt_sched_txq_cmd_posted_tlv_v *dp_stats_buf =
(htt_sched_txq_cmd_posted_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *sched_cmd_posted = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!sched_cmd_posted) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_SCHED_TX_MODE_MAX);
DP_PRINT_STATS("HTT_SCHED_TXQ_CMD_POSTED_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&sched_cmd_posted[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->sched_cmd_posted[i]);
}
DP_PRINT_STATS("sched_cmd_posted = %s\n", sched_cmd_posted);
qdf_mem_free(sched_cmd_posted);
}
/*
* dp_print_sched_txq_cmd_reaped_tlv_v: display htt_sched_txq_cmd_reaped_tlv_v
* @tag_buf: buffer containing the tlv htt_sched_txq_cmd_reaped_tlv_v
*
* return:void
*/
static inline void dp_print_sched_txq_cmd_reaped_tlv_v(uint32_t *tag_buf)
{
htt_sched_txq_cmd_reaped_tlv_v *dp_stats_buf =
(htt_sched_txq_cmd_reaped_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *sched_cmd_reaped = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!sched_cmd_reaped) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_SCHED_TX_MODE_MAX);
DP_PRINT_STATS("HTT_SCHED_TXQ_CMD_REAPED_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&sched_cmd_reaped[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->sched_cmd_reaped[i]);
}
DP_PRINT_STATS("sched_cmd_reaped = %s\n", sched_cmd_reaped);
qdf_mem_free(sched_cmd_reaped);
}
/*
* dp_print_tx_pdev_stats_sched_per_txq_tlv: display
* htt_tx_pdev_stats_sched_per_txq_tlv
* @tag_buf: buffer containing the tlv htt_tx_pdev_stats_sched_per_txq_tlv
*
* return:void
*/
static inline void dp_print_tx_pdev_stats_sched_per_txq_tlv(uint32_t *tag_buf)
{
htt_tx_pdev_stats_sched_per_txq_tlv *dp_stats_buf =
(htt_tx_pdev_stats_sched_per_txq_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_PDEV_STATS_SCHED_PER_TXQ_TLV:");
DP_PRINT_STATS("mac_id__txq_id__word = %u",
dp_stats_buf->mac_id__txq_id__word);
DP_PRINT_STATS("sched_policy = %u",
dp_stats_buf->sched_policy);
DP_PRINT_STATS("last_sched_cmd_posted_timestamp = %u",
dp_stats_buf->last_sched_cmd_posted_timestamp);
DP_PRINT_STATS("last_sched_cmd_compl_timestamp = %u",
dp_stats_buf->last_sched_cmd_compl_timestamp);
DP_PRINT_STATS("sched_2_tac_lwm_count = %u",
dp_stats_buf->sched_2_tac_lwm_count);
DP_PRINT_STATS("sched_2_tac_ring_full = %u",
dp_stats_buf->sched_2_tac_ring_full);
DP_PRINT_STATS("sched_cmd_post_failure = %u",
dp_stats_buf->sched_cmd_post_failure);
DP_PRINT_STATS("num_active_tids = %u",
dp_stats_buf->num_active_tids);
DP_PRINT_STATS("num_ps_schedules = %u",
dp_stats_buf->num_ps_schedules);
DP_PRINT_STATS("sched_cmds_pending = %u",
dp_stats_buf->sched_cmds_pending);
DP_PRINT_STATS("num_tid_register = %u",
dp_stats_buf->num_tid_register);
DP_PRINT_STATS("num_tid_unregister = %u",
dp_stats_buf->num_tid_unregister);
DP_PRINT_STATS("num_qstats_queried = %u",
dp_stats_buf->num_qstats_queried);
DP_PRINT_STATS("qstats_update_pending = %u",
dp_stats_buf->qstats_update_pending);
DP_PRINT_STATS("last_qstats_query_timestamp = %u",
dp_stats_buf->last_qstats_query_timestamp);
DP_PRINT_STATS("num_tqm_cmdq_full = %u",
dp_stats_buf->num_tqm_cmdq_full);
DP_PRINT_STATS("num_de_sched_algo_trigger = %u",
dp_stats_buf->num_de_sched_algo_trigger);
DP_PRINT_STATS("num_rt_sched_algo_trigger = %u",
dp_stats_buf->num_rt_sched_algo_trigger);
DP_PRINT_STATS("num_tqm_sched_algo_trigger = %u",
dp_stats_buf->num_tqm_sched_algo_trigger);
DP_PRINT_STATS("notify_sched = %u\n",
dp_stats_buf->notify_sched);
}
/*
* dp_print_stats_tx_sched_cmn_tlv: display htt_stats_tx_sched_cmn_tlv
* @tag_buf: buffer containing the tlv htt_stats_tx_sched_cmn_tlv
*
* return:void
*/
static inline void dp_print_stats_tx_sched_cmn_tlv(uint32_t *tag_buf)
{
htt_stats_tx_sched_cmn_tlv *dp_stats_buf =
(htt_stats_tx_sched_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_STATS_TX_SCHED_CMN_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("current_timestamp = %u\n",
dp_stats_buf->current_timestamp);
}
/*
* dp_print_tx_tqm_gen_mpdu_stats_tlv_v: display htt_tx_tqm_gen_mpdu_stats_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_tqm_gen_mpdu_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_tqm_gen_mpdu_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_tqm_gen_mpdu_stats_tlv_v *dp_stats_buf =
(htt_tx_tqm_gen_mpdu_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *gen_mpdu_end_reason = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!gen_mpdu_end_reason) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len,
(uint32_t)HTT_TX_TQM_MAX_GEN_MPDU_END_REASON);
DP_PRINT_STATS("HTT_TX_TQM_GEN_MPDU_STATS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&gen_mpdu_end_reason[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->gen_mpdu_end_reason[i]);
}
DP_PRINT_STATS("gen_mpdu_end_reason = %s\n", gen_mpdu_end_reason);
qdf_mem_free(gen_mpdu_end_reason);
}
/*
* dp_print_tx_tqm_list_mpdu_stats_tlv_v: display htt_tx_tqm_list_mpdu_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_tqm_list_mpdu_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_tqm_list_mpdu_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_tqm_list_mpdu_stats_tlv_v *dp_stats_buf =
(htt_tx_tqm_list_mpdu_stats_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *list_mpdu_end_reason = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!list_mpdu_end_reason) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len,
(uint32_t)HTT_TX_TQM_MAX_LIST_MPDU_END_REASON);
DP_PRINT_STATS("HTT_TX_TQM_LIST_MPDU_STATS_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&list_mpdu_end_reason[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->list_mpdu_end_reason[i]);
}
DP_PRINT_STATS("list_mpdu_end_reason = %s\n",
list_mpdu_end_reason);
qdf_mem_free(list_mpdu_end_reason);
}
/*
* dp_print_tx_tqm_list_mpdu_cnt_tlv_v: display htt_tx_tqm_list_mpdu_cnt_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_tqm_list_mpdu_cnt_tlv_v
*
* return:void
*/
static inline void dp_print_tx_tqm_list_mpdu_cnt_tlv_v(uint32_t *tag_buf)
{
htt_tx_tqm_list_mpdu_cnt_tlv_v *dp_stats_buf =
(htt_tx_tqm_list_mpdu_cnt_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *list_mpdu_cnt_hist = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!list_mpdu_cnt_hist) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len,
(uint32_t)HTT_TX_TQM_MAX_LIST_MPDU_CNT_HISTOGRAM_BINS);
DP_PRINT_STATS("HTT_TX_TQM_LIST_MPDU_CNT_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&list_mpdu_cnt_hist[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->list_mpdu_cnt_hist[i]);
}
DP_PRINT_STATS("list_mpdu_cnt_hist = %s\n", list_mpdu_cnt_hist);
qdf_mem_free(list_mpdu_cnt_hist);
}
/*
* dp_print_tx_tqm_pdev_stats_tlv_v: display htt_tx_tqm_pdev_stats_tlv_v
* @tag_buf: buffer containing the tlv htt_tx_tqm_pdev_stats_tlv_v
*
* return:void
*/
static inline void dp_print_tx_tqm_pdev_stats_tlv_v(uint32_t *tag_buf)
{
htt_tx_tqm_pdev_stats_tlv_v *dp_stats_buf =
(htt_tx_tqm_pdev_stats_tlv_v *)tag_buf;
DP_PRINT_STATS("HTT_TX_TQM_PDEV_STATS_TLV_V:");
DP_PRINT_STATS("msdu_count = %u",
dp_stats_buf->msdu_count);
DP_PRINT_STATS("mpdu_count = %u",
dp_stats_buf->mpdu_count);
DP_PRINT_STATS("remove_msdu = %u",
dp_stats_buf->remove_msdu);
DP_PRINT_STATS("remove_mpdu = %u",
dp_stats_buf->remove_mpdu);
DP_PRINT_STATS("remove_msdu_ttl = %u",
dp_stats_buf->remove_msdu_ttl);
DP_PRINT_STATS("send_bar = %u",
dp_stats_buf->send_bar);
DP_PRINT_STATS("bar_sync = %u",
dp_stats_buf->bar_sync);
DP_PRINT_STATS("notify_mpdu = %u",
dp_stats_buf->notify_mpdu);
DP_PRINT_STATS("sync_cmd = %u",
dp_stats_buf->sync_cmd);
DP_PRINT_STATS("write_cmd = %u",
dp_stats_buf->write_cmd);
DP_PRINT_STATS("hwsch_trigger = %u",
dp_stats_buf->hwsch_trigger);
DP_PRINT_STATS("ack_tlv_proc = %u",
dp_stats_buf->ack_tlv_proc);
DP_PRINT_STATS("gen_mpdu_cmd = %u",
dp_stats_buf->gen_mpdu_cmd);
DP_PRINT_STATS("gen_list_cmd = %u",
dp_stats_buf->gen_list_cmd);
DP_PRINT_STATS("remove_mpdu_cmd = %u",
dp_stats_buf->remove_mpdu_cmd);
DP_PRINT_STATS("remove_mpdu_tried_cmd = %u",
dp_stats_buf->remove_mpdu_tried_cmd);
DP_PRINT_STATS("mpdu_queue_stats_cmd = %u",
dp_stats_buf->mpdu_queue_stats_cmd);
DP_PRINT_STATS("mpdu_head_info_cmd = %u",
dp_stats_buf->mpdu_head_info_cmd);
DP_PRINT_STATS("msdu_flow_stats_cmd = %u",
dp_stats_buf->msdu_flow_stats_cmd);
DP_PRINT_STATS("remove_msdu_cmd = %u",
dp_stats_buf->remove_msdu_cmd);
DP_PRINT_STATS("remove_msdu_ttl_cmd = %u",
dp_stats_buf->remove_msdu_ttl_cmd);
DP_PRINT_STATS("flush_cache_cmd = %u",
dp_stats_buf->flush_cache_cmd);
DP_PRINT_STATS("update_mpduq_cmd = %u",
dp_stats_buf->update_mpduq_cmd);
DP_PRINT_STATS("enqueue = %u",
dp_stats_buf->enqueue);
DP_PRINT_STATS("enqueue_notify = %u",
dp_stats_buf->enqueue_notify);
DP_PRINT_STATS("notify_mpdu_at_head = %u",
dp_stats_buf->notify_mpdu_at_head);
DP_PRINT_STATS("notify_mpdu_state_valid = %u\n",
dp_stats_buf->notify_mpdu_state_valid);
}
/*
* dp_print_tx_tqm_cmn_stats_tlv: display htt_tx_tqm_cmn_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_tqm_cmn_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_tqm_cmn_stats_tlv(uint32_t *tag_buf)
{
htt_tx_tqm_cmn_stats_tlv *dp_stats_buf =
(htt_tx_tqm_cmn_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_TQM_CMN_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("max_cmdq_id = %u",
dp_stats_buf->max_cmdq_id);
DP_PRINT_STATS("list_mpdu_cnt_hist_intvl = %u",
dp_stats_buf->list_mpdu_cnt_hist_intvl);
DP_PRINT_STATS("add_msdu = %u",
dp_stats_buf->add_msdu);
DP_PRINT_STATS("q_empty = %u",
dp_stats_buf->q_empty);
DP_PRINT_STATS("q_not_empty = %u",
dp_stats_buf->q_not_empty);
DP_PRINT_STATS("drop_notification = %u",
dp_stats_buf->drop_notification);
DP_PRINT_STATS("desc_threshold = %u\n",
dp_stats_buf->desc_threshold);
}
/*
* dp_print_tx_tqm_error_stats_tlv: display htt_tx_tqm_error_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_tqm_error_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_tqm_error_stats_tlv(uint32_t *tag_buf)
{
htt_tx_tqm_error_stats_tlv *dp_stats_buf =
(htt_tx_tqm_error_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_TQM_ERROR_STATS_TLV:");
DP_PRINT_STATS("q_empty_failure = %u",
dp_stats_buf->q_empty_failure);
DP_PRINT_STATS("q_not_empty_failure = %u",
dp_stats_buf->q_not_empty_failure);
DP_PRINT_STATS("add_msdu_failure = %u\n",
dp_stats_buf->add_msdu_failure);
}
/*
* dp_print_tx_tqm_cmdq_status_tlv: display htt_tx_tqm_cmdq_status_tlv
* @tag_buf: buffer containing the tlv htt_tx_tqm_cmdq_status_tlv
*
* return:void
*/
static inline void dp_print_tx_tqm_cmdq_status_tlv(uint32_t *tag_buf)
{
htt_tx_tqm_cmdq_status_tlv *dp_stats_buf =
(htt_tx_tqm_cmdq_status_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_TQM_CMDQ_STATUS_TLV:");
DP_PRINT_STATS("mac_id__cmdq_id__word = %u",
dp_stats_buf->mac_id__cmdq_id__word);
DP_PRINT_STATS("sync_cmd = %u",
dp_stats_buf->sync_cmd);
DP_PRINT_STATS("write_cmd = %u",
dp_stats_buf->write_cmd);
DP_PRINT_STATS("gen_mpdu_cmd = %u",
dp_stats_buf->gen_mpdu_cmd);
DP_PRINT_STATS("mpdu_queue_stats_cmd = %u",
dp_stats_buf->mpdu_queue_stats_cmd);
DP_PRINT_STATS("mpdu_head_info_cmd = %u",
dp_stats_buf->mpdu_head_info_cmd);
DP_PRINT_STATS("msdu_flow_stats_cmd = %u",
dp_stats_buf->msdu_flow_stats_cmd);
DP_PRINT_STATS("remove_mpdu_cmd = %u",
dp_stats_buf->remove_mpdu_cmd);
DP_PRINT_STATS("remove_msdu_cmd = %u",
dp_stats_buf->remove_msdu_cmd);
DP_PRINT_STATS("flush_cache_cmd = %u",
dp_stats_buf->flush_cache_cmd);
DP_PRINT_STATS("update_mpduq_cmd = %u",
dp_stats_buf->update_mpduq_cmd);
DP_PRINT_STATS("update_msduq_cmd = %u\n",
dp_stats_buf->update_msduq_cmd);
}
/*
* dp_print_tx_de_eapol_packets_stats_tlv: display htt_tx_de_eapol_packets_stats
* @tag_buf: buffer containing the tlv htt_tx_de_eapol_packets_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_eapol_packets_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_eapol_packets_stats_tlv *dp_stats_buf =
(htt_tx_de_eapol_packets_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_EAPOL_PACKETS_STATS_TLV:");
DP_PRINT_STATS("m1_packets = %u",
dp_stats_buf->m1_packets);
DP_PRINT_STATS("m2_packets = %u",
dp_stats_buf->m2_packets);
DP_PRINT_STATS("m3_packets = %u",
dp_stats_buf->m3_packets);
DP_PRINT_STATS("m4_packets = %u",
dp_stats_buf->m4_packets);
DP_PRINT_STATS("g1_packets = %u",
dp_stats_buf->g1_packets);
DP_PRINT_STATS("g2_packets = %u\n",
dp_stats_buf->g2_packets);
}
/*
* dp_print_tx_de_classify_failed_stats_tlv: display
* htt_tx_de_classify_failed_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_classify_failed_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_classify_failed_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_classify_failed_stats_tlv *dp_stats_buf =
(htt_tx_de_classify_failed_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_CLASSIFY_FAILED_STATS_TLV:");
DP_PRINT_STATS("ap_bss_peer_not_found = %u",
dp_stats_buf->ap_bss_peer_not_found);
DP_PRINT_STATS("ap_bcast_mcast_no_peer = %u",
dp_stats_buf->ap_bcast_mcast_no_peer);
DP_PRINT_STATS("sta_delete_in_progress = %u",
dp_stats_buf->sta_delete_in_progress);
DP_PRINT_STATS("ibss_no_bss_peer = %u",
dp_stats_buf->ibss_no_bss_peer);
DP_PRINT_STATS("invaild_vdev_type = %u",
dp_stats_buf->invaild_vdev_type);
DP_PRINT_STATS("invalid_ast_peer_entry = %u",
dp_stats_buf->invalid_ast_peer_entry);
DP_PRINT_STATS("peer_entry_invalid = %u",
dp_stats_buf->peer_entry_invalid);
DP_PRINT_STATS("ethertype_not_ip = %u",
dp_stats_buf->ethertype_not_ip);
DP_PRINT_STATS("eapol_lookup_failed = %u",
dp_stats_buf->eapol_lookup_failed);
DP_PRINT_STATS("qpeer_not_allow_data = %u",
dp_stats_buf->qpeer_not_allow_data);
DP_PRINT_STATS("fse_tid_override = %u\n",
dp_stats_buf->fse_tid_override);
}
/*
* dp_print_tx_de_classify_stats_tlv: display htt_tx_de_classify_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_classify_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_classify_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_classify_stats_tlv *dp_stats_buf =
(htt_tx_de_classify_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_CLASSIFY_STATS_TLV:");
DP_PRINT_STATS("arp_packets = %u",
dp_stats_buf->arp_packets);
DP_PRINT_STATS("igmp_packets = %u",
dp_stats_buf->igmp_packets);
DP_PRINT_STATS("dhcp_packets = %u",
dp_stats_buf->dhcp_packets);
DP_PRINT_STATS("host_inspected = %u",
dp_stats_buf->host_inspected);
DP_PRINT_STATS("htt_included = %u",
dp_stats_buf->htt_included);
DP_PRINT_STATS("htt_valid_mcs = %u",
dp_stats_buf->htt_valid_mcs);
DP_PRINT_STATS("htt_valid_nss = %u",
dp_stats_buf->htt_valid_nss);
DP_PRINT_STATS("htt_valid_preamble_type = %u",
dp_stats_buf->htt_valid_preamble_type);
DP_PRINT_STATS("htt_valid_chainmask = %u",
dp_stats_buf->htt_valid_chainmask);
DP_PRINT_STATS("htt_valid_guard_interval = %u",
dp_stats_buf->htt_valid_guard_interval);
DP_PRINT_STATS("htt_valid_retries = %u",
dp_stats_buf->htt_valid_retries);
DP_PRINT_STATS("htt_valid_bw_info = %u",
dp_stats_buf->htt_valid_bw_info);
DP_PRINT_STATS("htt_valid_power = %u",
dp_stats_buf->htt_valid_power);
DP_PRINT_STATS("htt_valid_key_flags = %u",
dp_stats_buf->htt_valid_key_flags);
DP_PRINT_STATS("htt_valid_no_encryption = %u",
dp_stats_buf->htt_valid_no_encryption);
DP_PRINT_STATS("fse_entry_count = %u",
dp_stats_buf->fse_entry_count);
DP_PRINT_STATS("fse_priority_be = %u",
dp_stats_buf->fse_priority_be);
DP_PRINT_STATS("fse_priority_high = %u",
dp_stats_buf->fse_priority_high);
DP_PRINT_STATS("fse_priority_low = %u",
dp_stats_buf->fse_priority_low);
DP_PRINT_STATS("fse_traffic_ptrn_be = %u",
dp_stats_buf->fse_traffic_ptrn_be);
DP_PRINT_STATS("fse_traffic_ptrn_over_sub = %u",
dp_stats_buf->fse_traffic_ptrn_over_sub);
DP_PRINT_STATS("fse_traffic_ptrn_bursty = %u",
dp_stats_buf->fse_traffic_ptrn_bursty);
DP_PRINT_STATS("fse_traffic_ptrn_interactive = %u",
dp_stats_buf->fse_traffic_ptrn_interactive);
DP_PRINT_STATS("fse_traffic_ptrn_periodic = %u",
dp_stats_buf->fse_traffic_ptrn_periodic);
DP_PRINT_STATS("fse_hwqueue_alloc = %u",
dp_stats_buf->fse_hwqueue_alloc);
DP_PRINT_STATS("fse_hwqueue_created = %u",
dp_stats_buf->fse_hwqueue_created);
DP_PRINT_STATS("fse_hwqueue_send_to_host = %u",
dp_stats_buf->fse_hwqueue_send_to_host);
DP_PRINT_STATS("mcast_entry = %u",
dp_stats_buf->mcast_entry);
DP_PRINT_STATS("bcast_entry = %u\n",
dp_stats_buf->bcast_entry);
}
/*
* dp_print_tx_de_classify_status_stats_tlv: display
* htt_tx_de_classify_status_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_classify_status_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_classify_status_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_classify_status_stats_tlv *dp_stats_buf =
(htt_tx_de_classify_status_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_CLASSIFY_STATUS_STATS_TLV:");
DP_PRINT_STATS("eok = %u",
dp_stats_buf->eok);
DP_PRINT_STATS("classify_done = %u",
dp_stats_buf->classify_done);
DP_PRINT_STATS("lookup_failed = %u",
dp_stats_buf->lookup_failed);
DP_PRINT_STATS("send_host_dhcp = %u",
dp_stats_buf->send_host_dhcp);
DP_PRINT_STATS("send_host_mcast = %u",
dp_stats_buf->send_host_mcast);
DP_PRINT_STATS("send_host_unknown_dest = %u",
dp_stats_buf->send_host_unknown_dest);
DP_PRINT_STATS("send_host = %u",
dp_stats_buf->send_host);
DP_PRINT_STATS("status_invalid = %u\n",
dp_stats_buf->status_invalid);
}
/*
* dp_print_tx_de_enqueue_packets_stats_tlv: display
* htt_tx_de_enqueue_packets_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_enqueue_packets_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_enqueue_packets_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_enqueue_packets_stats_tlv *dp_stats_buf =
(htt_tx_de_enqueue_packets_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_ENQUEUE_PACKETS_STATS_TLV:");
DP_PRINT_STATS("enqueued_pkts = %u",
dp_stats_buf->enqueued_pkts);
DP_PRINT_STATS("to_tqm = %u",
dp_stats_buf->to_tqm);
DP_PRINT_STATS("to_tqm_bypass = %u\n",
dp_stats_buf->to_tqm_bypass);
}
/*
* dp_print_tx_de_enqueue_discard_stats_tlv: display
* htt_tx_de_enqueue_discard_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_enqueue_discard_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_enqueue_discard_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_enqueue_discard_stats_tlv *dp_stats_buf =
(htt_tx_de_enqueue_discard_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_ENQUEUE_DISCARD_STATS_TLV:");
DP_PRINT_STATS("discarded_pkts = %u",
dp_stats_buf->discarded_pkts);
DP_PRINT_STATS("local_frames = %u",
dp_stats_buf->local_frames);
DP_PRINT_STATS("is_ext_msdu = %u\n",
dp_stats_buf->is_ext_msdu);
}
/*
* dp_print_tx_de_compl_stats_tlv: display htt_tx_de_compl_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_compl_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_compl_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_compl_stats_tlv *dp_stats_buf =
(htt_tx_de_compl_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_COMPL_STATS_TLV:");
DP_PRINT_STATS("tcl_dummy_frame = %u",
dp_stats_buf->tcl_dummy_frame);
DP_PRINT_STATS("tqm_dummy_frame = %u",
dp_stats_buf->tqm_dummy_frame);
DP_PRINT_STATS("tqm_notify_frame = %u",
dp_stats_buf->tqm_notify_frame);
DP_PRINT_STATS("fw2wbm_enq = %u",
dp_stats_buf->fw2wbm_enq);
DP_PRINT_STATS("tqm_bypass_frame = %u\n",
dp_stats_buf->tqm_bypass_frame);
}
/*
* dp_print_tx_de_cmn_stats_tlv: display htt_tx_de_cmn_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_de_cmn_stats_tlv
*
* return:void
*/
static inline void dp_print_tx_de_cmn_stats_tlv(uint32_t *tag_buf)
{
htt_tx_de_cmn_stats_tlv *dp_stats_buf =
(htt_tx_de_cmn_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_TX_DE_CMN_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("tcl2fw_entry_count = %u",
dp_stats_buf->tcl2fw_entry_count);
DP_PRINT_STATS("not_to_fw = %u",
dp_stats_buf->not_to_fw);
DP_PRINT_STATS("invalid_pdev_vdev_peer = %u",
dp_stats_buf->invalid_pdev_vdev_peer);
DP_PRINT_STATS("tcl_res_invalid_addrx = %u",
dp_stats_buf->tcl_res_invalid_addrx);
DP_PRINT_STATS("wbm2fw_entry_count = %u",
dp_stats_buf->wbm2fw_entry_count);
DP_PRINT_STATS("invalid_pdev = %u\n",
dp_stats_buf->invalid_pdev);
}
/*
* dp_print_ring_if_stats_tlv: display htt_ring_if_stats_tlv
* @tag_buf: buffer containing the tlv htt_ring_if_stats_tlv
*
* return:void
*/
static inline void dp_print_ring_if_stats_tlv(uint32_t *tag_buf)
{
htt_ring_if_stats_tlv *dp_stats_buf =
(htt_ring_if_stats_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *wm_hit_count = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!wm_hit_count) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_RING_IF_STATS_TLV:");
DP_PRINT_STATS("base_addr = %u",
dp_stats_buf->base_addr);
DP_PRINT_STATS("elem_size = %u",
dp_stats_buf->elem_size);
DP_PRINT_STATS("num_elems__prefetch_tail_idx = %u",
dp_stats_buf->num_elems__prefetch_tail_idx);
DP_PRINT_STATS("head_idx__tail_idx = %u",
dp_stats_buf->head_idx__tail_idx);
DP_PRINT_STATS("shadow_head_idx__shadow_tail_idx = %u",
dp_stats_buf->shadow_head_idx__shadow_tail_idx);
DP_PRINT_STATS("num_tail_incr = %u",
dp_stats_buf->num_tail_incr);
DP_PRINT_STATS("lwm_thresh__hwm_thresh = %u",
dp_stats_buf->lwm_thresh__hwm_thresh);
DP_PRINT_STATS("overrun_hit_count = %u",
dp_stats_buf->overrun_hit_count);
DP_PRINT_STATS("underrun_hit_count = %u",
dp_stats_buf->underrun_hit_count);
DP_PRINT_STATS("prod_blockwait_count = %u",
dp_stats_buf->prod_blockwait_count);
DP_PRINT_STATS("cons_blockwait_count = %u",
dp_stats_buf->cons_blockwait_count);
for (i = 0; i < DP_HTT_LOW_WM_HIT_COUNT_LEN; i++) {
index += qdf_snprint(&wm_hit_count[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->low_wm_hit_count[i]);
}
DP_PRINT_STATS("low_wm_hit_count = %s ", wm_hit_count);
qdf_mem_zero(wm_hit_count, DP_MAX_STRING_LEN);
index = 0;
for (i = 0; i < DP_HTT_HIGH_WM_HIT_COUNT_LEN; i++) {
index += qdf_snprint(&wm_hit_count[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->high_wm_hit_count[i]);
}
DP_PRINT_STATS("high_wm_hit_count = %s\n", wm_hit_count);
}
/*
* dp_print_ring_if_cmn_tlv: display htt_ring_if_cmn_tlv
* @tag_buf: buffer containing the tlv htt_ring_if_cmn_tlv
*
* return:void
*/
static inline void dp_print_ring_if_cmn_tlv(uint32_t *tag_buf)
{
htt_ring_if_cmn_tlv *dp_stats_buf =
(htt_ring_if_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_RING_IF_CMN_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("num_records = %u\n",
dp_stats_buf->num_records);
}
/*
* dp_print_sfm_client_user_tlv_v: display htt_sfm_client_user_tlv_v
* @tag_buf: buffer containing the tlv htt_sfm_client_user_tlv_v
*
* return:void
*/
static inline void dp_print_sfm_client_user_tlv_v(uint32_t *tag_buf)
{
htt_sfm_client_user_tlv_v *dp_stats_buf =
(htt_sfm_client_user_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *dwords_used_by_user_n = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!dwords_used_by_user_n) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_SFM_CLIENT_USER_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&dwords_used_by_user_n[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->dwords_used_by_user_n[i]);
}
DP_PRINT_STATS("dwords_used_by_user_n = %s\n",
dwords_used_by_user_n);
qdf_mem_free(dwords_used_by_user_n);
}
/*
* dp_print_sfm_client_tlv: display htt_sfm_client_tlv
* @tag_buf: buffer containing the tlv htt_sfm_client_tlv
*
* return:void
*/
static inline void dp_print_sfm_client_tlv(uint32_t *tag_buf)
{
htt_sfm_client_tlv *dp_stats_buf =
(htt_sfm_client_tlv *)tag_buf;
DP_PRINT_STATS("HTT_SFM_CLIENT_TLV:");
DP_PRINT_STATS("client_id = %u",
dp_stats_buf->client_id);
DP_PRINT_STATS("buf_min = %u",
dp_stats_buf->buf_min);
DP_PRINT_STATS("buf_max = %u",
dp_stats_buf->buf_max);
DP_PRINT_STATS("buf_busy = %u",
dp_stats_buf->buf_busy);
DP_PRINT_STATS("buf_alloc = %u",
dp_stats_buf->buf_alloc);
DP_PRINT_STATS("buf_avail = %u",
dp_stats_buf->buf_avail);
DP_PRINT_STATS("num_users = %u\n",
dp_stats_buf->num_users);
}
/*
* dp_print_sfm_cmn_tlv: display htt_sfm_cmn_tlv
* @tag_buf: buffer containing the tlv htt_sfm_cmn_tlv
*
* return:void
*/
static inline void dp_print_sfm_cmn_tlv(uint32_t *tag_buf)
{
htt_sfm_cmn_tlv *dp_stats_buf =
(htt_sfm_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_SFM_CMN_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("buf_total = %u",
dp_stats_buf->buf_total);
DP_PRINT_STATS("mem_empty = %u",
dp_stats_buf->mem_empty);
DP_PRINT_STATS("deallocate_bufs = %u",
dp_stats_buf->deallocate_bufs);
DP_PRINT_STATS("num_records = %u\n",
dp_stats_buf->num_records);
}
/*
* dp_print_sring_stats_tlv: display htt_sring_stats_tlv
* @tag_buf: buffer containing the tlv htt_sring_stats_tlv
*
* return:void
*/
static inline void dp_print_sring_stats_tlv(uint32_t *tag_buf)
{
htt_sring_stats_tlv *dp_stats_buf =
(htt_sring_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_SRING_STATS_TLV:");
DP_PRINT_STATS("mac_id__ring_id__arena__ep = %u",
dp_stats_buf->mac_id__ring_id__arena__ep);
DP_PRINT_STATS("base_addr_lsb = %u",
dp_stats_buf->base_addr_lsb);
DP_PRINT_STATS("base_addr_msb = %u",
dp_stats_buf->base_addr_msb);
DP_PRINT_STATS("ring_size = %u",
dp_stats_buf->ring_size);
DP_PRINT_STATS("elem_size = %u",
dp_stats_buf->elem_size);
DP_PRINT_STATS("num_avail_words__num_valid_words = %u",
dp_stats_buf->num_avail_words__num_valid_words);
DP_PRINT_STATS("head_ptr__tail_ptr = %u",
dp_stats_buf->head_ptr__tail_ptr);
DP_PRINT_STATS("consumer_empty__producer_full = %u",
dp_stats_buf->consumer_empty__producer_full);
DP_PRINT_STATS("prefetch_count__internal_tail_ptr = %u\n",
dp_stats_buf->prefetch_count__internal_tail_ptr);
}
/*
* dp_print_sring_cmn_tlv: display htt_sring_cmn_tlv
* @tag_buf: buffer containing the tlv htt_sring_cmn_tlv
*
* return:void
*/
static inline void dp_print_sring_cmn_tlv(uint32_t *tag_buf)
{
htt_sring_cmn_tlv *dp_stats_buf =
(htt_sring_cmn_tlv *)tag_buf;
DP_PRINT_STATS("HTT_SRING_CMN_TLV:");
DP_PRINT_STATS("num_records = %u\n",
dp_stats_buf->num_records);
}
/*
* dp_print_tx_pdev_rate_stats_tlv: display htt_tx_pdev_rate_stats_tlv
* @tag_buf: buffer containing the tlv htt_tx_pdev_rate_stats_tlv
*
* return:void
*/
static void dp_print_tx_pdev_rate_stats_tlv(uint32_t *tag_buf)
{
htt_tx_pdev_rate_stats_tlv *dp_stats_buf =
(htt_tx_pdev_rate_stats_tlv *)tag_buf;
uint8_t i, j;
uint16_t index = 0;
char *tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *tx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *ac_mu_mimo_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *ax_mu_mimo_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *ofdma_tx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *str_buf = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!str_buf) {
dp_err("Output buffer not allocated");
return;
}
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
tx_gi[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
tx_gi_ext[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!tx_gi[i] || !tx_gi_ext[i]) {
dp_err("Unable to allocate buffer for tx_gi");
goto fail1;
}
ac_mu_mimo_tx_gi[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!ac_mu_mimo_tx_gi[i]) {
dp_err("Unable to allocate buffer for ac_mu_mimo_tx_gi");
goto fail1;
}
ax_mu_mimo_tx_gi[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!ax_mu_mimo_tx_gi[i]) {
dp_err("Unable to allocate buffer for ax_mu_mimo_tx_gi");
goto fail1;
}
ofdma_tx_gi[i] = (char *)qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!ofdma_tx_gi[i]) {
dp_err("Unable to allocate buffer for ofdma_tx_gi");
goto fail1;
}
}
DP_PRINT_STATS("HTT_TX_PDEV_RATE_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("tx_ldpc = %u",
dp_stats_buf->tx_ldpc);
DP_PRINT_STATS("rts_cnt = %u",
dp_stats_buf->rts_cnt);
DP_PRINT_STATS("rts_success = %u",
dp_stats_buf->rts_success);
DP_PRINT_STATS("ack_rssi = %u",
dp_stats_buf->ack_rssi);
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_mcs[i]);
}
for (i = 0; i < DP_HTT_TX_MCS_EXT_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + DP_HTT_TX_MCS_LEN,
dp_stats_buf->tx_mcs_ext[i]);
}
DP_PRINT_STATS("tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_SU_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_su_mcs[i]);
}
DP_PRINT_STATS("tx_su_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_MU_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_mu_mcs[i]);
}
DP_PRINT_STATS("tx_mu_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_NSS_LEN; i++) {
/* 0 stands for NSS 1, 1 stands for NSS 2, etc. */
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", (i + 1),
dp_stats_buf->tx_nss[i]);
}
DP_PRINT_STATS("tx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_BW_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_bw[i]);
}
DP_PRINT_STATS("tx_bw = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_stbc[i]);
}
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i + HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS,
dp_stats_buf->tx_stbc_ext[i]);
}
DP_PRINT_STATS("tx_stbc = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_PREAM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_pream[i]);
}
DP_PRINT_STATS("tx_pream = %s ", str_buf);
for (j = 0; j < DP_HTT_PDEV_TX_GI_LEN; j++) {
index = 0;
qdf_mem_zero(tx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&tx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->tx_gi[j][i]);
}
DP_PRINT_STATS("tx_gi[%u] = %s ", j, tx_gi[j]);
}
for (j = 0; j < DP_HTT_PDEV_TX_GI_LEN; j++) {
index = 0;
qdf_mem_zero(tx_gi_ext[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_EXTRA_MCS_COUNTERS; i++) {
index += qdf_snprint(&tx_gi_ext[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->tx_gi_ext[j][i]);
}
DP_PRINT_STATS("tx_gi_ext[%u] = %s ", j, tx_gi_ext[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_TX_DCM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->tx_dcm[i]);
}
DP_PRINT_STATS("tx_dcm = %s\n", str_buf);
DP_PRINT_STATS("rts_success = %u",
dp_stats_buf->rts_success);
DP_PRINT_STATS("ac_mu_mimo_tx_ldpc = %u",
dp_stats_buf->ac_mu_mimo_tx_ldpc);
DP_PRINT_STATS("ax_mu_mimo_tx_ldpc = %u",
dp_stats_buf->ax_mu_mimo_tx_ldpc);
DP_PRINT_STATS("ofdma_tx_ldpc = %u",
dp_stats_buf->ofdma_tx_ldpc);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_LEGACY_CCK_STATS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->tx_legacy_cck_rate[i]);
}
DP_PRINT_STATS("tx_legacy_cck_rate = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_LEGACY_OFDM_STATS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->tx_legacy_ofdm_rate[i]);
}
DP_PRINT_STATS("tx_legacy_ofdm_rate = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_LTF; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->tx_he_ltf[i]);
}
DP_PRINT_STATS("tx_he_ltf = %s ", str_buf);
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ofdma_tx_mcs[i]);
}
DP_PRINT_STATS("ofdma_tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ac_mu_mimo_tx_mcs[i]);
}
DP_PRINT_STATS("ac_mu_mimo_tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ax_mu_mimo_tx_mcs[i]);
}
DP_PRINT_STATS("ax_mu_mimo_tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ofdma_tx_mcs[i]);
}
DP_PRINT_STATS("ofdma_tx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ac_mu_mimo_tx_nss[i]);
}
DP_PRINT_STATS("ac_mu_mimo_tx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ax_mu_mimo_tx_nss[i]);
}
DP_PRINT_STATS("ax_mu_mimo_tx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ofdma_tx_nss[i]);
}
DP_PRINT_STATS("ofdma_tx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ac_mu_mimo_tx_bw[i]);
}
DP_PRINT_STATS("ac_mu_mimo_tx_bw = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ax_mu_mimo_tx_bw[i]);
}
DP_PRINT_STATS("ax_mu_mimo_tx_bw = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ofdma_tx_bw[i]);
}
DP_PRINT_STATS("ofdma_tx_bw = %s ", str_buf);
for (j = 0; j < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
qdf_mem_zero(ac_mu_mimo_tx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&ac_mu_mimo_tx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->
ac_mu_mimo_tx_gi[j][i]);
}
DP_PRINT_STATS("ac_mu_mimo_tx_gi[%u] = %s ",
j, ac_mu_mimo_tx_gi[j]);
}
for (j = 0; j < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
qdf_mem_zero(ax_mu_mimo_tx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&ax_mu_mimo_tx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->ax_mu_mimo_tx_gi[j][i]);
}
DP_PRINT_STATS("ax_mu_mimo_tx_gi[%u] = %s ",
j, ax_mu_mimo_tx_gi[j]);
}
for (j = 0; j < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
qdf_mem_zero(ofdma_tx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&ofdma_tx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->ofdma_tx_gi[j][i]);
}
DP_PRINT_STATS("ofdma_tx_gi[%u] = %s ",
j, ofdma_tx_gi[j]);
}
fail1:
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
if (tx_gi[i])
qdf_mem_free(tx_gi[i]);
if (tx_gi_ext[i])
qdf_mem_free(tx_gi_ext[i]);
if (ac_mu_mimo_tx_gi[i])
qdf_mem_free(ac_mu_mimo_tx_gi[i]);
if (ax_mu_mimo_tx_gi[i])
qdf_mem_free(ax_mu_mimo_tx_gi[i]);
if (ofdma_tx_gi[i])
qdf_mem_free(ofdma_tx_gi[i]);
}
qdf_mem_free(str_buf);
}
/*
* dp_print_rx_pdev_rate_ext_stats_tlv: display htt_rx_pdev_rate_ext_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_pdev_rate_ext_stats_tlv
*
* return:void
*/
static void dp_print_rx_pdev_rate_ext_stats_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf)
{
htt_rx_pdev_rate_ext_stats_tlv *dp_stats_buf =
(htt_rx_pdev_rate_ext_stats_tlv *)tag_buf;
uint8_t i, j;
uint16_t index = 0;
char *rx_gi_ext[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *ul_ofdma_rx_gi_ext[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS] = {0};
char *str_buf = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!str_buf) {
dp_err("Output buffer not allocated");
return;
}
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
rx_gi_ext[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!rx_gi_ext[i]) {
dp_err("Unable to allocate buffer for rx_gi_ext");
goto fail1;
}
ul_ofdma_rx_gi_ext[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!ul_ofdma_rx_gi_ext[i]) {
dp_err("Unable to allocate buffer for ul_ofdma_rx_gi_ext");
goto fail1;
}
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_mcs_ext[i]);
}
DP_PRINT_STATS("rx_mcs_ext = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_stbc_ext[i]);
}
DP_PRINT_STATS("rx_stbc_ext = %s ", str_buf);
for (j = 0; j < DP_HTT_RX_GI_LEN; j++) {
index = 0;
qdf_mem_zero(rx_gi_ext[j], DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&rx_gi_ext[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_gi_ext[j][i]);
}
DP_PRINT_STATS("rx_gi_ext[%u] = %s ", j, rx_gi_ext[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ul_ofdma_rx_mcs_ext[i]);
}
DP_PRINT_STATS("ul_ofdma_rx_mcs_ext = %s", str_buf);
for (j = 0; j < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
qdf_mem_zero(ul_ofdma_rx_gi_ext[j], DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&ul_ofdma_rx_gi_ext[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->
ul_ofdma_rx_gi_ext[j][i]);
}
DP_PRINT_STATS("ul_ofdma_rx_gi_ext[%u] = %s ",
j, ul_ofdma_rx_gi_ext[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_11ax_su_txbf_mcs_ext[i]);
}
DP_PRINT_STATS("rx_11ax_su_txbf_mcs_ext = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_11ax_mu_txbf_mcs_ext[i]);
}
DP_PRINT_STATS("rx_11ax_mu_txbf_mcs_ext = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PDEV_MCS_LEN_EXT; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_11ax_dl_ofdma_mcs_ext[i]);
}
DP_PRINT_STATS("rx_11ax_dl_ofdma_mcs_ext = %s ", str_buf);
fail1:
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
if (ul_ofdma_rx_gi_ext[i])
qdf_mem_free(ul_ofdma_rx_gi_ext[i]);
if (rx_gi_ext[i])
qdf_mem_free(rx_gi_ext[i]);
}
qdf_mem_free(str_buf);
}
/*
* dp_print_rx_pdev_rate_stats_tlv: display htt_rx_pdev_rate_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_pdev_rate_stats_tlv
*
* return:void
*/
static void dp_print_rx_pdev_rate_stats_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf)
{
htt_rx_pdev_rate_stats_tlv *dp_stats_buf =
(htt_rx_pdev_rate_stats_tlv *)tag_buf;
uint8_t i, j;
uint16_t index = 0;
char *rssi_chain[DP_HTT_RSSI_CHAIN_LEN];
char *rx_gi[HTT_RX_PDEV_STATS_NUM_GI_COUNTERS];
char *str_buf = qdf_mem_malloc(DP_MAX_STRING_LEN);
char *ul_ofdma_rx_gi[HTT_TX_PDEV_STATS_NUM_GI_COUNTERS];
if (!str_buf) {
dp_err("Output buffer not allocated");
return;
}
for (i = 0; i < DP_HTT_RSSI_CHAIN_LEN; i++) {
rssi_chain[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!rssi_chain[i]) {
dp_err("Unable to allocate buffer for rssi_chain");
goto fail1;
}
}
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
rx_gi[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!rx_gi[i]) {
dp_err("Unable to allocate buffer for rx_gi");
goto fail2;
}
}
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; i++) {
ul_ofdma_rx_gi[i] = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!ul_ofdma_rx_gi[i]) {
dp_err("Unable to allocate buffer for ul_ofdma_rx_gi");
goto fail3;
}
}
DP_PRINT_STATS("ul_ofdma_data_rx_ppdu = %d",
pdev->stats.ul_ofdma.data_rx_ppdu);
for (i = 0; i < OFDMA_NUM_USERS; i++) {
DP_PRINT_STATS("ul_ofdma data %d user = %d",
i, pdev->stats.ul_ofdma.data_users[i]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < OFDMA_NUM_RU_SIZE; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
pdev->stats.ul_ofdma.data_rx_ru_size[i]);
}
DP_PRINT_STATS("ul_ofdma_data_rx_ru_size= %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < OFDMA_NUM_RU_SIZE; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
pdev->stats.ul_ofdma.nondata_rx_ru_size[i]);
}
DP_PRINT_STATS("ul_ofdma_nondata_rx_ru_size= %s", str_buf);
DP_PRINT_STATS("HTT_RX_PDEV_RATE_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("nsts = %u",
dp_stats_buf->nsts);
DP_PRINT_STATS("rx_ldpc = %u",
dp_stats_buf->rx_ldpc);
DP_PRINT_STATS("rts_cnt = %u",
dp_stats_buf->rts_cnt);
DP_PRINT_STATS("rssi_mgmt = %u",
dp_stats_buf->rssi_mgmt);
DP_PRINT_STATS("rssi_data = %u",
dp_stats_buf->rssi_data);
DP_PRINT_STATS("rssi_comb = %u",
dp_stats_buf->rssi_comb);
DP_PRINT_STATS("rssi_in_dbm = %d",
dp_stats_buf->rssi_in_dbm);
DP_PRINT_STATS("rx_11ax_su_ext = %u",
dp_stats_buf->rx_11ax_su_ext);
DP_PRINT_STATS("rx_11ac_mumimo = %u",
dp_stats_buf->rx_11ac_mumimo);
DP_PRINT_STATS("rx_11ax_mumimo = %u",
dp_stats_buf->rx_11ax_mumimo);
DP_PRINT_STATS("rx_11ax_ofdma = %u",
dp_stats_buf->rx_11ax_ofdma);
DP_PRINT_STATS("txbf = %u",
dp_stats_buf->txbf);
DP_PRINT_STATS("rx_su_ndpa = %u",
dp_stats_buf->rx_su_ndpa);
DP_PRINT_STATS("rx_br_poll = %u",
dp_stats_buf->rx_br_poll);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_MCS_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_mcs[i]);
}
DP_PRINT_STATS("rx_mcs = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_NSS_LEN; i++) {
/* 0 stands for NSS 1, 1 stands for NSS 2, etc. */
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", (i + 1),
dp_stats_buf->rx_nss[i]);
}
DP_PRINT_STATS("rx_nss = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_DCM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_dcm[i]);
}
DP_PRINT_STATS("rx_dcm = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_stbc[i]);
}
DP_PRINT_STATS("rx_stbc = %s ", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_BW_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->rx_bw[i]);
}
DP_PRINT_STATS("rx_bw = %s ", str_buf);
for (j = 0; j < DP_HTT_RSSI_CHAIN_LEN; j++) {
index = 0;
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&rssi_chain[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rssi_chain[j][i]);
}
DP_PRINT_STATS("rssi_chain[%u] = %s ", j, rssi_chain[j]);
}
for (j = 0; j < DP_HTT_RX_GI_LEN; j++) {
index = 0;
qdf_mem_zero(rx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&rx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_gi[j][i]);
}
DP_PRINT_STATS("rx_gi[%u] = %s ", j, rx_gi[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < DP_HTT_RX_PREAM_LEN; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i,
dp_stats_buf->rx_pream[i]);
}
DP_PRINT_STATS("rx_pream = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_LEGACY_CCK_STATS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i,
dp_stats_buf->rx_legacy_cck_rate[i]);
}
DP_PRINT_STATS("rx_legacy_cck_rate = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_LEGACY_OFDM_STATS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i,
dp_stats_buf->rx_legacy_ofdm_rate[i]);
}
DP_PRINT_STATS("rx_legacy_ofdm_rate = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->ul_ofdma_rx_mcs[i]);
}
DP_PRINT_STATS("ul_ofdma_rx_mcs = %s", str_buf);
DP_PRINT_STATS("rx_11ax_ul_ofdma = %u",
dp_stats_buf->rx_11ax_ul_ofdma);
for (j = 0; j < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; j++) {
index = 0;
qdf_mem_zero(ul_ofdma_rx_gi[j], DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&ul_ofdma_rx_gi[j][index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->
ul_ofdma_rx_gi[j][i]);
}
DP_PRINT_STATS("ul_ofdma_rx_gi[%u] = %s ",
j, ul_ofdma_rx_gi[j]);
}
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_SPATIAL_STREAMS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->ul_ofdma_rx_nss[i]);
}
DP_PRINT_STATS("ul_ofdma_rx_nss = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_BW_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->ul_ofdma_rx_bw[i]);
}
DP_PRINT_STATS("ul_ofdma_rx_bw = %s", str_buf);
DP_PRINT_STATS("ul_ofdma_rx_stbc = %u",
dp_stats_buf->ul_ofdma_rx_stbc);
DP_PRINT_STATS("ul_ofdma_rx_ldpc = %u",
dp_stats_buf->ul_ofdma_rx_ldpc);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_MAX_OFDMA_NUM_USER; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rx_ulofdma_non_data_ppdu[i]);
}
DP_PRINT_STATS("rx_ulofdma_non_data_ppdu = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_MAX_OFDMA_NUM_USER; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->rx_ulofdma_data_ppdu[i]);
}
DP_PRINT_STATS("rx_ulofdma_data_ppdu = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_MAX_OFDMA_NUM_USER; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->rx_ulofdma_mpdu_ok[i]);
}
DP_PRINT_STATS("rx_ulofdma_mpdu_ok = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_MAX_OFDMA_NUM_USER; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->rx_ulofdma_mpdu_fail[i]);
}
DP_PRINT_STATS("rx_ulofdma_mpdu_fail = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->rx_11ax_su_txbf_mcs[i]);
}
DP_PRINT_STATS("rx_11ax_su_txbf_mcs = %s", str_buf);
index = 0;
qdf_mem_zero(str_buf, DP_MAX_STRING_LEN);
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_MCS_COUNTERS; i++) {
index += qdf_snprint(&str_buf[index],
DP_MAX_STRING_LEN - index,
" %u:%u,",
i, dp_stats_buf->rx_11ax_mu_txbf_mcs[i]);
}
DP_PRINT_STATS("rx_11ax_mu_txbf_mcs = %s", str_buf);
for (i = 0; i < HTT_TX_PDEV_STATS_NUM_GI_COUNTERS; i++)
qdf_mem_free(ul_ofdma_rx_gi[i]);
fail3:
for (i = 0; i < HTT_RX_PDEV_STATS_NUM_GI_COUNTERS; i++)
qdf_mem_free(rx_gi[i]);
fail2:
for (i = 0; i < DP_HTT_RSSI_CHAIN_LEN; i++)
qdf_mem_free(rssi_chain[i]);
fail1:
qdf_mem_free(str_buf);
}
/*
* dp_print_rx_soc_fw_stats_tlv: display htt_rx_soc_fw_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_soc_fw_stats_tlv
*
* return:void
*/
static inline void dp_print_rx_soc_fw_stats_tlv(uint32_t *tag_buf)
{
htt_rx_soc_fw_stats_tlv *dp_stats_buf =
(htt_rx_soc_fw_stats_tlv *)tag_buf;
DP_PRINT_STATS("HTT_RX_SOC_FW_STATS_TLV:");
DP_PRINT_STATS("fw_reo_ring_data_msdu = %u",
dp_stats_buf->fw_reo_ring_data_msdu);
DP_PRINT_STATS("fw_to_host_data_msdu_bcmc = %u",
dp_stats_buf->fw_to_host_data_msdu_bcmc);
DP_PRINT_STATS("fw_to_host_data_msdu_uc = %u",
dp_stats_buf->fw_to_host_data_msdu_uc);
DP_PRINT_STATS("ofld_remote_data_buf_recycle_cnt = %u",
dp_stats_buf->ofld_remote_data_buf_recycle_cnt);
DP_PRINT_STATS("ofld_remote_free_buf_indication_cnt = %u",
dp_stats_buf->ofld_remote_free_buf_indication_cnt);
DP_PRINT_STATS("ofld_buf_to_host_data_msdu_uc = %u ",
dp_stats_buf->ofld_buf_to_host_data_msdu_uc);
DP_PRINT_STATS("reo_fw_ring_to_host_data_msdu_uc = %u ",
dp_stats_buf->reo_fw_ring_to_host_data_msdu_uc);
DP_PRINT_STATS("wbm_sw_ring_reap = %u ",
dp_stats_buf->wbm_sw_ring_reap);
DP_PRINT_STATS("wbm_forward_to_host_cnt = %u ",
dp_stats_buf->wbm_forward_to_host_cnt);
DP_PRINT_STATS("wbm_target_recycle_cnt = %u ",
dp_stats_buf->wbm_target_recycle_cnt);
DP_PRINT_STATS("target_refill_ring_recycle_cnt = %u",
dp_stats_buf->target_refill_ring_recycle_cnt);
}
/*
* dp_print_rx_soc_fw_refill_ring_empty_tlv_v: display
* htt_rx_soc_fw_refill_ring_empty_tlv_v
* @tag_buf: buffer containing the tlv htt_rx_soc_fw_refill_ring_empty_tlv_v
*
* return:void
*/
static inline void dp_print_rx_soc_fw_refill_ring_empty_tlv_v(uint32_t *tag_buf)
{
htt_rx_soc_fw_refill_ring_empty_tlv_v *dp_stats_buf =
(htt_rx_soc_fw_refill_ring_empty_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *refill_ring_empty_cnt = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!refill_ring_empty_cnt) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_RX_STATS_REFILL_MAX_RING);
DP_PRINT_STATS("HTT_RX_SOC_FW_REFILL_RING_EMPTY_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&refill_ring_empty_cnt[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->refill_ring_empty_cnt[i]);
}
DP_PRINT_STATS("refill_ring_empty_cnt = %s\n",
refill_ring_empty_cnt);
qdf_mem_free(refill_ring_empty_cnt);
}
/*
* dp_print_rx_soc_fw_refill_ring_num_refill_tlv_v: display
* htt_rx_soc_fw_refill_ring_num_refill_tlv_v
* @tag_buf: buffer containing the tlv htt_rx_soc_fw_refill_ring_num_refill_tlv
*
* return:void
*/
static inline void dp_print_rx_soc_fw_refill_ring_num_refill_tlv_v(
uint32_t *tag_buf)
{
htt_rx_soc_fw_refill_ring_num_refill_tlv_v *dp_stats_buf =
(htt_rx_soc_fw_refill_ring_num_refill_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *refill_ring_num_refill = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!refill_ring_num_refill) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_TX_PDEV_MAX_URRN_STATS);
DP_PRINT_STATS("HTT_RX_SOC_FW_REFILL_RING_NUM_REFILL_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&refill_ring_num_refill[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->refill_ring_num_refill[i]);
}
DP_PRINT_STATS("refill_ring_num_refill = %s\n",
refill_ring_num_refill);
qdf_mem_free(refill_ring_num_refill);
}
/*
* dp_print_rx_pdev_fw_stats_tlv: display htt_rx_pdev_fw_stats_tlv
* @tag_buf: buffer containing the tlv htt_rx_pdev_fw_stats_tlv
*
* return:void
*/
static inline void dp_print_rx_pdev_fw_stats_tlv(uint32_t *tag_buf)
{
htt_rx_pdev_fw_stats_tlv *dp_stats_buf =
(htt_rx_pdev_fw_stats_tlv *)tag_buf;
uint8_t i;
uint16_t index = 0;
char fw_ring_mgmt_subtype[DP_MAX_STRING_LEN];
char fw_ring_ctrl_subtype[DP_MAX_STRING_LEN];
DP_PRINT_STATS("HTT_RX_PDEV_FW_STATS_TLV:");
DP_PRINT_STATS("mac_id__word = %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("ppdu_recvd = %u",
dp_stats_buf->ppdu_recvd);
DP_PRINT_STATS("mpdu_cnt_fcs_ok = %u",
dp_stats_buf->mpdu_cnt_fcs_ok);
DP_PRINT_STATS("mpdu_cnt_fcs_err = %u",
dp_stats_buf->mpdu_cnt_fcs_err);
DP_PRINT_STATS("tcp_msdu_cnt = %u",
dp_stats_buf->tcp_msdu_cnt);
DP_PRINT_STATS("tcp_ack_msdu_cnt = %u",
dp_stats_buf->tcp_ack_msdu_cnt);
DP_PRINT_STATS("udp_msdu_cnt = %u",
dp_stats_buf->udp_msdu_cnt);
DP_PRINT_STATS("other_msdu_cnt = %u",
dp_stats_buf->other_msdu_cnt);
DP_PRINT_STATS("fw_ring_mpdu_ind = %u",
dp_stats_buf->fw_ring_mpdu_ind);
for (i = 0; i < DP_HTT_FW_RING_MGMT_SUBTYPE_LEN; i++) {
index += qdf_snprint(&fw_ring_mgmt_subtype[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->fw_ring_mgmt_subtype[i]);
}
DP_PRINT_STATS("fw_ring_mgmt_subtype = %s ", fw_ring_mgmt_subtype);
index = 0;
for (i = 0; i < DP_HTT_FW_RING_CTRL_SUBTYPE_LEN; i++) {
index += qdf_snprint(&fw_ring_ctrl_subtype[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->fw_ring_ctrl_subtype[i]);
}
DP_PRINT_STATS("fw_ring_ctrl_subtype = %s ", fw_ring_ctrl_subtype);
DP_PRINT_STATS("fw_ring_mcast_data_msdu = %u",
dp_stats_buf->fw_ring_mcast_data_msdu);
DP_PRINT_STATS("fw_ring_bcast_data_msdu = %u",
dp_stats_buf->fw_ring_bcast_data_msdu);
DP_PRINT_STATS("fw_ring_ucast_data_msdu = %u",
dp_stats_buf->fw_ring_ucast_data_msdu);
DP_PRINT_STATS("fw_ring_null_data_msdu = %u",
dp_stats_buf->fw_ring_null_data_msdu);
DP_PRINT_STATS("fw_ring_mpdu_drop = %u",
dp_stats_buf->fw_ring_mpdu_drop);
DP_PRINT_STATS("ofld_local_data_ind_cnt = %u",
dp_stats_buf->ofld_local_data_ind_cnt);
DP_PRINT_STATS("ofld_local_data_buf_recycle_cnt = %u",
dp_stats_buf->ofld_local_data_buf_recycle_cnt);
DP_PRINT_STATS("drx_local_data_ind_cnt = %u",
dp_stats_buf->drx_local_data_ind_cnt);
DP_PRINT_STATS("drx_local_data_buf_recycle_cnt = %u",
dp_stats_buf->drx_local_data_buf_recycle_cnt);
DP_PRINT_STATS("local_nondata_ind_cnt = %u",
dp_stats_buf->local_nondata_ind_cnt);
DP_PRINT_STATS("local_nondata_buf_recycle_cnt = %u",
dp_stats_buf->local_nondata_buf_recycle_cnt);
DP_PRINT_STATS("fw_status_buf_ring_refill_cnt = %u",
dp_stats_buf->fw_status_buf_ring_refill_cnt);
DP_PRINT_STATS("fw_status_buf_ring_empty_cnt = %u",
dp_stats_buf->fw_status_buf_ring_empty_cnt);
DP_PRINT_STATS("fw_pkt_buf_ring_refill_cnt = %u",
dp_stats_buf->fw_pkt_buf_ring_refill_cnt);
DP_PRINT_STATS("fw_pkt_buf_ring_empty_cnt = %u",
dp_stats_buf->fw_pkt_buf_ring_empty_cnt);
DP_PRINT_STATS("fw_link_buf_ring_refill_cnt = %u",
dp_stats_buf->fw_link_buf_ring_refill_cnt);
DP_PRINT_STATS("fw_link_buf_ring_empty_cnt = %u",
dp_stats_buf->fw_link_buf_ring_empty_cnt);
DP_PRINT_STATS("host_pkt_buf_ring_refill_cnt = %u",
dp_stats_buf->host_pkt_buf_ring_refill_cnt);
DP_PRINT_STATS("host_pkt_buf_ring_empty_cnt = %u",
dp_stats_buf->host_pkt_buf_ring_empty_cnt);
DP_PRINT_STATS("mon_pkt_buf_ring_refill_cnt = %u",
dp_stats_buf->mon_pkt_buf_ring_refill_cnt);
DP_PRINT_STATS("mon_pkt_buf_ring_empty_cnt = %u",
dp_stats_buf->mon_pkt_buf_ring_empty_cnt);
DP_PRINT_STATS("mon_status_buf_ring_refill_cnt = %u",
dp_stats_buf->mon_status_buf_ring_refill_cnt);
DP_PRINT_STATS("mon_status_buf_ring_empty_cnt = %u",
dp_stats_buf->mon_status_buf_ring_empty_cnt);
DP_PRINT_STATS("mon_desc_buf_ring_refill_cnt = %u",
dp_stats_buf->mon_desc_buf_ring_refill_cnt);
DP_PRINT_STATS("mon_desc_buf_ring_empty_cnt = %u",
dp_stats_buf->mon_desc_buf_ring_empty_cnt);
DP_PRINT_STATS("mon_dest_ring_update_cnt = %u",
dp_stats_buf->mon_dest_ring_update_cnt);
DP_PRINT_STATS("mon_dest_ring_full_cnt = %u",
dp_stats_buf->mon_dest_ring_full_cnt);
DP_PRINT_STATS("rx_suspend_cnt = %u",
dp_stats_buf->rx_suspend_cnt);
DP_PRINT_STATS("rx_suspend_fail_cnt = %u",
dp_stats_buf->rx_suspend_fail_cnt);
DP_PRINT_STATS("rx_resume_cnt = %u",
dp_stats_buf->rx_resume_cnt);
DP_PRINT_STATS("rx_resume_fail_cnt = %u",
dp_stats_buf->rx_resume_fail_cnt);
DP_PRINT_STATS("rx_ring_switch_cnt = %u",
dp_stats_buf->rx_ring_switch_cnt);
DP_PRINT_STATS("rx_ring_restore_cnt = %u",
dp_stats_buf->rx_ring_restore_cnt);
DP_PRINT_STATS("rx_flush_cnt = %u\n",
dp_stats_buf->rx_flush_cnt);
}
/*
* dp_print_rx_pdev_fw_ring_mpdu_err_tlv_v: display
* htt_rx_pdev_fw_ring_mpdu_err_tlv_v
* @tag_buf: buffer containing the tlv htt_rx_pdev_fw_ring_mpdu_err_tlv_v
*
* return:void
*/
static inline void dp_print_rx_pdev_fw_ring_mpdu_err_tlv_v(uint32_t *tag_buf)
{
htt_rx_pdev_fw_ring_mpdu_err_tlv_v *dp_stats_buf =
(htt_rx_pdev_fw_ring_mpdu_err_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
char *fw_ring_mpdu_err = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!fw_ring_mpdu_err) {
dp_stats_err("Output buffer not allocated");
return;
}
DP_PRINT_STATS("HTT_RX_PDEV_FW_RING_MPDU_ERR_TLV_V:");
for (i = 0; i < DP_HTT_FW_RING_MPDU_ERR_LEN; i++) {
index += qdf_snprint(&fw_ring_mpdu_err[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->fw_ring_mpdu_err[i]);
}
DP_PRINT_STATS("fw_ring_mpdu_err = %s\n", fw_ring_mpdu_err);
qdf_mem_free(fw_ring_mpdu_err);
}
/*
* dp_print_rx_pdev_fw_mpdu_drop_tlv_v: display htt_rx_pdev_fw_mpdu_drop_tlv_v
* @tag_buf: buffer containing the tlv htt_rx_pdev_fw_mpdu_drop_tlv_v
*
* return:void
*/
static inline void dp_print_rx_pdev_fw_mpdu_drop_tlv_v(uint32_t *tag_buf)
{
htt_rx_pdev_fw_mpdu_drop_tlv_v *dp_stats_buf =
(htt_rx_pdev_fw_mpdu_drop_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
char *fw_mpdu_drop = qdf_mem_malloc(DP_MAX_STRING_LEN);
if (!fw_mpdu_drop) {
dp_stats_err("Output buffer not allocated");
return;
}
tag_len = qdf_min(tag_len, (uint32_t)HTT_RX_STATS_FW_DROP_REASON_MAX);
DP_PRINT_STATS("HTT_RX_PDEV_FW_MPDU_DROP_TLV_V:");
for (i = 0; i < tag_len; i++) {
index += qdf_snprint(&fw_mpdu_drop[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->fw_mpdu_drop[i]);
}
DP_PRINT_STATS("fw_mpdu_drop = %s\n", fw_mpdu_drop);
qdf_mem_free(fw_mpdu_drop);
}
/*
* dp_print_rx_soc_fw_refill_ring_num_rxdma_err_tlv() - Accounts for rxdma error
* packets
*
* tag_buf - Buffer
* Return - NULL
*/
static inline void dp_print_rx_soc_fw_refill_ring_num_rxdma_err_tlv(uint32_t *tag_buf)
{
htt_rx_soc_fw_refill_ring_num_rxdma_err_tlv_v *dp_stats_buf =
(htt_rx_soc_fw_refill_ring_num_rxdma_err_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
char rxdma_err_cnt[DP_MAX_STRING_LEN];
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
tag_len = qdf_min(tag_len, (uint32_t)HTT_RX_RXDMA_MAX_ERR_CODE);
DP_PRINT_STATS("HTT_RX_SOC_FW_REFILL_RING_NUM_RXDMA_ERR_TLV_V");
for (i = 0; i < tag_len; i++) {
index += snprintf(&rxdma_err_cnt[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->rxdma_err[i]);
}
DP_PRINT_STATS("rxdma_err = %s\n", rxdma_err_cnt);
}
/*
* dp_print_rx_soc_fw_refill_ring_num_reo_err_tlv() - Accounts for reo error
* packets
*
* tag_buf - Buffer
* Return - NULL
*/
static inline void dp_print_rx_soc_fw_refill_ring_num_reo_err_tlv(uint32_t *tag_buf)
{
htt_rx_soc_fw_refill_ring_num_reo_err_tlv_v *dp_stats_buf =
(htt_rx_soc_fw_refill_ring_num_reo_err_tlv_v *)tag_buf;
uint8_t i;
uint16_t index = 0;
char reo_err_cnt[DP_MAX_STRING_LEN];
uint32_t tag_len = (HTT_STATS_TLV_LENGTH_GET(*tag_buf) >> 2);
tag_len = qdf_min(tag_len, (uint32_t)HTT_RX_REO_MAX_ERR_CODE);
DP_PRINT_STATS("HTT_RX_SOC_FW_REFILL_RING_NUM_REO_ERR_TLV_V");
for (i = 0; i < tag_len; i++) {
index += snprintf(&reo_err_cnt[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i,
dp_stats_buf->reo_err[i]);
}
DP_PRINT_STATS("reo_err = %s\n", reo_err_cnt);
}
/*
* dp_print_rx_reo_debug_stats_tlv() - REO Statistics
*
* tag_buf - Buffer
* Return - NULL
*/
static inline void dp_print_rx_reo_debug_stats_tlv(uint32_t *tag_buf)
{
htt_rx_reo_resource_stats_tlv_v *dp_stats_buf =
(htt_rx_reo_resource_stats_tlv_v *)tag_buf;
DP_PRINT_STATS("HTT_RX_REO_RESOURCE_STATS_TLV");
DP_PRINT_STATS("sample_id: %u ",
dp_stats_buf->sample_id);
DP_PRINT_STATS("total_max: %u ",
dp_stats_buf->total_max);
DP_PRINT_STATS("total_avg: %u ",
dp_stats_buf->total_avg);
DP_PRINT_STATS("total_sample: %u ",
dp_stats_buf->total_sample);
DP_PRINT_STATS("non_zeros_avg: %u ",
dp_stats_buf->non_zeros_avg);
DP_PRINT_STATS("non_zeros_sample: %u ",
dp_stats_buf->non_zeros_sample);
DP_PRINT_STATS("last_non_zeros_max: %u ",
dp_stats_buf->last_non_zeros_max);
DP_PRINT_STATS("last_non_zeros_min: %u ",
dp_stats_buf->last_non_zeros_min);
DP_PRINT_STATS("last_non_zeros_avg: %u ",
dp_stats_buf->last_non_zeros_avg);
DP_PRINT_STATS("last_non_zeros_sample: %u\n ",
dp_stats_buf->last_non_zeros_sample);
}
/*
* dp_print_rx_pdev_fw_stats_phy_err_tlv() - Accounts for phy errors
*
* tag_buf - Buffer
* Return - NULL
*/
static inline void dp_print_rx_pdev_fw_stats_phy_err_tlv(uint32_t *tag_buf)
{
htt_rx_pdev_fw_stats_phy_err_tlv *dp_stats_buf =
(htt_rx_pdev_fw_stats_phy_err_tlv *)tag_buf;
uint8_t i = 0;
uint16_t index = 0;
char phy_errs[DP_MAX_STRING_LEN];
DP_PRINT_STATS("HTT_RX_PDEV_FW_STATS_PHY_ERR_TLV");
DP_PRINT_STATS("mac_id_word: %u",
dp_stats_buf->mac_id__word);
DP_PRINT_STATS("total_phy_err_cnt: %u",
dp_stats_buf->total_phy_err_cnt);
for (i = 0; i < HTT_STATS_PHY_ERR_MAX; i++) {
index += snprintf(&phy_errs[index],
DP_MAX_STRING_LEN - index,
" %u:%u,", i, dp_stats_buf->phy_err[i]);
}
DP_PRINT_STATS("phy_errs: %s\n", phy_errs);
}
/*
* dp_htt_stats_print_tag: function to select the tag type and
* print the corresponding tag structure
* @pdev: pdev pointer
* @tag_type: tag type that is to be printed
* @tag_buf: pointer to the tag structure
*
* return: void
*/
void dp_htt_stats_print_tag(struct dp_pdev *pdev,
uint8_t tag_type, uint32_t *tag_buf)
{
switch (tag_type) {
case HTT_STATS_TX_PDEV_CMN_TAG:
dp_print_tx_pdev_stats_cmn_tlv(tag_buf);
break;
case HTT_STATS_TX_PDEV_UNDERRUN_TAG:
dp_print_tx_pdev_stats_urrn_tlv_v(tag_buf);
break;
case HTT_STATS_TX_PDEV_SIFS_TAG:
dp_print_tx_pdev_stats_sifs_tlv_v(tag_buf);
break;
case HTT_STATS_TX_PDEV_FLUSH_TAG:
dp_print_tx_pdev_stats_flush_tlv_v(tag_buf);
break;
case HTT_STATS_TX_PDEV_PHY_ERR_TAG:
dp_print_tx_pdev_stats_phy_err_tlv_v(tag_buf);
break;
case HTT_STATS_STRING_TAG:
dp_print_stats_string_tlv(tag_buf);
break;
case HTT_STATS_TX_HWQ_CMN_TAG:
dp_print_tx_hwq_stats_cmn_tlv(tag_buf);
break;
case HTT_STATS_TX_HWQ_DIFS_LATENCY_TAG:
dp_print_tx_hwq_difs_latency_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_HWQ_CMD_RESULT_TAG:
dp_print_tx_hwq_cmd_result_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_HWQ_CMD_STALL_TAG:
dp_print_tx_hwq_cmd_stall_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_HWQ_FES_STATUS_TAG:
dp_print_tx_hwq_fes_result_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_TQM_GEN_MPDU_TAG:
dp_print_tx_tqm_gen_mpdu_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_TQM_LIST_MPDU_TAG:
dp_print_tx_tqm_list_mpdu_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_TQM_LIST_MPDU_CNT_TAG:
dp_print_tx_tqm_list_mpdu_cnt_tlv_v(tag_buf);
break;
case HTT_STATS_TX_TQM_CMN_TAG:
dp_print_tx_tqm_cmn_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_TQM_PDEV_TAG:
dp_print_tx_tqm_pdev_stats_tlv_v(tag_buf);
break;
case HTT_STATS_TX_TQM_CMDQ_STATUS_TAG:
dp_print_tx_tqm_cmdq_status_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_EAPOL_PACKETS_TAG:
dp_print_tx_de_eapol_packets_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_CLASSIFY_FAILED_TAG:
dp_print_tx_de_classify_failed_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_CLASSIFY_STATS_TAG:
dp_print_tx_de_classify_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_CLASSIFY_STATUS_TAG:
dp_print_tx_de_classify_status_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_ENQUEUE_PACKETS_TAG:
dp_print_tx_de_enqueue_packets_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_ENQUEUE_DISCARD_TAG:
dp_print_tx_de_enqueue_discard_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_CMN_TAG:
dp_print_tx_de_cmn_stats_tlv(tag_buf);
break;
case HTT_STATS_RING_IF_TAG:
dp_print_ring_if_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_PDEV_MU_MIMO_STATS_TAG:
dp_print_tx_pdev_mu_mimo_sch_stats_tlv(tag_buf);
break;
case HTT_STATS_SFM_CMN_TAG:
dp_print_sfm_cmn_tlv(tag_buf);
break;
case HTT_STATS_SRING_STATS_TAG:
dp_print_sring_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_PDEV_FW_STATS_TAG:
dp_print_rx_pdev_fw_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_PDEV_FW_RING_MPDU_ERR_TAG:
dp_print_rx_pdev_fw_ring_mpdu_err_tlv_v(tag_buf);
break;
case HTT_STATS_RX_PDEV_FW_MPDU_DROP_TAG:
dp_print_rx_pdev_fw_mpdu_drop_tlv_v(tag_buf);
break;
case HTT_STATS_RX_SOC_FW_STATS_TAG:
dp_print_rx_soc_fw_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_SOC_FW_REFILL_RING_EMPTY_TAG:
dp_print_rx_soc_fw_refill_ring_empty_tlv_v(tag_buf);
break;
case HTT_STATS_RX_SOC_FW_REFILL_RING_NUM_REFILL_TAG:
dp_print_rx_soc_fw_refill_ring_num_refill_tlv_v(
tag_buf);
break;
case HTT_STATS_TX_PDEV_RATE_STATS_TAG:
dp_print_tx_pdev_rate_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_PDEV_RATE_STATS_TAG:
dp_print_rx_pdev_rate_stats_tlv(pdev, tag_buf);
break;
case HTT_STATS_RX_PDEV_RATE_EXT_STATS_TAG:
dp_print_rx_pdev_rate_ext_stats_tlv(pdev, tag_buf);
break;
case HTT_STATS_TX_PDEV_SCHEDULER_TXQ_STATS_TAG:
dp_print_tx_pdev_stats_sched_per_txq_tlv(tag_buf);
break;
case HTT_STATS_TX_SCHED_CMN_TAG:
dp_print_stats_tx_sched_cmn_tlv(tag_buf);
break;
case HTT_STATS_TX_PDEV_MPDU_STATS_TAG:
dp_print_tx_pdev_mu_mimo_mpdu_stats_tlv(tag_buf);
break;
case HTT_STATS_SCHED_TXQ_CMD_POSTED_TAG:
dp_print_sched_txq_cmd_posted_tlv_v(tag_buf);
break;
case HTT_STATS_RING_IF_CMN_TAG:
dp_print_ring_if_cmn_tlv(tag_buf);
break;
case HTT_STATS_SFM_CLIENT_USER_TAG:
dp_print_sfm_client_user_tlv_v(tag_buf);
break;
case HTT_STATS_SFM_CLIENT_TAG:
dp_print_sfm_client_tlv(tag_buf);
break;
case HTT_STATS_TX_TQM_ERROR_STATS_TAG:
dp_print_tx_tqm_error_stats_tlv(tag_buf);
break;
case HTT_STATS_SCHED_TXQ_CMD_REAPED_TAG:
dp_print_sched_txq_cmd_reaped_tlv_v(tag_buf);
break;
case HTT_STATS_SRING_CMN_TAG:
dp_print_sring_cmn_tlv(tag_buf);
break;
case HTT_STATS_TX_SELFGEN_AC_ERR_STATS_TAG:
dp_print_tx_selfgen_ac_err_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_SELFGEN_CMN_STATS_TAG:
dp_print_tx_selfgen_cmn_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_SELFGEN_AC_STATS_TAG:
dp_print_tx_selfgen_ac_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_SELFGEN_AX_STATS_TAG:
dp_print_tx_selfgen_ax_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_SELFGEN_AX_ERR_STATS_TAG:
dp_print_tx_selfgen_ax_err_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_HWQ_MUMIMO_SCH_STATS_TAG:
dp_print_tx_hwq_mu_mimo_sch_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_HWQ_MUMIMO_MPDU_STATS_TAG:
dp_print_tx_hwq_mu_mimo_mpdu_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_HWQ_MUMIMO_CMN_STATS_TAG:
dp_print_tx_hwq_mu_mimo_cmn_stats_tlv(tag_buf);
break;
case HTT_STATS_HW_INTR_MISC_TAG:
dp_print_hw_stats_intr_misc_tlv(tag_buf);
break;
case HTT_STATS_HW_WD_TIMEOUT_TAG:
dp_print_hw_stats_wd_timeout_tlv(tag_buf);
break;
case HTT_STATS_HW_PDEV_ERRS_TAG:
dp_print_hw_stats_pdev_errs_tlv(tag_buf);
break;
case HTT_STATS_COUNTER_NAME_TAG:
dp_print_counter_tlv(tag_buf);
break;
case HTT_STATS_TX_TID_DETAILS_TAG:
dp_print_tx_tid_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_TID_DETAILS_V1_TAG:
dp_print_tx_tid_stats_v1_tlv(tag_buf);
break;
case HTT_STATS_RX_TID_DETAILS_TAG:
dp_print_rx_tid_stats_tlv(tag_buf);
break;
case HTT_STATS_PEER_STATS_CMN_TAG:
dp_print_peer_stats_cmn_tlv(tag_buf);
break;
case HTT_STATS_PEER_DETAILS_TAG:
dp_print_peer_details_tlv(tag_buf);
break;
case HTT_STATS_PEER_MSDU_FLOWQ_TAG:
dp_print_msdu_flow_stats_tlv(tag_buf);
break;
case HTT_STATS_PEER_TX_RATE_STATS_TAG:
dp_print_tx_peer_rate_stats_tlv(tag_buf);
break;
case HTT_STATS_PEER_RX_RATE_STATS_TAG:
dp_print_rx_peer_rate_stats_tlv(tag_buf);
break;
case HTT_STATS_TX_DE_COMPL_STATS_TAG:
dp_print_tx_de_compl_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_REFILL_RXDMA_ERR_TAG:
dp_print_rx_soc_fw_refill_ring_num_rxdma_err_tlv(tag_buf);
break;
case HTT_STATS_RX_REFILL_REO_ERR_TAG:
dp_print_rx_soc_fw_refill_ring_num_reo_err_tlv(tag_buf);
break;
case HTT_STATS_RX_REO_RESOURCE_STATS_TAG:
dp_print_rx_reo_debug_stats_tlv(tag_buf);
break;
case HTT_STATS_RX_PDEV_FW_STATS_PHY_ERR_TAG:
dp_print_rx_pdev_fw_stats_phy_err_tlv(tag_buf);
break;
default:
break;
}
}
/*
* dp_htt_stats_copy_tag: function to select the tag type and
* copy the corresponding tag structure
* @pdev: DP_PDEV handle
* @tag_type: tag type that is to be printed
* @tag_buf: pointer to the tag structure
*
* return: void
*/
void dp_htt_stats_copy_tag(struct dp_pdev *pdev, uint8_t tag_type, uint32_t *tag_buf)
{
void *dest_ptr = NULL;
uint32_t size = 0;
uint32_t size_expected = 0;
switch (tag_type) {
case HTT_STATS_TX_PDEV_CMN_TAG:
dest_ptr = &pdev->stats.htt_tx_pdev_stats.cmn_tlv;
size = sizeof(htt_tx_pdev_stats_cmn_tlv);
size_expected = sizeof(struct cdp_htt_tx_pdev_stats_cmn_tlv);
break;
case HTT_STATS_TX_PDEV_UNDERRUN_TAG:
dest_ptr = &pdev->stats.htt_tx_pdev_stats.underrun_tlv;
size = sizeof(htt_tx_pdev_stats_urrn_tlv_v);
size_expected = sizeof(struct cdp_htt_tx_pdev_stats_urrn_tlv_v);
break;
case HTT_STATS_TX_PDEV_SIFS_TAG:
dest_ptr = &pdev->stats.htt_tx_pdev_stats.sifs_tlv;
size = sizeof(htt_tx_pdev_stats_sifs_tlv_v);
size_expected = sizeof(struct cdp_htt_tx_pdev_stats_sifs_tlv_v);
break;
case HTT_STATS_TX_PDEV_FLUSH_TAG:
dest_ptr = &pdev->stats.htt_tx_pdev_stats.flush_tlv;
size = sizeof(htt_tx_pdev_stats_flush_tlv_v);
size_expected =
sizeof(struct cdp_htt_tx_pdev_stats_flush_tlv_v);
break;
case HTT_STATS_TX_PDEV_PHY_ERR_TAG:
dest_ptr = &pdev->stats.htt_tx_pdev_stats.phy_err_tlv;
size = sizeof(htt_tx_pdev_stats_phy_err_tlv_v);
size_expected =
sizeof(struct cdp_htt_tx_pdev_stats_phy_err_tlv_v);
break;
case HTT_STATS_RX_PDEV_FW_STATS_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.fw_stats_tlv;
size = sizeof(htt_rx_pdev_fw_stats_tlv);
size_expected = sizeof(struct cdp_htt_rx_pdev_fw_stats_tlv);
break;
case HTT_STATS_RX_SOC_FW_STATS_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.soc_stats.fw_tlv;
size = sizeof(htt_rx_soc_fw_stats_tlv);
size_expected = sizeof(struct cdp_htt_rx_soc_fw_stats_tlv);
break;
case HTT_STATS_RX_SOC_FW_REFILL_RING_EMPTY_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.soc_stats.fw_refill_ring_empty_tlv;
size = sizeof(htt_rx_soc_fw_refill_ring_empty_tlv_v);
size_expected =
sizeof(struct cdp_htt_rx_soc_fw_refill_ring_empty_tlv_v);
break;
case HTT_STATS_RX_SOC_FW_REFILL_RING_NUM_REFILL_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.soc_stats.fw_refill_ring_num_refill_tlv;
size = sizeof(htt_rx_soc_fw_refill_ring_num_refill_tlv_v);
size_expected =
sizeof(struct cdp_htt_rx_soc_fw_refill_ring_num_refill_tlv_v);
break;
case HTT_STATS_RX_PDEV_FW_RING_MPDU_ERR_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.fw_ring_mpdu_err_tlv;
size = sizeof(htt_rx_pdev_fw_ring_mpdu_err_tlv_v);
size_expected =
sizeof(struct cdp_htt_rx_pdev_fw_ring_mpdu_err_tlv_v);
break;
case HTT_STATS_RX_PDEV_FW_MPDU_DROP_TAG:
dest_ptr = &pdev->stats.htt_rx_pdev_stats.fw_ring_mpdu_drop;
size = sizeof(htt_rx_pdev_fw_mpdu_drop_tlv_v);
size_expected =
sizeof(struct cdp_htt_rx_pdev_fw_mpdu_drop_tlv_v);
break;
default:
break;
}
if (size_expected < size)
dp_warn("Buffer Overflow:FW Struct Size:%d Host Struct Size:%d"
, size, size_expected);
if (dest_ptr)
qdf_mem_copy(dest_ptr, tag_buf, size_expected);
}
#ifdef VDEV_PEER_PROTOCOL_COUNT
#ifdef VDEV_PEER_PROTOCOL_COUNT_TESTING
static QDF_STATUS dp_peer_stats_update_protocol_test_cnt(struct dp_vdev *vdev,
bool is_egress,
bool is_rx)
{
int mask;
if (is_egress)
if (is_rx)
mask = VDEV_PEER_PROTOCOL_RX_EGRESS_MASK;
else
mask = VDEV_PEER_PROTOCOL_TX_EGRESS_MASK;
else
if (is_rx)
mask = VDEV_PEER_PROTOCOL_RX_INGRESS_MASK;
else
mask = VDEV_PEER_PROTOCOL_TX_INGRESS_MASK;
if (qdf_unlikely(vdev->peer_protocol_count_dropmask & mask)) {
dp_info("drop mask set %x", vdev->peer_protocol_count_dropmask);
return QDF_STATUS_SUCCESS;
}
return QDF_STATUS_E_FAILURE;
}
#else
static QDF_STATUS dp_peer_stats_update_protocol_test_cnt(struct dp_vdev *vdev,
bool is_egress,
bool is_rx)
{
return QDF_STATUS_E_FAILURE;
}
#endif
void dp_vdev_peer_stats_update_protocol_cnt(struct dp_vdev *vdev,
qdf_nbuf_t nbuf,
struct dp_txrx_peer *txrx_peer,
bool is_egress,
bool is_rx)
{
struct dp_peer_per_pkt_stats *per_pkt_stats;
struct protocol_trace_count *protocol_trace_cnt;
enum cdp_protocol_trace prot;
struct dp_soc *soc;
struct ether_header *eh;
char *mac;
bool new_peer_ref = false;
struct dp_peer *peer = NULL;
if (qdf_likely(!vdev->peer_protocol_count_track))
return;
if (qdf_unlikely(dp_peer_stats_update_protocol_test_cnt(vdev,
is_egress,
is_rx) ==
QDF_STATUS_SUCCESS))
return;
soc = vdev->pdev->soc;
eh = (struct ether_header *)qdf_nbuf_data(nbuf);
if (is_rx)
mac = eh->ether_shost;
else
mac = eh->ether_dhost;
if (!txrx_peer) {
peer = dp_peer_find_hash_find(soc, mac, 0, vdev->vdev_id,
DP_MOD_ID_GENERIC_STATS);
new_peer_ref = true;
if (!peer)
return;
txrx_peer = peer->txrx_peer;
if (!txrx_peer)
goto dp_vdev_peer_stats_update_protocol_cnt_free_peer;
}
per_pkt_stats = &txrx_peer->stats.per_pkt_stats;
if (qdf_nbuf_is_icmp_pkt(nbuf) == true)
prot = CDP_TRACE_ICMP;
else if (qdf_nbuf_is_ipv4_arp_pkt(nbuf) == true)
prot = CDP_TRACE_ARP;
else if (qdf_nbuf_is_ipv4_eapol_pkt(nbuf) == true)
prot = CDP_TRACE_EAP;
else
goto dp_vdev_peer_stats_update_protocol_cnt_free_peer;
if (is_rx)
protocol_trace_cnt = per_pkt_stats->rx.protocol_trace_cnt;
else
protocol_trace_cnt = per_pkt_stats->tx.protocol_trace_cnt;
if (is_egress)
protocol_trace_cnt[prot].egress_cnt++;
else
protocol_trace_cnt[prot].ingress_cnt++;
dp_vdev_peer_stats_update_protocol_cnt_free_peer:
if (new_peer_ref)
dp_peer_unref_delete(peer, DP_MOD_ID_GENERIC_STATS);
}
void dp_peer_stats_update_protocol_cnt(struct cdp_soc_t *soc_hdl,
int8_t vdev_id,
qdf_nbuf_t nbuf,
bool is_egress,
bool is_rx)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_vdev *vdev;
vdev = dp_vdev_get_ref_by_id(soc, vdev_id, DP_MOD_ID_GENERIC_STATS);
if (!vdev)
return;
if (qdf_likely(vdev->peer_protocol_count_track))
dp_vdev_peer_stats_update_protocol_cnt(vdev, nbuf, NULL,
is_egress, is_rx);
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_GENERIC_STATS);
}
#endif
#if defined(QCA_ENH_V3_STATS_SUPPORT) || defined(HW_TX_DELAY_STATS_ENABLE)
/**
* dp_vow_str_fw_to_hw_delay() - Return string for a delay
* @index: Index of delay
*
* Return: char const pointer
*/
static inline const char *dp_vow_str_fw_to_hw_delay(uint8_t index)
{
if (index > CDP_DELAY_BUCKET_MAX) {
return "Invalid index";
}
return fw_to_hw_delay_bucket[index];
}
/**
* dp_accumulate_delay_stats() - Update delay stats members
* @total: Update stats total structure
* @per_ring: per ring structures from where stats need to be accumulated
*
* Return: void
*/
static void
dp_accumulate_delay_stats(struct cdp_delay_stats *total,
struct cdp_delay_stats *per_ring)
{
uint8_t index;
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++)
total->delay_bucket[index] += per_ring->delay_bucket[index];
total->min_delay = QDF_MIN(total->min_delay, per_ring->min_delay);
total->max_delay = QDF_MAX(total->max_delay, per_ring->max_delay);
total->avg_delay = ((total->avg_delay + per_ring->avg_delay) >> 1);
}
#endif
#ifdef QCA_ENH_V3_STATS_SUPPORT
/**
* dp_vow_str_sw_enq_delay() - Return string for a delay
* @index: Index of delay
*
* Return: char const pointer
*/
static inline const char *dp_vow_str_sw_enq_delay(uint8_t index)
{
if (index > CDP_DELAY_BUCKET_MAX) {
return "Invalid index";
}
return sw_enq_delay_bucket[index];
}
/**
* dp_vow_str_intfrm_delay() - Return string for a delay
* @index: Index of delay
*
* Return: char const pointer
*/
static inline const char *dp_vow_str_intfrm_delay(uint8_t index)
{
if (index > CDP_DELAY_BUCKET_MAX) {
return "Invalid index";
}
return intfrm_delay_bucket[index];
}
/**
* dp_accumulate_tid_stats() - Accumulate TID stats from each ring
* @pdev: pdev handle
* @tid: traffic ID
* @total_tx: fill this tx structure to get stats from all wbm rings
* @total_rx: fill this rx structure to get stats from all reo rings
* @type: delay stats or regular frame counters
*
* Return: void
*/
static void
dp_accumulate_tid_stats(struct dp_pdev *pdev, uint8_t tid,
struct cdp_tid_tx_stats *total_tx,
struct cdp_tid_rx_stats *total_rx, uint8_t type)
{
uint8_t i = 0, ring_id = 0, drop = 0, tqm_status_idx = 0, htt_status_idx = 0;
struct cdp_tid_stats *tid_stats = &pdev->stats.tid_stats;
struct cdp_tid_tx_stats *per_ring_tx = NULL;
struct cdp_tid_rx_stats *per_ring_rx = NULL;
if (wlan_cfg_get_dp_soc_nss_cfg(pdev->soc->wlan_cfg_ctx)) {
qdf_mem_copy(total_tx, &tid_stats->tid_tx_stats[0][tid],
sizeof(struct cdp_tid_tx_stats));
qdf_mem_copy(total_rx, &tid_stats->tid_rx_stats[0][tid],
sizeof(struct cdp_tid_rx_stats));
return;
} else {
qdf_mem_zero(total_tx, sizeof(struct cdp_tid_tx_stats));
qdf_mem_zero(total_rx, sizeof(struct cdp_tid_rx_stats));
}
switch (type) {
case TID_COUNTER_STATS:
{
for (ring_id = 0; ring_id < CDP_MAX_TX_COMP_RINGS; ring_id++) {
per_ring_tx = &tid_stats->tid_tx_stats[ring_id][tid];
total_tx->success_cnt += per_ring_tx->success_cnt;
for (tqm_status_idx = 0; tqm_status_idx < CDP_MAX_TX_TQM_STATUS; tqm_status_idx++) {
total_tx->tqm_status_cnt[tqm_status_idx] +=
per_ring_tx->tqm_status_cnt[tqm_status_idx];
}
for (htt_status_idx = 0; htt_status_idx < CDP_MAX_TX_HTT_STATUS; htt_status_idx++) {
total_tx->htt_status_cnt[htt_status_idx] +=
per_ring_tx->htt_status_cnt[htt_status_idx];
}
for (drop = 0; drop < TX_MAX_DROP; drop++)
total_tx->swdrop_cnt[drop] +=
per_ring_tx->swdrop_cnt[drop];
}
for (ring_id = 0; ring_id < CDP_MAX_RX_RINGS; ring_id++) {
per_ring_rx = &tid_stats->tid_rx_stats[ring_id][tid];
total_rx->delivered_to_stack +=
per_ring_rx->delivered_to_stack;
total_rx->intrabss_cnt += per_ring_rx->intrabss_cnt;
total_rx->msdu_cnt += per_ring_rx->msdu_cnt;
total_rx->mcast_msdu_cnt += per_ring_rx->mcast_msdu_cnt;
total_rx->bcast_msdu_cnt += per_ring_rx->bcast_msdu_cnt;
for (drop = 0; drop < RX_MAX_DROP; drop++)
total_rx->fail_cnt[drop] +=
per_ring_rx->fail_cnt[drop];
}
break;
}
case TID_DELAY_STATS:
{
for (ring_id = 0; ring_id < CDP_MAX_TX_COMP_RINGS; ring_id++) {
per_ring_tx = &tid_stats->tid_tx_stats[ring_id][tid];
dp_accumulate_delay_stats(&total_tx->swq_delay,
&per_ring_tx->swq_delay);
dp_accumulate_delay_stats(&total_tx->hwtx_delay,
&per_ring_tx->hwtx_delay);
dp_accumulate_delay_stats(&total_tx->intfrm_delay,
&per_ring_tx->intfrm_delay);
}
for (ring_id = 0; ring_id < CDP_MAX_RX_RINGS; ring_id++) {
per_ring_rx = &tid_stats->tid_rx_stats[ring_id][tid];
dp_accumulate_delay_stats(&total_rx->intfrm_delay,
&per_ring_rx->intfrm_delay);
dp_accumulate_delay_stats(&total_rx->to_stack_delay,
&per_ring_rx->to_stack_delay);
}
break;
}
case TID_RX_ERROR_STATS:
{
for (ring_id = 0; ring_id < CDP_MAX_RX_RINGS; ring_id++) {
per_ring_rx = &tid_stats->tid_rx_stats[ring_id][tid];
total_rx->reo_err.err_src_reo_code_inv += per_ring_rx->reo_err.err_src_reo_code_inv;
for (i = 0; i < CDP_REO_CODE_MAX; i++) {
total_rx->reo_err.err_reo_codes[i] += per_ring_rx->reo_err.err_reo_codes[i];
}
total_rx->rxdma_err.err_src_rxdma_code_inv += per_ring_rx->rxdma_err.err_src_rxdma_code_inv;
for (i = 0; i < CDP_DMA_CODE_MAX; i++) {
total_rx->rxdma_err.err_dma_codes[i] += per_ring_rx->rxdma_err.err_dma_codes[i];
}
}
break;
}
default:
qdf_err("Invalid stats type");
break;
}
}
void dp_pdev_print_tid_stats(struct dp_pdev *pdev)
{
struct cdp_tid_tx_stats total_tx;
struct cdp_tid_rx_stats total_rx;
uint8_t tid, tqm_status_idx, htt_status_idx;
DP_PRINT_STATS("Packets received in hardstart: %llu ",
pdev->stats.tid_stats.ingress_stack);
DP_PRINT_STATS("Packets dropped in osif layer: %llu ",
pdev->stats.tid_stats.osif_drop);
DP_PRINT_STATS("Per TID Video Stats:\n");
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
dp_accumulate_tid_stats(pdev, tid, &total_tx, &total_rx,
TID_COUNTER_STATS);
DP_PRINT_STATS("----TID: %d----", tid);
DP_PRINT_STATS("Tx TQM Success Count: %llu",
total_tx.tqm_status_cnt[HAL_TX_TQM_RR_FRAME_ACKED]);
DP_PRINT_STATS("Tx HTT Success Count: %llu",
total_tx.htt_status_cnt[HTT_TX_FW2WBM_TX_STATUS_OK]);
for (tqm_status_idx = 1; tqm_status_idx < CDP_MAX_TX_TQM_STATUS; tqm_status_idx++) {
if (total_tx.tqm_status_cnt[tqm_status_idx]) {
DP_PRINT_STATS("Tx TQM Drop Count[%d]: %llu",
tqm_status_idx, total_tx.tqm_status_cnt[tqm_status_idx]);
}
}
for (htt_status_idx = 1; htt_status_idx < CDP_MAX_TX_HTT_STATUS; htt_status_idx++) {
if (total_tx.htt_status_cnt[htt_status_idx]) {
DP_PRINT_STATS("Tx HTT Drop Count[%d]: %llu",
htt_status_idx, total_tx.htt_status_cnt[htt_status_idx]);
}
}
DP_PRINT_STATS("Tx Hardware Drop Count: %llu",
total_tx.swdrop_cnt[TX_HW_ENQUEUE]);
DP_PRINT_STATS("Tx Software Drop Count: %llu",
total_tx.swdrop_cnt[TX_SW_ENQUEUE]);
DP_PRINT_STATS("Tx Descriptor Error Count: %llu",
total_tx.swdrop_cnt[TX_DESC_ERR]);
DP_PRINT_STATS("Tx HAL Ring Error Count: %llu",
total_tx.swdrop_cnt[TX_HAL_RING_ACCESS_ERR]);
DP_PRINT_STATS("Tx Dma Map Error Count: %llu",
total_tx.swdrop_cnt[TX_DMA_MAP_ERR]);
DP_PRINT_STATS("Rx Delievered Count: %llu",
total_rx.delivered_to_stack);
DP_PRINT_STATS("Rx Software Enqueue Drop Count: %llu",
total_rx.fail_cnt[ENQUEUE_DROP]);
DP_PRINT_STATS("Rx Intrabss Drop Count: %llu",
total_rx.fail_cnt[INTRABSS_DROP]);
DP_PRINT_STATS("Rx Msdu Done Failure Count: %llu",
total_rx.fail_cnt[MSDU_DONE_FAILURE]);
DP_PRINT_STATS("Rx Invalid Peer Count: %llu",
total_rx.fail_cnt[INVALID_PEER_VDEV]);
DP_PRINT_STATS("Rx Policy Check Drop Count: %llu",
total_rx.fail_cnt[POLICY_CHECK_DROP]);
DP_PRINT_STATS("Rx Mec Drop Count: %llu",
total_rx.fail_cnt[MEC_DROP]);
DP_PRINT_STATS("Rx Nawds Mcast Drop Count: %llu",
total_rx.fail_cnt[NAWDS_MCAST_DROP]);
DP_PRINT_STATS("Rx Mesh Filter Drop Count: %llu",
total_rx.fail_cnt[MESH_FILTER_DROP]);
DP_PRINT_STATS("Rx Intra Bss Deliver Count: %llu",
total_rx.intrabss_cnt);
DP_PRINT_STATS("Rx MSDU Count: %llu", total_rx.msdu_cnt);
DP_PRINT_STATS("Rx Multicast MSDU Count: %llu",
total_rx.mcast_msdu_cnt);
DP_PRINT_STATS("Rx Broadcast MSDU Count: %llu\n",
total_rx.bcast_msdu_cnt);
}
}
void dp_pdev_print_delay_stats(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct cdp_tid_tx_stats total_tx;
struct cdp_tid_rx_stats total_rx;
struct cdp_tid_stats *tid_stats;
uint8_t tid, index;
uint64_t count = 0;
if (!soc)
return;
tid = 0;
index = 0;
tid_stats = &pdev->stats.tid_stats;
DP_PRINT_STATS("Per TID Delay Non-Zero Stats:\n");
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
dp_accumulate_tid_stats(pdev, tid, &total_tx, &total_rx,
TID_DELAY_STATS);
DP_PRINT_STATS("----TID: %d----", tid);
DP_PRINT_STATS("Software Enqueue Delay:");
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = total_tx.swq_delay.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_sw_enq_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", total_tx.swq_delay.min_delay);
DP_PRINT_STATS("Max = %u", total_tx.swq_delay.max_delay);
DP_PRINT_STATS("Avg = %u\n", total_tx.swq_delay.avg_delay);
DP_PRINT_STATS("Hardware Transmission Delay:");
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = total_tx.hwtx_delay.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_fw_to_hw_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", total_tx.hwtx_delay.min_delay);
DP_PRINT_STATS("Max = %u", total_tx.hwtx_delay.max_delay);
DP_PRINT_STATS("Avg = %u\n", total_tx.hwtx_delay.avg_delay);
DP_PRINT_STATS("Tx Interframe Delay:");
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = total_tx.intfrm_delay.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_intfrm_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", total_tx.intfrm_delay.min_delay);
DP_PRINT_STATS("Max = %u", total_tx.intfrm_delay.max_delay);
DP_PRINT_STATS("Avg = %u\n", total_tx.intfrm_delay.avg_delay);
DP_PRINT_STATS("Rx Interframe Delay:");
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = total_rx.intfrm_delay.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_intfrm_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", total_rx.intfrm_delay.min_delay);
DP_PRINT_STATS("Max = %u", total_rx.intfrm_delay.max_delay);
DP_PRINT_STATS("Avg = %u\n", total_rx.intfrm_delay.avg_delay);
DP_PRINT_STATS("Rx Reap to Stack Delay:");
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = total_rx.to_stack_delay.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_intfrm_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", total_rx.to_stack_delay.min_delay);
DP_PRINT_STATS("Max = %u", total_rx.to_stack_delay.max_delay);
DP_PRINT_STATS("Avg = %u\n", total_rx.to_stack_delay.avg_delay);
}
}
void dp_pdev_print_rx_error_stats(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct cdp_tid_rx_stats total_rx;
struct cdp_tid_tx_stats total_tx;
struct cdp_tid_stats *tid_stats;
uint8_t tid, index;
if (!soc)
return;
tid_stats = &pdev->stats.tid_stats;
DP_PRINT_STATS("Per TID RX Error Stats:\n");
for (tid = 0; tid < CDP_MAX_VOW_TID; tid++) {
dp_accumulate_tid_stats(pdev, tid, &total_tx, &total_rx,
TID_RX_ERROR_STATS);
DP_PRINT_STATS("----TID: %d----", tid + 4);
DP_PRINT_STATS("Rx REO Error stats:");
DP_PRINT_STATS("err_src_reo_code_inv = %llu", total_rx.reo_err.err_src_reo_code_inv);
for (index = 0; index < CDP_REO_CODE_MAX; index++) {
DP_PRINT_STATS("err src reo codes: %d = %llu", index, total_rx.reo_err.err_reo_codes[index]);
}
DP_PRINT_STATS("Rx Rxdma Error stats:");
DP_PRINT_STATS("err_src_rxdma_code_inv = %llu", total_rx.rxdma_err.err_src_rxdma_code_inv);
for (index = 0; index < CDP_DMA_CODE_MAX; index++) {
DP_PRINT_STATS("err src dma codes: %d = %llu", index, total_rx.rxdma_err.err_dma_codes[index]);
}
}
}
#endif
#ifdef HW_TX_DELAY_STATS_ENABLE
static void dp_vdev_print_tx_delay_stats(struct dp_vdev *vdev)
{
struct cdp_delay_stats delay_stats;
struct cdp_tid_tx_stats *per_ring;
uint8_t tid, index;
uint64_t count = 0;
uint8_t ring_id;
if (!vdev)
return;
DP_PRINT_STATS("vdev_id: %d Per TID Delay Non-Zero Stats:\n",
vdev->vdev_id);
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
qdf_mem_zero(&delay_stats, sizeof(delay_stats));
for (ring_id = 0; ring_id < CDP_MAX_TX_COMP_RINGS; ring_id++) {
per_ring = &vdev->stats.tid_tx_stats[ring_id][tid];
dp_accumulate_delay_stats(&delay_stats,
&per_ring->hwtx_delay);
}
DP_PRINT_STATS("Hardware Tx completion latency stats TID: %d",
tid);
for (index = 0; index < CDP_DELAY_BUCKET_MAX; index++) {
count = delay_stats.delay_bucket[index];
if (count) {
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_fw_to_hw_delay(index),
count);
}
}
DP_PRINT_STATS("Min = %u", delay_stats.min_delay);
DP_PRINT_STATS("Max = %u", delay_stats.max_delay);
DP_PRINT_STATS("Avg = %u\n", delay_stats.avg_delay);
}
}
void dp_pdev_print_tx_delay_stats(struct dp_soc *soc)
{
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, 0);
struct dp_vdev *vdev;
struct dp_vdev **vdev_array = NULL;
int index = 0, num_vdev = 0;
if (!pdev) {
dp_err("pdev is NULL");
return;
}
vdev_array =
qdf_mem_malloc(sizeof(struct dp_vdev *) * WLAN_PDEV_MAX_VDEVS);
if (!vdev_array)
return;
qdf_spin_lock_bh(&pdev->vdev_list_lock);
DP_PDEV_ITERATE_VDEV_LIST(pdev, vdev) {
if (dp_vdev_get_ref(soc, vdev, DP_MOD_ID_GENERIC_STATS))
continue;
vdev_array[index] = vdev;
index = index + 1;
}
qdf_spin_unlock_bh(&pdev->vdev_list_lock);
num_vdev = index;
for (index = 0; index < num_vdev; index++) {
vdev = vdev_array[index];
dp_vdev_print_tx_delay_stats(vdev);
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_GENERIC_STATS);
}
qdf_mem_free(vdev_array);
}
/**
* dp_reset_delay_stats() - reset delay stats
* @per_ring: per ring structures from where stats need to be accumulated
*
* Return: void
*/
static void dp_reset_delay_stats(struct cdp_delay_stats *per_ring)
{
qdf_mem_zero(per_ring, sizeof(struct cdp_delay_stats));
}
/**
* dp_vdev_init_tx_delay_stats() - Clear tx delay stats
* @vdev: vdev handle
*
* Return: None
*/
static void dp_vdev_init_tx_delay_stats(struct dp_vdev *vdev)
{
struct cdp_tid_tx_stats *per_ring;
uint8_t tid;
uint8_t ring_id;
if (!vdev)
return;
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
for (ring_id = 0; ring_id < CDP_MAX_TX_COMP_RINGS; ring_id++) {
per_ring = &vdev->stats.tid_tx_stats[ring_id][tid];
dp_reset_delay_stats(&per_ring->hwtx_delay);
}
}
}
void dp_pdev_clear_tx_delay_stats(struct dp_soc *soc)
{
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, 0);
struct dp_vdev *vdev;
struct dp_vdev **vdev_array = NULL;
int index = 0, num_vdev = 0;
if (!pdev) {
dp_err("pdev is NULL");
return;
}
vdev_array =
qdf_mem_malloc(sizeof(struct dp_vdev *) * WLAN_PDEV_MAX_VDEVS);
if (!vdev_array)
return;
qdf_spin_lock_bh(&pdev->vdev_list_lock);
DP_PDEV_ITERATE_VDEV_LIST(pdev, vdev) {
if (dp_vdev_get_ref(soc, vdev, DP_MOD_ID_GENERIC_STATS) !=
QDF_STATUS_SUCCESS)
continue;
vdev_array[index] = vdev;
index = index + 1;
}
qdf_spin_unlock_bh(&pdev->vdev_list_lock);
num_vdev = index;
for (index = 0; index < num_vdev; index++) {
vdev = vdev_array[index];
dp_vdev_init_tx_delay_stats(vdev);
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_GENERIC_STATS);
}
qdf_mem_free(vdev_array);
}
#endif
void dp_print_soc_cfg_params(struct dp_soc *soc)
{
struct wlan_cfg_dp_soc_ctxt *soc_cfg_ctx;
uint8_t index = 0, i = 0;
char ring_mask[DP_MAX_INT_CONTEXTS_STRING_LENGTH];
int num_of_int_contexts;
if (!soc) {
dp_err("Context is null");
return;
}
soc_cfg_ctx = soc->wlan_cfg_ctx;
if (!soc_cfg_ctx) {
dp_err("Context is null");
return;
}
num_of_int_contexts =
wlan_cfg_get_num_contexts(soc_cfg_ctx);
DP_PRINT_STATS("No. of interrupt contexts: %u",
soc_cfg_ctx->num_int_ctxts);
DP_PRINT_STATS("Max clients: %u",
soc_cfg_ctx->max_clients);
DP_PRINT_STATS("Max alloc size: %u ",
soc_cfg_ctx->max_alloc_size);
DP_PRINT_STATS("Per pdev tx ring: %u ",
soc_cfg_ctx->per_pdev_tx_ring);
DP_PRINT_STATS("Num tcl data rings: %u ",
soc_cfg_ctx->num_tcl_data_rings);
DP_PRINT_STATS("Per pdev rx ring: %u ",
soc_cfg_ctx->per_pdev_rx_ring);
DP_PRINT_STATS("Per pdev lmac ring: %u ",
soc_cfg_ctx->per_pdev_lmac_ring);
DP_PRINT_STATS("Num of reo dest rings: %u ",
soc_cfg_ctx->num_reo_dest_rings);
DP_PRINT_STATS("Num tx desc pool: %u ",
soc_cfg_ctx->num_tx_desc_pool);
DP_PRINT_STATS("Num tx ext desc pool: %u ",
soc_cfg_ctx->num_tx_ext_desc_pool);
DP_PRINT_STATS("Num tx desc: %u ",
soc_cfg_ctx->num_tx_desc);
DP_PRINT_STATS("Num tx ext desc: %u ",
soc_cfg_ctx->num_tx_ext_desc);
DP_PRINT_STATS("Htt packet type: %u ",
soc_cfg_ctx->htt_packet_type);
DP_PRINT_STATS("Max peer_ids: %u ",
soc_cfg_ctx->max_peer_id);
DP_PRINT_STATS("Tx ring size: %u ",
soc_cfg_ctx->tx_ring_size);
DP_PRINT_STATS("Tx comp ring size: %u ",
soc_cfg_ctx->tx_comp_ring_size);
DP_PRINT_STATS("Tx comp ring size nss: %u ",
soc_cfg_ctx->tx_comp_ring_size_nss);
DP_PRINT_STATS("Int batch threshold tx: %u ",
soc_cfg_ctx->int_batch_threshold_tx);
DP_PRINT_STATS("Int timer threshold tx: %u ",
soc_cfg_ctx->int_timer_threshold_tx);
DP_PRINT_STATS("Int batch threshold rx: %u ",
soc_cfg_ctx->int_batch_threshold_rx);
DP_PRINT_STATS("Int timer threshold rx: %u ",
soc_cfg_ctx->int_timer_threshold_rx);
DP_PRINT_STATS("Int batch threshold other: %u ",
soc_cfg_ctx->int_batch_threshold_other);
DP_PRINT_STATS("Int timer threshold other: %u ",
soc_cfg_ctx->int_timer_threshold_other);
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_tx_ring_mask[i]);
}
DP_PRINT_STATS("Tx ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_rx_ring_mask[i]);
}
DP_PRINT_STATS("Rx ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_rx_mon_ring_mask[i]);
}
DP_PRINT_STATS("Rx mon ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_rx_err_ring_mask[i]);
}
DP_PRINT_STATS("Rx err ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_rx_wbm_rel_ring_mask[i]);
}
DP_PRINT_STATS("Rx wbm rel ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_reo_status_ring_mask[i]);
}
DP_PRINT_STATS("Reo ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_rxdma2host_ring_mask[i]);
}
DP_PRINT_STATS("Rxdma2host ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
index = 0;
for (i = 0; i < num_of_int_contexts; i++) {
index += qdf_snprint(&ring_mask[index],
DP_MAX_INT_CONTEXTS_STRING_LENGTH - index,
" %d",
soc_cfg_ctx->int_host2rxdma_ring_mask[i]);
}
DP_PRINT_STATS("Host2rxdma ring mask (0-%d):%s",
num_of_int_contexts, ring_mask);
DP_PRINT_STATS("Rx hash: %u ",
soc_cfg_ctx->rx_hash);
DP_PRINT_STATS("Tso enabled: %u ",
soc_cfg_ctx->tso_enabled);
DP_PRINT_STATS("Lro enabled: %u ",
soc_cfg_ctx->lro_enabled);
DP_PRINT_STATS("Sg enabled: %u ",
soc_cfg_ctx->sg_enabled);
DP_PRINT_STATS("Gro enabled: %u ",
soc_cfg_ctx->gro_enabled);
DP_PRINT_STATS("Force Gro enabled: %u ",
soc_cfg_ctx->force_gro_enabled);
DP_PRINT_STATS("rawmode enabled: %u ",
soc_cfg_ctx->rawmode_enabled);
DP_PRINT_STATS("peer flow ctrl enabled: %u ",
soc_cfg_ctx->peer_flow_ctrl_enabled);
DP_PRINT_STATS("napi enabled: %u ",
soc_cfg_ctx->napi_enabled);
DP_PRINT_STATS("P2P Tcp Udp checksum offload: %u ",
soc_cfg_ctx->p2p_tcp_udp_checksumoffload);
DP_PRINT_STATS("NAN Tcp Udp checksum offload: %u ",
soc_cfg_ctx->nan_tcp_udp_checksumoffload);
DP_PRINT_STATS("Tcp Udp checksum offload: %u ",
soc_cfg_ctx->tcp_udp_checksumoffload);
DP_PRINT_STATS("Defrag timeout check: %u ",
soc_cfg_ctx->defrag_timeout_check);
DP_PRINT_STATS("Rx defrag min timeout: %u ",
soc_cfg_ctx->rx_defrag_min_timeout);
DP_PRINT_STATS("WBM release ring: %u ",
soc_cfg_ctx->wbm_release_ring);
DP_PRINT_STATS("TCL CMD_CREDIT ring: %u ",
soc_cfg_ctx->tcl_cmd_credit_ring);
DP_PRINT_STATS("TCL Status ring: %u ",
soc_cfg_ctx->tcl_status_ring);
DP_PRINT_STATS("REO Reinject ring: %u ",
soc_cfg_ctx->reo_reinject_ring);
DP_PRINT_STATS("RX release ring: %u ",
soc_cfg_ctx->rx_release_ring);
DP_PRINT_STATS("REO Exception ring: %u ",
soc_cfg_ctx->reo_exception_ring);
DP_PRINT_STATS("REO CMD ring: %u ",
soc_cfg_ctx->reo_cmd_ring);
DP_PRINT_STATS("REO STATUS ring: %u ",
soc_cfg_ctx->reo_status_ring);
DP_PRINT_STATS("RXDMA refill ring: %u ",
soc_cfg_ctx->rxdma_refill_ring);
DP_PRINT_STATS("TX_desc limit_0: %u ",
soc_cfg_ctx->tx_desc_limit_0);
DP_PRINT_STATS("TX_desc limit_1: %u ",
soc_cfg_ctx->tx_desc_limit_1);
DP_PRINT_STATS("TX_desc limit_2: %u ",
soc_cfg_ctx->tx_desc_limit_2);
DP_PRINT_STATS("TX device limit: %u ",
soc_cfg_ctx->tx_device_limit);
DP_PRINT_STATS("TX sw internode queue: %u ",
soc_cfg_ctx->tx_sw_internode_queue);
DP_PRINT_STATS("RXDMA err dst ring: %u ",
soc_cfg_ctx->rxdma_err_dst_ring);
DP_PRINT_STATS("RX Flow Tag Enabled: %u ",
soc_cfg_ctx->is_rx_flow_tag_enabled);
DP_PRINT_STATS("RX Flow Search Table Size (# of entries): %u ",
soc_cfg_ctx->rx_flow_search_table_size);
DP_PRINT_STATS("RX Flow Search Table Per PDev : %u ",
soc_cfg_ctx->is_rx_flow_search_table_per_pdev);
}
void
dp_print_pdev_cfg_params(struct dp_pdev *pdev)
{
struct wlan_cfg_dp_pdev_ctxt *pdev_cfg_ctx;
if (!pdev) {
dp_err("Context is null");
return;
}
pdev_cfg_ctx = pdev->wlan_cfg_ctx;
if (!pdev_cfg_ctx) {
dp_err("Context is null");
return;
}
DP_PRINT_STATS("Rx dma buf ring size: %d ",
pdev_cfg_ctx->rx_dma_buf_ring_size);
DP_PRINT_STATS("DMA Mon buf ring size: %d ",
pdev_cfg_ctx->dma_mon_buf_ring_size);
DP_PRINT_STATS("DMA Mon dest ring size: %d ",
pdev_cfg_ctx->dma_rx_mon_dest_ring_size);
DP_PRINT_STATS("DMA Mon status ring size: %d ",
pdev_cfg_ctx->dma_mon_status_ring_size);
DP_PRINT_STATS("Rxdma monitor desc ring: %d",
pdev_cfg_ctx->rxdma_monitor_desc_ring);
DP_PRINT_STATS("Num mac rings: %d ",
pdev_cfg_ctx->num_mac_rings);
}
/**
* dp_print_ring_stat_from_hal(): Print hal level ring stats
* @soc: DP_SOC handle
* @srng: DP_SRNG handle
* @ring_name: SRNG name
* @ring_type: srng src/dst ring
*
* Return: void
*/
static void
dp_print_ring_stat_from_hal(struct dp_soc *soc, struct dp_srng *srng,
enum hal_ring_type ring_type)
{
uint32_t tailp;
uint32_t headp;
int32_t hw_headp = -1;
int32_t hw_tailp = -1;
uint32_t ring_usage;
const char *ring_name;
struct hal_soc *hal_soc;
if (soc && srng && srng->hal_srng) {
hal_soc = (struct hal_soc *)soc->hal_soc;
ring_name = dp_srng_get_str_from_hal_ring_type(ring_type);
hal_get_sw_hptp(soc->hal_soc, srng->hal_srng, &tailp, &headp);
ring_usage = hal_get_ring_usage(srng->hal_srng,
ring_type, &headp, &tailp);
DP_PRINT_STATS("%s:SW: Head = %d Tail = %d Ring Usage = %u",
ring_name, headp, tailp, ring_usage);
hal_get_hw_hptp(soc->hal_soc, srng->hal_srng, &hw_headp,
&hw_tailp, ring_type);
ring_usage = 0;
if (hw_headp >= 0 && tailp >= 0)
ring_usage =
hal_get_ring_usage(
srng->hal_srng, ring_type,
&hw_headp, &hw_tailp);
DP_PRINT_STATS("%s:HW: Head = %d Tail = %d Ring Usage = %u",
ring_name, hw_headp, hw_tailp, ring_usage);
}
}
#ifdef FEATURE_TSO_STATS
/**
* dp_print_tso_seg_stats - tso segment stats
* @pdev: pdev handle
* @id: tso packet id
*
* Return: None
*/
static void dp_print_tso_seg_stats(struct dp_pdev *pdev, uint32_t id)
{
uint8_t num_seg;
uint32_t segid;
/* TSO LEVEL 2 - SEGMENT INFO */
num_seg = pdev->stats.tso_stats.tso_info.tso_packet_info[id].num_seg;
for (segid = 0; segid < CDP_MAX_TSO_SEGMENTS && segid < num_seg; segid++) {
DP_PRINT_STATS(
"Segment id:[%u] fragments: %u | Segment Length %u | TCP Seq no.: %u | ip_id: %u",
segid,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].num_frags,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].total_len,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.tcp_seq_num,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.ip_id);
DP_PRINT_STATS(
"fin: %u syn: %u rst: %u psh: %u ack: %u urg: %u ece: %u cwr: %u ns: %u",
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.fin,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.syn,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.rst,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.psh,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.ack,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.urg,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.ece,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.cwr,
pdev->stats.tso_stats.tso_info.tso_packet_info[id]
.tso_seg[segid].tso_flags.ns);
}
}
#else
static inline
void dp_print_tso_seg_stats(struct dp_pdev *pdev, uint32_t id)
{
}
#endif /* FEATURE_TSO_STATS */
/**
* dp_print_mon_ring_stats_from_hal() - Print stat for monitor rings based
* on target
* @pdev: physical device handle
* @mac_id: mac id
*
* Return: void
*/
static inline
void dp_print_mon_ring_stat_from_hal(struct dp_pdev *pdev, uint8_t mac_id)
{
if (pdev->soc->wlan_cfg_ctx->rxdma1_enable) {
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rxdma_mon_buf_ring[mac_id],
RXDMA_MONITOR_BUF);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rxdma_mon_dst_ring[mac_id],
RXDMA_MONITOR_DST);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rxdma_mon_desc_ring[mac_id],
RXDMA_MONITOR_DESC);
}
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rxdma_mon_status_ring[mac_id],
RXDMA_MONITOR_STATUS);
}
void
dp_print_ring_stats(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
uint32_t i;
int mac_id;
int lmac_id;
if (hif_pm_runtime_get_sync(pdev->soc->hif_handle,
RTPM_ID_DP_PRINT_RING_STATS))
return;
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->wbm_idle_link_ring,
WBM_IDLE_LINK);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->reo_exception_ring,
REO_EXCEPTION);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->reo_reinject_ring,
REO_REINJECT);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->reo_cmd_ring,
REO_CMD);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->reo_status_ring,
REO_STATUS);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rx_rel_ring,
WBM2SW_RELEASE);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->tcl_cmd_credit_ring,
TCL_CMD_CREDIT);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->tcl_status_ring,
TCL_STATUS);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->wbm_desc_rel_ring,
SW2WBM_RELEASE);
for (i = 0; i < MAX_REO_DEST_RINGS; i++)
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->reo_dest_ring[i],
REO_DST);
for (i = 0; i < pdev->soc->num_tcl_data_rings; i++)
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->tcl_data_ring[i],
TCL_DATA);
for (i = 0; i < pdev->soc->num_tcl_data_rings; i++)
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->tx_comp_ring[i],
WBM2SW_RELEASE);
if (pdev->soc->features.dmac_cmn_src_rxbuf_ring_enabled) {
for (i = 0; i < pdev->soc->num_rx_refill_buf_rings; i++) {
dp_print_ring_stat_from_hal
(pdev->soc, &pdev->soc->rx_refill_buf_ring[i],
RXDMA_BUF);
}
} else {
lmac_id = dp_get_lmac_id_for_pdev_id(pdev->soc, 0,
pdev->pdev_id);
dp_print_ring_stat_from_hal
(pdev->soc, &pdev->soc->rx_refill_buf_ring[lmac_id],
RXDMA_BUF);
}
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->rx_refill_buf_ring2,
RXDMA_BUF);
for (i = 0; i < MAX_RX_MAC_RINGS; i++)
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->rx_mac_buf_ring[i],
RXDMA_BUF);
for (mac_id = 0;
mac_id < soc->wlan_cfg_ctx->num_rxdma_status_rings_per_pdev;
mac_id++) {
lmac_id = dp_get_lmac_id_for_pdev_id(pdev->soc,
mac_id, pdev->pdev_id);
dp_print_mon_ring_stat_from_hal(pdev, lmac_id);
}
for (i = 0; i < soc->wlan_cfg_ctx->num_rxdma_dst_rings_per_pdev; i++) {
lmac_id = dp_get_lmac_id_for_pdev_id(pdev->soc,
i, pdev->pdev_id);
dp_print_ring_stat_from_hal(pdev->soc,
&pdev->soc->rxdma_err_dst_ring
[lmac_id],
RXDMA_DST);
}
hif_pm_runtime_put(pdev->soc->hif_handle,
RTPM_ID_DP_PRINT_RING_STATS);
}
/**
* dp_print_common_rates_info(): Print common rate for tx or rx
* @pkt_type_array: rate type array contains rate info
*
* Return:void
*/
static inline void
dp_print_common_rates_info(struct cdp_pkt_type *pkt_type_array)
{
uint8_t mcs, pkt_type;
DP_PRINT_STATS("MSDU Count");
for (pkt_type = 0; pkt_type < DOT11_MAX; pkt_type++) {
for (mcs = 0; mcs < MAX_MCS; mcs++) {
if (!cdp_rate_string[pkt_type][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
cdp_rate_string[pkt_type][mcs].mcs_type,
pkt_type_array[pkt_type].mcs_count[mcs]);
}
DP_PRINT_STATS("\n");
}
}
/**
* dp_print_common_ppdu_rates_info(): Print ppdu rate for tx or rx
* @pkt_type_array: rate type array contains rate info
* @pkt_type: packet type
*
* Return:void
*/
#ifdef WLAN_FEATURE_11BE
static inline void
dp_print_common_ppdu_rates_info(struct cdp_pkt_type *pkt_type_array,
enum cdp_packet_type pkt_type)
{
uint8_t mcs;
DP_PRINT_STATS("PPDU Count");
for (mcs = 0; mcs < MAX_MCS; mcs++) {
if (pkt_type == DOT11_AX) {
if (!dp_ppdu_rate_string[0][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
dp_ppdu_rate_string[0][mcs].mcs_type,
pkt_type_array->mcs_count[mcs]);
} else if (pkt_type == DOT11_BE) {
if (!dp_ppdu_rate_string[1][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
dp_ppdu_rate_string[1][mcs].mcs_type,
pkt_type_array->mcs_count[mcs]);
}
}
DP_PRINT_STATS("\n");
}
#else
static inline void
dp_print_common_ppdu_rates_info(struct cdp_pkt_type *pkt_type_array,
enum cdp_packet_type pkt_type)
{
uint8_t mcs;
DP_PRINT_STATS("PPDU Count");
for (mcs = 0; mcs < MAX_MCS; mcs++) {
if (!dp_ppdu_rate_string[0][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
dp_ppdu_rate_string[0][mcs].mcs_type,
pkt_type_array->mcs_count[mcs]);
}
DP_PRINT_STATS("\n");
}
#endif
/**
* dp_print_mu_be_ppdu_rates_info(): Print mu be rate for tx or rx
* @pkt_type_array: rate type array contains rate info
*
* Return:void
*/
#ifdef WLAN_FEATURE_11BE
static inline void
dp_print_mu_be_ppdu_rates_info(struct cdp_pkt_type *pkt_type_array)
{
uint8_t mcs, pkt_type;
DP_PRINT_STATS("PPDU Count");
for (pkt_type = 0; pkt_type < TXRX_TYPE_MU_MAX; pkt_type++) {
for (mcs = 0; mcs < MAX_MCS; mcs++) {
if (!dp_mu_rate_string[pkt_type][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
dp_mu_be_rate_string[pkt_type][mcs].mcs_type,
pkt_type_array[pkt_type].mcs_count[mcs]);
}
DP_PRINT_STATS("\n");
}
}
#endif
static inline void
dp_print_mu_ppdu_rates_info(struct cdp_rx_mu *rx_mu)
{
uint8_t mcs, pkt_type;
DP_PRINT_STATS("PPDU Count");
for (pkt_type = 0; pkt_type < TXRX_TYPE_MU_MAX; pkt_type++) {
for (mcs = 0; mcs < MAX_MCS; mcs++) {
if (!dp_mu_rate_string[pkt_type][mcs].valid)
continue;
DP_PRINT_STATS(" %s = %d",
dp_mu_rate_string[pkt_type][mcs].mcs_type,
rx_mu[pkt_type].ppdu.mcs_count[mcs]);
}
DP_PRINT_STATS("\n");
}
}
void dp_print_rx_rates(struct dp_vdev *vdev)
{
struct dp_pdev *pdev = (struct dp_pdev *)vdev->pdev;
uint8_t i;
uint8_t index = 0;
char nss[DP_NSS_LENGTH];
DP_PRINT_STATS("Rx Rate Info:\n");
dp_print_common_rates_info(pdev->stats.rx.pkt_type);
index = 0;
for (i = 0; i < SS_COUNT; i++) {
index += qdf_snprint(&nss[index], DP_NSS_LENGTH - index,
" %d", pdev->stats.rx.nss[i]);
}
DP_PRINT_STATS("NSS(1-8) = %s",
nss);
DP_PRINT_STATS("SGI = 0.8us %d 0.4us %d 1.6us %d 3.2us %d",
pdev->stats.rx.sgi_count[0],
pdev->stats.rx.sgi_count[1],
pdev->stats.rx.sgi_count[2],
pdev->stats.rx.sgi_count[3]);
DP_PRINT_STATS("BW Counts = 20MHZ %d, 40MHZ %d, 80MHZ %d, 160MHZ %d",
pdev->stats.rx.bw[0], pdev->stats.rx.bw[1],
pdev->stats.rx.bw[2], pdev->stats.rx.bw[3]);
DP_PRINT_STATS("Reception Type ="
"SU: %d MU_MIMO:%d MU_OFDMA:%d MU_OFDMA_MIMO:%d",
pdev->stats.rx.reception_type[0],
pdev->stats.rx.reception_type[1],
pdev->stats.rx.reception_type[2],
pdev->stats.rx.reception_type[3]);
DP_PRINT_STATS("Aggregation:\n");
DP_PRINT_STATS("Number of Msdu's Part of Ampdus = %d",
pdev->stats.rx.ampdu_cnt);
DP_PRINT_STATS("Number of Msdu's With No Mpdu Level Aggregation : %d",
pdev->stats.rx.non_ampdu_cnt);
DP_PRINT_STATS("Number of Msdu's Part of Amsdu: %d",
pdev->stats.rx.amsdu_cnt);
DP_PRINT_STATS("Number of Msdu's With No Msdu Level Aggregation: %d",
pdev->stats.rx.non_amsdu_cnt);
}
void dp_print_tx_rates(struct dp_vdev *vdev)
{
struct dp_pdev *pdev = (struct dp_pdev *)vdev->pdev;
DP_PRINT_STATS("Tx Rate Info:\n");
dp_print_common_rates_info(pdev->stats.tx.pkt_type);
DP_PRINT_STATS("SGI = 0.8us %d 0.4us %d 1.6us %d 3.2us %d",
pdev->stats.tx.sgi_count[0],
pdev->stats.tx.sgi_count[1],
pdev->stats.tx.sgi_count[2],
pdev->stats.tx.sgi_count[3]);
DP_PRINT_STATS("BW Counts = 20MHZ %d, 40MHZ %d, 80MHZ %d, 160MHZ %d",
pdev->stats.tx.bw[0], pdev->stats.tx.bw[1],
pdev->stats.tx.bw[2], pdev->stats.tx.bw[3]);
DP_PRINT_STATS("OFDMA = %d", pdev->stats.tx.ofdma);
DP_PRINT_STATS("STBC = %d", pdev->stats.tx.stbc);
DP_PRINT_STATS("LDPC = %d", pdev->stats.tx.ldpc);
DP_PRINT_STATS("Retries = %d", pdev->stats.tx.retries);
DP_PRINT_STATS("Last ack rssi = %d\n", pdev->stats.tx.last_ack_rssi);
DP_PRINT_STATS("Number of PPDU's with Punctured Preamble = %d",
pdev->stats.tx.pream_punct_cnt);
DP_PRINT_STATS("Aggregation:\n");
DP_PRINT_STATS("Number of Msdu's Part of Ampdus = %d",
pdev->stats.tx.ampdu_cnt);
DP_PRINT_STATS("Number of Msdu's With No Mpdu Level Aggregation : %d",
pdev->stats.tx.non_ampdu_cnt);
DP_PRINT_STATS("Number of Msdu's Part of Amsdu = %d",
pdev->stats.tx.amsdu_cnt);
DP_PRINT_STATS("Number of Msdu's With No Msdu Level Aggregation = %d",
pdev->stats.tx.non_amsdu_cnt);
}
/**
* dp_print_nss(): Print nss count
* @nss: printable nss count array
* @pnss: nss count array
* @ss_count: number of nss
*
* Return:void
*/
static void dp_print_nss(char *nss, uint32_t *pnss, uint32_t ss_count)
{
uint32_t index;
uint8_t i;
index = 0;
for (i = 0; i < ss_count; i++) {
index += qdf_snprint(&nss[index], DP_NSS_LENGTH - index,
" %d", *(pnss + i));
}
}
/**
* dp_print_jitter_stats(): Print per-tid jitter stats
* @peer: DP peer object
* @pdev: DP pdev object
*
* Return: void
*/
#ifdef WLAN_PEER_JITTER
static void dp_print_jitter_stats(struct dp_peer *peer, struct dp_pdev *pdev)
{
uint8_t tid = 0;
if (!pdev || !wlan_cfg_get_dp_pdev_nss_enabled(pdev->wlan_cfg_ctx))
return;
if (!peer->txrx_peer || !peer->txrx_peer->jitter_stats)
return;
DP_PRINT_STATS("Per TID Tx HW Enqueue-Comp Jitter Stats:\n");
for (tid = 0; tid < qdf_min(CDP_DATA_TID_MAX, DP_MAX_TIDS); tid++) {
struct cdp_peer_tid_stats *rx_tid =
&peer->txrx_peer->jitter_stats[tid];
DP_PRINT_STATS("Node tid = %d\n"
"Average Jiiter : %u (us)\n"
"Average Delay : %u (us)\n"
"Total Average error count : %llu\n"
"Total Success Count : %llu\n"
"Total Drop : %llu\n",
tid,
rx_tid->tx_avg_jitter,
rx_tid->tx_avg_delay,
rx_tid->tx_avg_err,
rx_tid->tx_total_success,
rx_tid->tx_drop);
}
}
#else
static void dp_print_jitter_stats(struct dp_peer *peer, struct dp_pdev *pdev)
{
}
#endif /* WLAN_PEER_JITTER */
#ifdef QCA_PEER_EXT_STATS
/*
* dp_print_hist_stats() : Print delay histogram
* @hstats: Histogram stats
*
* Return: void
*/
static void dp_print_hist_stats(struct cdp_hist_stats *hstats,
enum cdp_hist_types hist_type)
{
uint8_t index = 0;
uint64_t count = 0;
bool hist_delay_data = false;
for (index = 0; index < CDP_HIST_BUCKET_MAX; index++) {
count = hstats->hist.freq[index];
if (!count)
continue;
hist_delay_data = true;
if (hist_type == CDP_HIST_TYPE_SW_ENQEUE_DELAY)
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_sw_enq_delay(index),
count);
else if (hist_type == CDP_HIST_TYPE_HW_COMP_DELAY)
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_fw_to_hw_delay(index),
count);
else if (hist_type == CDP_HIST_TYPE_REAP_STACK)
DP_PRINT_STATS("%s: Packets = %llu",
dp_vow_str_intfrm_delay(index),
count);
}
/*
* If none of the buckets have any packets,
* there is no need to display the stats.
*/
if (hist_delay_data) {
DP_PRINT_STATS("Min = %u", hstats->min);
DP_PRINT_STATS("Max = %u", hstats->max);
DP_PRINT_STATS("Avg = %u\n", hstats->avg);
}
}
/*
* dp_accumulate_delay_tid_stats(): Accumulate the tid stats to the
* hist stats.
* @soc: DP SoC handle
* @stats: cdp_delay_tid stats
* @dst_hstats: Destination histogram to copy tid stats
* @tid: TID value
*
* Return: void
*/
static void dp_accumulate_delay_tid_stats(struct dp_soc *soc,
struct cdp_delay_tid_stats stats[]
[CDP_MAX_TXRX_CTX],
struct cdp_hist_stats *dst_hstats,
uint8_t tid, uint32_t mode)
{
uint8_t ring_id;
if (wlan_cfg_get_dp_soc_nss_cfg(soc->wlan_cfg_ctx)) {
struct cdp_delay_tid_stats *dstats =
&stats[tid][0];
struct cdp_hist_stats *src_hstats = NULL;
switch (mode) {
case CDP_HIST_TYPE_SW_ENQEUE_DELAY:
src_hstats = &dstats->tx_delay.tx_swq_delay;
break;
case CDP_HIST_TYPE_HW_COMP_DELAY:
src_hstats = &dstats->tx_delay.hwtx_delay;
break;
case CDP_HIST_TYPE_REAP_STACK:
src_hstats = &dstats->rx_delay.to_stack_delay;
break;
default:
break;
}
if (src_hstats)
dp_copy_hist_stats(src_hstats, dst_hstats);
return;
}
for (ring_id = 0; ring_id < CDP_MAX_TXRX_CTX; ring_id++) {
struct cdp_delay_tid_stats *dstats =
&stats[tid][ring_id];
struct cdp_hist_stats *src_hstats = NULL;
switch (mode) {
case CDP_HIST_TYPE_SW_ENQEUE_DELAY:
src_hstats = &dstats->tx_delay.tx_swq_delay;
break;
case CDP_HIST_TYPE_HW_COMP_DELAY:
src_hstats = &dstats->tx_delay.hwtx_delay;
break;
case CDP_HIST_TYPE_REAP_STACK:
src_hstats = &dstats->rx_delay.to_stack_delay;
break;
default:
break;
}
if (src_hstats)
dp_accumulate_hist_stats(src_hstats, dst_hstats);
}
}
/*
* dp_peer_print_delay_stats(): Print peer delay stats
* @soc: DP SoC handle
* @peer: DP peer handle
*
* Return: void
*/
void dp_peer_print_tx_delay_stats(struct dp_pdev *pdev,
struct dp_peer *peer)
{
struct dp_peer_delay_stats *delay_stats;
struct dp_soc *soc = NULL;
struct cdp_hist_stats hist_stats;
uint8_t tid;
if (!peer || !peer->txrx_peer)
return;
if (!pdev || !pdev->soc)
return;
soc = pdev->soc;
if (!wlan_cfg_is_peer_ext_stats_enabled(soc->wlan_cfg_ctx))
return;
delay_stats = peer->txrx_peer->delay_stats;
if (!delay_stats)
return;
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
DP_PRINT_STATS("----TID: %d----", tid);
DP_PRINT_STATS("Software Enqueue Delay:");
dp_hist_init(&hist_stats, CDP_HIST_TYPE_SW_ENQEUE_DELAY);
dp_accumulate_delay_tid_stats(soc, delay_stats->delay_tid_stats,
&hist_stats, tid,
CDP_HIST_TYPE_SW_ENQEUE_DELAY);
dp_print_hist_stats(&hist_stats, CDP_HIST_TYPE_SW_ENQEUE_DELAY);
DP_PRINT_STATS("Hardware Transmission Delay:");
dp_hist_init(&hist_stats, CDP_HIST_TYPE_HW_COMP_DELAY);
dp_accumulate_delay_tid_stats(soc, delay_stats->delay_tid_stats,
&hist_stats, tid,
CDP_HIST_TYPE_HW_COMP_DELAY);
dp_print_hist_stats(&hist_stats, CDP_HIST_TYPE_HW_COMP_DELAY);
}
}
/*
* dp_peer_print_rx_delay_stats(): Print peer delay stats
* @soc: DP SoC handle
* @peer: DP peer handle
*
* Return: void
*/
void dp_peer_print_rx_delay_stats(struct dp_pdev *pdev,
struct dp_peer *peer)
{
struct dp_peer_delay_stats *delay_stats;
struct dp_soc *soc = NULL;
struct cdp_hist_stats hist_stats;
uint8_t tid;
if (!peer || !peer->txrx_peer)
return;
if (!pdev || !pdev->soc)
return;
soc = pdev->soc;
if (!wlan_cfg_is_peer_ext_stats_enabled(soc->wlan_cfg_ctx))
return;
delay_stats = peer->txrx_peer->delay_stats;
if (!delay_stats)
return;
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
DP_PRINT_STATS("----TID: %d----", tid);
DP_PRINT_STATS("Rx Reap2stack Deliver Delay:");
dp_hist_init(&hist_stats, CDP_HIST_TYPE_REAP_STACK);
dp_accumulate_delay_tid_stats(soc, delay_stats->delay_tid_stats,
&hist_stats, tid,
CDP_HIST_TYPE_REAP_STACK);
dp_print_hist_stats(&hist_stats, CDP_HIST_TYPE_REAP_STACK);
}
}
#else
static inline void dp_peer_print_tx_delay_stats(struct dp_pdev *pdev,
struct dp_peer *peer)
{
}
static inline void dp_peer_print_rx_delay_stats(struct dp_pdev *pdev,
struct dp_peer *peer)
{
}
#endif
#ifdef WLAN_FEATURE_11BE
void dp_print_peer_txrx_stats_be(struct cdp_peer_stats *peer_stats,
enum peer_stats_type stats_type)
{
uint8_t i;
if (stats_type == PEER_TX_STATS) {
DP_PRINT_STATS("BW Counts = 20MHZ %d 40MHZ %d 80MHZ %d 160MHZ %d 320MHZ %d\n",
peer_stats->tx.bw[CMN_BW_20MHZ],
peer_stats->tx.bw[CMN_BW_40MHZ],
peer_stats->tx.bw[CMN_BW_80MHZ],
peer_stats->tx.bw[CMN_BW_160MHZ],
peer_stats->tx.bw[CMN_BW_320MHZ]);
DP_PRINT_STATS("Punctured BW Counts = NO_PUNC %d 20MHz %d 40MHz %d 80MHz %d 120MHz %d\n",
peer_stats->tx.punc_bw[NO_PUNCTURE],
peer_stats->tx.punc_bw[PUNCTURED_20MHZ],
peer_stats->tx.punc_bw[PUNCTURED_40MHZ],
peer_stats->tx.punc_bw[PUNCTURED_80MHZ],
peer_stats->tx.punc_bw[PUNCTURED_120MHZ]);
DP_PRINT_STATS("RU Locations RU[26 52 52_26 106 106_26 242 484 484_242 996 996_484 996_484_242 2X996 2X996_484 3X996 3X996_484 4X996]:");
for (i = 0; i < RU_INDEX_MAX; i++)
DP_PRINT_STATS("%s: %d", cdp_ru_string[i].ru_type,
peer_stats->tx.ru_loc[i].num_msdu);
dp_print_common_ppdu_rates_info(&peer_stats->tx.su_be_ppdu_cnt,
DOT11_BE);
dp_print_mu_be_ppdu_rates_info(&peer_stats->tx.mu_be_ppdu_cnt[0]);
} else {
DP_PRINT_STATS("BW Counts = 20MHZ %d 40MHZ %d 80MHZ %d 160MHZ %d 320MHZ %d",
peer_stats->rx.bw[CMN_BW_20MHZ],
peer_stats->rx.bw[CMN_BW_40MHZ],
peer_stats->rx.bw[CMN_BW_80MHZ],
peer_stats->rx.bw[CMN_BW_160MHZ],
peer_stats->rx.bw[CMN_BW_320MHZ]);
DP_PRINT_STATS("Punctured BW Counts = NO_PUNC %d 20MHz %d 40MHz %d 80MHz %d 120MHz %d\n",
peer_stats->rx.punc_bw[NO_PUNCTURE],
peer_stats->rx.punc_bw[PUNCTURED_20MHZ],
peer_stats->rx.punc_bw[PUNCTURED_40MHZ],
peer_stats->rx.punc_bw[PUNCTURED_80MHZ],
peer_stats->rx.punc_bw[PUNCTURED_120MHZ]);
dp_print_common_ppdu_rates_info(&peer_stats->rx.su_be_ppdu_cnt,
DOT11_BE);
dp_print_mu_be_ppdu_rates_info(&peer_stats->rx.mu_be_ppdu_cnt[0]);
}
}
#else
void dp_print_peer_txrx_stats_be(struct cdp_peer_stats *peer_stats,
enum peer_stats_type stats_type)
{
}
#endif
void dp_print_peer_txrx_stats_li(struct cdp_peer_stats *peer_stats,
enum peer_stats_type stats_type)
{
if (stats_type == PEER_TX_STATS) {
DP_PRINT_STATS("BW Counts = 20MHZ %d 40MHZ %d 80MHZ %d 160MHZ %d\n",
peer_stats->tx.bw[CMN_BW_20MHZ],
peer_stats->tx.bw[CMN_BW_40MHZ],
peer_stats->tx.bw[CMN_BW_80MHZ],
peer_stats->tx.bw[CMN_BW_160MHZ]);
DP_PRINT_STATS("RU Locations RU[26 52 106 242 484 996]:");
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_26_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_26_INDEX].num_msdu);
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_52_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_52_INDEX].num_msdu);
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_106_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_106_INDEX].num_msdu);
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_242_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_242_INDEX].num_msdu);
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_484_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_484_INDEX].num_msdu);
DP_PRINT_STATS("%s: %d", cdp_ru_string[RU_996_INDEX].ru_type,
peer_stats->tx.ru_loc[RU_996_INDEX].num_msdu);
} else {
DP_PRINT_STATS("BW Counts = 20MHZ %d 40MHZ %d 80MHZ %d 160MHZ %d",
peer_stats->rx.bw[CMN_BW_20MHZ],
peer_stats->rx.bw[CMN_BW_40MHZ],
peer_stats->rx.bw[CMN_BW_80MHZ],
peer_stats->rx.bw[CMN_BW_160MHZ]);
}
}
#ifdef REO_SHARED_QREF_TABLE_EN
static void dp_peer_print_reo_qref_table(struct dp_peer *peer)
{
struct hal_soc *hal;
struct dp_peer *mld_peer;
int i;
uint64_t *reo_qref_addr;
uint32_t peer_idx;
hal = (struct hal_soc *)peer->vdev->pdev->soc->hal_soc;
peer_idx = (peer->peer_id * DP_MAX_TIDS);
reo_qref_addr = &hal->reo_qref.non_mlo_reo_qref_table_vaddr[peer_idx];
mld_peer = DP_GET_MLD_PEER_FROM_PEER(peer);
if (mld_peer) {
peer = mld_peer;
hal = (struct hal_soc *)
peer->vdev->pdev->soc->hal_soc;
peer_idx = (mld_peer->peer_id - HAL_ML_PEER_ID_START) *
DP_MAX_TIDS;
reo_qref_addr = &hal->reo_qref.mlo_reo_qref_table_vaddr[peer_idx];
}
DP_PRINT_STATS("Reo Qref table for peer_id: %d\n", peer->peer_id);
for (i = 0; i < DP_MAX_TIDS; i++)
DP_PRINT_STATS(" Tid [%d] :%llx", i, reo_qref_addr[i]);
}
#else
static inline void dp_peer_print_reo_qref_table(struct dp_peer *peer)
{
}
#endif
void dp_print_peer_stats(struct dp_peer *peer,
struct cdp_peer_stats *peer_stats)
{
uint8_t i;
uint32_t index;
uint32_t j;
char nss[DP_NSS_LENGTH];
char mu_group_id[DP_MU_GROUP_LENGTH];
struct dp_pdev *pdev;
uint32_t *pnss;
enum cdp_mu_packet_type rx_mu_type;
struct cdp_rx_mu *rx_mu;
pdev = peer->vdev->pdev;
DP_PRINT_STATS("Node Tx Stats:\n");
DP_PRINT_STATS("Total Packet Completions = %d",
peer_stats->tx.comp_pkt.num);
DP_PRINT_STATS("Total Bytes Completions = %llu",
peer_stats->tx.comp_pkt.bytes);
DP_PRINT_STATS("Success Packets = %d",
peer_stats->tx.tx_success.num);
DP_PRINT_STATS("Success Bytes = %llu",
peer_stats->tx.tx_success.bytes);
DP_PRINT_STATS("Unicast Success Packets = %d",
peer_stats->tx.ucast.num);
DP_PRINT_STATS("Unicast Success Bytes = %llu",
peer_stats->tx.ucast.bytes);
DP_PRINT_STATS("Multicast Success Packets = %d",
peer_stats->tx.mcast.num);
DP_PRINT_STATS("Multicast Success Bytes = %llu",
peer_stats->tx.mcast.bytes);
DP_PRINT_STATS("Broadcast Success Packets = %d",
peer_stats->tx.bcast.num);
DP_PRINT_STATS("Broadcast Success Bytes = %llu",
peer_stats->tx.bcast.bytes);
DP_PRINT_STATS("Packets Failed = %d",
peer_stats->tx.tx_failed);
DP_PRINT_STATS("Packets In OFDMA = %d",
peer_stats->tx.ofdma);
DP_PRINT_STATS("Packets In STBC = %d",
peer_stats->tx.stbc);
DP_PRINT_STATS("Packets In LDPC = %d",
peer_stats->tx.ldpc);
DP_PRINT_STATS("Packet Retries = %d",
peer_stats->tx.retries);
DP_PRINT_STATS("MSDU's Part of AMSDU = %d",
peer_stats->tx.amsdu_cnt);
DP_PRINT_STATS("Msdu's As Part of Ampdu = %d",
peer_stats->tx.non_ampdu_cnt);
DP_PRINT_STATS("Msdu's As Ampdu = %d",
peer_stats->tx.ampdu_cnt);
DP_PRINT_STATS("Last Packet RSSI = %d",
peer_stats->tx.last_ack_rssi);
DP_PRINT_STATS("Dropped At FW: Removed Pkts = %u",
peer_stats->tx.dropped.fw_rem.num);
if (pdev && !wlan_cfg_get_dp_pdev_nss_enabled(pdev->wlan_cfg_ctx)) {
DP_PRINT_STATS("Dropped At FW: Removed bytes = %llu",
peer_stats->tx.dropped.fw_rem.bytes);
}
DP_PRINT_STATS("Dropped At FW: Removed transmitted = %d",
peer_stats->tx.dropped.fw_rem_tx);
DP_PRINT_STATS("Dropped At FW: Removed Untransmitted = %d",
peer_stats->tx.dropped.fw_rem_notx);
DP_PRINT_STATS("Dropped At FW: removed untransmitted fw_reason1 = %u",
peer_stats->tx.dropped.fw_reason1);
DP_PRINT_STATS("Dropped At FW: removed untransmitted fw_reason2 = %u",
peer_stats->tx.dropped.fw_reason2);
DP_PRINT_STATS("Dropped At FW: removed untransmitted fw_reason3 = %u",
peer_stats->tx.dropped.fw_reason3);
DP_PRINT_STATS("Dropped At FW:removed untransmitted disable queue = %u",
peer_stats->tx.dropped.fw_rem_queue_disable);
DP_PRINT_STATS("Dropped At FW: removed untransmitted no match = %u",
peer_stats->tx.dropped.fw_rem_no_match);
DP_PRINT_STATS("Dropped due to HW threshold criteria = %u",
peer_stats->tx.dropped.drop_threshold);
DP_PRINT_STATS("Dropped due Link desc not available drop in HW = %u",
peer_stats->tx.dropped.drop_link_desc_na);
DP_PRINT_STATS("Drop bit set or invalid flow = %u",
peer_stats->tx.dropped.invalid_drop);
DP_PRINT_STATS("MCAST vdev drop in HW = %u",
peer_stats->tx.dropped.mcast_vdev_drop);
DP_PRINT_STATS("Dropped : Age Out = %d",
peer_stats->tx.dropped.age_out);
DP_PRINT_STATS("NAWDS : ");
DP_PRINT_STATS("Nawds multicast Drop Tx Packet = %d",
peer_stats->tx.nawds_mcast_drop);
DP_PRINT_STATS(" Nawds multicast Tx Packet Count = %d",
peer_stats->tx.nawds_mcast.num);
DP_PRINT_STATS(" Nawds multicast Tx Packet Bytes = %llu",
peer_stats->tx.nawds_mcast.bytes);
DP_PRINT_STATS("Rate Info:");
dp_print_common_rates_info(peer_stats->tx.pkt_type);
DP_PRINT_STATS("SGI = 0.8us %d 0.4us %d 1.6us %d 3.2us %d",
peer_stats->tx.sgi_count[0],
peer_stats->tx.sgi_count[1],
peer_stats->tx.sgi_count[2],
peer_stats->tx.sgi_count[3]);
DP_PRINT_STATS("Excess Retries per AC ");
DP_PRINT_STATS(" Best effort = %d",
peer_stats->tx.excess_retries_per_ac[0]);
DP_PRINT_STATS(" Background= %d",
peer_stats->tx.excess_retries_per_ac[1]);
DP_PRINT_STATS(" Video = %d",
peer_stats->tx.excess_retries_per_ac[2]);
DP_PRINT_STATS(" Voice = %d",
peer_stats->tx.excess_retries_per_ac[3]);
pnss = &peer_stats->tx.nss[0];
dp_print_nss(nss, pnss, SS_COUNT);
DP_PRINT_STATS("NSS(1-8) = %s", nss);
DP_PRINT_STATS("Transmit Type :");
DP_PRINT_STATS("SU %d, MU_MIMO %d, MU_OFDMA %d, MU_MIMO_OFDMA %d",
peer_stats->tx.transmit_type[SU].num_msdu,
peer_stats->tx.transmit_type[MU_MIMO].num_msdu,
peer_stats->tx.transmit_type[MU_OFDMA].num_msdu,
peer_stats->tx.transmit_type[MU_MIMO_OFDMA].num_msdu);
for (i = 0; i < MAX_MU_GROUP_ID;) {
index = 0;
for (j = 0; j < DP_MU_GROUP_SHOW && i < MAX_MU_GROUP_ID;
j++) {
index += qdf_snprint(&mu_group_id[index],
DP_MU_GROUP_LENGTH - index,
" %d",
peer_stats->tx.mu_group_id[i]);
i++;
}
DP_PRINT_STATS("User position list for GID %02d->%d: [%s]",
i - DP_MU_GROUP_SHOW, i - 1, mu_group_id);
}
DP_PRINT_STATS("Last Packet RU index [%d], Size [%d]",
peer_stats->tx.ru_start, peer_stats->tx.ru_tones);
DP_PRINT_STATS("Aggregation:");
DP_PRINT_STATS("Number of Msdu's Part of Amsdu = %d",
peer_stats->tx.amsdu_cnt);
DP_PRINT_STATS("Number of Msdu's With No Msdu Level Aggregation = %d",
peer_stats->tx.non_amsdu_cnt);
DP_PRINT_STATS("Bytes and Packets transmitted in last one sec:");
DP_PRINT_STATS(" Bytes transmitted in last sec: %d",
peer_stats->tx.tx_byte_rate);
DP_PRINT_STATS(" Data transmitted in last sec: %d",
peer_stats->tx.tx_data_rate);
if (pdev && pdev->soc->arch_ops.txrx_print_peer_stats)
pdev->soc->arch_ops.txrx_print_peer_stats(peer_stats,
PEER_TX_STATS);
if (!IS_MLO_DP_LINK_PEER(peer)) {
dp_print_jitter_stats(peer, pdev);
dp_peer_print_tx_delay_stats(pdev, peer);
}
DP_PRINT_STATS("Node Rx Stats:");
DP_PRINT_STATS("Packets Sent To Stack = %d",
peer_stats->rx.to_stack.num);
DP_PRINT_STATS("Bytes Sent To Stack = %llu",
peer_stats->rx.to_stack.bytes);
for (i = 0; i < CDP_MAX_RX_RINGS; i++) {
DP_PRINT_STATS("Ring Id = %d", i);
DP_PRINT_STATS(" Packets Received = %d",
peer_stats->rx.rcvd_reo[i].num);
DP_PRINT_STATS(" Bytes Received = %llu",
peer_stats->rx.rcvd_reo[i].bytes);
}
DP_PRINT_STATS("Multicast Packets Received = %d",
peer_stats->rx.multicast.num);
DP_PRINT_STATS("Multicast Bytes Received = %llu",
peer_stats->rx.multicast.bytes);
DP_PRINT_STATS("Broadcast Packets Received = %d",
peer_stats->rx.bcast.num);
DP_PRINT_STATS("Broadcast Bytes Received = %llu",
peer_stats->rx.bcast.bytes);
DP_PRINT_STATS("Intra BSS Packets Received = %d",
peer_stats->rx.intra_bss.pkts.num);
DP_PRINT_STATS("Intra BSS Bytes Received = %llu",
peer_stats->rx.intra_bss.pkts.bytes);
DP_PRINT_STATS("Raw Packets Received = %d",
peer_stats->rx.raw.num);
DP_PRINT_STATS("Raw Bytes Received = %llu",
peer_stats->rx.raw.bytes);
DP_PRINT_STATS("Errors: MIC Errors = %d",
peer_stats->rx.err.mic_err);
DP_PRINT_STATS("Errors: Decryption Errors = %d",
peer_stats->rx.err.decrypt_err);
DP_PRINT_STATS("Errors: PN Errors = %d",
peer_stats->rx.err.pn_err);
DP_PRINT_STATS("Errors: OOR Errors = %d",
peer_stats->rx.err.oor_err);
DP_PRINT_STATS("Errors: 2k Jump Errors = %d",
peer_stats->rx.err.jump_2k_err);
DP_PRINT_STATS("Errors: RXDMA Wifi Parse Errors = %d",
peer_stats->rx.err.rxdma_wifi_parse_err);
DP_PRINT_STATS("Msdu's Received As Part of Ampdu = %d",
peer_stats->rx.non_ampdu_cnt);
DP_PRINT_STATS("Msdu's Recived As Ampdu = %d",
peer_stats->rx.ampdu_cnt);
DP_PRINT_STATS("Msdu's Received Not Part of Amsdu's = %d",
peer_stats->rx.non_amsdu_cnt);
DP_PRINT_STATS("MSDUs Received As Part of Amsdu = %d",
peer_stats->rx.amsdu_cnt);
DP_PRINT_STATS("NAWDS : ");
DP_PRINT_STATS(" Nawds multicast Drop Rx Packet = %d",
peer_stats->rx.nawds_mcast_drop);
DP_PRINT_STATS("SGI = 0.8us %d 0.4us %d 1.6us %d 3.2us %d",
peer_stats->rx.sgi_count[0],
peer_stats->rx.sgi_count[1],
peer_stats->rx.sgi_count[2],
peer_stats->rx.sgi_count[3]);
DP_PRINT_STATS("MSDU Reception Type");
DP_PRINT_STATS("SU %d MU_MIMO %d MU_OFDMA %d MU_OFDMA_MIMO %d",
peer_stats->rx.reception_type[0],
peer_stats->rx.reception_type[1],
peer_stats->rx.reception_type[2],
peer_stats->rx.reception_type[3]);
DP_PRINT_STATS("PPDU Reception Type");
DP_PRINT_STATS("SU %d MU_MIMO %d MU_OFDMA %d MU_OFDMA_MIMO %d",
peer_stats->rx.ppdu_cnt[0],
peer_stats->rx.ppdu_cnt[1],
peer_stats->rx.ppdu_cnt[2],
peer_stats->rx.ppdu_cnt[3]);
dp_print_common_rates_info(peer_stats->rx.pkt_type);
dp_print_common_ppdu_rates_info(&peer_stats->rx.su_ax_ppdu_cnt,
DOT11_AX);
dp_print_mu_ppdu_rates_info(&peer_stats->rx.rx_mu[0]);
pnss = &peer_stats->rx.nss[0];
dp_print_nss(nss, pnss, SS_COUNT);
DP_PRINT_STATS("MSDU Count");
DP_PRINT_STATS(" NSS(1-8) = %s", nss);
DP_PRINT_STATS("reception mode SU");
pnss = &peer_stats->rx.ppdu_nss[0];
dp_print_nss(nss, pnss, SS_COUNT);
DP_PRINT_STATS(" PPDU Count");
DP_PRINT_STATS(" NSS(1-8) = %s", nss);
DP_PRINT_STATS(" MPDU OK = %d, MPDU Fail = %d",
peer_stats->rx.mpdu_cnt_fcs_ok,
peer_stats->rx.mpdu_cnt_fcs_err);
for (rx_mu_type = 0; rx_mu_type < TXRX_TYPE_MU_MAX; rx_mu_type++) {
DP_PRINT_STATS("reception mode %s",
mu_reception_mode[rx_mu_type]);
rx_mu = &peer_stats->rx.rx_mu[rx_mu_type];
pnss = &rx_mu->ppdu_nss[0];
dp_print_nss(nss, pnss, SS_COUNT);
DP_PRINT_STATS(" PPDU Count");
DP_PRINT_STATS(" NSS(1-8) = %s", nss);
DP_PRINT_STATS(" MPDU OK = %d, MPDU Fail = %d",
rx_mu->mpdu_cnt_fcs_ok,
rx_mu->mpdu_cnt_fcs_err);
}
DP_PRINT_STATS("Aggregation:");
DP_PRINT_STATS(" Msdu's Part of Ampdu = %d",
peer_stats->rx.ampdu_cnt);
DP_PRINT_STATS(" Msdu's With No Mpdu Level Aggregation = %d",
peer_stats->rx.non_ampdu_cnt);
DP_PRINT_STATS(" Msdu's Part of Amsdu = %d",
peer_stats->rx.amsdu_cnt);
DP_PRINT_STATS(" Msdu's With No Msdu Level Aggregation = %d",
peer_stats->rx.non_amsdu_cnt);
DP_PRINT_STATS("Bytes and Packets received in last one sec:");
DP_PRINT_STATS(" Bytes received in last sec: %d",
peer_stats->rx.rx_byte_rate);
DP_PRINT_STATS(" Data received in last sec: %d",
peer_stats->rx.rx_data_rate);
DP_PRINT_STATS("Multipass Rx Packet Drop = %d",
peer_stats->rx.multipass_rx_pkt_drop);
DP_PRINT_STATS("Peer Unauth Rx Packet Drop = %d",
peer_stats->rx.peer_unauth_rx_pkt_drop);
DP_PRINT_STATS("Policy Check Rx Packet Drop = %d",
peer_stats->rx.policy_check_drop);
if (pdev && pdev->soc->arch_ops.txrx_print_peer_stats)
pdev->soc->arch_ops.txrx_print_peer_stats(peer_stats,
PEER_RX_STATS);
if (!IS_MLO_DP_LINK_PEER(peer))
dp_peer_print_rx_delay_stats(pdev, peer);
dp_peer_print_reo_qref_table(peer);
}
void dp_print_per_ring_stats(struct dp_soc *soc)
{
uint8_t ring;
uint16_t core;
uint64_t total_packets;
DP_PRINT_STATS("Reo packets per ring:");
for (ring = 0; ring < MAX_REO_DEST_RINGS; ring++) {
total_packets = 0;
DP_PRINT_STATS("Packets on ring %u:", ring);
for (core = 0; core < num_possible_cpus(); core++) {
if (!soc->stats.rx.ring_packets[core][ring])
continue;
DP_PRINT_STATS("Packets arriving on core %u: %llu",
core,
soc->stats.rx.ring_packets[core][ring]);
total_packets += soc->stats.rx.ring_packets[core][ring];
}
DP_PRINT_STATS("Total packets on ring %u: %llu",
ring, total_packets);
}
}
void dp_txrx_path_stats(struct dp_soc *soc)
{
uint8_t error_code;
uint8_t loop_pdev;
struct dp_pdev *pdev;
uint8_t i;
if (!soc) {
dp_err("%s: Invalid access", __func__);
return;
}
for (loop_pdev = 0; loop_pdev < soc->pdev_count; loop_pdev++) {
pdev = soc->pdev_list[loop_pdev];
dp_aggregate_pdev_stats(pdev);
DP_PRINT_STATS("Tx path Statistics:");
DP_PRINT_STATS("from stack: %u msdus (%llu bytes)",
pdev->stats.tx_i.rcvd.num,
pdev->stats.tx_i.rcvd.bytes);
DP_PRINT_STATS("processed from host: %u msdus (%llu bytes)",
pdev->stats.tx_i.processed.num,
pdev->stats.tx_i.processed.bytes);
DP_PRINT_STATS("successfully transmitted: %u msdus (%llu bytes)",
pdev->stats.tx.tx_success.num,
pdev->stats.tx.tx_success.bytes);
for (i = 0; i < soc->num_tcl_data_rings; i++) {
DP_PRINT_STATS("Enqueue to SW2TCL%u: %u", i + 1,
soc->stats.tx.tcl_enq[i]);
DP_PRINT_STATS("TX completions reaped from ring %u: %u",
i, soc->stats.tx.tx_comp[i]);
}
DP_PRINT_STATS("Invalid release source: %u",
soc->stats.tx.invalid_release_source);
DP_PRINT_STATS("Dropped in host:");
DP_PRINT_STATS("Total packets dropped: %u,",
pdev->stats.tx_i.dropped.dropped_pkt.num);
DP_PRINT_STATS("Descriptor not available: %u",
pdev->stats.tx_i.dropped.desc_na.num);
DP_PRINT_STATS("Ring full: %u",
pdev->stats.tx_i.dropped.ring_full);
DP_PRINT_STATS("Enqueue fail: %u",
pdev->stats.tx_i.dropped.enqueue_fail);
DP_PRINT_STATS("Pkt dropped in vdev-id check: %u",
pdev->stats.tx_i.dropped.fail_per_pkt_vdev_id_check);
DP_PRINT_STATS("DMA Error: %u",
pdev->stats.tx_i.dropped.dma_error);
DP_PRINT_STATS("Dropped in hardware:");
DP_PRINT_STATS("total packets dropped: %u",
pdev->stats.tx.tx_failed);
DP_PRINT_STATS("mpdu age out: %u",
pdev->stats.tx.dropped.age_out);
DP_PRINT_STATS("firmware removed packets: %u (%llu bytes)",
pdev->stats.tx.dropped.fw_rem.num,
pdev->stats.tx.dropped.fw_rem.bytes);
DP_PRINT_STATS("firmware removed tx: %u",
pdev->stats.tx.dropped.fw_rem_tx);
DP_PRINT_STATS("firmware removed notx %u",
pdev->stats.tx.dropped.fw_rem_notx);
DP_PRINT_STATS("Invalid peer on tx path: %u",
pdev->soc->stats.tx.tx_invalid_peer.num);
DP_PRINT_STATS("Tx desc freed in non-completion path: %u",
pdev->soc->stats.tx.tx_comp_exception);
DP_PRINT_STATS("Tx packets sent per interrupt:");
DP_PRINT_STATS("Single Packet: %u",
pdev->stats.tx_comp_histogram.pkts_1);
DP_PRINT_STATS("2-20 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_2_20);
DP_PRINT_STATS("21-40 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_21_40);
DP_PRINT_STATS("41-60 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_41_60);
DP_PRINT_STATS("61-80 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_61_80);
DP_PRINT_STATS("81-100 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_81_100);
DP_PRINT_STATS("101-200 Packets: %u",
pdev->stats.tx_comp_histogram.pkts_101_200);
DP_PRINT_STATS(" 201+ Packets: %u",
pdev->stats.tx_comp_histogram.pkts_201_plus);
DP_PRINT_STATS("Rx path statistics");
DP_PRINT_STATS("delivered %u msdus ( %llu bytes),",
pdev->stats.rx.to_stack.num,
pdev->stats.rx.to_stack.bytes);
for (i = 0; i < CDP_MAX_RX_RINGS; i++) {
if (!pdev->stats.rx.rcvd_reo[i].num)
continue;
DP_PRINT_STATS(
"received on reo[%d] %u msdus( %llu bytes),",
i, pdev->stats.rx.rcvd_reo[i].num,
pdev->stats.rx.rcvd_reo[i].bytes);
}
DP_PRINT_STATS("intra-bss packets %u msdus ( %llu bytes),",
pdev->stats.rx.intra_bss.pkts.num,
pdev->stats.rx.intra_bss.pkts.bytes);
DP_PRINT_STATS("intra-bss fails %u msdus ( %llu bytes),",
pdev->stats.rx.intra_bss.fail.num,
pdev->stats.rx.intra_bss.fail.bytes);
DP_PRINT_STATS("intra-bss no mdns fwds %u msdus",
pdev->stats.rx.intra_bss.mdns_no_fwd);
DP_PRINT_STATS("intra-bss EAPOL drops: %u",
soc->stats.rx.err.intrabss_eapol_drop);
DP_PRINT_STATS("raw packets %u msdus ( %llu bytes),",
pdev->stats.rx.raw.num,
pdev->stats.rx.raw.bytes);
DP_PRINT_STATS("mic errors %u",
pdev->stats.rx.err.mic_err);
DP_PRINT_STATS("Invalid peer on rx path: %u",
pdev->soc->stats.rx.err.rx_invalid_peer.num);
DP_PRINT_STATS("sw_peer_id invalid %u",
pdev->soc->stats.rx.err.rx_invalid_peer_id.num);
DP_PRINT_STATS("packet_len invalid %u",
pdev->soc->stats.rx.err.rx_invalid_pkt_len.num);
DP_PRINT_STATS("sa or da idx invalid %u",
pdev->soc->stats.rx.err.invalid_sa_da_idx);
DP_PRINT_STATS("defrag peer uninit %u",
pdev->soc->stats.rx.err.defrag_peer_uninit);
DP_PRINT_STATS("pkts delivered no peer %u",
pdev->soc->stats.rx.err.pkt_delivered_no_peer);
DP_PRINT_STATS("RX invalid cookie: %d",
soc->stats.rx.err.invalid_cookie);
DP_PRINT_STATS("RX stale cookie: %d",
soc->stats.rx.err.stale_cookie);
DP_PRINT_STATS("2k jump delba sent: %u",
pdev->soc->stats.rx.err.rx_2k_jump_delba_sent);
DP_PRINT_STATS("2k jump msdu to stack: %u",
pdev->soc->stats.rx.err.rx_2k_jump_to_stack);
DP_PRINT_STATS("2k jump msdu drop: %u",
pdev->soc->stats.rx.err.rx_2k_jump_drop);
DP_PRINT_STATS("REO err oor msdu to stack %u",
pdev->soc->stats.rx.err.reo_err_oor_to_stack);
DP_PRINT_STATS("REO err oor msdu drop: %u",
pdev->soc->stats.rx.err.reo_err_oor_drop);
DP_PRINT_STATS("Rx err msdu rejected: %d",
soc->stats.rx.err.rejected);
DP_PRINT_STATS("Rx raw frame dropped: %d",
soc->stats.rx.err.raw_frm_drop);
DP_PRINT_STATS("Rx stale link desc cookie: %d",
pdev->soc->stats.rx.err.invalid_link_cookie);
DP_PRINT_STATS("Rx nbuf sanity fails: %d",
pdev->soc->stats.rx.err.nbuf_sanity_fail);
DP_PRINT_STATS("Rx refill duplicate link desc: %d",
pdev->soc->stats.rx.err.dup_refill_link_desc);
DP_PRINT_STATS("Rx ipa smmu map duplicate: %d",
pdev->soc->stats.rx.err.ipa_smmu_map_dup);
DP_PRINT_STATS("Rx ipa smmu unmap duplicate: %d",
pdev->soc->stats.rx.err.ipa_smmu_unmap_dup);
DP_PRINT_STATS("Rx ipa smmu unmap no pipes: %d",
pdev->soc->stats.rx.err.ipa_unmap_no_pipe);
DP_PRINT_STATS("PN-in-Dest error frame pn-check fail: %d",
soc->stats.rx.err.pn_in_dest_check_fail);
DP_PRINT_STATS("Reo Statistics");
DP_PRINT_STATS("near_full: %u ", soc->stats.rx.near_full);
DP_PRINT_STATS("rbm error: %u msdus",
pdev->soc->stats.rx.err.invalid_rbm);
DP_PRINT_STATS("hal ring access fail: %u msdus",
pdev->soc->stats.rx.err.hal_ring_access_fail);
DP_PRINT_STATS("hal ring access full fail: %u msdus",
pdev->soc->stats.rx.err.hal_ring_access_full_fail);
DP_PRINT_STATS("Rx BAR frames:%d", soc->stats.rx.bar_frame);
for (error_code = 0; error_code < HAL_REO_ERR_MAX;
error_code++) {
if (!pdev->soc->stats.rx.err.reo_error[error_code])
continue;
DP_PRINT_STATS("Reo error number (%u): %u msdus",
error_code,
pdev->soc->stats.rx.err
.reo_error[error_code]);
}
for (error_code = 0; error_code < HAL_RXDMA_ERR_MAX;
error_code++) {
if (!pdev->soc->stats.rx.err.rxdma_error[error_code])
continue;
DP_PRINT_STATS("Rxdma error number (%u): %u msdus",
error_code,
pdev->soc->stats.rx.err
.rxdma_error[error_code]);
}
DP_PRINT_STATS("Rx packets reaped per interrupt:");
DP_PRINT_STATS("Single Packet: %u",
pdev->stats.rx_ind_histogram.pkts_1);
DP_PRINT_STATS("2-20 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_2_20);
DP_PRINT_STATS("21-40 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_21_40);
DP_PRINT_STATS("41-60 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_41_60);
DP_PRINT_STATS("61-80 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_61_80);
DP_PRINT_STATS("81-100 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_81_100);
DP_PRINT_STATS("101-200 Packets: %u",
pdev->stats.rx_ind_histogram.pkts_101_200);
DP_PRINT_STATS(" 201+ Packets: %u",
pdev->stats.rx_ind_histogram.pkts_201_plus);
DP_PRINT_STATS("%s: tso_enable: %u lro_enable: %u rx_hash: %u napi_enable: %u",
__func__,
pdev->soc->wlan_cfg_ctx
->tso_enabled,
pdev->soc->wlan_cfg_ctx
->lro_enabled,
pdev->soc->wlan_cfg_ctx
->rx_hash,
pdev->soc->wlan_cfg_ctx
->napi_enabled);
#ifdef QCA_LL_TX_FLOW_CONTROL_V2
DP_PRINT_STATS("%s: Tx flow stop queue: %u tx flow start queue offset: %u",
__func__,
pdev->soc->wlan_cfg_ctx
->tx_flow_stop_queue_threshold,
pdev->soc->wlan_cfg_ctx
->tx_flow_start_queue_offset);
#endif
}
}
/*
* dp_aggregate_pdev_ctrl_frames_stats()- function to agreegate peer stats
* Current scope is bar received count
*
* @soc : Datapath SOC handle
* @peer: Datapath peer handle
* @arg : argument to iterate function
*
* Return: void
*/
static void
dp_peer_ctrl_frames_stats_get(struct dp_soc *soc,
struct dp_peer *peer,
void *arg)
{
uint32_t waitcnt;
struct dp_pdev *pdev = peer->vdev->pdev;
waitcnt = 0;
dp_peer_rxtid_stats(peer, dp_rx_bar_stats_cb, pdev);
while (!(qdf_atomic_read(&pdev->stats_cmd_complete)) &&
waitcnt < 10) {
schedule_timeout_interruptible(
STATS_PROC_TIMEOUT);
waitcnt++;
}
qdf_atomic_set(&pdev->stats_cmd_complete, 0);
}
void
dp_print_pdev_tx_stats(struct dp_pdev *pdev)
{
uint8_t i = 0, index = 0;
DP_PRINT_STATS("PDEV Tx Stats:\n");
DP_PRINT_STATS("Received From Stack:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.rcvd.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.rcvd.bytes);
DP_PRINT_STATS("Processed:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.processed.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.processed.bytes);
DP_PRINT_STATS("Total Completions:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx.comp_pkt.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx.comp_pkt.bytes);
DP_PRINT_STATS("Successful Completions:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx.tx_success.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx.tx_success.bytes);
DP_PRINT_STATS("Dropped:");
DP_PRINT_STATS(" Total = %u",
pdev->stats.tx_i.dropped.dropped_pkt.num);
DP_PRINT_STATS(" Dma_map_error = %u",
pdev->stats.tx_i.dropped.dma_error);
DP_PRINT_STATS(" Ring Full = %u",
pdev->stats.tx_i.dropped.ring_full);
DP_PRINT_STATS(" Descriptor Not available = %u",
pdev->stats.tx_i.dropped.desc_na.num);
DP_PRINT_STATS(" HW enqueue failed= %u",
pdev->stats.tx_i.dropped.enqueue_fail);
DP_PRINT_STATS(" Descriptor alloc fail = %u",
pdev->stats.tx_i.dropped.desc_na_exc_alloc_fail.num);
DP_PRINT_STATS(" Tx outstanding too many = %u",
pdev->stats.tx_i.dropped.desc_na_exc_outstand.num);
DP_PRINT_STATS(" Pkt dropped in vdev-id check= %u",
pdev->stats.tx_i.dropped.fail_per_pkt_vdev_id_check);
DP_PRINT_STATS(" Resources Full = %u",
pdev->stats.tx_i.dropped.res_full);
DP_PRINT_STATS("Tx failed = %u",
pdev->stats.tx.tx_failed);
DP_PRINT_STATS(" FW removed Pkts = %u",
pdev->stats.tx.dropped.fw_rem.num);
DP_PRINT_STATS(" FW removed bytes= %llu",
pdev->stats.tx.dropped.fw_rem.bytes);
DP_PRINT_STATS(" FW removed transmitted = %u",
pdev->stats.tx.dropped.fw_rem_tx);
DP_PRINT_STATS(" FW removed untransmitted = %u",
pdev->stats.tx.dropped.fw_rem_notx);
DP_PRINT_STATS(" FW removed untransmitted fw_reason1 = %u",
pdev->stats.tx.dropped.fw_reason1);
DP_PRINT_STATS(" FW removed untransmitted fw_reason2 = %u",
pdev->stats.tx.dropped.fw_reason2);
DP_PRINT_STATS(" FW removed untransmitted fw_reason3 = %u",
pdev->stats.tx.dropped.fw_reason3);
DP_PRINT_STATS(" FW removed untransmitted disable queue = %u",
pdev->stats.tx.dropped.fw_rem_queue_disable);
DP_PRINT_STATS(" FW removed untransmitted no match = %u",
pdev->stats.tx.dropped.fw_rem_no_match);
DP_PRINT_STATS(" Dropped due to HW threshold criteria = %u",
pdev->stats.tx.dropped.drop_threshold);
DP_PRINT_STATS(" Link desc not available drop = %u",
pdev->stats.tx.dropped.drop_link_desc_na);
DP_PRINT_STATS(" Drop bit set or invalid flow = %u",
pdev->stats.tx.dropped.invalid_drop);
DP_PRINT_STATS(" MCAST vdev drop in HW = %u",
pdev->stats.tx.dropped.mcast_vdev_drop);
DP_PRINT_STATS(" Dropped with invalid reason = %u",
pdev->stats.tx.dropped.invalid_rr);
DP_PRINT_STATS(" Aged Out from msdu/mpdu queues = %u",
pdev->stats.tx.dropped.age_out);
DP_PRINT_STATS(" headroom insufficient = %u",
pdev->stats.tx_i.dropped.headroom_insufficient);
DP_PRINT_STATS("Multicast:");
DP_PRINT_STATS(" Packets: %u",
pdev->stats.tx.mcast.num);
DP_PRINT_STATS(" Bytes: %llu",
pdev->stats.tx.mcast.bytes);
DP_PRINT_STATS("Scatter Gather:");
DP_PRINT_STATS(" Packets = %d",
pdev->stats.tx_i.sg.sg_pkt.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.sg.sg_pkt.bytes);
DP_PRINT_STATS(" Dropped By Host = %u",
pdev->stats.tx_i.sg.dropped_host.num);
DP_PRINT_STATS(" Dropped By Target = %u",
pdev->stats.tx_i.sg.dropped_target);
DP_PRINT_STATS("Mcast Enhancement:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.mcast_en.mcast_pkt.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.mcast_en.mcast_pkt.bytes);
DP_PRINT_STATS(" Dropped: Map Errors = %u",
pdev->stats.tx_i.mcast_en.dropped_map_error);
DP_PRINT_STATS(" Dropped: Self Mac = %u",
pdev->stats.tx_i.mcast_en.dropped_self_mac);
DP_PRINT_STATS(" Dropped: Send Fail = %u",
pdev->stats.tx_i.mcast_en.dropped_send_fail);
DP_PRINT_STATS(" Unicast sent = %u",
pdev->stats.tx_i.mcast_en.ucast);
DP_PRINT_STATS("IGMP Mcast Enhancement:");
DP_PRINT_STATS(" IGMP packets received = %u",
pdev->stats.tx_i.igmp_mcast_en.igmp_rcvd);
DP_PRINT_STATS(" Converted to uncast = %u",
pdev->stats.tx_i.igmp_mcast_en.igmp_ucast_converted);
DP_PRINT_STATS("Raw:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.raw.raw_pkt.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.raw.raw_pkt.bytes);
DP_PRINT_STATS(" DMA map error = %u",
pdev->stats.tx_i.raw.dma_map_error);
DP_PRINT_STATS(" RAW pkt type[!data] error = %u",
pdev->stats.tx_i.raw.invalid_raw_pkt_datatype);
DP_PRINT_STATS(" Frags count overflow error = %u",
pdev->stats.tx_i.raw.num_frags_overflow_err);
DP_PRINT_STATS("Reinjected:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.reinject_pkts.num);
DP_PRINT_STATS(" Bytes = %llu\n",
pdev->stats.tx_i.reinject_pkts.bytes);
DP_PRINT_STATS("Inspected:");
DP_PRINT_STATS(" Packets = %d",
pdev->stats.tx_i.inspect_pkts.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.inspect_pkts.bytes);
DP_PRINT_STATS("Nawds Multicast:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.tx_i.nawds_mcast.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.tx_i.nawds_mcast.bytes);
DP_PRINT_STATS("CCE Classified:");
DP_PRINT_STATS(" CCE Classified Packets: %u",
pdev->stats.tx_i.cce_classified);
DP_PRINT_STATS(" RAW CCE Classified Packets: %u",
pdev->stats.tx_i.cce_classified_raw);
DP_PRINT_STATS("Mesh stats:");
DP_PRINT_STATS(" frames to firmware: %u",
pdev->stats.tx_i.mesh.exception_fw);
DP_PRINT_STATS(" completions from fw: %u",
pdev->stats.tx_i.mesh.completion_fw);
DP_PRINT_STATS("PPDU stats counter");
for (index = 0; index < CDP_PPDU_STATS_MAX_TAG; index++) {
DP_PRINT_STATS(" Tag[%d] = %llu", index,
pdev->stats.ppdu_stats_counter[index]);
}
DP_PRINT_STATS("BA not received for delayed_ba: %u",
pdev->stats.cdp_delayed_ba_not_recev);
dp_monitor_print_tx_stats(pdev);
DP_PRINT_STATS("tx_ppdu_proc: %llu",
pdev->stats.tx_ppdu_proc);
DP_PRINT_STATS("ack ba comes twice: %llu",
pdev->stats.ack_ba_comes_twice);
DP_PRINT_STATS("ppdu dropped because of incomplete tlv: %llu",
pdev->stats.ppdu_drop);
DP_PRINT_STATS("ppdu dropped because of wrap around: %llu",
pdev->stats.ppdu_wrap_drop);
for (i = 0; i < CDP_WDI_NUM_EVENTS; i++) {
if (!pdev->stats.wdi_event[i])
DP_PRINT_STATS("Wdi msgs received from fw[%d]:%d",
i, pdev->stats.wdi_event[i]);
}
dp_monitor_print_pdev_tx_capture_stats(pdev);
}
void
dp_print_pdev_rx_stats(struct dp_pdev *pdev)
{
DP_PRINT_STATS("PDEV Rx Stats:\n");
DP_PRINT_STATS("Received From HW (Per Rx Ring):");
DP_PRINT_STATS(" Packets = %u %u %u %u",
pdev->stats.rx.rcvd_reo[0].num,
pdev->stats.rx.rcvd_reo[1].num,
pdev->stats.rx.rcvd_reo[2].num,
pdev->stats.rx.rcvd_reo[3].num);
DP_PRINT_STATS(" Bytes = %llu %llu %llu %llu",
pdev->stats.rx.rcvd_reo[0].bytes,
pdev->stats.rx.rcvd_reo[1].bytes,
pdev->stats.rx.rcvd_reo[2].bytes,
pdev->stats.rx.rcvd_reo[3].bytes);
DP_PRINT_STATS("Replenished:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.replenish.pkts.num);
DP_PRINT_STATS(" Buffers Added To Freelist = %u",
pdev->stats.buf_freelist);
DP_PRINT_STATS(" Low threshold intr = %d",
pdev->stats.replenish.low_thresh_intrs);
DP_PRINT_STATS("Dropped:");
DP_PRINT_STATS(" msdu_not_done = %u",
pdev->stats.dropped.msdu_not_done);
DP_PRINT_STATS(" wifi parse = %u",
pdev->stats.dropped.wifi_parse);
DP_PRINT_STATS(" mon_rx_drop = %u",
pdev->stats.dropped.mon_rx_drop);
DP_PRINT_STATS(" mon_radiotap_update_err = %u",
pdev->stats.dropped.mon_radiotap_update_err);
DP_PRINT_STATS(" mec_drop = %u",
pdev->stats.rx.mec_drop.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.rx.mec_drop.bytes);
DP_PRINT_STATS(" peer_unauth_drop = %u",
pdev->stats.rx.peer_unauth_rx_pkt_drop);
DP_PRINT_STATS(" policy_check_drop = %u",
pdev->stats.rx.policy_check_drop);
DP_PRINT_STATS("Sent To Stack:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.rx.to_stack.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.rx.to_stack.bytes);
DP_PRINT_STATS(" vlan_tag_stp_cnt = %u",
pdev->stats.vlan_tag_stp_cnt);
DP_PRINT_STATS("Multicast/Broadcast:");
DP_PRINT_STATS(" Packets = %u",
pdev->stats.rx.multicast.num);
DP_PRINT_STATS(" Bytes = %llu",
pdev->stats.rx.multicast.bytes);
DP_PRINT_STATS("Errors:");
DP_PRINT_STATS(" Rxdma Ring Un-inititalized = %u",
pdev->stats.replenish.rxdma_err);
DP_PRINT_STATS(" Desc Alloc Failed: = %u",
pdev->stats.err.desc_alloc_fail);
DP_PRINT_STATS(" IP checksum error = %u",
pdev->stats.err.ip_csum_err);
DP_PRINT_STATS(" TCP/UDP checksum error = %u",
pdev->stats.err.tcp_udp_csum_err);
DP_PRINT_STATS(" Failed frag alloc = %u",
pdev->stats.replenish.frag_alloc_fail);
dp_pdev_iterate_peer_lock_safe(pdev, dp_peer_ctrl_frames_stats_get,
NULL, DP_MOD_ID_GENERIC_STATS);
/* Get bar_recv_cnt */
DP_PRINT_STATS("BAR Received Count: = %u",
pdev->stats.rx.bar_recv_cnt);
DP_PRINT_STATS("RX Buffer Pool Stats:\n");
DP_PRINT_STATS("\tBuffers consumed during refill = %llu",
pdev->stats.rx_buffer_pool.num_bufs_consumed);
DP_PRINT_STATS("\tSuccessful allocations during refill = %llu",
pdev->stats.rx_buffer_pool.num_bufs_alloc_success);
DP_PRINT_STATS("\tAllocations from the pool during replenish = %llu",
pdev->stats.rx_buffer_pool.num_pool_bufs_replenish);
}
void
dp_print_soc_tx_stats(struct dp_soc *soc)
{
uint8_t desc_pool_id;
soc->stats.tx.desc_in_use = 0;
DP_PRINT_STATS("SOC Tx Stats:\n");
for (desc_pool_id = 0;
desc_pool_id < wlan_cfg_get_num_tx_desc_pool(soc->wlan_cfg_ctx);
desc_pool_id++)
soc->stats.tx.desc_in_use +=
soc->tx_desc[desc_pool_id].num_allocated;
DP_PRINT_STATS("Tx Descriptors In Use = %u",
soc->stats.tx.desc_in_use);
DP_PRINT_STATS("Tx Invalid peer:");
DP_PRINT_STATS(" Packets = %u",
soc->stats.tx.tx_invalid_peer.num);
DP_PRINT_STATS(" Bytes = %llu",
soc->stats.tx.tx_invalid_peer.bytes);
DP_PRINT_STATS("Packets dropped due to TCL ring full = %u %u %u %u",
soc->stats.tx.tcl_ring_full[0],
soc->stats.tx.tcl_ring_full[1],
soc->stats.tx.tcl_ring_full[2],
soc->stats.tx.tcl_ring_full[3]);
DP_PRINT_STATS("Tx invalid completion release = %u",
soc->stats.tx.invalid_release_source);
DP_PRINT_STATS("Tx comp wbm internal error = %d : [%d %d %d %d]",
soc->stats.tx.wbm_internal_error[WBM_INT_ERROR_ALL],
soc->stats.tx.wbm_internal_error[WBM_INT_ERROR_REO_NULL_BUFFER],
soc->stats.tx.wbm_internal_error[WBM_INT_ERROR_REO_NULL_LINK_DESC],
soc->stats.tx.wbm_internal_error[WBM_INT_ERROR_REO_NULL_MSDU_BUFF],
soc->stats.tx.wbm_internal_error[WBM_INT_ERROR_REO_BUFF_REAPED]);
DP_PRINT_STATS("Tx comp non wbm internal error = %d",
soc->stats.tx.non_wbm_internal_err);
DP_PRINT_STATS("Tx comp loop pkt limit hit = %d",
soc->stats.tx.tx_comp_loop_pkt_limit_hit);
DP_PRINT_STATS("Tx comp HP out of sync2 = %d",
soc->stats.tx.hp_oos2);
}
static
int dp_fill_rx_interrupt_ctx_stats(struct dp_intr *intr_ctx,
char *buf, int buf_len)
{ int i;
int pos = 0;
if (buf_len <= 0 || !buf) {
dp_err("incorrect buf or buf_len(%d)!", buf_len);
return pos;
}
for (i = 0; i < MAX_REO_DEST_RINGS; i++) {
if (intr_ctx->intr_stats.num_rx_ring_masks[i])
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"reo[%u]:%u ", i,
intr_ctx->intr_stats.num_rx_ring_masks[i]);
}
return pos;
}
static
int dp_fill_tx_interrupt_ctx_stats(struct dp_intr *intr_ctx,
char *buf, int buf_len)
{ int i;
int pos = 0;
if (buf_len <= 0 || !buf) {
dp_err("incorrect buf or buf_len(%d)!", buf_len);
return pos;
}
for (i = 0; i < MAX_TCL_DATA_RINGS; i++) {
if (intr_ctx->intr_stats.num_tx_ring_masks[i])
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"tx_comps[%u]:%u ", i,
intr_ctx->intr_stats.num_tx_ring_masks[i]);
}
return pos;
}
#define DP_INT_CTX_STATS_STRING_LEN 512
void dp_print_soc_interrupt_stats(struct dp_soc *soc)
{
char *buf;
char int_ctx_str[DP_INT_CTX_STATS_STRING_LEN] = {'\0'};
int i, pos, buf_len;
struct dp_intr_stats *intr_stats;
buf = int_ctx_str;
buf_len = DP_INT_CTX_STATS_STRING_LEN;
for (i = 0; i < WLAN_CFG_INT_NUM_CONTEXTS; i++) {
pos = 0;
qdf_mem_zero(int_ctx_str, sizeof(int_ctx_str));
intr_stats = &soc->intr_ctx[i].intr_stats;
if (!intr_stats->num_masks && !intr_stats->num_near_full_masks)
continue;
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"%2u[%3d] - Total:%u ",
i,
hif_get_int_ctx_irq_num(soc->hif_handle,
i),
intr_stats->num_masks);
if (soc->intr_ctx[i].tx_ring_mask)
pos += dp_fill_tx_interrupt_ctx_stats(&soc->intr_ctx[i],
buf + pos,
buf_len - pos);
if (soc->intr_ctx[i].rx_ring_mask)
pos += dp_fill_rx_interrupt_ctx_stats(&soc->intr_ctx[i],
buf + pos,
buf_len - pos);
if (soc->intr_ctx[i].rx_err_ring_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"reo_err:%u ",
intr_stats->num_rx_err_ring_masks);
if (soc->intr_ctx[i].rx_wbm_rel_ring_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"wbm_rx_err:%u ",
intr_stats->num_rx_wbm_rel_ring_masks);
if (soc->intr_ctx[i].rxdma2host_ring_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"rxdma2_host_err:%u ",
intr_stats->num_rxdma2host_ring_masks);
if (soc->intr_ctx[i].rx_near_full_grp_1_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"rx_near_full_grp_1:%u ",
intr_stats->num_near_full_masks);
if (soc->intr_ctx[i].rx_near_full_grp_2_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"rx_near_full_grp_2:%u ",
intr_stats->num_near_full_masks);
if (soc->intr_ctx[i].tx_ring_near_full_mask)
pos += qdf_scnprintf(buf + pos,
buf_len - pos,
"tx_near_full:%u ",
intr_stats->num_near_full_masks);
dp_info("%s", int_ctx_str);
}
}
void
dp_print_soc_rx_stats(struct dp_soc *soc)
{
uint32_t i;
char reo_error[DP_REO_ERR_LENGTH];
char rxdma_error[DP_RXDMA_ERR_LENGTH];
uint8_t index = 0;
DP_PRINT_STATS("No of AST Entries = %d", soc->num_ast_entries);
DP_PRINT_STATS("SOC Rx Stats:\n");
DP_PRINT_STATS("Fragmented packets: %u",
soc->stats.rx.rx_frags);
DP_PRINT_STATS("Reo reinjected packets: %u",
soc->stats.rx.reo_reinject);
DP_PRINT_STATS("Errors:\n");
DP_PRINT_STATS("Rx Decrypt Errors = %d",
(soc->stats.rx.err.rxdma_error[HAL_RXDMA_ERR_DECRYPT] +
soc->stats.rx.err.rxdma_error[HAL_RXDMA_ERR_TKIP_MIC]));
DP_PRINT_STATS("Invalid RBM = %d",
soc->stats.rx.err.invalid_rbm);
DP_PRINT_STATS("Invalid Vdev = %d",
soc->stats.rx.err.invalid_vdev);
DP_PRINT_STATS("Invalid sa_idx or da_idx = %d",
soc->stats.rx.err.invalid_sa_da_idx);
DP_PRINT_STATS("Defrag peer uninit = %d",
soc->stats.rx.err.defrag_peer_uninit);
DP_PRINT_STATS("Pkts delivered no peer = %d",
soc->stats.rx.err.pkt_delivered_no_peer);
DP_PRINT_STATS("Invalid Pdev = %d",
soc->stats.rx.err.invalid_pdev);
DP_PRINT_STATS("Invalid Peer = %d",
soc->stats.rx.err.rx_invalid_peer.num);
DP_PRINT_STATS("HAL Ring Access Fail = %d",
soc->stats.rx.err.hal_ring_access_fail);
DP_PRINT_STATS("HAL Ring Access Full Fail = %d",
soc->stats.rx.err.hal_ring_access_full_fail);
DP_PRINT_STATS("MSDU Done failures = %d",
soc->stats.rx.err.msdu_done_fail);
DP_PRINT_STATS("RX frags: %d", soc->stats.rx.rx_frags);
DP_PRINT_STATS("RX frag wait: %d", soc->stats.rx.rx_frag_wait);
DP_PRINT_STATS("RX frag err: %d", soc->stats.rx.rx_frag_err);
DP_PRINT_STATS("RX frag OOR: %d", soc->stats.rx.rx_frag_oor);
DP_PRINT_STATS("RX HP out_of_sync: %d", soc->stats.rx.hp_oos2);
DP_PRINT_STATS("RX Ring Near Full: %d", soc->stats.rx.near_full);
DP_PRINT_STATS("RX Reap Loop Pkt Limit Hit: %d",
soc->stats.rx.reap_loop_pkt_limit_hit);
DP_PRINT_STATS("RX DESC invalid magic: %u",
soc->stats.rx.err.rx_desc_invalid_magic);
DP_PRINT_STATS("RX DUP DESC: %d",
soc->stats.rx.err.hal_reo_dest_dup);
DP_PRINT_STATS("RX REL DUP DESC: %d",
soc->stats.rx.err.hal_wbm_rel_dup);
DP_PRINT_STATS("RXDMA ERR DUP DESC: %d",
soc->stats.rx.err.hal_rxdma_err_dup);
DP_PRINT_STATS("RX scatter msdu: %d",
soc->stats.rx.err.scatter_msdu);
DP_PRINT_STATS("RX invalid cookie: %d",
soc->stats.rx.err.invalid_cookie);
DP_PRINT_STATS("RX stale cookie: %d",
soc->stats.rx.err.stale_cookie);
DP_PRINT_STATS("RX wait completed msdu break: %d",
soc->stats.rx.msdu_scatter_wait_break);
DP_PRINT_STATS("2k jump delba sent: %d",
soc->stats.rx.err.rx_2k_jump_delba_sent);
DP_PRINT_STATS("2k jump msdu to stack: %d",
soc->stats.rx.err.rx_2k_jump_to_stack);
DP_PRINT_STATS("2k jump msdu drop: %d",
soc->stats.rx.err.rx_2k_jump_drop);
DP_PRINT_STATS("REO err oor msdu to stack %d",
soc->stats.rx.err.reo_err_oor_to_stack);
DP_PRINT_STATS("REO err oor msdu drop: %d",
soc->stats.rx.err.reo_err_oor_drop);
DP_PRINT_STATS("Rx err msdu rejected: %d",
soc->stats.rx.err.rejected);
DP_PRINT_STATS("Rx stale link desc cookie: %d",
soc->stats.rx.err.invalid_link_cookie);
DP_PRINT_STATS("Rx nbuf sanity fail: %d",
soc->stats.rx.err.nbuf_sanity_fail);
DP_PRINT_STATS("Rx err msdu continuation err: %d",
soc->stats.rx.err.msdu_continuation_err);
DP_PRINT_STATS("ssn update count: %d",
soc->stats.rx.err.ssn_update_count);
DP_PRINT_STATS("bar handle update fail count: %d",
soc->stats.rx.err.bar_handle_fail_count);
DP_PRINT_STATS("PN-in-Dest error frame pn-check fail: %d",
soc->stats.rx.err.pn_in_dest_check_fail);
for (i = 0; i < HAL_RXDMA_ERR_MAX; i++) {
index += qdf_snprint(&rxdma_error[index],
DP_RXDMA_ERR_LENGTH - index,
" %d", soc->stats.rx.err.rxdma_error[i]);
}
DP_PRINT_STATS("RXDMA Error (0-31):%s", rxdma_error);
index = 0;
for (i = 0; i < HAL_REO_ERR_MAX; i++) {
index += qdf_snprint(&reo_error[index],
DP_REO_ERR_LENGTH - index,
" %d", soc->stats.rx.err.reo_error[i]);
}
DP_PRINT_STATS("REO Error(0-14):%s", reo_error);
DP_PRINT_STATS("REO CMD SEND FAIL: %d",
soc->stats.rx.err.reo_cmd_send_fail);
DP_PRINT_STATS("Rx BAR frames:%d", soc->stats.rx.bar_frame);
DP_PRINT_STATS("Rxdma2rel route drop:%d",
soc->stats.rx.rxdma2rel_route_drop);
DP_PRINT_STATS("Reo2rel route drop:%d",
soc->stats.rx.reo2rel_route_drop);
DP_PRINT_STATS("Rx Flush count:%d", soc->stats.rx.err.rx_flush_count);
DP_PRINT_STATS("Rx invalid TID count:%d",
soc->stats.rx.err.rx_invalid_tid_err);
}
#ifdef FEATURE_TSO_STATS
void dp_print_tso_stats(struct dp_soc *soc,
enum qdf_stats_verbosity_level level)
{
uint8_t loop_pdev;
uint32_t id;
struct dp_pdev *pdev;
for (loop_pdev = 0; loop_pdev < soc->pdev_count; loop_pdev++) {
pdev = soc->pdev_list[loop_pdev];
DP_PRINT_STATS("TSO Statistics\n");
DP_PRINT_STATS(
"From stack: %d | Successful completions: %d | TSO Packets: %d | TSO Completions: %d",
pdev->stats.tx_i.rcvd.num,
pdev->stats.tx.tx_success.num,
pdev->stats.tso_stats.num_tso_pkts.num,
pdev->stats.tso_stats.tso_comp);
for (id = 0; id < CDP_MAX_TSO_PACKETS; id++) {
/* TSO LEVEL 1 - PACKET INFO */
DP_PRINT_STATS(
"Packet_Id:[%u]: Packet Length %zu | No. of segments: %u",
id,
pdev->stats.tso_stats.tso_info
.tso_packet_info[id].tso_packet_len,
pdev->stats.tso_stats.tso_info
.tso_packet_info[id].num_seg);
/* TSO LEVEL 2 */
if (level == QDF_STATS_VERBOSITY_LEVEL_HIGH)
dp_print_tso_seg_stats(pdev, id);
}
DP_PRINT_STATS(
"TSO Histogram: Single: %llu | 2-5 segs: %llu | 6-10: %llu segs | 11-15 segs: %llu | 16-20 segs: %llu | 20+ segs: %llu",
pdev->stats.tso_stats.seg_histogram.segs_1,
pdev->stats.tso_stats.seg_histogram.segs_2_5,
pdev->stats.tso_stats.seg_histogram.segs_6_10,
pdev->stats.tso_stats.seg_histogram.segs_11_15,
pdev->stats.tso_stats.seg_histogram.segs_16_20,
pdev->stats.tso_stats.seg_histogram.segs_20_plus);
}
}
void dp_stats_tso_segment_histogram_update(struct dp_pdev *pdev,
uint8_t _p_cntrs)
{
if (_p_cntrs == 1) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_1, 1);
} else if (_p_cntrs >= 2 && _p_cntrs <= 5) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_2_5, 1);
} else if (_p_cntrs > 5 && _p_cntrs <= 10) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_6_10, 1);
} else if (_p_cntrs > 10 && _p_cntrs <= 15) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_11_15, 1);
} else if (_p_cntrs > 15 && _p_cntrs <= 20) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_16_20, 1);
} else if (_p_cntrs > 20) {
DP_STATS_INC(pdev,
tso_stats.seg_histogram.segs_20_plus, 1);
}
}
void dp_tso_segment_update(struct dp_pdev *pdev,
uint32_t stats_idx,
uint8_t idx,
struct qdf_tso_seg_t seg)
{
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].num_frags,
seg.num_frags);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].total_len,
seg.total_len);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.tso_enable,
seg.tso_flags.tso_enable);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.fin,
seg.tso_flags.fin);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.syn,
seg.tso_flags.syn);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.rst,
seg.tso_flags.rst);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.psh,
seg.tso_flags.psh);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.ack,
seg.tso_flags.ack);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.urg,
seg.tso_flags.urg);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.ece,
seg.tso_flags.ece);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.cwr,
seg.tso_flags.cwr);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.ns,
seg.tso_flags.ns);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.tcp_seq_num,
seg.tso_flags.tcp_seq_num);
DP_STATS_UPD(pdev, tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_seg[idx].tso_flags.ip_id,
seg.tso_flags.ip_id);
}
void dp_tso_packet_update(struct dp_pdev *pdev, uint32_t stats_idx,
qdf_nbuf_t msdu, uint16_t num_segs)
{
DP_STATS_UPD(pdev,
tso_stats.tso_info.tso_packet_info[stats_idx]
.num_seg,
num_segs);
DP_STATS_UPD(pdev,
tso_stats.tso_info.tso_packet_info[stats_idx]
.tso_packet_len,
qdf_nbuf_get_tcp_payload_len(msdu));
}
void dp_tso_segment_stats_update(struct dp_pdev *pdev,
struct qdf_tso_seg_elem_t *stats_seg,
uint32_t stats_idx)
{
uint8_t tso_seg_idx = 0;
while (stats_seg && (tso_seg_idx < CDP_MAX_TSO_SEGMENTS)) {
dp_tso_segment_update(pdev, stats_idx,
tso_seg_idx,
stats_seg->seg);
++tso_seg_idx;
stats_seg = stats_seg->next;
}
}
void dp_txrx_clear_tso_stats(struct dp_soc *soc)
{
uint8_t loop_pdev;
struct dp_pdev *pdev;
for (loop_pdev = 0; loop_pdev < soc->pdev_count; loop_pdev++) {
pdev = soc->pdev_list[loop_pdev];
dp_init_tso_stats(pdev);
}
}
#endif /* FEATURE_TSO_STATS */
QDF_STATUS dp_txrx_get_peer_per_pkt_stats_param(struct dp_peer *peer,
enum cdp_peer_stats_type type,
cdp_peer_stats_param_t *buf)
{
QDF_STATUS ret = QDF_STATUS_SUCCESS;
struct dp_txrx_peer *txrx_peer;
struct dp_peer_per_pkt_stats *peer_stats;
txrx_peer = dp_get_txrx_peer(peer);
if (!txrx_peer)
return QDF_STATUS_E_FAILURE;
peer_stats = &txrx_peer->stats.per_pkt_stats;
switch (type) {
case cdp_peer_tx_ucast:
buf->tx_ucast = peer_stats->tx.ucast;
break;
case cdp_peer_tx_mcast:
buf->tx_mcast = peer_stats->tx.mcast;
break;
case cdp_peer_tx_inactive_time:
buf->tx_inactive_time = peer->stats.tx.inactive_time;
break;
case cdp_peer_rx_ucast:
buf->rx_ucast = peer_stats->rx.unicast;
break;
default:
ret = QDF_STATUS_E_FAILURE;
break;
}
return ret;
}
#ifdef QCA_ENHANCED_STATS_SUPPORT
#ifdef WLAN_FEATURE_11BE_MLO
QDF_STATUS dp_txrx_get_peer_extd_stats_param(struct dp_peer *peer,
enum cdp_peer_stats_type type,
cdp_peer_stats_param_t *buf)
{
QDF_STATUS ret = QDF_STATUS_E_FAILURE;
struct dp_soc *soc = peer->vdev->pdev->soc;
if (IS_MLO_DP_MLD_PEER(peer)) {
struct dp_peer *link_peer;
struct dp_soc *link_peer_soc;
link_peer = dp_get_primary_link_peer_by_id(soc, peer->peer_id,
DP_MOD_ID_CDP);
if (link_peer) {
link_peer_soc = link_peer->vdev->pdev->soc;
ret = dp_monitor_peer_get_stats_param(link_peer_soc,
link_peer,
type, buf);
dp_peer_unref_delete(link_peer, DP_MOD_ID_CDP);
}
return ret;
} else {
return dp_monitor_peer_get_stats_param(soc, peer, type, buf);
}
}
#else
QDF_STATUS dp_txrx_get_peer_extd_stats_param(struct dp_peer *peer,
enum cdp_peer_stats_type type,
cdp_peer_stats_param_t *buf)
{
struct dp_soc *soc = peer->vdev->pdev->soc;
return dp_monitor_peer_get_stats_param(soc, peer, type, buf);
}
#endif
#else
QDF_STATUS dp_txrx_get_peer_extd_stats_param(struct dp_peer *peer,
enum cdp_peer_stats_type type,
cdp_peer_stats_param_t *buf)
{
QDF_STATUS ret = QDF_STATUS_SUCCESS;
struct dp_txrx_peer *txrx_peer;
struct dp_peer_extd_stats *peer_stats;
txrx_peer = dp_get_txrx_peer(peer);
if (!txrx_peer)
return QDF_STATUS_E_FAILURE;
peer_stats = &txrx_peer->stats.extd_stats;
switch (type) {
case cdp_peer_tx_rate:
buf->tx_rate = peer_stats->tx.tx_rate;
break;
case cdp_peer_tx_last_tx_rate:
buf->last_tx_rate = peer_stats->tx.last_tx_rate;
break;
case cdp_peer_tx_ratecode:
buf->tx_ratecode = peer_stats->tx.tx_ratecode;
break;
case cdp_peer_rx_rate:
buf->rx_rate = peer_stats->rx.rx_rate;
break;
case cdp_peer_rx_last_rx_rate:
buf->last_rx_rate = peer_stats->rx.last_rx_rate;
break;
case cdp_peer_rx_ratecode:
buf->rx_ratecode = peer_stats->rx.rx_ratecode;
break;
case cdp_peer_rx_avg_snr:
buf->rx_avg_snr = peer_stats->rx.avg_snr;
break;
case cdp_peer_rx_snr:
buf->rx_snr = peer_stats->rx.snr;
break;
default:
ret = QDF_STATUS_E_FAILURE;
break;
}
return ret;
}
#endif
/**
* dp_is_wds_extended() - Check if wds ext is enabled
* @txrx_peer: DP txrx_peer handle
*
* return: true if enabled, false if not
*/
#ifdef QCA_SUPPORT_WDS_EXTENDED
static inline
bool dp_is_wds_extended(struct dp_txrx_peer *txrx_peer)
{
if (qdf_atomic_test_bit(WDS_EXT_PEER_INIT_BIT,
&txrx_peer->wds_ext.init))
return true;
return false;
}
#else
static inline
bool dp_is_wds_extended(struct dp_txrx_peer *txrx_peer)
{
return false;
}
#endif /* QCA_SUPPORT_WDS_EXTENDED */
/**
* dp_peer_get_hw_txrx_stats_en() - Get value of hw_txrx_stats_en
* @txrx_peer: DP txrx_peer handle
*
* Return: true if enabled, false if not
*/
#ifdef QCA_VDEV_STATS_HW_OFFLOAD_SUPPORT
static inline
bool dp_peer_get_hw_txrx_stats_en(struct dp_txrx_peer *txrx_peer)
{
return txrx_peer->hw_txrx_stats_en;
}
#else
static inline
bool dp_peer_get_hw_txrx_stats_en(struct dp_txrx_peer *txrx_peer)
{
return false;
}
#endif
#ifdef WLAN_FEATURE_11BE_MLO
static inline struct dp_peer *dp_get_stats_peer(struct dp_peer *peer)
{
/* ML primay link peer return mld_peer */
if (IS_MLO_DP_LINK_PEER(peer) && peer->primary_link)
return peer->mld_peer;
return peer;
}
#else
static inline struct dp_peer *dp_get_stats_peer(struct dp_peer *peer)
{
return peer;
}
#endif
/**
* dp_update_vdev_basic_stats() - Update vdev basic stats
* @txrx_peer: DP txrx_peer handle
* @tgtobj: Pointer to buffer for vdev stats
*
* Return: None
*/
static inline
void dp_update_vdev_basic_stats(struct dp_txrx_peer *txrx_peer,
struct cdp_vdev_stats *tgtobj)
{
if (qdf_unlikely(!txrx_peer || !tgtobj))
return;
if (!dp_peer_get_hw_txrx_stats_en(txrx_peer)) {
tgtobj->tx.comp_pkt.num += txrx_peer->comp_pkt.num;
tgtobj->tx.comp_pkt.bytes += txrx_peer->comp_pkt.bytes;
tgtobj->tx.tx_failed += txrx_peer->tx_failed;
}
tgtobj->rx.to_stack.num += txrx_peer->to_stack.num;
tgtobj->rx.to_stack.bytes += txrx_peer->to_stack.bytes;
}
#ifdef QCA_ENHANCED_STATS_SUPPORT
void dp_update_vdev_stats(struct dp_soc *soc, struct dp_peer *srcobj,
void *arg)
{
struct dp_txrx_peer *txrx_peer;
struct cdp_vdev_stats *vdev_stats = (struct cdp_vdev_stats *)arg;
struct dp_peer_per_pkt_stats *per_pkt_stats;
txrx_peer = dp_get_txrx_peer(srcobj);
if (qdf_unlikely(!txrx_peer))
goto link_stats;
if (qdf_unlikely(dp_is_wds_extended(txrx_peer)))
return;
if (!dp_peer_is_primary_link_peer(srcobj))
goto link_stats;
dp_update_vdev_basic_stats(txrx_peer, vdev_stats);
per_pkt_stats = &txrx_peer->stats.per_pkt_stats;
DP_UPDATE_PER_PKT_STATS(vdev_stats, per_pkt_stats);
link_stats:
dp_monitor_peer_get_stats(soc, srcobj, vdev_stats, UPDATE_VDEV_STATS);
}
void dp_update_vdev_stats_on_peer_unmap(struct dp_vdev *vdev,
struct dp_peer *peer)
{
struct dp_soc *soc = vdev->pdev->soc;
struct dp_txrx_peer *txrx_peer;
struct dp_peer_per_pkt_stats *per_pkt_stats;
struct cdp_vdev_stats *vdev_stats = &vdev->stats;
txrx_peer = peer->txrx_peer;
if (!txrx_peer)
goto link_stats;
dp_update_vdev_basic_stats(txrx_peer, vdev_stats);
per_pkt_stats = &txrx_peer->stats.per_pkt_stats;
DP_UPDATE_PER_PKT_STATS(vdev_stats, per_pkt_stats);
link_stats:
dp_monitor_peer_get_stats(soc, peer, vdev_stats, UPDATE_VDEV_STATS);
}
#else
void dp_update_vdev_stats(struct dp_soc *soc, struct dp_peer *srcobj,
void *arg)
{
struct dp_txrx_peer *txrx_peer;
struct cdp_vdev_stats *vdev_stats = (struct cdp_vdev_stats *)arg;
struct dp_peer_per_pkt_stats *per_pkt_stats;
struct dp_peer_extd_stats *extd_stats;
txrx_peer = dp_get_txrx_peer(srcobj);
if (qdf_unlikely(!txrx_peer))
return;
if (qdf_unlikely(dp_is_wds_extended(txrx_peer)))
return;
if (!dp_peer_is_primary_link_peer(srcobj))
return;
dp_update_vdev_basic_stats(txrx_peer, vdev_stats);
per_pkt_stats = &txrx_peer->stats.per_pkt_stats;
DP_UPDATE_PER_PKT_STATS(vdev_stats, per_pkt_stats);
extd_stats = &txrx_peer->stats.extd_stats;
DP_UPDATE_EXTD_STATS(vdev_stats, extd_stats);
}
void dp_update_vdev_stats_on_peer_unmap(struct dp_vdev *vdev,
struct dp_peer *peer)
{
struct dp_txrx_peer *txrx_peer;
struct dp_peer_per_pkt_stats *per_pkt_stats;
struct dp_peer_extd_stats *extd_stats;
struct cdp_vdev_stats *vdev_stats = &vdev->stats;
txrx_peer = peer->txrx_peer;
if (!txrx_peer)
return;
dp_update_vdev_basic_stats(txrx_peer, vdev_stats);
per_pkt_stats = &txrx_peer->stats.per_pkt_stats;
DP_UPDATE_PER_PKT_STATS(vdev_stats, per_pkt_stats);
extd_stats = &txrx_peer->stats.extd_stats;
DP_UPDATE_EXTD_STATS(vdev_stats, extd_stats);
}
#endif
void dp_update_pdev_stats(struct dp_pdev *tgtobj,
struct cdp_vdev_stats *srcobj)
{
uint8_t i;
uint8_t pream_type;
struct cdp_pdev_stats *pdev_stats = NULL;
pdev_stats = &tgtobj->stats;
for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) {
for (i = 0; i < MAX_MCS; i++) {
tgtobj->stats.tx.pkt_type[pream_type].
mcs_count[i] +=
srcobj->tx.pkt_type[pream_type].
mcs_count[i];
tgtobj->stats.rx.pkt_type[pream_type].
mcs_count[i] +=
srcobj->rx.pkt_type[pream_type].
mcs_count[i];
}
}
for (i = 0; i < MAX_BW; i++) {
tgtobj->stats.tx.bw[i] += srcobj->tx.bw[i];
tgtobj->stats.rx.bw[i] += srcobj->rx.bw[i];
}
for (i = 0; i < SS_COUNT; i++) {
tgtobj->stats.tx.nss[i] += srcobj->tx.nss[i];
tgtobj->stats.rx.nss[i] += srcobj->rx.nss[i];
}
for (i = 0; i < WME_AC_MAX; i++) {
tgtobj->stats.tx.wme_ac_type[i] +=
srcobj->tx.wme_ac_type[i];
tgtobj->stats.rx.wme_ac_type[i] +=
srcobj->rx.wme_ac_type[i];
tgtobj->stats.tx.excess_retries_per_ac[i] +=
srcobj->tx.excess_retries_per_ac[i];
}
for (i = 0; i < MAX_GI; i++) {
tgtobj->stats.tx.sgi_count[i] +=
srcobj->tx.sgi_count[i];
tgtobj->stats.rx.sgi_count[i] +=
srcobj->rx.sgi_count[i];
}
for (i = 0; i < MAX_RECEPTION_TYPES; i++) {
tgtobj->stats.rx.reception_type[i] +=
srcobj->rx.reception_type[i];
tgtobj->stats.rx.ppdu_cnt[i] += srcobj->rx.ppdu_cnt[i];
}
for (i = 0; i < MAX_TRANSMIT_TYPES; i++) {
tgtobj->stats.tx.transmit_type[i].num_msdu +=
srcobj->tx.transmit_type[i].num_msdu;
tgtobj->stats.tx.transmit_type[i].num_mpdu +=
srcobj->tx.transmit_type[i].num_mpdu;
tgtobj->stats.tx.transmit_type[i].mpdu_tried +=
srcobj->tx.transmit_type[i].mpdu_tried;
}
tgtobj->stats.tx.comp_pkt.bytes += srcobj->tx.comp_pkt.bytes;
tgtobj->stats.tx.comp_pkt.num += srcobj->tx.comp_pkt.num;
tgtobj->stats.tx.ucast.num += srcobj->tx.ucast.num;
tgtobj->stats.tx.ucast.bytes += srcobj->tx.ucast.bytes;
tgtobj->stats.tx.mcast.num += srcobj->tx.mcast.num;
tgtobj->stats.tx.mcast.bytes += srcobj->tx.mcast.bytes;
tgtobj->stats.tx.bcast.num += srcobj->tx.bcast.num;
tgtobj->stats.tx.bcast.bytes += srcobj->tx.bcast.bytes;
tgtobj->stats.tx.tx_success.num += srcobj->tx.tx_success.num;
tgtobj->stats.tx.tx_success.bytes +=
srcobj->tx.tx_success.bytes;
tgtobj->stats.tx.nawds_mcast.num +=
srcobj->tx.nawds_mcast.num;
tgtobj->stats.tx.nawds_mcast.bytes +=
srcobj->tx.nawds_mcast.bytes;
tgtobj->stats.tx.nawds_mcast_drop +=
srcobj->tx.nawds_mcast_drop;
tgtobj->stats.tx.num_ppdu_cookie_valid +=
srcobj->tx.num_ppdu_cookie_valid;
tgtobj->stats.tx.tx_failed += srcobj->tx.tx_failed;
tgtobj->stats.tx.ofdma += srcobj->tx.ofdma;
tgtobj->stats.tx.stbc += srcobj->tx.stbc;
tgtobj->stats.tx.ldpc += srcobj->tx.ldpc;
tgtobj->stats.tx.pream_punct_cnt += srcobj->tx.pream_punct_cnt;
tgtobj->stats.tx.retries += srcobj->tx.retries;
tgtobj->stats.tx.non_amsdu_cnt += srcobj->tx.non_amsdu_cnt;
tgtobj->stats.tx.amsdu_cnt += srcobj->tx.amsdu_cnt;
tgtobj->stats.tx.non_ampdu_cnt += srcobj->tx.non_ampdu_cnt;
tgtobj->stats.tx.ampdu_cnt += srcobj->tx.ampdu_cnt;
tgtobj->stats.tx.dropped.fw_rem.num += srcobj->tx.dropped.fw_rem.num;
tgtobj->stats.tx.dropped.fw_rem.bytes +=
srcobj->tx.dropped.fw_rem.bytes;
tgtobj->stats.tx.dropped.fw_rem_tx +=
srcobj->tx.dropped.fw_rem_tx;
tgtobj->stats.tx.dropped.fw_rem_notx +=
srcobj->tx.dropped.fw_rem_notx;
tgtobj->stats.tx.dropped.fw_reason1 +=
srcobj->tx.dropped.fw_reason1;
tgtobj->stats.tx.dropped.fw_reason2 +=
srcobj->tx.dropped.fw_reason2;
tgtobj->stats.tx.dropped.fw_reason3 +=
srcobj->tx.dropped.fw_reason3;
tgtobj->stats.tx.dropped.fw_rem_queue_disable +=
srcobj->tx.dropped.fw_rem_queue_disable;
tgtobj->stats.tx.dropped.fw_rem_no_match +=
srcobj->tx.dropped.fw_rem_no_match;
tgtobj->stats.tx.dropped.drop_threshold +=
srcobj->tx.dropped.drop_threshold;
tgtobj->stats.tx.dropped.drop_link_desc_na +=
srcobj->tx.dropped.drop_link_desc_na;
tgtobj->stats.tx.dropped.invalid_drop +=
srcobj->tx.dropped.invalid_drop;
tgtobj->stats.tx.dropped.mcast_vdev_drop +=
srcobj->tx.dropped.mcast_vdev_drop;
tgtobj->stats.tx.dropped.invalid_rr +=
srcobj->tx.dropped.invalid_rr;
tgtobj->stats.tx.dropped.age_out += srcobj->tx.dropped.age_out;
tgtobj->stats.rx.err.mic_err += srcobj->rx.err.mic_err;
tgtobj->stats.rx.err.decrypt_err += srcobj->rx.err.decrypt_err;
tgtobj->stats.rx.err.fcserr += srcobj->rx.err.fcserr;
tgtobj->stats.rx.err.pn_err += srcobj->rx.err.pn_err;
tgtobj->stats.rx.err.oor_err += srcobj->rx.err.oor_err;
tgtobj->stats.rx.err.jump_2k_err += srcobj->rx.err.jump_2k_err;
tgtobj->stats.rx.err.rxdma_wifi_parse_err +=
srcobj->rx.err.rxdma_wifi_parse_err;
if (srcobj->rx.snr != 0)
tgtobj->stats.rx.snr = srcobj->rx.snr;
tgtobj->stats.rx.rx_rate = srcobj->rx.rx_rate;
tgtobj->stats.rx.non_ampdu_cnt += srcobj->rx.non_ampdu_cnt;
tgtobj->stats.rx.amsdu_cnt += srcobj->rx.ampdu_cnt;
tgtobj->stats.rx.non_amsdu_cnt += srcobj->rx.non_amsdu_cnt;
tgtobj->stats.rx.amsdu_cnt += srcobj->rx.amsdu_cnt;
tgtobj->stats.rx.nawds_mcast_drop += srcobj->rx.nawds_mcast_drop;
tgtobj->stats.rx.to_stack.num += srcobj->rx.to_stack.num;
tgtobj->stats.rx.to_stack.bytes += srcobj->rx.to_stack.bytes;
for (i = 0; i < CDP_MAX_RX_RINGS; i++) {
tgtobj->stats.rx.rcvd_reo[i].num +=
srcobj->rx.rcvd_reo[i].num;
tgtobj->stats.rx.rcvd_reo[i].bytes +=
srcobj->rx.rcvd_reo[i].bytes;
}
srcobj->rx.unicast.num =
srcobj->rx.to_stack.num -
(srcobj->rx.multicast.num);
srcobj->rx.unicast.bytes =
srcobj->rx.to_stack.bytes -
(srcobj->rx.multicast.bytes);
tgtobj->stats.rx.unicast.num += srcobj->rx.unicast.num;
tgtobj->stats.rx.unicast.bytes += srcobj->rx.unicast.bytes;
tgtobj->stats.rx.multicast.num += srcobj->rx.multicast.num;
tgtobj->stats.rx.multicast.bytes += srcobj->rx.multicast.bytes;
tgtobj->stats.rx.bcast.num += srcobj->rx.bcast.num;
tgtobj->stats.rx.bcast.bytes += srcobj->rx.bcast.bytes;
tgtobj->stats.rx.raw.num += srcobj->rx.raw.num;
tgtobj->stats.rx.raw.bytes += srcobj->rx.raw.bytes;
tgtobj->stats.rx.intra_bss.pkts.num +=
srcobj->rx.intra_bss.pkts.num;
tgtobj->stats.rx.intra_bss.pkts.bytes +=
srcobj->rx.intra_bss.pkts.bytes;
tgtobj->stats.rx.intra_bss.fail.num +=
srcobj->rx.intra_bss.fail.num;
tgtobj->stats.rx.intra_bss.fail.bytes +=
srcobj->rx.intra_bss.fail.bytes;
tgtobj->stats.tx.last_ack_rssi =
srcobj->tx.last_ack_rssi;
tgtobj->stats.rx.mec_drop.num += srcobj->rx.mec_drop.num;
tgtobj->stats.rx.mec_drop.bytes += srcobj->rx.mec_drop.bytes;
tgtobj->stats.rx.multipass_rx_pkt_drop +=
srcobj->rx.multipass_rx_pkt_drop;
tgtobj->stats.rx.peer_unauth_rx_pkt_drop +=
srcobj->rx.peer_unauth_rx_pkt_drop;
tgtobj->stats.rx.policy_check_drop +=
srcobj->rx.policy_check_drop;
DP_UPDATE_11BE_STATS(pdev_stats, srcobj);
}
void dp_update_vdev_ingress_stats(struct dp_vdev *tgtobj)
{
tgtobj->stats.tx_i.dropped.dropped_pkt.num =
tgtobj->stats.tx_i.dropped.dma_error +
tgtobj->stats.tx_i.dropped.ring_full +
tgtobj->stats.tx_i.dropped.enqueue_fail +
tgtobj->stats.tx_i.dropped.fail_per_pkt_vdev_id_check +
tgtobj->stats.tx_i.dropped.desc_na.num +
tgtobj->stats.tx_i.dropped.res_full +
tgtobj->stats.tx_i.dropped.headroom_insufficient;
}
void dp_update_vdev_rate_stats(struct cdp_vdev_stats *tgtobj,
struct cdp_vdev_stats *srcobj)
{
tgtobj->tx.last_tx_rate = srcobj->tx.last_tx_rate;
tgtobj->tx.last_tx_rate_mcs = srcobj->tx.last_tx_rate_mcs;
tgtobj->tx.mcast_last_tx_rate = srcobj->tx.mcast_last_tx_rate;
tgtobj->tx.mcast_last_tx_rate_mcs = srcobj->tx.mcast_last_tx_rate_mcs;
tgtobj->rx.last_rx_rate = srcobj->rx.last_rx_rate;
}
void dp_update_pdev_ingress_stats(struct dp_pdev *tgtobj,
struct dp_vdev *srcobj)
{
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.nawds_mcast);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.rcvd);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.processed);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.reinject_pkts);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.inspect_pkts);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.raw.raw_pkt);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.raw.dma_map_error);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.raw.num_frags_overflow_err);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.sg.dropped_host.num);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.sg.dropped_target);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.sg.sg_pkt);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.mcast_en.mcast_pkt);
DP_STATS_AGGR(tgtobj, srcobj,
tx_i.mcast_en.dropped_map_error);
DP_STATS_AGGR(tgtobj, srcobj,
tx_i.mcast_en.dropped_self_mac);
DP_STATS_AGGR(tgtobj, srcobj,
tx_i.mcast_en.dropped_send_fail);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.mcast_en.ucast);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.igmp_mcast_en.igmp_rcvd);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.igmp_mcast_en.igmp_ucast_converted);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.dma_error);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.ring_full);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.enqueue_fail);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.fail_per_pkt_vdev_id_check);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.desc_na.num);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.res_full);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.headroom_insufficient);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.cce_classified);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.cce_classified_raw);
DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.sniffer_rcvd);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.mesh.exception_fw);
DP_STATS_AGGR(tgtobj, srcobj, tx_i.mesh.completion_fw);
DP_STATS_AGGR_PKT(tgtobj, srcobj, rx_i.reo_rcvd_pkt);
DP_STATS_AGGR_PKT(tgtobj, srcobj, rx_i.null_q_desc_pkt);
DP_STATS_AGGR_PKT(tgtobj, srcobj, rx_i.routed_eapol_pkt);
tgtobj->stats.tx_i.dropped.dropped_pkt.num =
tgtobj->stats.tx_i.dropped.dma_error +
tgtobj->stats.tx_i.dropped.ring_full +
tgtobj->stats.tx_i.dropped.enqueue_fail +
tgtobj->stats.tx_i.dropped.fail_per_pkt_vdev_id_check +
tgtobj->stats.tx_i.dropped.desc_na.num +
tgtobj->stats.tx_i.dropped.res_full +
tgtobj->stats.tx_i.dropped.headroom_insufficient;
}
QDF_STATUS dp_txrx_get_soc_stats(struct cdp_soc_t *soc_hdl,
struct cdp_soc_stats *soc_stats)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
uint8_t inx;
uint8_t cpus;
/* soc tx stats */
soc_stats->tx.egress = soc->stats.tx.egress[0];
soc_stats->tx.tx_invalid_peer = soc->stats.tx.tx_invalid_peer;
for (inx = 0; inx < CDP_MAX_TX_DATA_RINGS; inx++) {
soc_stats->tx.tx_hw_enq[inx] = soc->stats.tx.tcl_enq[inx];
soc_stats->tx.tx_hw_ring_full[inx] =
soc->stats.tx.tcl_ring_full[inx];
}
soc_stats->tx.desc_in_use = soc->stats.tx.desc_in_use;
soc_stats->tx.dropped_fw_removed = soc->stats.tx.dropped_fw_removed;
soc_stats->tx.invalid_release_source =
soc->stats.tx.invalid_release_source;
for (inx = 0; inx < CDP_MAX_WIFI_INT_ERROR_REASONS; inx++)
soc_stats->tx.wifi_internal_error[inx] =
soc->stats.tx.wbm_internal_error[inx];
soc_stats->tx.non_wifi_internal_err =
soc->stats.tx.non_wbm_internal_err;
soc_stats->tx.tx_comp_loop_pkt_limit_hit =
soc->stats.tx.tx_comp_loop_pkt_limit_hit;
soc_stats->tx.hp_oos2 = soc->stats.tx.hp_oos2;
soc_stats->tx.tx_comp_exception = soc->stats.tx.tx_comp_exception;
/* soc rx stats */
soc_stats->rx.ingress = soc->stats.rx.ingress;
soc_stats->rx.err_ring_pkts = soc->stats.rx.err_ring_pkts;
soc_stats->rx.rx_frags = soc->stats.rx.rx_frags;
soc_stats->rx.rx_hw_reinject = soc->stats.rx.reo_reinject;
soc_stats->rx.bar_frame = soc->stats.rx.bar_frame;
soc_stats->rx.rx_frag_err_len_error =
soc->stats.rx.rx_frag_err_len_error;
soc_stats->rx.rx_frag_err_no_peer = soc->stats.rx.rx_frag_err_no_peer;
soc_stats->rx.rx_frag_wait = soc->stats.rx.rx_frag_wait;
soc_stats->rx.rx_frag_err = soc->stats.rx.rx_frag_err;
soc_stats->rx.rx_frag_oor = soc->stats.rx.rx_frag_oor;
soc_stats->rx.reap_loop_pkt_limit_hit =
soc->stats.rx.reap_loop_pkt_limit_hit;
soc_stats->rx.hp_oos2 = soc->stats.rx.hp_oos2;
soc_stats->rx.near_full = soc->stats.rx.near_full;
soc_stats->rx.msdu_scatter_wait_break =
soc->stats.rx.msdu_scatter_wait_break;
soc_stats->rx.rx_sw_route_drop = soc->stats.rx.rxdma2rel_route_drop;
soc_stats->rx.rx_hw_route_drop = soc->stats.rx.reo2rel_route_drop;
soc_stats->rx.rx_packets.num_cpus = qdf_min((uint32_t)CDP_NR_CPUS,
num_possible_cpus());
for (cpus = 0; cpus < soc_stats->rx.rx_packets.num_cpus; cpus++) {
for (inx = 0; inx < CDP_MAX_RX_DEST_RINGS; inx++)
soc_stats->rx.rx_packets.pkts[cpus][inx] =
soc->stats.rx.ring_packets[cpus][inx];
}
soc_stats->rx.err.rx_rejected = soc->stats.rx.err.rejected;
soc_stats->rx.err.rx_raw_frm_drop = soc->stats.rx.err.raw_frm_drop;
soc_stats->rx.err.phy_ring_access_fail =
soc->stats.rx.err.hal_ring_access_fail;
soc_stats->rx.err.phy_ring_access_full_fail =
soc->stats.rx.err.hal_ring_access_full_fail;
for (inx = 0; inx < CDP_MAX_RX_DEST_RINGS; inx++)
soc_stats->rx.err.phy_rx_hw_error[inx] =
soc->stats.rx.err.hal_reo_error[inx];
soc_stats->rx.err.phy_rx_hw_dest_dup =
soc->stats.rx.err.hal_reo_dest_dup;
soc_stats->rx.err.phy_wifi_rel_dup = soc->stats.rx.err.hal_wbm_rel_dup;
soc_stats->rx.err.phy_rx_sw_err_dup =
soc->stats.rx.err.hal_rxdma_err_dup;
soc_stats->rx.err.invalid_rbm = soc->stats.rx.err.invalid_rbm;
soc_stats->rx.err.invalid_vdev = soc->stats.rx.err.invalid_vdev;
soc_stats->rx.err.invalid_pdev = soc->stats.rx.err.invalid_pdev;
soc_stats->rx.err.pkt_delivered_no_peer =
soc->stats.rx.err.pkt_delivered_no_peer;
soc_stats->rx.err.defrag_peer_uninit =
soc->stats.rx.err.defrag_peer_uninit;
soc_stats->rx.err.invalid_sa_da_idx =
soc->stats.rx.err.invalid_sa_da_idx;
soc_stats->rx.err.msdu_done_fail = soc->stats.rx.err.msdu_done_fail;
soc_stats->rx.err.rx_invalid_peer = soc->stats.rx.err.rx_invalid_peer;
soc_stats->rx.err.rx_invalid_peer_id =
soc->stats.rx.err.rx_invalid_peer_id;
soc_stats->rx.err.rx_invalid_pkt_len =
soc->stats.rx.err.rx_invalid_pkt_len;
for (inx = 0; inx < qdf_min((uint32_t)CDP_WIFI_ERR_MAX,
(uint32_t)HAL_RXDMA_ERR_MAX); inx++)
soc_stats->rx.err.rx_sw_error[inx] =
soc->stats.rx.err.rxdma_error[inx];
for (inx = 0; inx < qdf_min((uint32_t)CDP_RX_ERR_MAX,
(uint32_t)HAL_REO_ERR_MAX); inx++)
soc_stats->rx.err.rx_hw_error[inx] =
soc->stats.rx.err.reo_error[inx];
soc_stats->rx.err.rx_desc_invalid_magic =
soc->stats.rx.err.rx_desc_invalid_magic;
soc_stats->rx.err.rx_hw_cmd_send_fail =
soc->stats.rx.err.reo_cmd_send_fail;
soc_stats->rx.err.rx_hw_cmd_send_drain =
soc->stats.rx.err.reo_cmd_send_drain;
soc_stats->rx.err.scatter_msdu = soc->stats.rx.err.scatter_msdu;
soc_stats->rx.err.invalid_cookie = soc->stats.rx.err.invalid_cookie;
soc_stats->rx.err.stale_cookie = soc->stats.rx.err.stale_cookie;
soc_stats->rx.err.rx_2k_jump_delba_sent =
soc->stats.rx.err.rx_2k_jump_delba_sent;
soc_stats->rx.err.rx_2k_jump_to_stack =
soc->stats.rx.err.rx_2k_jump_to_stack;
soc_stats->rx.err.rx_2k_jump_drop = soc->stats.rx.err.rx_2k_jump_drop;
soc_stats->rx.err.rx_hw_err_msdu_buf_rcved =
soc->stats.rx.err.reo_err_msdu_buf_rcved;
soc_stats->rx.err.rx_hw_err_msdu_buf_invalid_cookie =
soc->stats.rx.err.reo_err_msdu_buf_invalid_cookie;
soc_stats->rx.err.rx_hw_err_oor_drop =
soc->stats.rx.err.reo_err_oor_drop;
soc_stats->rx.err.rx_hw_err_oor_to_stack =
soc->stats.rx.err.reo_err_oor_to_stack;
soc_stats->rx.err.rx_hw_err_oor_sg_count =
soc->stats.rx.err.reo_err_oor_sg_count;
soc_stats->rx.err.msdu_count_mismatch =
soc->stats.rx.err.msdu_count_mismatch;
soc_stats->rx.err.invalid_link_cookie =
soc->stats.rx.err.invalid_link_cookie;
soc_stats->rx.err.nbuf_sanity_fail = soc->stats.rx.err.nbuf_sanity_fail;
soc_stats->rx.err.dup_refill_link_desc =
soc->stats.rx.err.dup_refill_link_desc;
soc_stats->rx.err.msdu_continuation_err =
soc->stats.rx.err.msdu_continuation_err;
soc_stats->rx.err.ssn_update_count = soc->stats.rx.err.ssn_update_count;
soc_stats->rx.err.bar_handle_fail_count =
soc->stats.rx.err.bar_handle_fail_count;
soc_stats->rx.err.intrabss_eapol_drop =
soc->stats.rx.err.intrabss_eapol_drop;
soc_stats->rx.err.pn_in_dest_check_fail =
soc->stats.rx.err.pn_in_dest_check_fail;
soc_stats->rx.err.msdu_len_err = soc->stats.rx.err.msdu_len_err;
soc_stats->rx.err.rx_flush_count = soc->stats.rx.err.rx_flush_count;
/* soc ast stats */
soc_stats->ast.added = soc->stats.ast.added;
soc_stats->ast.deleted = soc->stats.ast.deleted;
soc_stats->ast.aged_out = soc->stats.ast.aged_out;
soc_stats->ast.map_err = soc->stats.ast.map_err;
soc_stats->ast.ast_mismatch = soc->stats.ast.ast_mismatch;
/* soc mec stats */
soc_stats->mec.added = soc->stats.mec.added;
soc_stats->mec.deleted = soc->stats.mec.deleted;
return QDF_STATUS_SUCCESS;
}
#ifdef QCA_PEER_EXT_STATS
QDF_STATUS
dp_txrx_get_peer_delay_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
uint8_t *peer_mac,
struct cdp_delay_tid_stats *delay_stats)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_peer *peer = dp_peer_find_hash_find(soc, peer_mac, 0, vdev_id,
DP_MOD_ID_CDP);
struct dp_peer_delay_stats *pext_stats;
struct cdp_delay_rx_stats *rx_delay;
struct cdp_delay_tx_stats *tx_delay;
uint8_t tid;
if (!peer)
return QDF_STATUS_E_FAILURE;
if (!wlan_cfg_is_peer_ext_stats_enabled(soc->wlan_cfg_ctx)) {
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_E_FAILURE;
}
if (!peer->txrx_peer) {
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_E_FAILURE;
}
pext_stats = peer->txrx_peer->delay_stats;
if (!pext_stats) {
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_E_FAILURE;
}
for (tid = 0; tid < CDP_MAX_DATA_TIDS; tid++) {
rx_delay = &delay_stats[tid].rx_delay;
dp_accumulate_delay_tid_stats(soc, pext_stats->delay_tid_stats,
&rx_delay->to_stack_delay, tid,
CDP_HIST_TYPE_REAP_STACK);
tx_delay = &delay_stats[tid].tx_delay;
dp_accumulate_delay_tid_stats(soc, pext_stats->delay_tid_stats,
&tx_delay->tx_swq_delay, tid,
CDP_HIST_TYPE_SW_ENQEUE_DELAY);
dp_accumulate_delay_tid_stats(soc, pext_stats->delay_tid_stats,
&tx_delay->hwtx_delay, tid,
CDP_HIST_TYPE_HW_COMP_DELAY);
}
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_SUCCESS;
}
#else
QDF_STATUS
dp_txrx_get_peer_delay_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
uint8_t *peer_mac,
struct cdp_delay_tid_stats *delay_stats)
{
return QDF_STATUS_E_FAILURE;
}
#endif /* QCA_PEER_EXT_STATS */
#ifdef WLAN_PEER_JITTER
QDF_STATUS
dp_txrx_get_peer_jitter_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
uint8_t vdev_id, uint8_t *peer_mac,
struct cdp_peer_tid_stats *tid_stats)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
struct dp_peer *peer;
uint8_t tid;
if (!pdev)
return QDF_STATUS_E_FAILURE;
if (!wlan_cfg_get_dp_pdev_nss_enabled(pdev->wlan_cfg_ctx))
return QDF_STATUS_E_FAILURE;
peer = dp_peer_find_hash_find(soc, peer_mac, 0, vdev_id, DP_MOD_ID_CDP);
if (!peer)
return QDF_STATUS_E_FAILURE;
if (!peer->txrx_peer || !peer->txrx_peer->jitter_stats) {
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_E_FAILURE;
}
for (tid = 0; tid < qdf_min(CDP_DATA_TID_MAX, DP_MAX_TIDS); tid++) {
struct cdp_peer_tid_stats *rx_tid =
&peer->txrx_peer->jitter_stats[tid];
tid_stats[tid].tx_avg_jitter = rx_tid->tx_avg_jitter;
tid_stats[tid].tx_avg_delay = rx_tid->tx_avg_delay;
tid_stats[tid].tx_avg_err = rx_tid->tx_avg_err;
tid_stats[tid].tx_total_success = rx_tid->tx_total_success;
tid_stats[tid].tx_drop = rx_tid->tx_drop;
}
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return QDF_STATUS_SUCCESS;
}
#else
QDF_STATUS
dp_txrx_get_peer_jitter_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
uint8_t vdev_id, uint8_t *peer_mac,
struct cdp_peer_tid_stats *tid_stats)
{
return QDF_STATUS_E_FAILURE;
}
#endif /* WLAN_PEER_JITTER */
#ifdef WLAN_TX_PKT_CAPTURE_ENH
QDF_STATUS
dp_peer_get_tx_capture_stats(struct cdp_soc_t *soc_hdl,
uint8_t vdev_id, uint8_t *peer_mac,
struct cdp_peer_tx_capture_stats *stats)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_peer *peer = dp_peer_find_hash_find(soc, peer_mac, 0, vdev_id,
DP_MOD_ID_TX_CAPTURE);
QDF_STATUS status;
if (!peer)
return QDF_STATUS_E_FAILURE;
status = dp_monitor_peer_tx_capture_get_stats(soc, peer, stats);
dp_peer_unref_delete(peer, DP_MOD_ID_TX_CAPTURE);
return status;
}
QDF_STATUS
dp_pdev_get_tx_capture_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
struct cdp_pdev_tx_capture_stats *stats)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
if (!pdev)
return QDF_STATUS_E_FAILURE;
return dp_monitor_pdev_tx_capture_get_stats(soc, pdev, stats);
}
#else /* WLAN_TX_PKT_CAPTURE_ENH */
QDF_STATUS
dp_peer_get_tx_capture_stats(struct cdp_soc_t *soc_hdl,
uint8_t vdev_id, uint8_t *peer_mac,
struct cdp_peer_tx_capture_stats *stats)
{
return QDF_STATUS_E_FAILURE;
}
QDF_STATUS
dp_pdev_get_tx_capture_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
struct cdp_pdev_tx_capture_stats *stats)
{
return QDF_STATUS_E_FAILURE;
}
#endif /* WLAN_TX_PKT_CAPTURE_ENH */
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