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11fa724d8a783e45e0da8093b8b003d28c5c914c
android_kernel_samsung_sm86…/dp/wifi3.0/monitor/dp_mon.c
Adwait Nayak 8775c73843 qcacmn: Enable hybrid mode for QCN9224 
Enable hybrid mode specific handlers

Change-Id: I764c56c217b951424d699d6861ef8771496dd592
CRs-Fixed: 3339154
2022-11-23 04:42:49 -08:00

6436 行
176 KiB
C
原始文件 Blame 文件历史

/*
* Copyright (c) 2016-2021, 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 <dp_types.h>
#include "dp_rx.h"
#include "dp_peer.h"
#include <dp_htt.h>
#include <dp_mon_filter.h>
#include <dp_htt.h>
#include <dp_mon.h>
#include <dp_rx_mon.h>
#include <dp_internal.h>
#include "htt_ppdu_stats.h"
#include "dp_cal_client_api.h"
#if defined(DP_CON_MON)
#ifndef REMOVE_PKT_LOG
#include <pktlog_ac_api.h>
#include <pktlog_ac.h>
#endif
#endif
#ifdef FEATURE_PERPKT_INFO
#include "dp_ratetable.h"
#endif
#ifdef QCA_SUPPORT_LITE_MONITOR
#include "dp_lite_mon.h"
#endif
#define DP_INTR_POLL_TIMER_MS 5
#define INVALID_FREE_BUFF 0xffffffff
#ifdef WLAN_RX_PKT_CAPTURE_ENH
#include "dp_rx_mon_feature.h"
#endif /* WLAN_RX_PKT_CAPTURE_ENH */
#ifdef QCA_UNDECODED_METADATA_SUPPORT
#define MAX_STRING_LEN_PER_FIELD 6
#define DP_UNDECODED_ERR_LENGTH (MAX_STRING_LEN_PER_FIELD * CDP_PHYRX_ERR_MAX)
#endif
#ifdef QCA_MCOPY_SUPPORT
static inline void
dp_pdev_disable_mcopy_code(struct dp_pdev *pdev)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
mon_pdev->mcopy_mode = M_COPY_DISABLED;
mon_pdev->mvdev = NULL;
}
static inline void
dp_reset_mcopy_mode(struct dp_pdev *pdev)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
struct cdp_mon_ops *cdp_ops;
if (mon_pdev->mcopy_mode) {
cdp_ops = dp_mon_cdp_ops_get(pdev->soc);
if (cdp_ops && cdp_ops->config_full_mon_mode)
cdp_ops->soc_config_full_mon_mode((struct cdp_pdev *)pdev,
DP_FULL_MON_ENABLE);
dp_pdev_disable_mcopy_code(pdev);
dp_mon_filter_reset_mcopy_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Failed to reset AM copy mode filters"));
}
mon_pdev->monitor_configured = false;
}
}
static QDF_STATUS
dp_config_mcopy_mode(struct dp_pdev *pdev, int val)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
struct dp_mon_ops *mon_ops;
struct cdp_mon_ops *cdp_ops;
if (mon_pdev->mvdev)
return QDF_STATUS_E_RESOURCES;
mon_pdev->mcopy_mode = val;
mon_pdev->tx_sniffer_enable = 0;
mon_pdev->monitor_configured = true;
mon_ops = dp_mon_ops_get(pdev->soc);
if (!wlan_cfg_is_delay_mon_replenish(pdev->soc->wlan_cfg_ctx)) {
if (mon_ops && mon_ops->mon_vdev_set_monitor_mode_rings)
mon_ops->mon_vdev_set_monitor_mode_rings(pdev, true);
}
/*
* Setup the M copy mode filter.
*/
cdp_ops = dp_mon_cdp_ops_get(pdev->soc);
if (cdp_ops && cdp_ops->config_full_mon_mode)
cdp_ops->soc_config_full_mon_mode((struct cdp_pdev *)pdev,
DP_FULL_MON_ENABLE);
dp_mon_filter_setup_mcopy_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Failed to set M_copy mode filters"));
dp_mon_filter_reset_mcopy_mode(pdev);
dp_pdev_disable_mcopy_code(pdev);
return status;
}
if (!mon_pdev->pktlog_ppdu_stats)
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_SNIFFER,
pdev->pdev_id);
return status;
}
#else
static inline void
dp_reset_mcopy_mode(struct dp_pdev *pdev)
{
}
static inline QDF_STATUS
dp_config_mcopy_mode(struct dp_pdev *pdev, int val)
{
return QDF_STATUS_E_INVAL;
}
#endif /* QCA_MCOPY_SUPPORT */
#ifdef QCA_UNDECODED_METADATA_SUPPORT
static QDF_STATUS
dp_reset_undecoded_metadata_capture(struct dp_pdev *pdev)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (mon_pdev->undecoded_metadata_capture) {
dp_mon_filter_reset_undecoded_metadata_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Undecoded capture filter reset failed"));
}
}
mon_pdev->undecoded_metadata_capture = 0;
return status;
}
static QDF_STATUS
dp_enable_undecoded_metadata_capture(struct dp_pdev *pdev, int val)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
struct dp_mon_ops *mon_ops;
if (!mon_pdev->mvdev) {
qdf_err("monitor_pdev is NULL");
return QDF_STATUS_E_RESOURCES;
}
mon_pdev->undecoded_metadata_capture = val;
mon_pdev->monitor_configured = true;
mon_ops = dp_mon_ops_get(pdev->soc);
/* Setup the undecoded metadata capture mode filter. */
dp_mon_filter_setup_undecoded_metadata_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Failed to set Undecoded capture filters"));
dp_mon_filter_reset_undecoded_metadata_mode(pdev);
return status;
}
return status;
}
#else
static inline QDF_STATUS
dp_reset_undecoded_metadata_capture(struct dp_pdev *pdev)
{
return QDF_STATUS_E_INVAL;
}
static inline QDF_STATUS
dp_enable_undecoded_metadata_capture(struct dp_pdev *pdev, int val)
{
return QDF_STATUS_E_INVAL;
}
#endif /* QCA_UNDECODED_METADATA_SUPPORT */
QDF_STATUS dp_reset_monitor_mode(struct cdp_soc_t *soc_hdl,
uint8_t pdev_id,
uint8_t special_monitor)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev;
struct cdp_mon_ops *cdp_ops;
if (!pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
qdf_spin_lock_bh(&mon_pdev->mon_lock);
cdp_ops = dp_mon_cdp_ops_get(soc);
if (cdp_ops && cdp_ops->soc_config_full_mon_mode)
cdp_ops->soc_config_full_mon_mode((struct cdp_pdev *)pdev,
DP_FULL_MON_DISABLE);
mon_pdev->mvdev = NULL;
/*
* Lite monitor mode, smart monitor mode and monitor
* mode uses this APIs to filter reset and mode disable
*/
if (mon_pdev->mcopy_mode) {
#if defined(QCA_MCOPY_SUPPORT)
dp_pdev_disable_mcopy_code(pdev);
dp_mon_filter_reset_mcopy_mode(pdev);
#endif /* QCA_MCOPY_SUPPORT */
} else if (special_monitor) {
#if defined(ATH_SUPPORT_NAC)
dp_mon_filter_reset_smart_monitor(pdev);
#endif /* ATH_SUPPORT_NAC */
/* for mon 2.0 we make use of lite mon to
* set filters for smart monitor use case.
*/
dp_monitor_lite_mon_disable_rx(pdev);
} else if (mon_pdev->undecoded_metadata_capture) {
#ifdef QCA_UNDECODED_METADATA_SUPPORT
dp_reset_undecoded_metadata_capture(pdev);
#endif
} else {
dp_mon_filter_reset_mon_mode(pdev);
}
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_rx_mon_dest_err("%pK: Failed to reset monitor filters",
soc);
}
mon_pdev->monitor_configured = false;
qdf_spin_unlock_bh(&mon_pdev->mon_lock);
return QDF_STATUS_SUCCESS;
}
#ifdef QCA_ADVANCE_MON_FILTER_SUPPORT
QDF_STATUS
dp_pdev_set_advance_monitor_filter(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
struct cdp_monitor_filter *filter_val)
{
/* Many monitor VAPs can exists in a system but only one can be up at
* anytime
*/
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_vdev *vdev;
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev;
if (!pdev || !pdev->monitor_pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
vdev = mon_pdev->mvdev;
if (!vdev)
return QDF_STATUS_E_FAILURE;
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_WARN,
"pdev=%pK, pdev_id=%d, soc=%pK vdev=%pK",
pdev, pdev_id, soc, vdev);
/*Check if current pdev's monitor_vdev exists */
if (!mon_pdev->mvdev) {
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_ERROR,
"vdev=%pK", vdev);
qdf_assert(vdev);
}
/* update filter mode, type in pdev structure */
mon_pdev->mon_filter_mode = filter_val->mode;
mon_pdev->fp_mgmt_filter = filter_val->fp_mgmt;
mon_pdev->fp_ctrl_filter = filter_val->fp_ctrl;
mon_pdev->fp_data_filter = filter_val->fp_data;
mon_pdev->mo_mgmt_filter = filter_val->mo_mgmt;
mon_pdev->mo_ctrl_filter = filter_val->mo_ctrl;
mon_pdev->mo_data_filter = filter_val->mo_data;
dp_mon_filter_setup_mon_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_rx_mon_dest_err("%pK: Failed to set filter for adv mon mode",
soc);
dp_mon_filter_reset_mon_mode(pdev);
}
return status;
}
#endif
QDF_STATUS
dp_deliver_tx_mgmt(struct cdp_soc_t *cdp_soc, uint8_t pdev_id, qdf_nbuf_t nbuf)
{
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)cdp_soc,
pdev_id);
if (!pdev)
return QDF_STATUS_E_FAILURE;
dp_deliver_mgmt_frm(pdev, nbuf);
return QDF_STATUS_SUCCESS;
}
#ifdef QCA_SUPPORT_SCAN_SPCL_VAP_STATS
/**
* dp_scan_spcl_vap_stats_attach() - alloc spcl vap stats struct
* @mon_vdev: Datapath mon VDEV handle
*
* Return: 0 on success, not 0 on failure
*/
static inline QDF_STATUS
dp_scan_spcl_vap_stats_attach(struct dp_mon_vdev *mon_vdev)
{
mon_vdev->scan_spcl_vap_stats =
qdf_mem_malloc(sizeof(struct cdp_scan_spcl_vap_stats));
if (!mon_vdev->scan_spcl_vap_stats) {
dp_mon_err("scan spcl vap stats attach fail");
return QDF_STATUS_E_NOMEM;
}
return QDF_STATUS_SUCCESS;
}
/**
* dp_scan_spcl_vap_stats_detach() - free spcl vap stats struct
* @mon_vdev: Datapath mon VDEV handle
*
* Return: void
*/
static inline void
dp_scan_spcl_vap_stats_detach(struct dp_mon_vdev *mon_vdev)
{
if (mon_vdev->scan_spcl_vap_stats) {
qdf_mem_free(mon_vdev->scan_spcl_vap_stats);
mon_vdev->scan_spcl_vap_stats = NULL;
}
}
/**
* dp_reset_scan_spcl_vap_stats() - reset spcl vap rx stats
* @vdev: Datapath VDEV handle
*
* Return: void
*/
static inline void
dp_reset_scan_spcl_vap_stats(struct dp_vdev *vdev)
{
struct dp_mon_vdev *mon_vdev;
struct dp_mon_pdev *mon_pdev;
mon_pdev = vdev->pdev->monitor_pdev;
if (!mon_pdev || !mon_pdev->reset_scan_spcl_vap_stats_enable)
return;
mon_vdev = vdev->monitor_vdev;
if (!mon_vdev || !mon_vdev->scan_spcl_vap_stats)
return;
qdf_mem_zero(mon_vdev->scan_spcl_vap_stats,
sizeof(struct cdp_scan_spcl_vap_stats));
}
/**
* dp_get_scan_spcl_vap_stats() - get spcl vap rx stats
* @soc_hdl: Datapath soc handle
* @vdev_id: vdev id
* @stats: structure to hold spcl vap stats
*
* Return: 0 on success, not 0 on failure
*/
static QDF_STATUS
dp_get_scan_spcl_vap_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
struct cdp_scan_spcl_vap_stats *stats)
{
struct dp_mon_vdev *mon_vdev = NULL;
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
if (!vdev || !stats) {
if (vdev)
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return QDF_STATUS_E_INVAL;
}
mon_vdev = vdev->monitor_vdev;
if (!mon_vdev || !mon_vdev->scan_spcl_vap_stats) {
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return QDF_STATUS_E_INVAL;
}
qdf_mem_copy(stats, mon_vdev->scan_spcl_vap_stats,
sizeof(struct cdp_scan_spcl_vap_stats));
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return QDF_STATUS_SUCCESS;
}
#else
static inline void
dp_reset_scan_spcl_vap_stats(struct dp_vdev *vdev)
{
}
static inline QDF_STATUS
dp_scan_spcl_vap_stats_attach(struct dp_mon_vdev *mon_vdev)
{
return QDF_STATUS_SUCCESS;
}
static inline void
dp_scan_spcl_vap_stats_detach(struct dp_mon_vdev *mon_vdev)
{
}
#endif
/**
* dp_vdev_set_monitor_mode() - Set DP VDEV to monitor mode
* @vdev_handle: Datapath VDEV handle
* @smart_monitor: Flag to denote if its smart monitor mode
*
* Return: 0 on success, not 0 on failure
*/
static QDF_STATUS dp_vdev_set_monitor_mode(struct cdp_soc_t *dp_soc,
uint8_t vdev_id,
uint8_t special_monitor)
{
struct dp_soc *soc = (struct dp_soc *)dp_soc;
struct dp_pdev *pdev;
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev;
struct cdp_mon_ops *cdp_ops;
if (!vdev)
return QDF_STATUS_E_FAILURE;
pdev = vdev->pdev;
if (!pdev || !pdev->monitor_pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
mon_pdev->mvdev = vdev;
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_WARN,
"pdev=%pK, pdev_id=%d, soc=%pK vdev=%pK\n",
pdev, pdev->pdev_id, pdev->soc, vdev);
/*
* do not configure monitor buf ring and filter for smart and
* lite monitor
* for smart monitor filters are added along with first NAC
* for lite monitor required configuration done through
* dp_set_pdev_param
*/
if (special_monitor) {
status = QDF_STATUS_SUCCESS;
goto fail;
}
if (mon_pdev->scan_spcl_vap_configured)
dp_reset_scan_spcl_vap_stats(vdev);
/*Check if current pdev's monitor_vdev exists */
if (mon_pdev->monitor_configured) {
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_DEBUG,
"monitor vap already created vdev=%pK\n", vdev);
status = QDF_STATUS_E_RESOURCES;
goto fail;
}
mon_pdev->monitor_configured = true;
/* disable lite mon if configured, monitor vap takes
* priority over lite mon when its created. Lite mon
* can be configured later again.
*/
dp_monitor_lite_mon_disable_rx(pdev);
cdp_ops = dp_mon_cdp_ops_get(soc);
if (cdp_ops && cdp_ops->soc_config_full_mon_mode)
cdp_ops->soc_config_full_mon_mode((struct cdp_pdev *)pdev,
DP_FULL_MON_ENABLE);
dp_mon_filter_setup_mon_mode(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Failed to reset monitor filters", soc);
dp_mon_filter_reset_mon_mode(pdev);
mon_pdev->monitor_configured = false;
mon_pdev->mvdev = NULL;
}
fail:
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return status;
}
#ifdef QCA_TX_CAPTURE_SUPPORT
static QDF_STATUS
dp_config_tx_capture_mode(struct dp_pdev *pdev)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
mon_pdev->tx_sniffer_enable = 1;
mon_pdev->monitor_configured = false;
if (!mon_pdev->pktlog_ppdu_stats)
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_SNIFFER,
pdev->pdev_id);
return QDF_STATUS_SUCCESS;
}
#else
#ifdef QCA_MCOPY_SUPPORT
static QDF_STATUS
dp_config_tx_capture_mode(struct dp_pdev *pdev)
{
return QDF_STATUS_E_INVAL;
}
#endif
#endif
#if defined(QCA_MCOPY_SUPPORT) || defined(QCA_TX_CAPTURE_SUPPORT)
QDF_STATUS
dp_config_debug_sniffer(struct dp_pdev *pdev, int val)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
/*
* Note: The mirror copy mode cannot co-exist with any other
* monitor modes. Hence disabling the filter for this mode will
* reset the monitor destination ring filters.
*/
dp_reset_mcopy_mode(pdev);
switch (val) {
case 0:
mon_pdev->tx_sniffer_enable = 0;
mon_pdev->monitor_configured = false;
/*
* We don't need to reset the Rx monitor status ring or call
* the API dp_ppdu_ring_reset() if all debug sniffer mode is
* disabled. The Rx monitor status ring will be disabled when
* the last mode using the monitor status ring get disabled.
*/
if (!mon_pdev->pktlog_ppdu_stats &&
!mon_pdev->enhanced_stats_en &&
!mon_pdev->bpr_enable) {
dp_h2t_cfg_stats_msg_send(pdev, 0, pdev->pdev_id);
} else if (mon_pdev->enhanced_stats_en &&
!mon_pdev->bpr_enable) {
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_ENH_STATS,
pdev->pdev_id);
} else if (!mon_pdev->enhanced_stats_en &&
mon_pdev->bpr_enable) {
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_BPR_ENH,
pdev->pdev_id);
} else {
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_BPR,
pdev->pdev_id);
}
break;
case 1:
status = dp_config_tx_capture_mode(pdev);
break;
case 2:
case 4:
status = dp_config_mcopy_mode(pdev, val);
break;
default:
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
"Invalid value, mode not supported");
status = QDF_STATUS_E_INVAL;
break;
}
return status;
}
#endif
#ifdef QCA_UNDECODED_METADATA_SUPPORT
QDF_STATUS
dp_mon_config_undecoded_metadata_capture(struct dp_pdev *pdev, int val)
{
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (!mon_pdev->mvdev && !mon_pdev->scan_spcl_vap_configured) {
qdf_err("No monitor or Special vap, undecoded capture not supported");
return QDF_STATUS_E_RESOURCES;
}
if (val)
status = dp_enable_undecoded_metadata_capture(pdev, val);
else
status = dp_reset_undecoded_metadata_capture(pdev);
return status;
}
#endif
/**
* dp_monitor_mode_ring_config() - Send the tlv config to fw for monitor buffer
* ring based on target
* @soc: soc handle
* @mac_for_pdev: WIN- pdev_id, MCL- mac id
* @pdev: physical device handle
* @ring_num: mac id
* @htt_tlv_filter: tlv filter
*
* Return: zero on success, non-zero on failure
*/
static inline QDF_STATUS
dp_monitor_mode_ring_config(struct dp_soc *soc, uint8_t mac_for_pdev,
struct dp_pdev *pdev, uint8_t ring_num,
struct htt_rx_ring_tlv_filter htt_tlv_filter)
{
QDF_STATUS status;
if (soc->wlan_cfg_ctx->rxdma1_enable)
status = htt_h2t_rx_ring_cfg(soc->htt_handle, mac_for_pdev,
soc->rxdma_mon_buf_ring[ring_num]
.hal_srng,
RXDMA_MONITOR_BUF,
RX_MONITOR_BUFFER_SIZE,
&htt_tlv_filter);
else
status = htt_h2t_rx_ring_cfg(soc->htt_handle, mac_for_pdev,
pdev->rx_mac_buf_ring[ring_num]
.hal_srng,
RXDMA_BUF, RX_DATA_BUFFER_SIZE,
&htt_tlv_filter);
return status;
}
/**
* dp_get_mon_vdev_from_pdev_wifi3() - Get vdev id of monitor mode
* @soc_hdl: datapath soc handle
* @pdev_id: physical device instance id
*
* Return: virtual interface id
*/
static uint8_t dp_get_mon_vdev_from_pdev_wifi3(struct cdp_soc_t *soc_hdl,
uint8_t pdev_id)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
if (qdf_unlikely(!pdev || !pdev->monitor_pdev ||
!pdev->monitor_pdev->mvdev))
return -EINVAL;
return pdev->monitor_pdev->mvdev->vdev_id;
}
#if defined(QCA_TX_CAPTURE_SUPPORT) || defined(QCA_ENHANCED_STATS_SUPPORT)
#ifndef WLAN_TX_PKT_CAPTURE_ENH
void dp_deliver_mgmt_frm(struct dp_pdev *pdev, qdf_nbuf_t nbuf)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (mon_pdev->tx_sniffer_enable || mon_pdev->mcopy_mode) {
dp_wdi_event_handler(WDI_EVENT_TX_MGMT_CTRL, pdev->soc,
nbuf, HTT_INVALID_PEER,
WDI_NO_VAL, pdev->pdev_id);
} else {
if (!mon_pdev->bpr_enable)
qdf_nbuf_free(nbuf);
}
}
#endif
#endif
QDF_STATUS dp_htt_ppdu_stats_attach(struct dp_pdev *pdev)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
mon_pdev->ppdu_tlv_buf = qdf_mem_malloc(HTT_T2H_MAX_MSG_SIZE);
if (!mon_pdev->ppdu_tlv_buf) {
QDF_TRACE_ERROR(QDF_MODULE_ID_DP, "ppdu_tlv_buf alloc fail");
return QDF_STATUS_E_NOMEM;
}
return QDF_STATUS_SUCCESS;
}
void dp_htt_ppdu_stats_detach(struct dp_pdev *pdev)
{
struct ppdu_info *ppdu_info, *ppdu_info_next;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
TAILQ_FOREACH_SAFE(ppdu_info, &mon_pdev->ppdu_info_list,
ppdu_info_list_elem, ppdu_info_next) {
if (!ppdu_info)
break;
TAILQ_REMOVE(&mon_pdev->ppdu_info_list,
ppdu_info, ppdu_info_list_elem);
mon_pdev->list_depth--;
qdf_assert_always(ppdu_info->nbuf);
qdf_nbuf_free(ppdu_info->nbuf);
qdf_mem_free(ppdu_info);
}
TAILQ_FOREACH_SAFE(ppdu_info, &mon_pdev->sched_comp_ppdu_list,
ppdu_info_list_elem, ppdu_info_next) {
if (!ppdu_info)
break;
TAILQ_REMOVE(&mon_pdev->sched_comp_ppdu_list,
ppdu_info, ppdu_info_list_elem);
mon_pdev->sched_comp_list_depth--;
qdf_assert_always(ppdu_info->nbuf);
qdf_nbuf_free(ppdu_info->nbuf);
qdf_mem_free(ppdu_info);
}
if (mon_pdev->ppdu_tlv_buf)
qdf_mem_free(mon_pdev->ppdu_tlv_buf);
}
QDF_STATUS dp_pdev_get_rx_mon_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
struct cdp_pdev_mon_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);
struct dp_mon_pdev *mon_pdev;
if (!pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
if (!mon_pdev)
return QDF_STATUS_E_FAILURE;
qdf_mem_copy(stats, &mon_pdev->rx_mon_stats,
sizeof(struct cdp_pdev_mon_stats));
return QDF_STATUS_SUCCESS;
}
#ifdef QCA_UNDECODED_METADATA_SUPPORT
/**
* dp_pdev_get_undecoded_capture_stats() - Get undecoded metadata captured
* monitor pdev stats
* @mon_pdev: Monitor PDEV handle
* @rx_mon_stats: Monitor pdev status/destination ring stats
*
* Return: None
*/
static inline void
dp_pdev_get_undecoded_capture_stats(struct dp_mon_pdev *mon_pdev,
struct cdp_pdev_mon_stats *rx_mon_stats)
{
char undecoded_error[DP_UNDECODED_ERR_LENGTH];
uint8_t index = 0, i;
DP_PRINT_STATS("Rx Undecoded Frame count:%d",
rx_mon_stats->rx_undecoded_count);
index = 0;
for (i = 0; i < (CDP_PHYRX_ERR_MAX); i++) {
index += qdf_snprint(&undecoded_error[index],
DP_UNDECODED_ERR_LENGTH - index,
" %d", rx_mon_stats->rx_undecoded_error[i]);
}
DP_PRINT_STATS("Undecoded Error (0-63):%s", undecoded_error);
}
#else
static inline void
dp_pdev_get_undecoded_capture_stats(struct dp_mon_pdev *mon_pdev,
struct cdp_pdev_mon_stats *rx_mon_stats)
{
}
#endif
static const char *
dp_preamble_type_str[] = {
"preamble OFDMA ",
"preamble CCK ",
"preamble HT ",
"preamble VHT ",
"preamble HE ",
"preamble EHT ",
"preamble NO SUPPORT",
};
static const char *
dp_reception_type_str[] = {
"reception su ",
"reception mu_mimo ",
"reception ofdma ",
"reception ofdma mimo",
};
static const char *
dp_mu_dl_ul_str[] = {
"MU DL",
"MU UL",
};
static inline void
dp_print_pdev_mpdu_fcs_ok_cnt(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t, uint32_t rx_t,
uint32_t dl_ul, uint32_t user)
{
DP_PRINT_STATS("%s, %s, %s, user=%d, mpdu_fcs_ok=%d",
dp_preamble_type_str[pkt_t],
dp_reception_type_str[rx_t],
dp_mu_dl_ul_str[dl_ul],
user,
rx_mon_sts->mpdu_cnt_fcs_ok[pkt_t][rx_t][dl_ul][user]);
}
static inline void
dp_print_pdev_mpdu_fcs_err_cnt(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t, uint32_t rx_t,
uint32_t dl_ul, uint32_t user)
{
DP_PRINT_STATS("%s, %s, %s, user=%d, mpdu_fcs_err=%d",
dp_preamble_type_str[pkt_t],
dp_reception_type_str[rx_t],
dp_mu_dl_ul_str[dl_ul],
user,
rx_mon_sts->mpdu_cnt_fcs_err[pkt_t][rx_t][dl_ul][user]);
}
static inline void
dp_print_pdev_mpdu_cnt(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t, uint32_t rx_t,
uint32_t dl_ul, uint32_t user)
{
if (rx_mon_sts->mpdu_cnt_fcs_ok[pkt_t][rx_t][dl_ul][user])
dp_print_pdev_mpdu_fcs_ok_cnt(rx_mon_sts, pkt_t, rx_t,
dl_ul, user);
if (rx_mon_sts->mpdu_cnt_fcs_err[pkt_t][rx_t][dl_ul][user])
dp_print_pdev_mpdu_fcs_err_cnt(rx_mon_sts, pkt_t, rx_t,
dl_ul, user);
}
static inline void
dp_print_pdev_mpdu_user(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t, uint32_t rx_t,
uint32_t dl_ul)
{
uint32_t user;
for (user = 0; user < CDP_MU_SNIF_USER_MAX; user++)
dp_print_pdev_mpdu_cnt(rx_mon_sts, pkt_t, rx_t,
dl_ul, user);
}
static inline void
dp_print_pdev_mpdu_dl_ul(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t, uint32_t rx_t)
{
uint32_t dl_ul;
for (dl_ul = CDP_MU_TYPE_DL; dl_ul < CDP_MU_TYPE_MAX; dl_ul++)
dp_print_pdev_mpdu_user(rx_mon_sts, pkt_t, rx_t,
dl_ul);
}
static inline void
dp_print_pdev_mpdu_rx_type(struct cdp_pdev_mon_stats *rx_mon_sts,
uint32_t pkt_t)
{
uint32_t rx_t;
for (rx_t = CDP_RX_TYPE_SU; rx_t < CDP_RX_TYPE_MAX; rx_t++)
dp_print_pdev_mpdu_dl_ul(rx_mon_sts, pkt_t, rx_t);
}
static inline void
dp_print_pdev_mpdu_pkt_type(struct cdp_pdev_mon_stats *rx_mon_sts)
{
uint32_t pkt_t;
for (pkt_t = CDP_PKT_TYPE_OFDM; pkt_t < CDP_PKT_TYPE_MAX; pkt_t++)
dp_print_pdev_mpdu_rx_type(rx_mon_sts, pkt_t);
}
static inline void
print_ppdu_eht_type_mode(
struct cdp_pdev_mon_stats *rx_mon_stats,
uint32_t ppdu_type_mode,
uint32_t dl_ul)
{
DP_PRINT_STATS("type_mode=%d, dl_ul=%d, cnt=%d",
ppdu_type_mode,
dl_ul,
rx_mon_stats->ppdu_eht_type_mode[ppdu_type_mode][dl_ul]);
}
static inline void
print_ppdu_eth_type_mode_dl_ul(
struct cdp_pdev_mon_stats *rx_mon_stats,
uint32_t ppdu_type_mode
)
{
uint32_t dl_ul;
for (dl_ul = 0; dl_ul < CDP_MU_TYPE_MAX; dl_ul++) {
if (rx_mon_stats->ppdu_eht_type_mode[ppdu_type_mode][dl_ul])
print_ppdu_eht_type_mode(rx_mon_stats,
ppdu_type_mode, dl_ul);
}
}
static inline void
dp_print_pdev_eht_ppdu_cnt(struct dp_pdev *pdev)
{
struct cdp_pdev_mon_stats *rx_mon_stats;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
uint32_t ppdu_type_mode;
rx_mon_stats = &mon_pdev->rx_mon_stats;
DP_PRINT_STATS("Monitor EHT PPDU Count");
for (ppdu_type_mode = 0; ppdu_type_mode < CDP_EHT_TYPE_MODE_MAX;
ppdu_type_mode++) {
print_ppdu_eth_type_mode_dl_ul(rx_mon_stats,
ppdu_type_mode);
}
}
static inline void
dp_print_pdev_mpdu_stats(struct dp_pdev *pdev)
{
struct cdp_pdev_mon_stats *rx_mon_stats;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
rx_mon_stats = &mon_pdev->rx_mon_stats;
DP_PRINT_STATS("Monitor MPDU Count");
dp_print_pdev_mpdu_pkt_type(rx_mon_stats);
}
void
dp_print_pdev_rx_mon_stats(struct dp_pdev *pdev)
{
struct cdp_pdev_mon_stats *rx_mon_stats;
uint32_t *stat_ring_ppdu_ids;
uint32_t *dest_ring_ppdu_ids;
int i, idx;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
rx_mon_stats = &mon_pdev->rx_mon_stats;
DP_PRINT_STATS("PDEV Rx Monitor Stats:\n");
DP_PRINT_STATS("status_ppdu_compl_cnt = %d",
rx_mon_stats->status_ppdu_compl);
DP_PRINT_STATS("status_ppdu_start_cnt = %d",
rx_mon_stats->status_ppdu_start);
DP_PRINT_STATS("status_ppdu_end_cnt = %d",
rx_mon_stats->status_ppdu_end);
DP_PRINT_STATS("status_ppdu_start_mis_cnt = %d",
rx_mon_stats->status_ppdu_start_mis);
DP_PRINT_STATS("status_ppdu_end_mis_cnt = %d",
rx_mon_stats->status_ppdu_end_mis);
DP_PRINT_STATS("start_user_info_cnt = %d",
rx_mon_stats->start_user_info_cnt);
DP_PRINT_STATS("end_user_stats_cnt = %d",
rx_mon_stats->end_user_stats_cnt);
DP_PRINT_STATS("status_ppdu_done_cnt = %d",
rx_mon_stats->status_ppdu_done);
DP_PRINT_STATS("dest_ppdu_done_cnt = %d",
rx_mon_stats->dest_ppdu_done);
DP_PRINT_STATS("dest_mpdu_done_cnt = %d",
rx_mon_stats->dest_mpdu_done);
DP_PRINT_STATS("tlv_tag_status_err_cnt = %u",
rx_mon_stats->tlv_tag_status_err);
DP_PRINT_STATS("mon status DMA not done WAR count= %u",
rx_mon_stats->status_buf_done_war);
DP_PRINT_STATS("dest_mpdu_drop_cnt = %d",
rx_mon_stats->dest_mpdu_drop);
DP_PRINT_STATS("dup_mon_linkdesc_cnt = %d",
rx_mon_stats->dup_mon_linkdesc_cnt);
DP_PRINT_STATS("dup_mon_buf_cnt = %d",
rx_mon_stats->dup_mon_buf_cnt);
DP_PRINT_STATS("mon_rx_buf_reaped = %u",
rx_mon_stats->mon_rx_bufs_reaped_dest);
DP_PRINT_STATS("mon_rx_buf_replenished = %u",
rx_mon_stats->mon_rx_bufs_replenished_dest);
DP_PRINT_STATS("ppdu_id_mismatch = %u",
rx_mon_stats->ppdu_id_mismatch);
DP_PRINT_STATS("mpdu_ppdu_id_match_cnt = %d",
rx_mon_stats->ppdu_id_match);
DP_PRINT_STATS("ppdus dropped frm status ring = %d",
rx_mon_stats->status_ppdu_drop);
DP_PRINT_STATS("ppdus dropped frm dest ring = %d",
rx_mon_stats->dest_ppdu_drop);
DP_PRINT_STATS("mpdu_ppdu_id_mismatch_drop = %u",
rx_mon_stats->mpdu_ppdu_id_mismatch_drop);
DP_PRINT_STATS("mpdu_decap_type_invalid = %u",
rx_mon_stats->mpdu_decap_type_invalid);
stat_ring_ppdu_ids =
(uint32_t *)qdf_mem_malloc(sizeof(uint32_t) * MAX_PPDU_ID_HIST);
dest_ring_ppdu_ids =
(uint32_t *)qdf_mem_malloc(sizeof(uint32_t) * MAX_PPDU_ID_HIST);
if (!stat_ring_ppdu_ids || !dest_ring_ppdu_ids)
DP_PRINT_STATS("Unable to allocate ppdu id hist mem\n");
qdf_spin_lock_bh(&mon_pdev->mon_lock);
idx = rx_mon_stats->ppdu_id_hist_idx;
qdf_mem_copy(stat_ring_ppdu_ids,
rx_mon_stats->stat_ring_ppdu_id_hist,
sizeof(uint32_t) * MAX_PPDU_ID_HIST);
qdf_mem_copy(dest_ring_ppdu_ids,
rx_mon_stats->dest_ring_ppdu_id_hist,
sizeof(uint32_t) * MAX_PPDU_ID_HIST);
qdf_spin_unlock_bh(&mon_pdev->mon_lock);
DP_PRINT_STATS("PPDU Id history:");
DP_PRINT_STATS("stat_ring_ppdu_ids\t dest_ring_ppdu_ids");
for (i = 0; i < MAX_PPDU_ID_HIST; i++) {
idx = (idx + 1) & (MAX_PPDU_ID_HIST - 1);
DP_PRINT_STATS("%*u\t%*u", 16,
rx_mon_stats->stat_ring_ppdu_id_hist[idx], 16,
rx_mon_stats->dest_ring_ppdu_id_hist[idx]);
}
qdf_mem_free(stat_ring_ppdu_ids);
qdf_mem_free(dest_ring_ppdu_ids);
DP_PRINT_STATS("mon_rx_dest_stuck = %d",
rx_mon_stats->mon_rx_dest_stuck);
dp_pdev_get_undecoded_capture_stats(mon_pdev, rx_mon_stats);
dp_mon_rx_print_advanced_stats(pdev->soc, pdev);
dp_print_pdev_mpdu_stats(pdev);
dp_print_pdev_eht_ppdu_cnt(pdev);
}
#ifdef QCA_SUPPORT_BPR
QDF_STATUS
dp_set_bpr_enable(struct dp_pdev *pdev, int val)
{
struct dp_mon_ops *mon_ops;
mon_ops = dp_mon_ops_get(pdev->soc);
if (mon_ops && mon_ops->mon_set_bpr_enable)
return mon_ops->mon_set_bpr_enable(pdev, val);
return QDF_STATUS_E_FAILURE;
}
#endif
#ifdef WDI_EVENT_ENABLE
#ifdef BE_PKTLOG_SUPPORT
static bool
dp_set_hybrid_pktlog_enable(struct dp_pdev *pdev,
struct dp_mon_pdev *mon_pdev,
struct dp_soc *soc)
{
struct wlan_cfg_dp_soc_ctxt *soc_cfg_ctx;
struct dp_mon_ops *mon_ops = NULL;
uint16_t num_buffers;
if (mon_pdev->mvdev) {
/* Nothing needs to be done if monitor mode is
* enabled
*/
mon_pdev->pktlog_hybrid_mode = true;
return false;
}
mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops) {
dp_mon_filter_err("Mon ops uninitialized");
return QDF_STATUS_E_FAILURE;
}
if (!mon_pdev->pktlog_hybrid_mode) {
mon_pdev->pktlog_hybrid_mode = true;
soc_cfg_ctx = soc->wlan_cfg_ctx;
num_buffers =
wlan_cfg_get_dp_soc_tx_mon_buf_ring_size(soc_cfg_ctx);
if (mon_ops && mon_ops->set_mon_mode_buf_rings_tx)
mon_ops->set_mon_mode_buf_rings_tx(pdev, num_buffers);
dp_mon_filter_setup_pktlog_hybrid(pdev);
if (dp_tx_mon_filter_update(pdev) !=
QDF_STATUS_SUCCESS) {
dp_cdp_err("Set hybrid filters failed");
dp_mon_filter_reset_pktlog_hybrid(pdev);
mon_pdev->rx_pktlog_mode =
DP_RX_PKTLOG_DISABLED;
return false;
}
dp_monitor_reap_timer_start(soc, CDP_MON_REAP_SOURCE_PKTLOG);
}
return true;
}
static void
dp_set_hybrid_pktlog_disable(struct dp_mon_pdev *mon_pdev)
{
mon_pdev->pktlog_hybrid_mode = false;
}
#else
static void
dp_set_hybrid_pktlog_disable(struct dp_mon_pdev *mon_pdev)
{
}
static bool
dp_set_hybrid_pktlog_enable(struct dp_pdev *pdev,
struct dp_mon_pdev *mon_pdev,
struct dp_soc *soc)
{
dp_cdp_err("Hybrid mode is supported only on beryllium");
return true;
}
#endif
int dp_set_pktlog_wifi3(struct dp_pdev *pdev, uint32_t event,
bool enable)
{
struct dp_soc *soc = NULL;
int max_mac_rings = wlan_cfg_get_num_mac_rings
(pdev->wlan_cfg_ctx);
uint8_t mac_id = 0;
struct dp_mon_soc *mon_soc;
struct dp_mon_ops *mon_ops;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
soc = pdev->soc;
mon_soc = soc->monitor_soc;
mon_ops = dp_mon_ops_get(soc);
if (!mon_ops)
return 0;
dp_update_num_mac_rings_for_dbs(soc, &max_mac_rings);
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_DEBUG,
FL("Max_mac_rings %d "),
max_mac_rings);
if (enable) {
switch (event) {
case WDI_EVENT_RX_DESC:
/* Nothing needs to be done if monitor mode is
* enabled
*/
if (mon_pdev->mvdev)
return 0;
if (mon_pdev->rx_pktlog_mode == DP_RX_PKTLOG_FULL)
break;
mon_pdev->rx_pktlog_mode = DP_RX_PKTLOG_FULL;
dp_mon_filter_setup_rx_pkt_log_full(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Pktlog full filters set failed",
soc);
dp_mon_filter_reset_rx_pkt_log_full(pdev);
mon_pdev->rx_pktlog_mode =
DP_RX_PKTLOG_DISABLED;
return 0;
}
dp_monitor_reap_timer_start(soc,
CDP_MON_REAP_SOURCE_PKTLOG);
break;
case WDI_EVENT_LITE_RX:
/* Nothing needs to be done if monitor mode is
* enabled
*/
if (mon_pdev->mvdev)
return 0;
if (mon_pdev->rx_pktlog_mode == DP_RX_PKTLOG_LITE)
break;
mon_pdev->rx_pktlog_mode = DP_RX_PKTLOG_LITE;
/*
* Set the packet log lite mode filter.
*/
dp_mon_filter_setup_rx_pkt_log_lite(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Pktlog lite filters set failed",
soc);
dp_mon_filter_reset_rx_pkt_log_lite(pdev);
mon_pdev->rx_pktlog_mode =
DP_RX_PKTLOG_DISABLED;
return 0;
}
dp_monitor_reap_timer_start(soc,
CDP_MON_REAP_SOURCE_PKTLOG);
break;
case WDI_EVENT_LITE_T2H:
for (mac_id = 0; mac_id < max_mac_rings; mac_id++) {
int mac_for_pdev = dp_get_mac_id_for_pdev(
mac_id, pdev->pdev_id);
mon_pdev->pktlog_ppdu_stats = true;
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_TXLITE_STATS_BITMASK_CFG,
mac_for_pdev);
}
break;
case WDI_EVENT_RX_CBF:
/* Nothing needs to be done if monitor mode is
* enabled
*/
if (mon_pdev->mvdev)
return 0;
if (mon_pdev->rx_pktlog_cbf)
break;
mon_pdev->rx_pktlog_cbf = true;
mon_pdev->monitor_configured = true;
if (mon_ops->mon_vdev_set_monitor_mode_buf_rings)
mon_ops->mon_vdev_set_monitor_mode_buf_rings(
pdev);
/*
* Set the packet log lite mode filter.
*/
qdf_info("Non mon mode: Enable destination ring");
dp_mon_filter_setup_rx_pkt_log_cbf(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
dp_mon_err("Pktlog set CBF filters failed");
dp_mon_filter_reset_rx_pktlog_cbf(pdev);
mon_pdev->rx_pktlog_mode =
DP_RX_PKTLOG_DISABLED;
mon_pdev->monitor_configured = false;
return 0;
}
dp_monitor_reap_timer_start(soc,
CDP_MON_REAP_SOURCE_PKTLOG);
break;
case WDI_EVENT_HYBRID_TX:
if (!dp_set_hybrid_pktlog_enable(pdev, mon_pdev, soc))
return 0;
break;
default:
/* Nothing needs to be done for other pktlog types */
break;
}
} else {
switch (event) {
case WDI_EVENT_RX_DESC:
case WDI_EVENT_LITE_RX:
/* Nothing needs to be done if monitor mode is
* enabled
*/
if (mon_pdev->mvdev)
return 0;
if (mon_pdev->rx_pktlog_mode == DP_RX_PKTLOG_DISABLED)
break;
mon_pdev->rx_pktlog_mode = DP_RX_PKTLOG_DISABLED;
dp_mon_filter_reset_rx_pkt_log_full(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Pktlog filters reset failed",
soc);
return 0;
}
dp_mon_filter_reset_rx_pkt_log_lite(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Pktlog filters reset failed",
soc);
return 0;
}
dp_monitor_reap_timer_stop(soc,
CDP_MON_REAP_SOURCE_PKTLOG);
break;
case WDI_EVENT_LITE_T2H:
/*
* To disable HTT_H2T_MSG_TYPE_PPDU_STATS_CFG in FW
* passing value 0. Once these macros will define in htt
* header file will use proper macros
*/
for (mac_id = 0; mac_id < max_mac_rings; mac_id++) {
int mac_for_pdev =
dp_get_mac_id_for_pdev(mac_id,
pdev->pdev_id);
mon_pdev->pktlog_ppdu_stats = false;
if (!mon_pdev->enhanced_stats_en &&
!mon_pdev->tx_sniffer_enable &&
!mon_pdev->mcopy_mode) {
dp_h2t_cfg_stats_msg_send(pdev, 0,
mac_for_pdev);
} else if (mon_pdev->tx_sniffer_enable ||
mon_pdev->mcopy_mode) {
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_SNIFFER,
mac_for_pdev);
} else if (mon_pdev->enhanced_stats_en) {
dp_h2t_cfg_stats_msg_send(pdev,
DP_PPDU_STATS_CFG_ENH_STATS,
mac_for_pdev);
}
}
break;
case WDI_EVENT_RX_CBF:
mon_pdev->rx_pktlog_cbf = false;
break;
case WDI_EVENT_HYBRID_TX:
dp_set_hybrid_pktlog_disable(mon_pdev);
break;
default:
/* Nothing needs to be done for other pktlog types */
break;
}
}
return 0;
}
#endif
/* MCL specific functions */
#if defined(DP_CON_MON) && !defined(REMOVE_PKT_LOG)
void dp_pktlogmod_exit(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct hif_opaque_softc *scn = soc->hif_handle;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (!scn) {
dp_mon_err("Invalid hif(scn) handle");
return;
}
dp_monitor_reap_timer_stop(soc, CDP_MON_REAP_SOURCE_PKTLOG);
pktlogmod_exit(scn);
mon_pdev->pkt_log_init = false;
}
#endif /*DP_CON_MON*/
#if defined(WDI_EVENT_ENABLE) && defined(QCA_ENHANCED_STATS_SUPPORT)
#ifdef IPA_OFFLOAD
void dp_peer_get_tx_rx_stats(struct dp_peer *peer,
struct cdp_interface_peer_stats *peer_stats_intf)
{
struct dp_rx_tid *rx_tid = NULL;
uint8_t i = 0;
for (i = 0; i < DP_MAX_TIDS; i++) {
rx_tid = &peer->rx_tid[i];
peer_stats_intf->rx_byte_count +=
rx_tid->rx_msdu_cnt.bytes;
peer_stats_intf->rx_packet_count +=
rx_tid->rx_msdu_cnt.num;
}
peer_stats_intf->tx_packet_count =
peer->monitor_peer->stats.tx.tx_ucast_success.num;
peer_stats_intf->tx_byte_count =
peer->monitor_peer->stats.tx.tx_ucast_success.bytes;
}
#else
void dp_peer_get_tx_rx_stats(struct dp_peer *peer,
struct cdp_interface_peer_stats *peer_stats_intf)
{
struct dp_txrx_peer *txrx_peer = NULL;
struct dp_peer *tgt_peer = NULL;
tgt_peer = dp_get_tgt_peer_from_peer(peer);
txrx_peer = tgt_peer->txrx_peer;
peer_stats_intf->rx_packet_count = txrx_peer->to_stack.num;
peer_stats_intf->rx_byte_count = txrx_peer->to_stack.bytes;
peer_stats_intf->tx_packet_count =
txrx_peer->stats.per_pkt_stats.tx.ucast.num;
peer_stats_intf->tx_byte_count =
txrx_peer->stats.per_pkt_stats.tx.tx_success.bytes;
}
#endif
QDF_STATUS dp_peer_stats_notify(struct dp_pdev *dp_pdev, struct dp_peer *peer)
{
struct cdp_interface_peer_stats peer_stats_intf = {0};
struct dp_mon_peer_stats *mon_peer_stats = NULL;
struct dp_peer *tgt_peer = NULL;
struct dp_txrx_peer *txrx_peer = NULL;
if (qdf_unlikely(!peer || !peer->vdev || !peer->monitor_peer))
return QDF_STATUS_E_FAULT;
tgt_peer = dp_get_tgt_peer_from_peer(peer);
if (qdf_unlikely(!tgt_peer))
return QDF_STATUS_E_FAULT;
txrx_peer = tgt_peer->txrx_peer;
if (!qdf_unlikely(txrx_peer))
return QDF_STATUS_E_FAULT;
mon_peer_stats = &peer->monitor_peer->stats;
if (mon_peer_stats->rx.last_snr != mon_peer_stats->rx.snr)
peer_stats_intf.rssi_changed = true;
if ((mon_peer_stats->rx.snr && peer_stats_intf.rssi_changed) ||
(mon_peer_stats->tx.tx_rate &&
mon_peer_stats->tx.tx_rate != mon_peer_stats->tx.last_tx_rate)) {
qdf_mem_copy(peer_stats_intf.peer_mac, peer->mac_addr.raw,
QDF_MAC_ADDR_SIZE);
peer_stats_intf.vdev_id = peer->vdev->vdev_id;
peer_stats_intf.last_peer_tx_rate =
mon_peer_stats->tx.last_tx_rate;
peer_stats_intf.peer_tx_rate = mon_peer_stats->tx.tx_rate;
peer_stats_intf.peer_rssi = mon_peer_stats->rx.snr;
peer_stats_intf.ack_rssi = mon_peer_stats->tx.last_ack_rssi;
dp_peer_get_tx_rx_stats(peer, &peer_stats_intf);
peer_stats_intf.per = tgt_peer->stats.tx.last_per;
peer_stats_intf.free_buff = INVALID_FREE_BUFF;
dp_wdi_event_handler(WDI_EVENT_PEER_STATS, dp_pdev->soc,
(void *)&peer_stats_intf, 0,
WDI_NO_VAL, dp_pdev->pdev_id);
}
return QDF_STATUS_SUCCESS;
}
#endif
#ifdef FEATURE_NAC_RSSI
/**
* dp_rx_nac_filter(): Function to perform filtering of non-associated
* clients
* @pdev: DP pdev handle
* @rx_pkt_hdr: Rx packet Header
*
* return: dp_vdev*
*/
static
struct dp_vdev *dp_rx_nac_filter(struct dp_pdev *pdev,
uint8_t *rx_pkt_hdr)
{
struct ieee80211_frame *wh;
struct dp_neighbour_peer *peer = NULL;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
wh = (struct ieee80211_frame *)rx_pkt_hdr;
if ((wh->i_fc[1] & IEEE80211_FC1_DIR_MASK) != IEEE80211_FC1_DIR_TODS)
return NULL;
qdf_spin_lock_bh(&mon_pdev->neighbour_peer_mutex);
TAILQ_FOREACH(peer, &mon_pdev->neighbour_peers_list,
neighbour_peer_list_elem) {
if (qdf_mem_cmp(&peer->neighbour_peers_macaddr.raw[0],
wh->i_addr2, QDF_MAC_ADDR_SIZE) == 0) {
dp_rx_debug("%pK: NAC configuration matched for mac-%2x:%2x:%2x:%2x:%2x:%2x",
pdev->soc,
peer->neighbour_peers_macaddr.raw[0],
peer->neighbour_peers_macaddr.raw[1],
peer->neighbour_peers_macaddr.raw[2],
peer->neighbour_peers_macaddr.raw[3],
peer->neighbour_peers_macaddr.raw[4],
peer->neighbour_peers_macaddr.raw[5]);
qdf_spin_unlock_bh(&mon_pdev->neighbour_peer_mutex);
return mon_pdev->mvdev;
}
}
qdf_spin_unlock_bh(&mon_pdev->neighbour_peer_mutex);
return NULL;
}
QDF_STATUS dp_filter_neighbour_peer(struct dp_pdev *pdev,
uint8_t *rx_pkt_hdr)
{
struct dp_vdev *vdev = NULL;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (mon_pdev->filter_neighbour_peers) {
/* Next Hop scenario not yet handle */
vdev = dp_rx_nac_filter(pdev, rx_pkt_hdr);
if (vdev) {
dp_rx_mon_deliver(pdev->soc, pdev->pdev_id,
pdev->invalid_peer_head_msdu,
pdev->invalid_peer_tail_msdu);
pdev->invalid_peer_head_msdu = NULL;
pdev->invalid_peer_tail_msdu = NULL;
return QDF_STATUS_SUCCESS;
}
}
return QDF_STATUS_E_FAILURE;
}
#endif
#if defined(ATH_SUPPORT_NAC_RSSI) || defined(ATH_SUPPORT_NAC)
/*
* dp_update_filter_neighbour_peers() - set neighbour peers(nac clients)
* address for smart mesh filtering
* @txrx_soc: cdp soc handle
* @vdev_id: id of virtual device object
* @cmd: Add/Del command
* @macaddr: nac client mac address
*
* Return: success/failure
*/
static int dp_update_filter_neighbour_peers(struct cdp_soc_t *soc_hdl,
uint8_t vdev_id,
uint32_t cmd, uint8_t *macaddr)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_pdev *pdev;
struct dp_neighbour_peer *peer = NULL;
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
struct dp_mon_pdev *mon_pdev;
if (!vdev || !macaddr)
goto fail0;
pdev = vdev->pdev;
if (!pdev)
goto fail0;
mon_pdev = pdev->monitor_pdev;
/* Store address of NAC (neighbour peer) which will be checked
* against TA of received packets.
*/
if (cmd == DP_NAC_PARAM_ADD) {
peer = (struct dp_neighbour_peer *)qdf_mem_malloc(
sizeof(*peer));
if (!peer) {
dp_cdp_err("%pK: DP neighbour peer node memory allocation failed"
, soc);
goto fail0;
}
qdf_mem_copy(&peer->neighbour_peers_macaddr.raw[0],
macaddr, QDF_MAC_ADDR_SIZE);
peer->vdev = vdev;
qdf_spin_lock_bh(&mon_pdev->neighbour_peer_mutex);
/* add this neighbour peer into the list */
TAILQ_INSERT_TAIL(&mon_pdev->neighbour_peers_list, peer,
neighbour_peer_list_elem);
qdf_spin_unlock_bh(&mon_pdev->neighbour_peer_mutex);
/* first neighbour */
if (!mon_pdev->neighbour_peers_added) {
QDF_STATUS status = QDF_STATUS_SUCCESS;
mon_pdev->neighbour_peers_added = true;
dp_mon_filter_setup_smart_monitor(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: smart mon filter setup failed",
soc);
dp_mon_filter_reset_smart_monitor(pdev);
mon_pdev->neighbour_peers_added = false;
}
}
} else if (cmd == DP_NAC_PARAM_DEL) {
qdf_spin_lock_bh(&mon_pdev->neighbour_peer_mutex);
TAILQ_FOREACH(peer, &mon_pdev->neighbour_peers_list,
neighbour_peer_list_elem) {
if (!qdf_mem_cmp(&peer->neighbour_peers_macaddr.raw[0],
macaddr, QDF_MAC_ADDR_SIZE)) {
/* delete this peer from the list */
TAILQ_REMOVE(&mon_pdev->neighbour_peers_list,
peer, neighbour_peer_list_elem);
qdf_mem_free(peer);
break;
}
}
/* last neighbour deleted */
if (TAILQ_EMPTY(&mon_pdev->neighbour_peers_list)) {
QDF_STATUS status = QDF_STATUS_SUCCESS;
dp_mon_filter_reset_smart_monitor(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: smart mon filter clear failed",
soc);
}
mon_pdev->neighbour_peers_added = false;
}
qdf_spin_unlock_bh(&mon_pdev->neighbour_peer_mutex);
}
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return 1;
fail0:
if (vdev)
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return 0;
}
#endif /* ATH_SUPPORT_NAC_RSSI || ATH_SUPPORT_NAC */
/*
* dp_update_mon_mac_filter() - Set/reset monitor mac filter
* @soc_hdl: cdp soc handle
* @vdev_id: id of virtual device object
* @cmd: Add/Del command
*
* Return: 0 for success. nonzero for failure.
*/
static QDF_STATUS dp_update_mon_mac_filter(struct cdp_soc_t *soc_hdl,
uint8_t vdev_id, uint32_t cmd)
{
struct dp_soc *soc = (struct dp_soc *)soc_hdl;
struct dp_pdev *pdev;
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
struct dp_mon_pdev *mon_pdev;
QDF_STATUS status = QDF_STATUS_E_FAILURE;
if (!vdev)
return status;
pdev = vdev->pdev;
if (!pdev) {
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return status;
}
mon_pdev = pdev->monitor_pdev;
if (cmd == DP_NAC_PARAM_ADD) {
/* first neighbour added */
dp_mon_filter_set_reset_mon_mac_filter(pdev, true);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Mon mac filter set failed", soc);
dp_mon_filter_set_reset_mon_mac_filter(pdev, false);
}
} else if (cmd == DP_NAC_PARAM_DEL) {
/* last neighbour deleted */
dp_mon_filter_set_reset_mon_mac_filter(pdev, false);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS)
dp_cdp_err("%pK: Mon mac filter reset failed", soc);
}
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return status;
}
#ifdef ATH_SUPPORT_NAC_RSSI
/**
* dp_vdev_get_neighbour_rssi(): Store RSSI for configured NAC
* @soc_hdl: DP soc handle
* @vdev_id: id of DP vdev handle
* @mac_addr: neighbour mac
* @rssi: rssi value
*
* Return: 0 for success. nonzero for failure.
*/
static QDF_STATUS dp_vdev_get_neighbour_rssi(struct cdp_soc_t *soc_hdl,
uint8_t vdev_id,
char *mac_addr,
uint8_t *rssi)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
struct dp_pdev *pdev;
struct dp_neighbour_peer *peer = NULL;
QDF_STATUS status = QDF_STATUS_E_FAILURE;
struct dp_mon_pdev *mon_pdev;
if (!vdev)
return status;
pdev = vdev->pdev;
mon_pdev = pdev->monitor_pdev;
*rssi = 0;
qdf_spin_lock_bh(&mon_pdev->neighbour_peer_mutex);
TAILQ_FOREACH(peer, &mon_pdev->neighbour_peers_list,
neighbour_peer_list_elem) {
if (qdf_mem_cmp(&peer->neighbour_peers_macaddr.raw[0],
mac_addr, QDF_MAC_ADDR_SIZE) == 0) {
*rssi = peer->rssi;
status = QDF_STATUS_SUCCESS;
break;
}
}
qdf_spin_unlock_bh(&mon_pdev->neighbour_peer_mutex);
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return status;
}
static QDF_STATUS
dp_config_for_nac_rssi(struct cdp_soc_t *cdp_soc,
uint8_t vdev_id,
enum cdp_nac_param_cmd cmd, char *bssid,
char *client_macaddr,
uint8_t chan_num)
{
struct dp_soc *soc = (struct dp_soc *)cdp_soc;
struct dp_vdev *vdev = dp_vdev_get_ref_by_id(soc, vdev_id,
DP_MOD_ID_CDP);
struct dp_pdev *pdev;
struct dp_mon_pdev *mon_pdev;
if (!vdev)
return QDF_STATUS_E_FAILURE;
pdev = (struct dp_pdev *)vdev->pdev;
mon_pdev = pdev->monitor_pdev;
mon_pdev->nac_rssi_filtering = 1;
/* Store address of NAC (neighbour peer) which will be checked
* against TA of received packets.
*/
if (cmd == CDP_NAC_PARAM_ADD) {
dp_update_filter_neighbour_peers(cdp_soc, vdev->vdev_id,
DP_NAC_PARAM_ADD,
(uint8_t *)client_macaddr);
} else if (cmd == CDP_NAC_PARAM_DEL) {
dp_update_filter_neighbour_peers(cdp_soc, vdev->vdev_id,
DP_NAC_PARAM_DEL,
(uint8_t *)client_macaddr);
}
if (soc->cdp_soc.ol_ops->config_bssid_in_fw_for_nac_rssi)
soc->cdp_soc.ol_ops->config_bssid_in_fw_for_nac_rssi
(soc->ctrl_psoc, pdev->pdev_id,
vdev->vdev_id, cmd, bssid, client_macaddr);
dp_vdev_unref_delete(soc, vdev, DP_MOD_ID_CDP);
return QDF_STATUS_SUCCESS;
}
#endif
bool
dp_enable_mon_reap_timer(struct cdp_soc_t *soc_hdl,
enum cdp_mon_reap_source source,
bool enable)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
if (enable)
return dp_monitor_reap_timer_start(soc, source);
else
return dp_monitor_reap_timer_stop(soc, source);
}
#if defined(DP_CON_MON)
#ifndef REMOVE_PKT_LOG
/**
* dp_pkt_log_init() - API to initialize packet log
* @soc_hdl: Datapath soc handle
* @pdev_id: id of data path pdev handle
* @scn: HIF context
*
* Return: none
*/
void dp_pkt_log_init(struct cdp_soc_t *soc_hdl, uint8_t pdev_id, void *scn)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_pdev *handle =
dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
struct dp_mon_pdev *mon_pdev;
if (!handle) {
dp_mon_err("pdev handle is NULL");
return;
}
mon_pdev = handle->monitor_pdev;
if (mon_pdev->pkt_log_init) {
dp_mon_err("%pK: Packet log not initialized", soc);
return;
}
pktlog_sethandle(&mon_pdev->pl_dev, scn);
pktlog_set_pdev_id(mon_pdev->pl_dev, pdev_id);
pktlog_set_callback_regtype(PKTLOG_DEFAULT_CALLBACK_REGISTRATION);
if (pktlogmod_init(scn)) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
"%s: pktlogmod_init failed", __func__);
mon_pdev->pkt_log_init = false;
} else {
mon_pdev->pkt_log_init = true;
}
}
/**
* dp_pkt_log_con_service() - connect packet log service
* @soc_hdl: Datapath soc handle
* @pdev_id: id of data path pdev handle
* @scn: device context
*
* Return: none
*/
static void dp_pkt_log_con_service(struct cdp_soc_t *soc_hdl,
uint8_t pdev_id, void *scn)
{
dp_pkt_log_init(soc_hdl, pdev_id, scn);
pktlog_htc_attach();
}
/**
* dp_pkt_log_exit() - Wrapper API to cleanup pktlog info
* @soc_hdl: Datapath soc handle
* @pdev_id: id of data path pdev handle
*
* Return: none
*/
static void dp_pkt_log_exit(struct cdp_soc_t *soc_hdl, uint8_t pdev_id)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
if (!pdev) {
dp_err("pdev handle is NULL");
return;
}
dp_pktlogmod_exit(pdev);
}
#else
static void dp_pkt_log_con_service(struct cdp_soc_t *soc_hdl,
uint8_t pdev_id, void *scn)
{
}
static void dp_pkt_log_exit(struct cdp_soc_t *soc_hdl, uint8_t pdev_id)
{
}
#endif
#endif
void dp_neighbour_peers_detach(struct dp_pdev *pdev)
{
struct dp_neighbour_peer *peer = NULL;
struct dp_neighbour_peer *temp_peer = NULL;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
TAILQ_FOREACH_SAFE(peer, &mon_pdev->neighbour_peers_list,
neighbour_peer_list_elem, temp_peer) {
/* delete this peer from the list */
TAILQ_REMOVE(&mon_pdev->neighbour_peers_list,
peer, neighbour_peer_list_elem);
qdf_mem_free(peer);
}
qdf_spinlock_destroy(&mon_pdev->neighbour_peer_mutex);
}
#ifdef QCA_ENHANCED_STATS_SUPPORT
/*
* dp_mon_tx_enable_enhanced_stats() - Enable enhanced Tx stats
* @pdev: Datapath pdev handle
*
* Return: void
*/
static void dp_mon_tx_enable_enhanced_stats(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (mon_ops && mon_ops->mon_tx_enable_enhanced_stats)
mon_ops->mon_tx_enable_enhanced_stats(pdev);
}
/*
* dp_enable_enhanced_stats()- API to enable enhanced statistcs
* @soc_handle: DP_SOC handle
* @pdev_id: id of DP_PDEV handle
*
* Return: QDF_STATUS
*/
static QDF_STATUS
dp_enable_enhanced_stats(struct cdp_soc_t *soc, uint8_t pdev_id)
{
struct dp_pdev *pdev = NULL;
QDF_STATUS status = QDF_STATUS_SUCCESS;
struct dp_mon_pdev *mon_pdev;
pdev = dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
if (!pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
if (!mon_pdev)
return QDF_STATUS_E_FAILURE;
if (mon_pdev->enhanced_stats_en == 0)
dp_cal_client_timer_start(mon_pdev->cal_client_ctx);
mon_pdev->enhanced_stats_en = 1;
pdev->enhanced_stats_en = true;
dp_mon_filter_setup_enhanced_stats(pdev);
status = dp_mon_filter_update(pdev);
if (status != QDF_STATUS_SUCCESS) {
dp_cdp_err("%pK: Failed to set enhanced mode filters", soc);
dp_mon_filter_reset_enhanced_stats(pdev);
dp_cal_client_timer_stop(mon_pdev->cal_client_ctx);
mon_pdev->enhanced_stats_en = 0;
pdev->enhanced_stats_en = false;
return QDF_STATUS_E_FAILURE;
}
dp_mon_tx_enable_enhanced_stats(pdev);
return QDF_STATUS_SUCCESS;
}
/*
* dp_mon_tx_disable_enhanced_stats() - Disable enhanced Tx stats
* @pdev: Datapath pdev handle
*
* Return: void
*/
static void dp_mon_tx_disable_enhanced_stats(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (mon_ops && mon_ops->mon_tx_disable_enhanced_stats)
mon_ops->mon_tx_disable_enhanced_stats(pdev);
}
/*
* dp_disable_enhanced_stats()- API to disable enhanced statistcs
*
* @param soc - the soc handle
* @param pdev_id - pdev_id of pdev
* @return - QDF_STATUS
*/
static QDF_STATUS
dp_disable_enhanced_stats(struct cdp_soc_t *soc, uint8_t pdev_id)
{
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
struct dp_mon_pdev *mon_pdev;
if (!pdev || !pdev->monitor_pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
if (mon_pdev->enhanced_stats_en == 1)
dp_cal_client_timer_stop(mon_pdev->cal_client_ctx);
mon_pdev->enhanced_stats_en = 0;
pdev->enhanced_stats_en = false;
dp_mon_tx_disable_enhanced_stats(pdev);
dp_mon_filter_reset_enhanced_stats(pdev);
if (dp_mon_filter_update(pdev) != QDF_STATUS_SUCCESS) {
QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR,
FL("Failed to reset enhanced mode filters"));
}
return QDF_STATUS_SUCCESS;
}
#ifdef WDI_EVENT_ENABLE
QDF_STATUS dp_peer_qos_stats_notify(struct dp_pdev *dp_pdev,
struct cdp_rx_stats_ppdu_user *ppdu_user)
{
struct cdp_interface_peer_qos_stats qos_stats_intf = {0};
if (qdf_unlikely(ppdu_user->peer_id == HTT_INVALID_PEER)) {
dp_mon_warn("Invalid peer id");
return QDF_STATUS_E_FAILURE;
}
qdf_mem_copy(qos_stats_intf.peer_mac, ppdu_user->mac_addr,
QDF_MAC_ADDR_SIZE);
qos_stats_intf.frame_control = ppdu_user->frame_control;
qos_stats_intf.frame_control_info_valid =
ppdu_user->frame_control_info_valid;
qos_stats_intf.qos_control = ppdu_user->qos_control;
qos_stats_intf.qos_control_info_valid =
ppdu_user->qos_control_info_valid;
qos_stats_intf.vdev_id = ppdu_user->vdev_id;
dp_wdi_event_handler(WDI_EVENT_PEER_QOS_STATS, dp_pdev->soc,
(void *)&qos_stats_intf, 0,
WDI_NO_VAL, dp_pdev->pdev_id);
return QDF_STATUS_SUCCESS;
}
#else
static inline QDF_STATUS
dp_peer_qos_stats_notify(struct dp_pdev *dp_pdev,
struct cdp_rx_stats_ppdu_user *ppdu_user)
{
return QDF_STATUS_SUCCESS;
}
#endif
#endif /* QCA_ENHANCED_STATS_SUPPORT */
/**
* dp_enable_peer_based_pktlog() - Set Flag for peer based filtering
* for pktlog
* @soc: cdp_soc handle
* @pdev_id: id of dp pdev handle
* @mac_addr: Peer mac address
* @enb_dsb: Enable or disable peer based filtering
*
* Return: QDF_STATUS
*/
static int
dp_enable_peer_based_pktlog(struct cdp_soc_t *soc, uint8_t pdev_id,
uint8_t *mac_addr, uint8_t enb_dsb)
{
struct dp_peer *peer;
QDF_STATUS status = QDF_STATUS_E_FAILURE;
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
struct dp_mon_pdev *mon_pdev;
if (!pdev)
return QDF_STATUS_E_FAILURE;
mon_pdev = pdev->monitor_pdev;
peer = dp_peer_find_hash_find((struct dp_soc *)soc, mac_addr,
0, DP_VDEV_ALL, DP_MOD_ID_CDP);
if (!peer) {
dp_mon_err("Invalid Peer");
return QDF_STATUS_E_FAILURE;
}
if (!IS_MLO_DP_MLD_PEER(peer) && peer->monitor_peer) {
peer->monitor_peer->peer_based_pktlog_filter = enb_dsb;
mon_pdev->dp_peer_based_pktlog = enb_dsb;
status = QDF_STATUS_SUCCESS;
}
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return status;
}
/**
* dp_peer_update_pkt_capture_params: Set Rx & Tx Capture flags for a peer
* @soc: DP_SOC handle
* @pdev_id: id of DP_PDEV handle
* @is_rx_pkt_cap_enable: enable/disable Rx packet capture in monitor mode
* @is_tx_pkt_cap_enable: enable/disable/delete/print
* Tx packet capture in monitor mode
* @peer_mac: MAC address for which the above need to be enabled/disabled
*
* Return: Success if Rx & Tx capture is enabled for peer, false otherwise
*/
#if defined(WLAN_TX_PKT_CAPTURE_ENH) || defined(WLAN_RX_PKT_CAPTURE_ENH)
static QDF_STATUS
dp_peer_update_pkt_capture_params(ol_txrx_soc_handle soc,
uint8_t pdev_id,
bool is_rx_pkt_cap_enable,
uint8_t is_tx_pkt_cap_enable,
uint8_t *peer_mac)
{
struct dp_peer *peer;
QDF_STATUS status = QDF_STATUS_E_FAILURE;
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3((struct dp_soc *)soc,
pdev_id);
if (!pdev)
return QDF_STATUS_E_FAILURE;
peer = dp_peer_find_hash_find((struct dp_soc *)soc,
peer_mac, 0, DP_VDEV_ALL,
DP_MOD_ID_CDP);
if (!peer)
return QDF_STATUS_E_FAILURE;
/* we need to set tx pkt capture for non associated peer */
if (!IS_MLO_DP_MLD_PEER(peer)) {
status = dp_monitor_tx_peer_filter(pdev, peer,
is_tx_pkt_cap_enable,
peer_mac);
status = dp_peer_set_rx_capture_enabled(pdev, peer,
is_rx_pkt_cap_enable,
peer_mac);
}
dp_peer_unref_delete(peer, DP_MOD_ID_CDP);
return status;
}
#endif
#ifdef QCA_MCOPY_SUPPORT
QDF_STATUS dp_mcopy_check_deliver(struct dp_pdev *pdev,
uint16_t peer_id,
uint32_t ppdu_id,
uint8_t first_msdu)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (mon_pdev->mcopy_mode) {
if (mon_pdev->mcopy_mode == M_COPY) {
if ((mon_pdev->m_copy_id.tx_ppdu_id == ppdu_id) &&
(mon_pdev->m_copy_id.tx_peer_id == peer_id)) {
return QDF_STATUS_E_INVAL;
}
}
if (!first_msdu)
return QDF_STATUS_E_INVAL;
mon_pdev->m_copy_id.tx_ppdu_id = ppdu_id;
mon_pdev->m_copy_id.tx_peer_id = peer_id;
}
return QDF_STATUS_SUCCESS;
}
#endif
#ifdef WDI_EVENT_ENABLE
#ifndef REMOVE_PKT_LOG
static void *dp_get_pldev(struct cdp_soc_t *soc_hdl, uint8_t pdev_id)
{
struct dp_soc *soc = cdp_soc_t_to_dp_soc(soc_hdl);
struct dp_pdev *pdev = dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
if (!pdev || !pdev->monitor_pdev)
return NULL;
return pdev->monitor_pdev->pl_dev;
}
#else
static void *dp_get_pldev(struct cdp_soc_t *soc_hdl, uint8_t pdev_id)
{
return NULL;
}
#endif
#endif
QDF_STATUS dp_rx_populate_cbf_hdr(struct dp_soc *soc,
uint32_t mac_id,
uint32_t event,
qdf_nbuf_t mpdu,
uint32_t msdu_timestamp)
{
uint32_t data_size, hdr_size, ppdu_id, align4byte;
struct dp_pdev *pdev = dp_get_pdev_for_lmac_id(soc, mac_id);
uint32_t *msg_word;
if (!pdev)
return QDF_STATUS_E_INVAL;
ppdu_id = pdev->monitor_pdev->ppdu_info.com_info.ppdu_id;
hdr_size = HTT_T2H_PPDU_STATS_IND_HDR_SIZE
+ qdf_offsetof(htt_ppdu_stats_rx_mgmtctrl_payload_tlv, payload);
data_size = qdf_nbuf_len(mpdu);
qdf_nbuf_push_head(mpdu, hdr_size);
msg_word = (uint32_t *)qdf_nbuf_data(mpdu);
/*
* Populate the PPDU Stats Indication header
*/
HTT_H2T_MSG_TYPE_SET(*msg_word, HTT_T2H_MSG_TYPE_PPDU_STATS_IND);
HTT_T2H_PPDU_STATS_MAC_ID_SET(*msg_word, mac_id);
HTT_T2H_PPDU_STATS_PDEV_ID_SET(*msg_word, pdev->pdev_id);
align4byte = ((data_size +
qdf_offsetof(htt_ppdu_stats_rx_mgmtctrl_payload_tlv, payload)
+ 3) >> 2) << 2;
HTT_T2H_PPDU_STATS_PAYLOAD_SIZE_SET(*msg_word, align4byte);
msg_word++;
HTT_T2H_PPDU_STATS_PPDU_ID_SET(*msg_word, ppdu_id);
msg_word++;
*msg_word = msdu_timestamp;
msg_word++;
/* Skip reserved field */
msg_word++;
/*
* Populate MGMT_CTRL Payload TLV first
*/
HTT_STATS_TLV_TAG_SET(*msg_word,
HTT_PPDU_STATS_RX_MGMTCTRL_PAYLOAD_TLV);
align4byte = ((data_size - sizeof(htt_tlv_hdr_t) +
qdf_offsetof(htt_ppdu_stats_rx_mgmtctrl_payload_tlv, payload)
+ 3) >> 2) << 2;
HTT_STATS_TLV_LENGTH_SET(*msg_word, align4byte);
msg_word++;
HTT_PPDU_STATS_RX_MGMTCTRL_TLV_FRAME_LENGTH_SET(
*msg_word, data_size);
msg_word++;
dp_wdi_event_handler(event, soc, (void *)mpdu,
HTT_INVALID_PEER, WDI_NO_VAL, pdev->pdev_id);
qdf_nbuf_pull_head(mpdu, hdr_size);
return QDF_STATUS_SUCCESS;
}
#ifdef ATH_SUPPORT_EXT_STAT
#ifdef WLAN_TELEMETRY_STATS_SUPPORT
/* dp_pdev_clear_link_airtime_stats- clear pdev airtime stats for current index
* @peer : Datapath peer
*/
static inline
void dp_pdev_clear_link_airtime_stats(struct dp_pdev *pdev)
{
uint8_t ac;
for (ac = 0; ac < WME_AC_MAX; ac++)
pdev->stats.telemetry_stats.link_airtime[ac] = 0;
}
/* dp_peer_update_telemetry_stats- update peer telemetry stats
* @peer : Datapath peer
*/
static inline
void dp_peer_update_telemetry_stats(struct dp_peer *peer)
{
struct dp_pdev *pdev;
struct dp_vdev *vdev;
struct dp_mon_peer *mon_peer = NULL;
uint8_t ac;
vdev = peer->vdev;
if (!vdev)
return;
pdev = vdev->pdev;
if (!pdev)
return;
mon_peer = peer->monitor_peer;
if (qdf_likely(mon_peer)) {
for (ac = 0; ac < WME_AC_MAX; ac++) {
mon_peer->stats.airtime_consumption[ac].avg_consumption_per_sec =
mon_peer->stats.airtime_consumption[ac].consumption;
/* Store each peer airtime consumption in pdev
* link_airtime to calculate pdev's total airtime
* consumption
*/
DP_STATS_INC(
pdev,
telemetry_stats.link_airtime[ac],
mon_peer->stats.airtime_consumption[ac].consumption);
mon_peer->stats.airtime_consumption[ac].consumption = 0;
}
}
}
#else
static inline
void dp_pdev_clear_link_airtime_stats(struct dp_pdev *pdev)
{ }
static inline
void dp_peer_update_telemetry_stats(struct dp_peer *peer)
{ }
#endif
/*dp_peer_cal_clients_stats_update - update peer stats on cal client timer
* @soc : Datapath SOC
* @peer : Datapath peer
* @arg : argument to iter function
*/
#ifdef IPA_OFFLOAD
static void
dp_peer_cal_clients_stats_update(struct dp_soc *soc,
struct dp_peer *peer,
void *arg)
{
struct cdp_calibr_stats_intf peer_stats_intf = {0};
struct dp_peer *tgt_peer = NULL;
struct dp_txrx_peer *txrx_peer = NULL;
dp_peer_update_telemetry_stats(peer);
if (!dp_peer_is_primary_link_peer(peer))
return;
tgt_peer = dp_get_tgt_peer_from_peer(peer);
if (!tgt_peer || !(tgt_peer->txrx_peer))
return;
txrx_peer = tgt_peer->txrx_peer;
peer_stats_intf.to_stack = txrx_peer->to_stack;
peer_stats_intf.tx_success =
peer->monitor_peer->stats.tx.tx_ucast_success;
peer_stats_intf.tx_ucast =
peer->monitor_peer->stats.tx.tx_ucast_total;
dp_cal_client_update_peer_stats_wifi3(&peer_stats_intf,
&tgt_peer->stats);
dp_peer_get_rxtid_stats_ipa(peer, dp_peer_update_tid_stats_from_reo);
}
#else
static void
dp_peer_cal_clients_stats_update(struct dp_soc *soc,
struct dp_peer *peer,
void *arg)
{
struct cdp_calibr_stats_intf peer_stats_intf = {0};
struct dp_peer *tgt_peer = NULL;
struct dp_txrx_peer *txrx_peer = NULL;
dp_peer_update_telemetry_stats(peer);
if (!dp_peer_is_primary_link_peer(peer))
return;
tgt_peer = dp_get_tgt_peer_from_peer(peer);
if (!tgt_peer || !(tgt_peer->txrx_peer))
return;
txrx_peer = tgt_peer->txrx_peer;
peer_stats_intf.to_stack = txrx_peer->to_stack;
peer_stats_intf.tx_success =
txrx_peer->stats.per_pkt_stats.tx.tx_success;
peer_stats_intf.tx_ucast =
txrx_peer->stats.per_pkt_stats.tx.ucast;
dp_cal_client_update_peer_stats_wifi3(&peer_stats_intf,
&tgt_peer->stats);
}
#endif
/*dp_iterate_update_peer_list - update peer stats on cal client timer
* @pdev_hdl: pdev handle
*/
static void dp_iterate_update_peer_list(struct cdp_pdev *pdev_hdl)
{
struct dp_pdev *pdev = (struct dp_pdev *)pdev_hdl;
/* Clear current airtime stats as the below API will increment the stats
* for all peers on top of current value
*/
dp_pdev_clear_link_airtime_stats(pdev);
dp_pdev_iterate_peer(pdev, dp_peer_cal_clients_stats_update, NULL,
DP_MOD_ID_CDP);
}
#else
static void dp_iterate_update_peer_list(struct cdp_pdev *pdev_hdl)
{
}
#endif
#ifdef ATH_SUPPORT_NAC
int dp_set_filter_neigh_peers(struct dp_pdev *pdev,
bool val)
{
/* Enable/Disable smart mesh filtering. This flag will be checked
* during rx processing to check if packets are from NAC clients.
*/
pdev->monitor_pdev->filter_neighbour_peers = val;
return 0;
}
#endif /* ATH_SUPPORT_NAC */
#ifdef WLAN_ATF_ENABLE
void dp_set_atf_stats_enable(struct dp_pdev *pdev, bool value)
{
if (!pdev) {
dp_cdp_err("Invalid pdev");
return;
}
pdev->monitor_pdev->dp_atf_stats_enable = value;
}
#endif
#ifdef QCA_ENHANCED_STATS_SUPPORT
/*
* dp_process_ppdu_stats_tx_mgmtctrl_payload_tlv: Process
* htt_ppdu_stats_tx_mgmtctrl_payload_tlv
* @pdev: DP PDEV handle
* @tag_buf: buffer containing the htt_ppdu_stats_tx_mgmtctrl_payload_tlv
* @length: tlv_length
*
* return:QDF_STATUS_SUCCESS if nbuf has to be freed in caller
*/
QDF_STATUS
dp_process_ppdu_stats_tx_mgmtctrl_payload_tlv(struct dp_pdev *pdev,
qdf_nbuf_t tag_buf,
uint32_t ppdu_id)
{
uint32_t *nbuf_ptr;
uint8_t trim_size;
size_t head_size;
struct cdp_tx_mgmt_comp_info *ptr_mgmt_comp_info;
uint32_t *msg_word;
uint32_t tsf_hdr;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if ((!mon_pdev->tx_sniffer_enable) && (!mon_pdev->mcopy_mode) &&
(!mon_pdev->bpr_enable) && (!mon_pdev->tx_capture_enabled))
return QDF_STATUS_SUCCESS;
/*
* get timestamp from htt_t2h_ppdu_stats_ind_hdr_t
*/
msg_word = (uint32_t *)qdf_nbuf_data(tag_buf);
msg_word = msg_word + 2;
tsf_hdr = *msg_word;
trim_size = ((mon_pdev->mgmtctrl_frm_info.mgmt_buf +
HTT_MGMT_CTRL_TLV_HDR_RESERVERD_LEN) -
qdf_nbuf_data(tag_buf));
if (!qdf_nbuf_pull_head(tag_buf, trim_size))
return QDF_STATUS_SUCCESS;
qdf_nbuf_trim_tail(tag_buf, qdf_nbuf_len(tag_buf) -
mon_pdev->mgmtctrl_frm_info.mgmt_buf_len);
if (mon_pdev->tx_capture_enabled) {
head_size = sizeof(struct cdp_tx_mgmt_comp_info);
if (qdf_unlikely(qdf_nbuf_headroom(tag_buf) < head_size)) {
qdf_err("Fail to get headroom h_sz %zu h_avail %d\n",
head_size, qdf_nbuf_headroom(tag_buf));
qdf_assert_always(0);
return QDF_STATUS_E_NOMEM;
}
ptr_mgmt_comp_info = (struct cdp_tx_mgmt_comp_info *)
qdf_nbuf_push_head(tag_buf, head_size);
qdf_assert_always(ptr_mgmt_comp_info);
ptr_mgmt_comp_info->ppdu_id = ppdu_id;
ptr_mgmt_comp_info->is_sgen_pkt = true;
ptr_mgmt_comp_info->tx_tsf = tsf_hdr;
} else {
head_size = sizeof(ppdu_id);
nbuf_ptr = (uint32_t *)qdf_nbuf_push_head(tag_buf, head_size);
*nbuf_ptr = ppdu_id;
}
if (mon_pdev->bpr_enable) {
dp_wdi_event_handler(WDI_EVENT_TX_BEACON, pdev->soc,
tag_buf, HTT_INVALID_PEER,
WDI_NO_VAL, pdev->pdev_id);
}
dp_deliver_mgmt_frm(pdev, tag_buf);
return QDF_STATUS_E_ALREADY;
}
/*
* dp_htt_get_ppdu_sniffer_ampdu_tlv_bitmap() - Get ppdu stats tlv
* bitmap for sniffer mode
* @bitmap: received bitmap
*
* Return: expected bitmap value, returns zero if doesn't match with
* either 64-bit Tx window or 256-bit window tlv bitmap
*/
int
dp_htt_get_ppdu_sniffer_ampdu_tlv_bitmap(uint32_t bitmap)
{
if (bitmap == (HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_64))
return HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_64;
else if (bitmap == (HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_256))
return HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_256;
return 0;
}
/*
* dp_peer_copy_delay_stats() - copy ppdu stats to peer delayed stats.
* @peer: Datapath peer handle
* @ppdu: User PPDU Descriptor
* @cur_ppdu_id: PPDU_ID
*
* Return: None
*
* on Tx data frame, we may get delayed ba set
* in htt_ppdu_stats_user_common_tlv. which mean we get Block Ack(BA) after we
* request Block Ack Request(BAR). Successful msdu is received only after Block
* Ack. To populate peer stats we need successful msdu(data frame).
* So we hold the Tx data stats on delayed_ba for stats update.
*/
static void
dp_peer_copy_delay_stats(struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *ppdu,
uint32_t cur_ppdu_id)
{
struct dp_pdev *pdev;
struct dp_vdev *vdev;
struct dp_mon_peer *mon_peer = peer->monitor_peer;
if (mon_peer->last_delayed_ba) {
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_ERROR,
"BA not yet recv for prev delayed ppdu[%d] - cur ppdu[%d]",
mon_peer->last_delayed_ba_ppduid, cur_ppdu_id);
vdev = peer->vdev;
if (vdev) {
pdev = vdev->pdev;
pdev->stats.cdp_delayed_ba_not_recev++;
}
}
mon_peer->delayed_ba_ppdu_stats.ltf_size = ppdu->ltf_size;
mon_peer->delayed_ba_ppdu_stats.stbc = ppdu->stbc;
mon_peer->delayed_ba_ppdu_stats.he_re = ppdu->he_re;
mon_peer->delayed_ba_ppdu_stats.txbf = ppdu->txbf;
mon_peer->delayed_ba_ppdu_stats.bw = ppdu->bw;
mon_peer->delayed_ba_ppdu_stats.nss = ppdu->nss;
mon_peer->delayed_ba_ppdu_stats.gi = ppdu->gi;
mon_peer->delayed_ba_ppdu_stats.dcm = ppdu->dcm;
mon_peer->delayed_ba_ppdu_stats.ldpc = ppdu->ldpc;
mon_peer->delayed_ba_ppdu_stats.dcm = ppdu->dcm;
mon_peer->delayed_ba_ppdu_stats.mpdu_tried_ucast =
ppdu->mpdu_tried_ucast;
mon_peer->delayed_ba_ppdu_stats.mpdu_tried_mcast =
ppdu->mpdu_tried_mcast;
mon_peer->delayed_ba_ppdu_stats.frame_ctrl = ppdu->frame_ctrl;
mon_peer->delayed_ba_ppdu_stats.qos_ctrl = ppdu->qos_ctrl;
mon_peer->delayed_ba_ppdu_stats.dcm = ppdu->dcm;
mon_peer->delayed_ba_ppdu_stats.ru_start = ppdu->ru_start;
mon_peer->delayed_ba_ppdu_stats.ru_tones = ppdu->ru_tones;
mon_peer->delayed_ba_ppdu_stats.is_mcast = ppdu->is_mcast;
mon_peer->delayed_ba_ppdu_stats.user_pos = ppdu->user_pos;
mon_peer->delayed_ba_ppdu_stats.mu_group_id = ppdu->mu_group_id;
mon_peer->last_delayed_ba = true;
ppdu->debug_copied = true;
}
/*
* dp_peer_copy_stats_to_bar() - copy delayed stats to ppdu stats.
* @peer: Datapath peer handle
* @ppdu: PPDU Descriptor
*
* Return: None
*
* For Tx BAR, PPDU stats TLV include Block Ack info. PPDU info
* from Tx BAR frame not required to populate peer stats.
* But we need successful MPDU and MSDU to update previous
* transmitted Tx data frame. Overwrite ppdu stats with the previous
* stored ppdu stats.
*/
static void
dp_peer_copy_stats_to_bar(struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *ppdu)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
ppdu->ltf_size = mon_peer->delayed_ba_ppdu_stats.ltf_size;
ppdu->stbc = mon_peer->delayed_ba_ppdu_stats.stbc;
ppdu->he_re = mon_peer->delayed_ba_ppdu_stats.he_re;
ppdu->txbf = mon_peer->delayed_ba_ppdu_stats.txbf;
ppdu->bw = mon_peer->delayed_ba_ppdu_stats.bw;
ppdu->nss = mon_peer->delayed_ba_ppdu_stats.nss;
ppdu->gi = mon_peer->delayed_ba_ppdu_stats.gi;
ppdu->dcm = mon_peer->delayed_ba_ppdu_stats.dcm;
ppdu->ldpc = mon_peer->delayed_ba_ppdu_stats.ldpc;
ppdu->dcm = mon_peer->delayed_ba_ppdu_stats.dcm;
ppdu->mpdu_tried_ucast =
mon_peer->delayed_ba_ppdu_stats.mpdu_tried_ucast;
ppdu->mpdu_tried_mcast =
mon_peer->delayed_ba_ppdu_stats.mpdu_tried_mcast;
ppdu->frame_ctrl = mon_peer->delayed_ba_ppdu_stats.frame_ctrl;
ppdu->qos_ctrl = mon_peer->delayed_ba_ppdu_stats.qos_ctrl;
ppdu->dcm = mon_peer->delayed_ba_ppdu_stats.dcm;
ppdu->ru_start = mon_peer->delayed_ba_ppdu_stats.ru_start;
ppdu->ru_tones = mon_peer->delayed_ba_ppdu_stats.ru_tones;
ppdu->is_mcast = mon_peer->delayed_ba_ppdu_stats.is_mcast;
ppdu->user_pos = mon_peer->delayed_ba_ppdu_stats.user_pos;
ppdu->mu_group_id = mon_peer->delayed_ba_ppdu_stats.mu_group_id;
mon_peer->last_delayed_ba = false;
ppdu->debug_copied = true;
}
/*
* dp_tx_rate_stats_update() - Update rate per-peer statistics
* @peer: Datapath peer handle
* @ppdu: PPDU Descriptor
*
* Return: None
*/
static void
dp_tx_rate_stats_update(struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *ppdu)
{
uint32_t ratekbps = 0;
uint64_t ppdu_tx_rate = 0;
uint32_t rix;
uint16_t ratecode = 0;
struct dp_mon_peer *mon_peer = NULL;
if (!peer || !ppdu)
return;
if (ppdu->completion_status != HTT_PPDU_STATS_USER_STATUS_OK)
return;
mon_peer = peer->monitor_peer;
if (!mon_peer)
return;
ratekbps = dp_getrateindex(ppdu->gi,
ppdu->mcs,
ppdu->nss,
ppdu->preamble,
ppdu->bw,
ppdu->punc_mode,
&rix,
&ratecode);
if (!ratekbps)
return;
/* Calculate goodput in non-training period
* In training period, don't do anything as
* pending pkt is send as goodput.
*/
if ((!peer->bss_peer) && (!ppdu->sa_is_training)) {
ppdu->sa_goodput = ((ratekbps / CDP_NUM_KB_IN_MB) *
(CDP_PERCENT_MACRO - ppdu->current_rate_per));
}
ppdu->rix = rix;
ppdu->tx_ratekbps = ratekbps;
ppdu->tx_ratecode = ratecode;
DP_STATS_UPD(mon_peer, tx.tx_rate, ratekbps);
mon_peer->stats.tx.avg_tx_rate =
dp_ath_rate_lpf(mon_peer->stats.tx.avg_tx_rate, ratekbps);
ppdu_tx_rate = dp_ath_rate_out(mon_peer->stats.tx.avg_tx_rate);
DP_STATS_UPD(mon_peer, tx.rnd_avg_tx_rate, ppdu_tx_rate);
mon_peer->stats.tx.bw_info = ppdu->bw;
mon_peer->stats.tx.gi_info = ppdu->gi;
mon_peer->stats.tx.nss_info = ppdu->nss;
mon_peer->stats.tx.mcs_info = ppdu->mcs;
mon_peer->stats.tx.preamble_info = ppdu->preamble;
if (peer->vdev) {
/*
* In STA mode:
* We get ucast stats as BSS peer stats.
*
* In AP mode:
* We get mcast stats as BSS peer stats.
* We get ucast stats as assoc peer stats.
*/
if (peer->vdev->opmode == wlan_op_mode_ap && peer->bss_peer) {
peer->vdev->stats.tx.mcast_last_tx_rate = ratekbps;
peer->vdev->stats.tx.mcast_last_tx_rate_mcs = ppdu->mcs;
} else {
peer->vdev->stats.tx.last_tx_rate = ratekbps;
peer->vdev->stats.tx.last_tx_rate_mcs = ppdu->mcs;
}
}
}
#if defined(FEATURE_PERPKT_INFO) && defined(WDI_EVENT_ENABLE)
void dp_send_stats_event(struct dp_pdev *pdev, struct dp_peer *peer,
uint16_t peer_id)
{
struct cdp_interface_peer_stats peer_stats_intf = {0};
struct dp_mon_peer *mon_peer = peer->monitor_peer;
struct dp_txrx_peer *txrx_peer = NULL;
if (qdf_unlikely(!mon_peer))
return;
mon_peer->stats.rx.rx_snr_measured_time = qdf_system_ticks();
peer_stats_intf.rx_avg_snr = mon_peer->stats.rx.avg_snr;
txrx_peer = dp_get_txrx_peer(peer);
if (qdf_likely(txrx_peer)) {
peer_stats_intf.rx_byte_count = txrx_peer->to_stack.bytes;
peer_stats_intf.tx_byte_count =
txrx_peer->stats.per_pkt_stats.tx.tx_success.bytes;
}
dp_wdi_event_handler(WDI_EVENT_UPDATE_DP_STATS, pdev->soc,
&peer_stats_intf, peer_id,
UPDATE_PEER_STATS, pdev->pdev_id);
}
#endif
#ifdef WLAN_FEATURE_11BE
/*
* dp_get_ru_index_frm_ru_tones() - get ru index
* @ru_tones: ru tones
*
* Return: ru index
*/
static inline enum cdp_ru_index dp_get_ru_index_frm_ru_tones(uint16_t ru_tones)
{
enum cdp_ru_index ru_index;
switch (ru_tones) {
case RU_26:
ru_index = RU_26_INDEX;
break;
case RU_52:
ru_index = RU_52_INDEX;
break;
case RU_52_26:
ru_index = RU_52_26_INDEX;
break;
case RU_106:
ru_index = RU_106_INDEX;
break;
case RU_106_26:
ru_index = RU_106_26_INDEX;
break;
case RU_242:
ru_index = RU_242_INDEX;
break;
case RU_484:
ru_index = RU_484_INDEX;
break;
case RU_484_242:
ru_index = RU_484_242_INDEX;
break;
case RU_996:
ru_index = RU_996_INDEX;
break;
case RU_996_484:
ru_index = RU_996_484_INDEX;
break;
case RU_996_484_242:
ru_index = RU_996_484_242_INDEX;
break;
case RU_2X996:
ru_index = RU_2X996_INDEX;
break;
case RU_2X996_484:
ru_index = RU_2X996_484_INDEX;
break;
case RU_3X996:
ru_index = RU_3X996_INDEX;
break;
case RU_3X996_484:
ru_index = RU_2X996_484_INDEX;
break;
case RU_4X996:
ru_index = RU_4X996_INDEX;
break;
default:
ru_index = RU_INDEX_MAX;
break;
}
return ru_index;
}
/*
* dp_mon_get_ru_width_from_ru_size() - get ru_width from ru_size enum
* @ru_size: HTT ru_size enum
*
* Return: ru_width of uint32_t type
*/
static uint32_t dp_mon_get_ru_width_from_ru_size(uint16_t ru_size)
{
uint32_t width = 0;
switch (ru_size) {
case HTT_PPDU_STATS_RU_26:
width = RU_26;
break;
case HTT_PPDU_STATS_RU_52:
width = RU_52;
break;
case HTT_PPDU_STATS_RU_52_26:
width = RU_52_26;
break;
case HTT_PPDU_STATS_RU_106:
width = RU_106;
break;
case HTT_PPDU_STATS_RU_106_26:
width = RU_106_26;
break;
case HTT_PPDU_STATS_RU_242:
width = RU_242;
break;
case HTT_PPDU_STATS_RU_484:
width = RU_484;
break;
case HTT_PPDU_STATS_RU_484_242:
width = RU_484_242;
break;
case HTT_PPDU_STATS_RU_996:
width = RU_996;
break;
case HTT_PPDU_STATS_RU_996_484:
width = RU_996_484;
break;
case HTT_PPDU_STATS_RU_996_484_242:
width = RU_996_484_242;
break;
case HTT_PPDU_STATS_RU_996x2:
width = RU_2X996;
break;
case HTT_PPDU_STATS_RU_996x2_484:
width = RU_2X996_484;
break;
case HTT_PPDU_STATS_RU_996x3:
width = RU_3X996;
break;
case HTT_PPDU_STATS_RU_996x3_484:
width = RU_3X996_484;
break;
case HTT_PPDU_STATS_RU_996x4:
width = RU_4X996;
break;
default:
dp_mon_debug("Unsupported ru_size: %d rcvd", ru_size);
}
return width;
}
#else
static inline enum cdp_ru_index dp_get_ru_index_frm_ru_tones(uint16_t ru_tones)
{
enum cdp_ru_index ru_index;
switch (ru_tones) {
case RU_26:
ru_index = RU_26_INDEX;
break;
case RU_52:
ru_index = RU_52_INDEX;
break;
case RU_106:
ru_index = RU_106_INDEX;
break;
case RU_242:
ru_index = RU_242_INDEX;
break;
case RU_484:
ru_index = RU_484_INDEX;
break;
case RU_996:
ru_index = RU_996_INDEX;
break;
default:
ru_index = RU_INDEX_MAX;
break;
}
return ru_index;
}
static uint32_t dp_mon_get_ru_width_from_ru_size(uint16_t ru_size)
{
uint32_t width = 0;
switch (ru_size) {
case HTT_PPDU_STATS_RU_26:
width = RU_26;
break;
case HTT_PPDU_STATS_RU_52:
width = RU_52;
break;
case HTT_PPDU_STATS_RU_106:
width = RU_106;
break;
case HTT_PPDU_STATS_RU_242:
width = RU_242;
break;
case HTT_PPDU_STATS_RU_484:
width = RU_484;
break;
case HTT_PPDU_STATS_RU_996:
width = RU_996;
break;
default:
dp_mon_debug("Unsupported ru_size: %d rcvd", ru_size);
}
return width;
}
#endif
#ifdef WLAN_TELEMETRY_STATS_SUPPORT
/*
* dp_pdev_telemetry_stats_update() - Update pdev telemetry stats
* @pdev: Datapath pdev handle
* @ppdu: PPDU Descriptor
*
* Return: None
*/
static void
dp_pdev_telemetry_stats_update(
struct dp_pdev *pdev,
struct cdp_tx_completion_ppdu_user *ppdu)
{
uint16_t mpdu_tried;
uint16_t mpdu_failed;
uint16_t num_mpdu;
uint8_t ac = 0;
num_mpdu = ppdu->mpdu_success;
mpdu_tried = ppdu->mpdu_tried_ucast + ppdu->mpdu_tried_mcast;
mpdu_failed = mpdu_tried - num_mpdu;
ac = TID_TO_WME_AC(ppdu->tid);
DP_STATS_INC(pdev, telemetry_stats.tx_mpdu_failed[ac],
mpdu_failed);
DP_STATS_INC(pdev, telemetry_stats.tx_mpdu_total[ac],
mpdu_tried);
}
#else
static inline void
dp_pdev_telemetry_stats_update(
struct dp_pdev *pdev,
struct cdp_tx_completion_ppdu_user *ppdu)
{ }
#endif
/*
* dp_tx_stats_update() - Update per-peer statistics
* @pdev: Datapath pdev handle
* @peer: Datapath peer handle
* @ppdu: PPDU Descriptor
* @ack_rssi: RSSI of last ack received
*
* Return: None
*/
static void
dp_tx_stats_update(struct dp_pdev *pdev, struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *ppdu,
uint32_t ack_rssi)
{
uint8_t preamble, mcs;
uint16_t num_msdu;
uint16_t num_mpdu;
uint16_t mpdu_tried;
uint16_t mpdu_failed;
struct dp_mon_ops *mon_ops;
enum cdp_ru_index ru_index;
struct dp_mon_peer *mon_peer = NULL;
uint32_t ratekbps = 0;
uint64_t tx_byte_count;
preamble = ppdu->preamble;
mcs = ppdu->mcs;
num_msdu = ppdu->num_msdu;
num_mpdu = ppdu->mpdu_success;
mpdu_tried = ppdu->mpdu_tried_ucast + ppdu->mpdu_tried_mcast;
mpdu_failed = mpdu_tried - num_mpdu;
tx_byte_count = ppdu->success_bytes;
/* If the peer statistics are already processed as part of
* per-MSDU completion handler, do not process these again in per-PPDU
* indications
*/
if (pdev->soc->process_tx_status)
return;
mon_peer = peer->monitor_peer;
if (!mon_peer)
return;
if (!ppdu->is_mcast) {
DP_STATS_INC(mon_peer, tx.tx_ucast_total.num, num_msdu);
DP_STATS_INC(mon_peer, tx.tx_ucast_total.bytes,
tx_byte_count);
}
if (ppdu->completion_status != HTT_PPDU_STATS_USER_STATUS_OK) {
/*
* All failed mpdu will be retried, so incrementing
* retries mpdu based on mpdu failed. Even for
* ack failure i.e for long retries we get
* mpdu failed equal mpdu tried.
*/
DP_STATS_INC(mon_peer, tx.retries, mpdu_failed);
dp_pdev_telemetry_stats_update(pdev, ppdu);
return;
}
if (ppdu->is_ppdu_cookie_valid)
DP_STATS_INC(mon_peer, tx.num_ppdu_cookie_valid, 1);
if (ppdu->mu_group_id <= MAX_MU_GROUP_ID &&
ppdu->ppdu_type != HTT_PPDU_STATS_PPDU_TYPE_SU) {
if (qdf_unlikely(ppdu->mu_group_id &&
!(ppdu->mu_group_id & (MAX_MU_GROUP_ID - 1))))
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_ERROR,
"mu_group_id out of bound!!\n");
else
DP_STATS_UPD(mon_peer, tx.mu_group_id[ppdu->mu_group_id],
(ppdu->user_pos + 1));
}
if (ppdu->ppdu_type == HTT_PPDU_STATS_PPDU_TYPE_MU_OFDMA ||
ppdu->ppdu_type == HTT_PPDU_STATS_PPDU_TYPE_MU_MIMO_OFDMA) {
DP_STATS_UPD(mon_peer, tx.ru_tones, ppdu->ru_tones);
DP_STATS_UPD(mon_peer, tx.ru_start, ppdu->ru_start);
ru_index = dp_get_ru_index_frm_ru_tones(ppdu->ru_tones);
if (ru_index != RU_INDEX_MAX) {
DP_STATS_INC(mon_peer, tx.ru_loc[ru_index].num_msdu,
num_msdu);
DP_STATS_INC(mon_peer, tx.ru_loc[ru_index].num_mpdu,
num_mpdu);
DP_STATS_INC(mon_peer, tx.ru_loc[ru_index].mpdu_tried,
mpdu_tried);
}
}
/*
* All failed mpdu will be retried, so incrementing
* retries mpdu based on mpdu failed. Even for
* ack failure i.e for long retries we get
* mpdu failed equal mpdu tried.
*/
DP_STATS_INC(mon_peer, tx.retries, mpdu_failed);
DP_STATS_INC(mon_peer, tx.transmit_type[ppdu->ppdu_type].num_msdu,
num_msdu);
DP_STATS_INC(mon_peer, tx.transmit_type[ppdu->ppdu_type].num_mpdu,
num_mpdu);
DP_STATS_INC(mon_peer, tx.transmit_type[ppdu->ppdu_type].mpdu_tried,
mpdu_tried);
DP_STATS_INC(mon_peer, tx.sgi_count[ppdu->gi], num_msdu);
DP_STATS_INC(mon_peer, tx.bw[ppdu->bw], num_msdu);
DP_STATS_INC(mon_peer, tx.nss[ppdu->nss], num_msdu);
if (ppdu->tid < CDP_DATA_TID_MAX)
DP_STATS_INC(mon_peer, tx.wme_ac_type[TID_TO_WME_AC(ppdu->tid)],
num_msdu);
DP_STATS_INCC(mon_peer, tx.stbc, num_msdu, ppdu->stbc);
DP_STATS_INCC(mon_peer, tx.ldpc, num_msdu, ppdu->ldpc);
if (!(ppdu->is_mcast) && ppdu->ack_rssi_valid)
DP_STATS_UPD(mon_peer, tx.last_ack_rssi, ack_rssi);
if (!ppdu->is_mcast) {
DP_STATS_INC(mon_peer, tx.tx_ucast_success.num, num_msdu);
DP_STATS_INC(mon_peer, tx.tx_ucast_success.bytes,
tx_byte_count);
}
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[MAX_MCS - 1], num_msdu,
((mcs >= MAX_MCS_11A) && (preamble == DOT11_A)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[mcs], num_msdu,
((mcs < MAX_MCS_11A) && (preamble == DOT11_A)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[MAX_MCS - 1], num_msdu,
((mcs >= MAX_MCS_11B) && (preamble == DOT11_B)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[mcs], num_msdu,
((mcs < (MAX_MCS_11B)) && (preamble == DOT11_B)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[MAX_MCS - 1], num_msdu,
((mcs >= MAX_MCS_11A) && (preamble == DOT11_N)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[mcs], num_msdu,
((mcs < MAX_MCS_11A) && (preamble == DOT11_N)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[MAX_MCS - 1], num_msdu,
((mcs >= MAX_MCS_11AC) && (preamble == DOT11_AC)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[mcs], num_msdu,
((mcs < MAX_MCS_11AC) && (preamble == DOT11_AC)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[MAX_MCS - 1], num_msdu,
((mcs >= MAX_MCS_11AX) && (preamble == DOT11_AX)));
DP_STATS_INCC(mon_peer,
tx.pkt_type[preamble].mcs_count[mcs], num_msdu,
((mcs < MAX_MCS_11AX) && (preamble == DOT11_AX)));
DP_STATS_INCC(mon_peer, tx.ampdu_cnt, num_mpdu, ppdu->is_ampdu);
DP_STATS_INCC(mon_peer, tx.non_ampdu_cnt, num_mpdu, !(ppdu->is_ampdu));
DP_STATS_INCC(mon_peer, tx.pream_punct_cnt, 1, ppdu->pream_punct);
DP_STATS_INC(mon_peer, tx.tx_ppdus, 1);
DP_STATS_INC(mon_peer, tx.tx_mpdus_success, num_mpdu);
DP_STATS_INC(mon_peer, tx.tx_mpdus_tried, mpdu_tried);
mon_ops = dp_mon_ops_get(pdev->soc);
if (mon_ops && mon_ops->mon_tx_stats_update)
mon_ops->mon_tx_stats_update(mon_peer, ppdu);
dp_tx_rate_stats_update(peer, ppdu);
dp_pdev_telemetry_stats_update(pdev, ppdu);
dp_peer_stats_notify(pdev, peer);
ratekbps = mon_peer->stats.tx.tx_rate;
DP_STATS_UPD(mon_peer, tx.last_tx_rate, ratekbps);
dp_send_stats_event(pdev, peer, ppdu->peer_id);
}
/*
* dp_get_ppdu_info_user_index: Find and allocate a per-user descriptor for a PPDU,
* if a new peer id arrives in a PPDU
* pdev: DP pdev handle
* @peer_id : peer unique identifier
* @ppdu_info: per ppdu tlv structure
*
* return:user index to be populated
*/
static uint8_t dp_get_ppdu_info_user_index(struct dp_pdev *pdev,
uint16_t peer_id,
struct ppdu_info *ppdu_info)
{
uint8_t user_index = 0;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
while ((user_index + 1) <= ppdu_info->last_user) {
ppdu_user_desc = &ppdu_desc->user[user_index];
if (ppdu_user_desc->peer_id != peer_id) {
user_index++;
continue;
} else {
/* Max users possible is 8 so user array index should
* not exceed 7
*/
qdf_assert_always(user_index <= (ppdu_desc->max_users - 1));
return user_index;
}
}
ppdu_info->last_user++;
/* Max users possible is 8 so last user should not exceed 8 */
qdf_assert_always(ppdu_info->last_user <= ppdu_desc->max_users);
return ppdu_info->last_user - 1;
}
/*
* dp_process_ppdu_stats_common_tlv: Process htt_ppdu_stats_common_tlv
* pdev: DP pdev handle
* @tag_buf: buffer containing the tlv htt_ppdu_stats_common_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void
dp_process_ppdu_stats_common_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint16_t frame_type;
uint16_t frame_ctrl;
uint16_t freq;
struct dp_soc *soc = NULL;
struct cdp_tx_completion_ppdu *ppdu_desc = NULL;
uint64_t ppdu_start_timestamp;
uint32_t *start_tag_buf;
start_tag_buf = tag_buf;
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
ppdu_desc->ppdu_id = ppdu_info->ppdu_id;
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(RING_ID_SCH_CMD_ID);
ppdu_info->sched_cmdid =
HTT_PPDU_STATS_COMMON_TLV_SCH_CMDID_GET(*tag_buf);
ppdu_desc->num_users =
HTT_PPDU_STATS_COMMON_TLV_NUM_USERS_GET(*tag_buf);
qdf_assert_always(ppdu_desc->num_users <= ppdu_desc->max_users);
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(QTYPE_FRM_TYPE);
frame_type = HTT_PPDU_STATS_COMMON_TLV_FRM_TYPE_GET(*tag_buf);
ppdu_desc->htt_frame_type = frame_type;
frame_ctrl = ppdu_desc->frame_ctrl;
ppdu_desc->bar_ppdu_id = ppdu_info->ppdu_id;
switch (frame_type) {
case HTT_STATS_FTYPE_TIDQ_DATA_SU:
case HTT_STATS_FTYPE_TIDQ_DATA_MU:
case HTT_STATS_FTYPE_SGEN_QOS_NULL:
/*
* for management packet, frame type come as DATA_SU
* need to check frame_ctrl before setting frame_type
*/
if (HTT_GET_FRAME_CTRL_TYPE(frame_ctrl) <= FRAME_CTRL_TYPE_CTRL)
ppdu_desc->frame_type = CDP_PPDU_FTYPE_CTRL;
else
ppdu_desc->frame_type = CDP_PPDU_FTYPE_DATA;
break;
case HTT_STATS_FTYPE_SGEN_MU_BAR:
case HTT_STATS_FTYPE_SGEN_BAR:
case HTT_STATS_FTYPE_SGEN_BE_MU_BAR:
ppdu_desc->frame_type = CDP_PPDU_FTYPE_BAR;
break;
default:
ppdu_desc->frame_type = CDP_PPDU_FTYPE_CTRL;
break;
}
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(FES_DUR_US);
ppdu_desc->tx_duration = *tag_buf;
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(START_TSTMP_L32_US);
ppdu_desc->ppdu_start_timestamp = *tag_buf;
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(CHAN_MHZ_PHY_MODE);
freq = HTT_PPDU_STATS_COMMON_TLV_CHAN_MHZ_GET(*tag_buf);
if (freq != ppdu_desc->channel) {
soc = pdev->soc;
ppdu_desc->channel = freq;
pdev->operating_channel.freq = freq;
if (soc && soc->cdp_soc.ol_ops->freq_to_channel)
pdev->operating_channel.num =
soc->cdp_soc.ol_ops->freq_to_channel(soc->ctrl_psoc,
pdev->pdev_id,
freq);
if (soc && soc->cdp_soc.ol_ops->freq_to_band)
pdev->operating_channel.band =
soc->cdp_soc.ol_ops->freq_to_band(soc->ctrl_psoc,
pdev->pdev_id,
freq);
}
ppdu_desc->phy_mode = HTT_PPDU_STATS_COMMON_TLV_PHY_MODE_GET(*tag_buf);
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(RESV_NUM_UL_BEAM);
ppdu_desc->phy_ppdu_tx_time_us =
HTT_PPDU_STATS_COMMON_TLV_PHY_PPDU_TX_TIME_US_GET(*tag_buf);
ppdu_desc->beam_change =
HTT_PPDU_STATS_COMMON_TLV_BEAM_CHANGE_GET(*tag_buf);
ppdu_desc->doppler =
HTT_PPDU_STATS_COMMON_TLV_DOPPLER_INDICATION_GET(*tag_buf);
ppdu_desc->spatial_reuse =
HTT_PPDU_STATS_COMMON_TLV_SPATIAL_REUSE_GET(*tag_buf);
dp_tx_capture_htt_frame_counter(pdev, frame_type);
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(START_TSTMP_U32_US);
ppdu_start_timestamp = *tag_buf;
ppdu_desc->ppdu_start_timestamp |= ((ppdu_start_timestamp <<
HTT_SHIFT_UPPER_TIMESTAMP) &
HTT_MASK_UPPER_TIMESTAMP);
ppdu_desc->ppdu_end_timestamp = ppdu_desc->ppdu_start_timestamp +
ppdu_desc->tx_duration;
/* Ack time stamp is same as end time stamp*/
ppdu_desc->ack_timestamp = ppdu_desc->ppdu_end_timestamp;
ppdu_desc->ppdu_end_timestamp = ppdu_desc->ppdu_start_timestamp +
ppdu_desc->tx_duration;
ppdu_desc->bar_ppdu_start_timestamp = ppdu_desc->ppdu_start_timestamp;
ppdu_desc->bar_ppdu_end_timestamp = ppdu_desc->ppdu_end_timestamp;
ppdu_desc->bar_tx_duration = ppdu_desc->tx_duration;
/* Ack time stamp is same as end time stamp*/
ppdu_desc->ack_timestamp = ppdu_desc->ppdu_end_timestamp;
tag_buf = start_tag_buf + HTT_GET_STATS_CMN_INDEX(BSSCOLOR_OBSS_PSR);
ppdu_desc->bss_color =
HTT_PPDU_STATS_COMMON_TLV_BSS_COLOR_ID_GET(*tag_buf);
}
/*
* dp_process_ppdu_stats_user_common_tlv: Process ppdu_stats_user_common
* @tag_buf: buffer containing the tlv htt_ppdu_stats_user_common_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_common_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint16_t peer_id;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
struct dp_peer *peer;
struct dp_vdev *vdev;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id = HTT_PPDU_STATS_USER_RATE_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index =
dp_get_ppdu_info_user_index(pdev,
peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_desc->vdev_id =
HTT_PPDU_STATS_USER_COMMON_TLV_VAP_ID_GET(*tag_buf);
ppdu_user_desc->peer_id = peer_id;
tag_buf++;
if (HTT_PPDU_STATS_USER_COMMON_TLV_DELAYED_BA_GET(*tag_buf)) {
ppdu_user_desc->delayed_ba = 1;
ppdu_desc->delayed_ba = 1;
}
if (HTT_PPDU_STATS_USER_COMMON_TLV_MCAST_GET(*tag_buf)) {
ppdu_user_desc->is_mcast = true;
ppdu_user_desc->mpdu_tried_mcast =
HTT_PPDU_STATS_USER_COMMON_TLV_MPDUS_TRIED_GET(*tag_buf);
ppdu_user_desc->num_mpdu = ppdu_user_desc->mpdu_tried_mcast;
} else {
ppdu_user_desc->mpdu_tried_ucast =
HTT_PPDU_STATS_USER_COMMON_TLV_MPDUS_TRIED_GET(*tag_buf);
}
ppdu_user_desc->is_seq_num_valid =
HTT_PPDU_STATS_USER_COMMON_TLV_IS_SQNUM_VALID_IN_BUFFER_GET(*tag_buf);
tag_buf++;
ppdu_user_desc->qos_ctrl =
HTT_PPDU_STATS_USER_COMMON_TLV_QOS_CTRL_GET(*tag_buf);
ppdu_user_desc->frame_ctrl =
HTT_PPDU_STATS_USER_COMMON_TLV_FRAME_CTRL_GET(*tag_buf);
ppdu_desc->frame_ctrl = ppdu_user_desc->frame_ctrl;
if (ppdu_user_desc->delayed_ba)
ppdu_user_desc->mpdu_success = 0;
tag_buf += 3;
if (HTT_PPDU_STATS_IS_OPAQUE_VALID_GET(*tag_buf)) {
ppdu_user_desc->ppdu_cookie =
HTT_PPDU_STATS_HOST_OPAQUE_COOKIE_GET(*tag_buf);
ppdu_user_desc->is_ppdu_cookie_valid = 1;
}
/* returning earlier causes other feilds unpopulated */
if (peer_id == DP_SCAN_PEER_ID) {
vdev = dp_vdev_get_ref_by_id(pdev->soc, ppdu_desc->vdev_id,
DP_MOD_ID_TX_PPDU_STATS);
if (!vdev)
return;
qdf_mem_copy(ppdu_user_desc->mac_addr, vdev->mac_addr.raw,
QDF_MAC_ADDR_SIZE);
dp_vdev_unref_delete(pdev->soc, vdev, DP_MOD_ID_TX_PPDU_STATS);
} else {
peer = dp_peer_get_ref_by_id(pdev->soc, peer_id,
DP_MOD_ID_TX_PPDU_STATS);
if (!peer) {
/*
* fw sends peer_id which is about to removed but
* it was already removed in host.
* eg: for disassoc, fw send ppdu stats
* with peer id equal to previously associated
* peer's peer_id but it was removed
*/
vdev = dp_vdev_get_ref_by_id(pdev->soc,
ppdu_desc->vdev_id,
DP_MOD_ID_TX_PPDU_STATS);
if (!vdev)
return;
qdf_mem_copy(ppdu_user_desc->mac_addr,
vdev->mac_addr.raw, QDF_MAC_ADDR_SIZE);
dp_vdev_unref_delete(pdev->soc, vdev,
DP_MOD_ID_TX_PPDU_STATS);
return;
}
qdf_mem_copy(ppdu_user_desc->mac_addr,
peer->mac_addr.raw, QDF_MAC_ADDR_SIZE);
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
}
}
/**
* dp_process_ppdu_stats_user_rate_tlv() - Process htt_ppdu_stats_user_rate_tlv
* @pdev: DP pdev handle
* @tag_buf: T2H message buffer carrying the user rate TLV
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void
dp_process_ppdu_stats_user_rate_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint16_t peer_id;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
struct dp_vdev *vdev;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
uint8_t bw, ru_format;
uint16_t ru_size;
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id = HTT_PPDU_STATS_USER_RATE_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index =
dp_get_ppdu_info_user_index(pdev,
peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
if (peer_id == DP_SCAN_PEER_ID) {
vdev = dp_vdev_get_ref_by_id(pdev->soc, ppdu_desc->vdev_id,
DP_MOD_ID_TX_PPDU_STATS);
if (!vdev)
return;
dp_vdev_unref_delete(pdev->soc, vdev,
DP_MOD_ID_TX_PPDU_STATS);
}
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->tid =
HTT_PPDU_STATS_USER_RATE_TLV_TID_NUM_GET(*tag_buf);
tag_buf += 1;
ppdu_user_desc->user_pos =
HTT_PPDU_STATS_USER_RATE_TLV_USER_POS_GET(*tag_buf);
ppdu_user_desc->mu_group_id =
HTT_PPDU_STATS_USER_RATE_TLV_MU_GROUPID_GET(*tag_buf);
ru_format = HTT_PPDU_STATS_USER_RATE_TLV_RU_FORMAT_GET(*tag_buf);
tag_buf += 1;
if (!ru_format) {
/* ru_format = 0: ru_end, ru_start */
ppdu_user_desc->ru_start =
HTT_PPDU_STATS_USER_RATE_TLV_RU_START_GET(*tag_buf);
ppdu_user_desc->ru_tones =
(HTT_PPDU_STATS_USER_RATE_TLV_RU_END_GET(*tag_buf) -
HTT_PPDU_STATS_USER_RATE_TLV_RU_START_GET(*tag_buf)) + 1;
} else if (ru_format == 1) {
/* ru_format = 1: ru_index, ru_size */
ru_size = HTT_PPDU_STATS_USER_RATE_TLV_RU_SIZE_GET(*tag_buf);
ppdu_user_desc->ru_tones =
dp_mon_get_ru_width_from_ru_size(ru_size);
} else {
dp_mon_debug("Unsupported ru_format: %d rcvd", ru_format);
}
ppdu_desc->usr_ru_tones_sum += ppdu_user_desc->ru_tones;
tag_buf += 2;
ppdu_user_desc->ppdu_type =
HTT_PPDU_STATS_USER_RATE_TLV_PPDU_TYPE_GET(*tag_buf);
tag_buf++;
ppdu_user_desc->tx_rate = *tag_buf;
ppdu_user_desc->ltf_size =
HTT_PPDU_STATS_USER_RATE_TLV_LTF_SIZE_GET(*tag_buf);
ppdu_user_desc->stbc =
HTT_PPDU_STATS_USER_RATE_TLV_STBC_GET(*tag_buf);
ppdu_user_desc->he_re =
HTT_PPDU_STATS_USER_RATE_TLV_HE_RE_GET(*tag_buf);
ppdu_user_desc->txbf =
HTT_PPDU_STATS_USER_RATE_TLV_TXBF_GET(*tag_buf);
bw = HTT_PPDU_STATS_USER_RATE_TLV_BW_GET(*tag_buf);
/* Align bw value as per host data structures */
if (bw == HTT_PPDU_STATS_BANDWIDTH_320MHZ)
ppdu_user_desc->bw = bw - 3;
else
ppdu_user_desc->bw = bw - 2;
ppdu_user_desc->nss = HTT_PPDU_STATS_USER_RATE_TLV_NSS_GET(*tag_buf);
ppdu_desc->usr_nss_sum += ppdu_user_desc->nss;
ppdu_user_desc->mcs = HTT_PPDU_STATS_USER_RATE_TLV_MCS_GET(*tag_buf);
ppdu_user_desc->preamble =
HTT_PPDU_STATS_USER_RATE_TLV_PREAMBLE_GET(*tag_buf);
ppdu_user_desc->gi = HTT_PPDU_STATS_USER_RATE_TLV_GI_GET(*tag_buf);
ppdu_user_desc->dcm = HTT_PPDU_STATS_USER_RATE_TLV_DCM_GET(*tag_buf);
ppdu_user_desc->ldpc = HTT_PPDU_STATS_USER_RATE_TLV_LDPC_GET(*tag_buf);
tag_buf += 2;
ppdu_user_desc->punc_pattern_bitmap =
HTT_PPDU_STATS_USER_RATE_TLV_PUNC_PATTERN_BITMAP_GET(*tag_buf);
}
/*
* dp_process_ppdu_stats_enq_mpdu_bitmap_64_tlv: Process
* htt_ppdu_stats_enq_mpdu_bitmap_64_tlv
* pdev: DP PDEV handle
* @tag_buf: buffer containing the tlv htt_ppdu_stats_enq_mpdu_bitmap_64_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_enq_mpdu_bitmap_64_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
htt_ppdu_stats_enq_mpdu_bitmap_64_tlv *dp_stats_buf =
(htt_ppdu_stats_enq_mpdu_bitmap_64_tlv *)tag_buf;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
uint16_t peer_id;
uint32_t size = CDP_BA_64_BIT_MAP_SIZE_DWORDS;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id =
HTT_PPDU_STATS_ENQ_MPDU_BITMAP_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->start_seq = dp_stats_buf->start_seq;
qdf_mem_copy(&ppdu_user_desc->enq_bitmap, &dp_stats_buf->enq_bitmap,
sizeof(uint32_t) * CDP_BA_64_BIT_MAP_SIZE_DWORDS);
dp_process_ppdu_stats_update_failed_bitmap(pdev,
(void *)ppdu_user_desc,
ppdu_info->ppdu_id,
size);
}
/*
* dp_process_ppdu_stats_enq_mpdu_bitmap_256_tlv: Process
* htt_ppdu_stats_enq_mpdu_bitmap_256_tlv
* soc: DP SOC handle
* @tag_buf: buffer containing the tlv htt_ppdu_stats_enq_mpdu_bitmap_256_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_enq_mpdu_bitmap_256_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
htt_ppdu_stats_enq_mpdu_bitmap_256_tlv *dp_stats_buf =
(htt_ppdu_stats_enq_mpdu_bitmap_256_tlv *)tag_buf;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
uint16_t peer_id;
uint32_t size = CDP_BA_256_BIT_MAP_SIZE_DWORDS;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id =
HTT_PPDU_STATS_ENQ_MPDU_BITMAP_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->start_seq = dp_stats_buf->start_seq;
qdf_mem_copy(&ppdu_user_desc->enq_bitmap, &dp_stats_buf->enq_bitmap,
sizeof(uint32_t) * CDP_BA_256_BIT_MAP_SIZE_DWORDS);
dp_process_ppdu_stats_update_failed_bitmap(pdev,
(void *)ppdu_user_desc,
ppdu_info->ppdu_id,
size);
}
/*
* dp_process_ppdu_stats_user_cmpltn_common_tlv: Process
* htt_ppdu_stats_user_cmpltn_common_tlv
* soc: DP SOC handle
* @tag_buf: buffer containing the tlv htt_ppdu_stats_user_cmpltn_common_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_cmpltn_common_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint16_t peer_id;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
uint8_t bw_iter;
htt_ppdu_stats_user_cmpltn_common_tlv *dp_stats_buf =
(htt_ppdu_stats_user_cmpltn_common_tlv *)tag_buf;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->completion_status =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_COMPLETION_STATUS_GET(
*tag_buf);
ppdu_user_desc->tid =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_TID_NUM_GET(*tag_buf);
tag_buf++;
if (qdf_likely(ppdu_user_desc->completion_status ==
HTT_PPDU_STATS_USER_STATUS_OK)) {
ppdu_desc->ack_rssi = dp_stats_buf->ack_rssi;
ppdu_user_desc->usr_ack_rssi = dp_stats_buf->ack_rssi;
ppdu_user_desc->ack_rssi_valid = 1;
} else {
ppdu_user_desc->ack_rssi_valid = 0;
}
tag_buf++;
ppdu_user_desc->mpdu_success =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_MPDU_SUCCESS_GET(*tag_buf);
ppdu_user_desc->mpdu_failed =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_MPDU_TRIED_GET(*tag_buf) -
ppdu_user_desc->mpdu_success;
tag_buf++;
ppdu_user_desc->long_retries =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_LONG_RETRY_GET(*tag_buf);
ppdu_user_desc->short_retries =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_SHORT_RETRY_GET(*tag_buf);
ppdu_user_desc->retry_mpdus =
ppdu_user_desc->long_retries + ppdu_user_desc->short_retries;
ppdu_user_desc->is_ampdu =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_IS_AMPDU_GET(*tag_buf);
ppdu_info->is_ampdu = ppdu_user_desc->is_ampdu;
ppdu_desc->resp_type =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_RESP_TYPE_GET(*tag_buf);
ppdu_desc->mprot_type =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_MPROT_TYPE_GET(*tag_buf);
ppdu_desc->rts_success =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_RTS_SUCCESS_GET(*tag_buf);
ppdu_desc->rts_failure =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_RTS_FAILURE_GET(*tag_buf);
ppdu_user_desc->mprot_type = ppdu_desc->mprot_type;
ppdu_user_desc->rts_success = ppdu_desc->rts_success;
ppdu_user_desc->rts_failure = ppdu_desc->rts_failure;
ppdu_user_desc->pream_punct =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_PREAM_PUNC_TX_GET(*tag_buf);
ppdu_info->compltn_common_tlv++;
/*
* MU BAR may send request to n users but we may received ack only from
* m users. To have count of number of users respond back, we have a
* separate counter bar_num_users per PPDU that get increment for every
* htt_ppdu_stats_user_cmpltn_common_tlv
*/
ppdu_desc->bar_num_users++;
tag_buf++;
for (bw_iter = 0; bw_iter < CDP_RSSI_CHAIN_LEN; bw_iter++) {
ppdu_user_desc->rssi_chain[bw_iter] =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_CHAIN_RSSI_GET(*tag_buf);
tag_buf++;
}
ppdu_user_desc->sa_tx_antenna =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_TX_ANTENNA_MASK_GET(*tag_buf);
tag_buf++;
ppdu_user_desc->sa_is_training =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_IS_TRAINING_GET(*tag_buf);
if (ppdu_user_desc->sa_is_training) {
ppdu_user_desc->sa_goodput =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_PENDING_TRAINING_PKTS_GET(*tag_buf);
}
tag_buf++;
for (bw_iter = 0; bw_iter < CDP_NUM_SA_BW; bw_iter++) {
ppdu_user_desc->sa_max_rates[bw_iter] =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_MAX_RATES_GET(tag_buf[bw_iter]);
}
tag_buf += CDP_NUM_SA_BW;
ppdu_user_desc->current_rate_per =
HTT_PPDU_STATS_USER_CMPLTN_COMMON_TLV_CURRENT_RATE_PER_GET(*tag_buf);
}
/*
* dp_process_ppdu_stats_user_compltn_ba_bitmap_64_tlv: Process
* htt_ppdu_stats_user_compltn_ba_bitmap_64_tlv
* pdev: DP PDEV handle
* @tag_buf: buffer containing the htt_ppdu_stats_user_compltn_ba_bitmap_64_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_compltn_ba_bitmap_64_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
htt_ppdu_stats_user_compltn_ba_bitmap_64_tlv *dp_stats_buf =
(htt_ppdu_stats_user_compltn_ba_bitmap_64_tlv *)tag_buf;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
struct cdp_tx_completion_ppdu *ppdu_desc;
uint8_t curr_user_index = 0;
uint16_t peer_id;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id =
HTT_PPDU_STATS_USER_CMPLTN_BA_BITMAP_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->ba_seq_no = dp_stats_buf->ba_seq_no;
qdf_mem_copy(&ppdu_user_desc->ba_bitmap, &dp_stats_buf->ba_bitmap,
sizeof(uint32_t) * CDP_BA_64_BIT_MAP_SIZE_DWORDS);
ppdu_user_desc->ba_size = CDP_BA_64_BIT_MAP_SIZE_DWORDS * 32;
}
/*
* dp_process_ppdu_stats_user_compltn_ba_bitmap_256_tlv: Process
* htt_ppdu_stats_user_compltn_ba_bitmap_256_tlv
* pdev: DP PDEV handle
* @tag_buf: buffer containing the htt_ppdu_stats_user_compltn_ba_bitmap_256_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_compltn_ba_bitmap_256_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
htt_ppdu_stats_user_compltn_ba_bitmap_256_tlv *dp_stats_buf =
(htt_ppdu_stats_user_compltn_ba_bitmap_256_tlv *)tag_buf;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
struct cdp_tx_completion_ppdu *ppdu_desc;
uint8_t curr_user_index = 0;
uint16_t peer_id;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
peer_id =
HTT_PPDU_STATS_USER_CMPLTN_BA_BITMAP_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->peer_id = peer_id;
ppdu_user_desc->ba_seq_no = dp_stats_buf->ba_seq_no;
qdf_mem_copy(&ppdu_user_desc->ba_bitmap, &dp_stats_buf->ba_bitmap,
sizeof(uint32_t) * CDP_BA_256_BIT_MAP_SIZE_DWORDS);
ppdu_user_desc->ba_size = CDP_BA_256_BIT_MAP_SIZE_DWORDS * 32;
}
/*
* dp_process_ppdu_stats_user_compltn_ack_ba_status_tlv: Process
* htt_ppdu_stats_user_compltn_ack_ba_status_tlv
* pdev: DP PDE handle
* @tag_buf: buffer containing the htt_ppdu_stats_user_compltn_ack_ba_status_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_compltn_ack_ba_status_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint16_t peer_id;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf += 2;
peer_id =
HTT_PPDU_STATS_USER_CMPLTN_ACK_BA_STATUS_TLV_SW_PEER_ID_GET(*tag_buf);
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
if (!ppdu_user_desc->ack_ba_tlv) {
ppdu_user_desc->ack_ba_tlv = 1;
} else {
pdev->stats.ack_ba_comes_twice++;
return;
}
ppdu_user_desc->peer_id = peer_id;
tag_buf++;
/* not to update ppdu_desc->tid from this TLV */
ppdu_user_desc->num_mpdu =
HTT_PPDU_STATS_USER_CMPLTN_ACK_BA_STATUS_TLV_NUM_MPDU_GET(*tag_buf);
ppdu_user_desc->num_msdu =
HTT_PPDU_STATS_USER_CMPLTN_ACK_BA_STATUS_TLV_NUM_MSDU_GET(*tag_buf);
ppdu_user_desc->success_msdus = ppdu_user_desc->num_msdu;
tag_buf++;
ppdu_user_desc->start_seq =
HTT_PPDU_STATS_USER_CMPLTN_ACK_BA_STATUS_TLV_START_SEQ_GET(
*tag_buf);
tag_buf++;
ppdu_user_desc->success_bytes = *tag_buf;
/* increase ack ba tlv counter on successful mpdu */
if (ppdu_user_desc->num_mpdu)
ppdu_info->ack_ba_tlv++;
if (ppdu_user_desc->ba_size == 0) {
ppdu_user_desc->ba_seq_no = ppdu_user_desc->start_seq;
ppdu_user_desc->ba_bitmap[0] = 1;
ppdu_user_desc->ba_size = 1;
}
}
/*
* dp_process_ppdu_stats_user_common_array_tlv: Process
* htt_ppdu_stats_user_common_array_tlv
* pdev: DP PDEV handle
* @tag_buf: buffer containing the htt_ppdu_stats_user_compltn_ack_ba_status_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void dp_process_ppdu_stats_user_common_array_tlv(
struct dp_pdev *pdev, uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
uint32_t peer_id;
struct cdp_tx_completion_ppdu *ppdu_desc;
struct cdp_tx_completion_ppdu_user *ppdu_user_desc;
uint8_t curr_user_index = 0;
struct htt_tx_ppdu_stats_info *dp_stats_buf;
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
tag_buf++;
dp_stats_buf = (struct htt_tx_ppdu_stats_info *)tag_buf;
tag_buf += 3;
peer_id =
HTT_PPDU_STATS_ARRAY_ITEM_TLV_PEERID_GET(*tag_buf);
if (!dp_peer_find_by_id_valid(pdev->soc, peer_id)) {
QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_ERROR,
"Invalid peer");
return;
}
curr_user_index = dp_get_ppdu_info_user_index(pdev, peer_id, ppdu_info);
ppdu_user_desc = &ppdu_desc->user[curr_user_index];
ppdu_user_desc->tlv_bitmap |= (1 << tlv_type);
ppdu_user_desc->retry_bytes = dp_stats_buf->tx_retry_bytes;
ppdu_user_desc->failed_bytes = dp_stats_buf->tx_failed_bytes;
tag_buf++;
ppdu_user_desc->success_msdus =
HTT_PPDU_STATS_ARRAY_ITEM_TLV_TX_SUCC_MSDUS_GET(*tag_buf);
ppdu_user_desc->retry_msdus =
HTT_PPDU_STATS_ARRAY_ITEM_TLV_TX_RETRY_MSDUS_GET(*tag_buf);
tag_buf++;
ppdu_user_desc->failed_msdus =
HTT_PPDU_STATS_ARRAY_ITEM_TLV_TX_FAILED_MSDUS_GET(*tag_buf);
}
/*
* dp_process_ppdu_stats_flush_tlv: Process
* htt_ppdu_stats_flush_tlv
* @pdev: DP PDEV handle
* @tag_buf: buffer containing the htt_ppdu_stats_flush_tlv
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void
dp_process_ppdu_stats_user_compltn_flush_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf,
struct ppdu_info *ppdu_info)
{
struct cdp_tx_completion_ppdu *ppdu_desc;
uint32_t peer_id;
uint8_t tid;
struct dp_peer *peer;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
struct dp_mon_peer *mon_peer = NULL;
ppdu_desc = (struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(ppdu_info->nbuf);
ppdu_desc->is_flush = 1;
tag_buf++;
ppdu_desc->drop_reason = *tag_buf;
tag_buf++;
ppdu_desc->num_msdu = HTT_PPDU_STATS_FLUSH_TLV_NUM_MSDU_GET(*tag_buf);
ppdu_desc->num_mpdu = HTT_PPDU_STATS_FLUSH_TLV_NUM_MPDU_GET(*tag_buf);
ppdu_desc->flow_type = HTT_PPDU_STATS_FLUSH_TLV_FLOW_TYPE_GET(*tag_buf);
tag_buf++;
peer_id = HTT_PPDU_STATS_FLUSH_TLV_SW_PEER_ID_GET(*tag_buf);
tid = HTT_PPDU_STATS_FLUSH_TLV_TID_NUM_GET(*tag_buf);
ppdu_desc->num_users = 1;
ppdu_desc->user[0].peer_id = peer_id;
ppdu_desc->user[0].tid = tid;
ppdu_desc->queue_type =
HTT_PPDU_STATS_FLUSH_TLV_QUEUE_TYPE_GET(*tag_buf);
peer = dp_peer_get_ref_by_id(pdev->soc, peer_id,
DP_MOD_ID_TX_PPDU_STATS);
if (!peer)
goto add_ppdu_to_sched_list;
if (ppdu_desc->drop_reason == HTT_FLUSH_EXCESS_RETRIES) {
mon_peer = peer->monitor_peer;
DP_STATS_INC(mon_peer,
tx.excess_retries_per_ac[TID_TO_WME_AC(tid)],
ppdu_desc->num_msdu);
}
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
add_ppdu_to_sched_list:
ppdu_info->done = 1;
TAILQ_REMOVE(&mon_pdev->ppdu_info_list, ppdu_info, ppdu_info_list_elem);
mon_pdev->list_depth--;
TAILQ_INSERT_TAIL(&mon_pdev->sched_comp_ppdu_list, ppdu_info,
ppdu_info_list_elem);
mon_pdev->sched_comp_list_depth++;
}
/**
* dp_process_ppdu_stats_sch_cmd_status_tlv: Process schedule command status tlv
* Here we are not going to process the buffer.
* @pdev: DP PDEV handle
* @ppdu_info: per ppdu tlv structure
*
* return:void
*/
static void
dp_process_ppdu_stats_sch_cmd_status_tlv(struct dp_pdev *pdev,
struct ppdu_info *ppdu_info)
{
struct cdp_tx_completion_ppdu *ppdu_desc;
struct dp_peer *peer;
uint8_t num_users;
uint8_t i;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
ppdu_desc = (struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(ppdu_info->nbuf);
num_users = ppdu_desc->bar_num_users;
for (i = 0; i < num_users; i++) {
if (ppdu_desc->user[i].user_pos == 0) {
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_BAR) {
/* update phy mode for bar frame */
ppdu_desc->phy_mode =
ppdu_desc->user[i].preamble;
ppdu_desc->user[0].mcs = ppdu_desc->user[i].mcs;
break;
}
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_CTRL) {
ppdu_desc->frame_ctrl =
ppdu_desc->user[i].frame_ctrl;
break;
}
}
}
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_DATA &&
ppdu_desc->delayed_ba) {
qdf_assert_always(ppdu_desc->num_users <= ppdu_desc->max_users);
for (i = 0; i < ppdu_desc->num_users; i++) {
struct cdp_delayed_tx_completion_ppdu_user *delay_ppdu;
uint64_t start_tsf;
uint64_t end_tsf;
uint32_t ppdu_id;
struct dp_mon_peer *mon_peer;
ppdu_id = ppdu_desc->ppdu_id;
peer = dp_peer_get_ref_by_id
(pdev->soc, ppdu_desc->user[i].peer_id,
DP_MOD_ID_TX_PPDU_STATS);
/**
* This check is to make sure peer is not deleted
* after processing the TLVs.
*/
if (!peer)
continue;
if (!peer->monitor_peer) {
dp_peer_unref_delete(peer,
DP_MOD_ID_TX_PPDU_STATS);
continue;
}
mon_peer = peer->monitor_peer;
delay_ppdu = &mon_peer->delayed_ba_ppdu_stats;
start_tsf = ppdu_desc->ppdu_start_timestamp;
end_tsf = ppdu_desc->ppdu_end_timestamp;
/**
* save delayed ba user info
*/
if (ppdu_desc->user[i].delayed_ba) {
dp_peer_copy_delay_stats(peer,
&ppdu_desc->user[i],
ppdu_id);
mon_peer->last_delayed_ba_ppduid = ppdu_id;
delay_ppdu->ppdu_start_timestamp = start_tsf;
delay_ppdu->ppdu_end_timestamp = end_tsf;
}
ppdu_desc->user[i].peer_last_delayed_ba =
mon_peer->last_delayed_ba;
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
if (ppdu_desc->user[i].delayed_ba &&
!ppdu_desc->user[i].debug_copied) {
QDF_TRACE(QDF_MODULE_ID_TXRX,
QDF_TRACE_LEVEL_INFO_MED,
"%s: %d ppdu_id[%d] bar_ppdu_id[%d] num_users[%d] usr[%d] htt_frame_type[%d]\n",
__func__, __LINE__,
ppdu_desc->ppdu_id,
ppdu_desc->bar_ppdu_id,
ppdu_desc->num_users,
i,
ppdu_desc->htt_frame_type);
}
}
}
/*
* when frame type is BAR and STATS_COMMON_TLV is set
* copy the store peer delayed info to BAR status
*/
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_BAR) {
for (i = 0; i < ppdu_desc->bar_num_users; i++) {
struct cdp_delayed_tx_completion_ppdu_user *delay_ppdu;
uint64_t start_tsf;
uint64_t end_tsf;
struct dp_mon_peer *mon_peer;
peer = dp_peer_get_ref_by_id
(pdev->soc,
ppdu_desc->user[i].peer_id,
DP_MOD_ID_TX_PPDU_STATS);
/**
* This check is to make sure peer is not deleted
* after processing the TLVs.
*/
if (!peer)
continue;
if (!peer->monitor_peer) {
dp_peer_unref_delete(peer,
DP_MOD_ID_TX_PPDU_STATS);
continue;
}
mon_peer = peer->monitor_peer;
if (ppdu_desc->user[i].completion_status !=
HTT_PPDU_STATS_USER_STATUS_OK) {
dp_peer_unref_delete(peer,
DP_MOD_ID_TX_PPDU_STATS);
continue;
}
delay_ppdu = &mon_peer->delayed_ba_ppdu_stats;
start_tsf = delay_ppdu->ppdu_start_timestamp;
end_tsf = delay_ppdu->ppdu_end_timestamp;
if (mon_peer->last_delayed_ba) {
dp_peer_copy_stats_to_bar(peer,
&ppdu_desc->user[i]);
ppdu_desc->ppdu_id =
mon_peer->last_delayed_ba_ppduid;
ppdu_desc->ppdu_start_timestamp = start_tsf;
ppdu_desc->ppdu_end_timestamp = end_tsf;
}
ppdu_desc->user[i].peer_last_delayed_ba =
mon_peer->last_delayed_ba;
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
}
}
TAILQ_REMOVE(&mon_pdev->ppdu_info_list, ppdu_info, ppdu_info_list_elem);
mon_pdev->list_depth--;
TAILQ_INSERT_TAIL(&mon_pdev->sched_comp_ppdu_list, ppdu_info,
ppdu_info_list_elem);
mon_pdev->sched_comp_list_depth++;
}
/**
* dp_validate_fix_ppdu_tlv(): Function to validate the length of PPDU
*
* If the TLV length sent as part of PPDU TLV is less that expected size i.e
* size of corresponding data structure, pad the remaining bytes with zeros
* and continue processing the TLVs
*
* @pdev: DP pdev handle
* @tag_buf: TLV buffer
* @tlv_expected_size: Expected size of Tag
* @tlv_len: TLV length received from FW
*
* Return: Pointer to updated TLV
*/
static inline uint32_t *dp_validate_fix_ppdu_tlv(struct dp_pdev *pdev,
uint32_t *tag_buf,
uint16_t tlv_expected_size,
uint16_t tlv_len)
{
uint32_t *tlv_desc = tag_buf;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
qdf_assert_always(tlv_len != 0);
if (tlv_len < tlv_expected_size) {
qdf_mem_zero(mon_pdev->ppdu_tlv_buf, tlv_expected_size);
qdf_mem_copy(mon_pdev->ppdu_tlv_buf, tag_buf, tlv_len);
tlv_desc = mon_pdev->ppdu_tlv_buf;
}
return tlv_desc;
}
/**
* dp_process_ppdu_tag(): Function to process the PPDU TLVs
* @pdev: DP pdev handle
* @tag_buf: TLV buffer
* @tlv_len: length of tlv
* @ppdu_info: per ppdu tlv structure
*
* return: void
*/
static void dp_process_ppdu_tag(struct dp_pdev *pdev,
uint32_t *tag_buf,
uint32_t tlv_len,
struct ppdu_info *ppdu_info)
{
uint32_t tlv_type = HTT_STATS_TLV_TAG_GET(*tag_buf);
uint16_t tlv_expected_size;
uint32_t *tlv_desc;
switch (tlv_type) {
case HTT_PPDU_STATS_COMMON_TLV:
tlv_expected_size = sizeof(htt_ppdu_stats_common_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_common_tlv(pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMMON_TLV:
tlv_expected_size = sizeof(htt_ppdu_stats_user_common_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_common_tlv(pdev, tlv_desc,
ppdu_info);
break;
case HTT_PPDU_STATS_USR_RATE_TLV:
tlv_expected_size = sizeof(htt_ppdu_stats_user_rate_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_rate_tlv(pdev, tlv_desc,
ppdu_info);
break;
case HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_64_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_enq_mpdu_bitmap_64_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_enq_mpdu_bitmap_64_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_256_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_enq_mpdu_bitmap_256_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_enq_mpdu_bitmap_256_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_user_cmpltn_common_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_cmpltn_common_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_64_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_user_compltn_ba_bitmap_64_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_compltn_ba_bitmap_64_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_256_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_user_compltn_ba_bitmap_256_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_compltn_ba_bitmap_256_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_user_compltn_ack_ba_status_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_compltn_ack_ba_status_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMMON_ARRAY_TLV:
tlv_expected_size =
sizeof(htt_ppdu_stats_usr_common_array_tlv_v);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_common_array_tlv(
pdev, tlv_desc, ppdu_info);
break;
case HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV:
tlv_expected_size = sizeof(htt_ppdu_stats_flush_tlv);
tlv_desc = dp_validate_fix_ppdu_tlv(pdev, tag_buf,
tlv_expected_size, tlv_len);
dp_process_ppdu_stats_user_compltn_flush_tlv(pdev, tlv_desc,
ppdu_info);
break;
case HTT_PPDU_STATS_SCH_CMD_STATUS_TLV:
dp_process_ppdu_stats_sch_cmd_status_tlv(pdev, ppdu_info);
break;
default:
break;
}
}
#ifdef WLAN_TELEMETRY_STATS_SUPPORT
static inline
void dp_ppdu_desc_user_airtime_consumption_update(
struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *user)
{
struct dp_mon_peer *mon_peer = NULL;
uint8_t ac = 0;
mon_peer = peer->monitor_peer;
if (qdf_unlikely(!mon_peer))
return;
ac = TID_TO_WME_AC(user->tid);
DP_STATS_INC(mon_peer, airtime_consumption[ac].consumption,
user->phy_tx_time_us);
}
#else
static inline
void dp_ppdu_desc_user_airtime_consumption_update(
struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *user)
{ }
#endif
#if defined(WLAN_ATF_ENABLE) || defined(WLAN_TELEMETRY_STATS_SUPPORT)
static void
dp_ppdu_desc_user_phy_tx_time_update(struct dp_pdev *pdev,
struct dp_peer *peer,
struct cdp_tx_completion_ppdu *ppdu_desc,
struct cdp_tx_completion_ppdu_user *user)
{
uint32_t nss_ru_width_sum = 0;
struct dp_mon_peer *mon_peer = NULL;
if (!pdev || !ppdu_desc || !user || !peer)
return;
if (ppdu_desc->frame_type != CDP_PPDU_FTYPE_DATA)
return;
mon_peer = peer->monitor_peer;
if (qdf_unlikely(!mon_peer))
return;
nss_ru_width_sum = ppdu_desc->usr_nss_sum * ppdu_desc->usr_ru_tones_sum;
if (!nss_ru_width_sum)
nss_ru_width_sum = 1;
/**
* For SU-MIMO PPDU phy Tx time is same for the single user.
* For MU-MIMO phy Tx time is calculated per user as below
* user phy tx time =
* Entire PPDU duration * MU Ratio * OFDMA Ratio
* MU Ratio = usr_nss / Sum_of_nss_of_all_users
* OFDMA_ratio = usr_ru_width / Sum_of_ru_width_of_all_users
* usr_ru_widt = ru_end – ru_start + 1
*/
if (ppdu_desc->htt_frame_type == HTT_STATS_FTYPE_TIDQ_DATA_SU) {
user->phy_tx_time_us = ppdu_desc->phy_ppdu_tx_time_us;
} else {
user->phy_tx_time_us = (ppdu_desc->phy_ppdu_tx_time_us *
user->nss * user->ru_tones) / nss_ru_width_sum;
}
dp_ppdu_desc_user_airtime_consumption_update(peer, user);
}
#else
static void
dp_ppdu_desc_user_phy_tx_time_update(struct dp_pdev *pdev,
struct dp_peer *peer,
struct cdp_tx_completion_ppdu *ppdu_desc,
struct cdp_tx_completion_ppdu_user *user)
{
}
#endif
#ifdef WLAN_SUPPORT_CTRL_FRAME_STATS
static void
dp_tx_ctrl_stats_update(struct dp_pdev *pdev, struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *user)
{
struct dp_mon_peer *mon_peer = NULL;
uint16_t fc = 0;
if (!pdev || !peer || !user)
return;
mon_peer = peer->monitor_peer;
if (qdf_unlikely(!mon_peer))
return;
if (user->mprot_type) {
DP_STATS_INCC(mon_peer,
tx.rts_success, 1, user->rts_success);
DP_STATS_INCC(mon_peer,
tx.rts_failure, 1, user->rts_failure);
}
fc = user->frame_ctrl;
if ((qdf_cpu_to_le16(fc) & QDF_IEEE80211_FC0_TYPE_MASK) ==
QDF_IEEE80211_FC0_TYPE_CTL) {
if ((qdf_cpu_to_le16(fc) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
QDF_IEEE80211_FC0_SUBTYPE_VHT_NDP_AN)
DP_STATS_INC(mon_peer, tx.ndpa_cnt, 1);
if ((qdf_cpu_to_le16(fc) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
QDF_IEEE80211_FC0_SUBTYPE_BAR)
DP_STATS_INC(mon_peer, tx.bar_cnt, 1);
}
}
#else
static void
dp_tx_ctrl_stats_update(struct dp_pdev *pdev, struct dp_peer *peer,
struct cdp_tx_completion_ppdu_user *user)
{
}
#endif /* WLAN_SUPPORT_CTRL_FRAME_STATS */
/**
* dp_ppdu_desc_user_stats_update(): Function to update TX user stats
* @pdev: DP pdev handle
* @ppdu_info: per PPDU TLV descriptor
*
* return: void
*/
void
dp_ppdu_desc_user_stats_update(struct dp_pdev *pdev,
struct ppdu_info *ppdu_info)
{
struct cdp_tx_completion_ppdu *ppdu_desc = NULL;
struct dp_peer *peer = NULL;
uint32_t tlv_bitmap_expected;
uint32_t tlv_bitmap_default;
uint16_t i;
uint32_t num_users;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
ppdu_desc = (struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(ppdu_info->nbuf);
if (ppdu_desc->frame_type != CDP_PPDU_FTYPE_BAR)
ppdu_desc->ppdu_id = ppdu_info->ppdu_id;
tlv_bitmap_expected = HTT_PPDU_DEFAULT_TLV_BITMAP;
if (mon_pdev->tx_sniffer_enable || mon_pdev->mcopy_mode ||
mon_pdev->tx_capture_enabled) {
if (ppdu_info->is_ampdu)
tlv_bitmap_expected =
dp_htt_get_ppdu_sniffer_ampdu_tlv_bitmap(
ppdu_info->tlv_bitmap);
}
tlv_bitmap_default = tlv_bitmap_expected;
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_BAR) {
num_users = ppdu_desc->bar_num_users;
ppdu_desc->num_users = ppdu_desc->bar_num_users;
} else {
num_users = ppdu_desc->num_users;
}
qdf_assert_always(ppdu_desc->num_users <= ppdu_desc->max_users);
for (i = 0; i < num_users; i++) {
ppdu_desc->num_mpdu += ppdu_desc->user[i].num_mpdu;
ppdu_desc->num_msdu += ppdu_desc->user[i].num_msdu;
peer = dp_peer_get_ref_by_id(pdev->soc,
ppdu_desc->user[i].peer_id,
DP_MOD_ID_TX_PPDU_STATS);
/**
* This check is to make sure peer is not deleted
* after processing the TLVs.
*/
if (!peer)
continue;
ppdu_desc->user[i].is_bss_peer = peer->bss_peer;
dp_ppdu_desc_user_phy_tx_time_update(pdev, peer, ppdu_desc,
&ppdu_desc->user[i]);
dp_tx_ctrl_stats_update(pdev, peer, &ppdu_desc->user[i]);
/*
* different frame like DATA, BAR or CTRL has different
* tlv bitmap expected. Apart from ACK_BA_STATUS TLV, we
* receive other tlv in-order/sequential from fw.
* Since ACK_BA_STATUS TLV come from Hardware it is
* asynchronous So we need to depend on some tlv to confirm
* all tlv is received for a ppdu.
* So we depend on both SCHED_CMD_STATUS_TLV and
* ACK_BA_STATUS_TLV. for failure packet we won't get
* ACK_BA_STATUS_TLV.
*/
if (!(ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV)) ||
(!(ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV)) &&
(ppdu_desc->user[i].completion_status ==
HTT_PPDU_STATS_USER_STATUS_OK))) {
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
continue;
}
/**
* Update tx stats for data frames having Qos as well as
* non-Qos data tid
*/
if ((ppdu_desc->user[i].tid < CDP_DATA_TID_MAX ||
(ppdu_desc->user[i].tid == CDP_DATA_NON_QOS_TID) ||
(ppdu_desc->htt_frame_type ==
HTT_STATS_FTYPE_SGEN_QOS_NULL) ||
((ppdu_desc->frame_type == CDP_PPDU_FTYPE_BAR) &&
(ppdu_desc->num_mpdu > 1))) &&
(ppdu_desc->frame_type != CDP_PPDU_FTYPE_CTRL)) {
dp_tx_stats_update(pdev, peer,
&ppdu_desc->user[i],
ppdu_desc->ack_rssi);
}
dp_peer_unref_delete(peer, DP_MOD_ID_TX_PPDU_STATS);
tlv_bitmap_expected = tlv_bitmap_default;
}
}
#if !defined(WLAN_TX_PKT_CAPTURE_ENH) || defined(QCA_MONITOR_2_0_SUPPORT)
/*
* dp_tx_ppdu_desc_notify() - Notify to upper layer about PPDU via WDI
*
* @pdev: Datapath pdev handle
* @nbuf: Buffer to be delivered to upper layer
*
* Return: void
*/
static void dp_tx_ppdu_desc_notify(struct dp_pdev *pdev, qdf_nbuf_t nbuf)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (mon_ops && mon_ops->mon_ppdu_desc_notify)
mon_ops->mon_ppdu_desc_notify(pdev, nbuf);
else
qdf_nbuf_free(nbuf);
}
void dp_ppdu_desc_deliver(struct dp_pdev *pdev,
struct ppdu_info *ppdu_info)
{
struct ppdu_info *s_ppdu_info = NULL;
struct ppdu_info *ppdu_info_next = NULL;
struct cdp_tx_completion_ppdu *ppdu_desc = NULL;
qdf_nbuf_t nbuf;
uint32_t time_delta = 0;
bool starved = 0;
bool matched = 0;
bool recv_ack_ba_done = 0;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if (ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) &&
ppdu_info->done)
recv_ack_ba_done = 1;
mon_pdev->last_sched_cmdid = ppdu_info->sched_cmdid;
s_ppdu_info = TAILQ_FIRST(&mon_pdev->sched_comp_ppdu_list);
TAILQ_FOREACH_SAFE(s_ppdu_info, &mon_pdev->sched_comp_ppdu_list,
ppdu_info_list_elem, ppdu_info_next) {
if (s_ppdu_info->tsf_l32 > ppdu_info->tsf_l32)
time_delta = (MAX_TSF_32 - s_ppdu_info->tsf_l32) +
ppdu_info->tsf_l32;
else
time_delta = ppdu_info->tsf_l32 - s_ppdu_info->tsf_l32;
if (!s_ppdu_info->done && !recv_ack_ba_done) {
if (time_delta < MAX_SCHED_STARVE) {
dp_mon_info("pdev[%d] ppdu_id[%d] sched_cmdid[%d] TLV_B[0x%x] TSF[%u] D[%d]",
pdev->pdev_id,
s_ppdu_info->ppdu_id,
s_ppdu_info->sched_cmdid,
s_ppdu_info->tlv_bitmap,
s_ppdu_info->tsf_l32,
s_ppdu_info->done);
break;
}
starved = 1;
}
mon_pdev->delivered_sched_cmdid = s_ppdu_info->sched_cmdid;
TAILQ_REMOVE(&mon_pdev->sched_comp_ppdu_list, s_ppdu_info,
ppdu_info_list_elem);
mon_pdev->sched_comp_list_depth--;
nbuf = s_ppdu_info->nbuf;
qdf_assert_always(nbuf);
ppdu_desc = (struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(nbuf);
ppdu_desc->tlv_bitmap = s_ppdu_info->tlv_bitmap;
if (starved) {
dp_mon_info("ppdu starved fc[0x%x] h_ftype[%d] tlv_bitmap[0x%x] cs[%d]\n",
ppdu_desc->frame_ctrl,
ppdu_desc->htt_frame_type,
ppdu_desc->tlv_bitmap,
ppdu_desc->user[0].completion_status);
starved = 0;
}
if (ppdu_info->ppdu_id == s_ppdu_info->ppdu_id &&
ppdu_info->sched_cmdid == s_ppdu_info->sched_cmdid)
matched = 1;
dp_ppdu_desc_user_stats_update(pdev, s_ppdu_info);
qdf_mem_free(s_ppdu_info);
dp_tx_ppdu_desc_notify(pdev, nbuf);
if (matched)
break;
}
}
#endif
/*
* dp_tx_ppdu_desc_deliver() - Deliver PPDU desc to upper layer
*
* @pdev: Datapath pdev handle
* @ppdu_info: per PPDU TLV descriptor
*
* Return: void
*/
static void dp_tx_ppdu_desc_deliver(struct dp_pdev *pdev,
struct ppdu_info *ppdu_info)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (mon_ops && mon_ops->mon_ppdu_desc_deliver) {
mon_ops->mon_ppdu_desc_deliver(pdev, ppdu_info);
} else {
qdf_nbuf_free(ppdu_info->nbuf);
ppdu_info->nbuf = NULL;
qdf_mem_free(ppdu_info);
}
}
/**
* dp_get_ppdu_desc(): Function to allocate new PPDU status
* desc for new ppdu id
* @pdev: DP pdev handle
* @ppdu_id: PPDU unique identifier
* @tlv_type: TLV type received
* @tsf_l32: timestamp received along with ppdu stats indication header
* @max_users: Maximum user for that particular ppdu
*
* return: ppdu_info per ppdu tlv structure
*/
static
struct ppdu_info *dp_get_ppdu_desc(struct dp_pdev *pdev, uint32_t ppdu_id,
uint8_t tlv_type, uint32_t tsf_l32,
uint8_t max_users)
{
struct ppdu_info *ppdu_info = NULL;
struct ppdu_info *s_ppdu_info = NULL;
struct ppdu_info *ppdu_info_next = NULL;
struct cdp_tx_completion_ppdu *ppdu_desc = NULL;
uint32_t size = 0;
struct cdp_tx_completion_ppdu *tmp_ppdu_desc = NULL;
struct cdp_tx_completion_ppdu_user *tmp_user;
uint32_t time_delta;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
/*
* Find ppdu_id node exists or not
*/
TAILQ_FOREACH_SAFE(ppdu_info, &mon_pdev->ppdu_info_list,
ppdu_info_list_elem, ppdu_info_next) {
if (ppdu_info && (ppdu_info->ppdu_id == ppdu_id)) {
if (ppdu_info->tsf_l32 > tsf_l32)
time_delta = (MAX_TSF_32 -
ppdu_info->tsf_l32) + tsf_l32;
else
time_delta = tsf_l32 - ppdu_info->tsf_l32;
if (time_delta > WRAP_DROP_TSF_DELTA) {
TAILQ_REMOVE(&mon_pdev->ppdu_info_list,
ppdu_info, ppdu_info_list_elem);
mon_pdev->list_depth--;
pdev->stats.ppdu_wrap_drop++;
tmp_ppdu_desc =
(struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(ppdu_info->nbuf);
tmp_user = &tmp_ppdu_desc->user[0];
dp_htt_tx_stats_info("S_PID [%d] S_TSF[%u] TLV_BITMAP[0x%x] [CMPLTN - %d ACK_BA - %d] CS[%d] - R_PID[%d] R_TSF[%u] R_TLV_TAG[0x%x]\n",
ppdu_info->ppdu_id,
ppdu_info->tsf_l32,
ppdu_info->tlv_bitmap,
tmp_user->completion_status,
ppdu_info->compltn_common_tlv,
ppdu_info->ack_ba_tlv,
ppdu_id, tsf_l32,
tlv_type);
qdf_nbuf_free(ppdu_info->nbuf);
ppdu_info->nbuf = NULL;
qdf_mem_free(ppdu_info);
} else {
break;
}
}
}
/*
* check if it is ack ba tlv and if it is not there in ppdu info
* list then check it in sched completion ppdu list
*/
if (!ppdu_info &&
tlv_type == HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) {
TAILQ_FOREACH(s_ppdu_info,
&mon_pdev->sched_comp_ppdu_list,
ppdu_info_list_elem) {
if (s_ppdu_info && (s_ppdu_info->ppdu_id == ppdu_id)) {
if (s_ppdu_info->tsf_l32 > tsf_l32)
time_delta = (MAX_TSF_32 -
s_ppdu_info->tsf_l32) +
tsf_l32;
else
time_delta = tsf_l32 -
s_ppdu_info->tsf_l32;
if (time_delta < WRAP_DROP_TSF_DELTA) {
ppdu_info = s_ppdu_info;
break;
}
} else {
/*
* ACK BA STATUS TLV comes sequential order
* if we received ack ba status tlv for second
* ppdu and first ppdu is still waiting for
* ACK BA STATUS TLV. Based on fw comment
* we won't receive it tlv later. So we can
* set ppdu info done.
*/
if (s_ppdu_info)
s_ppdu_info->done = 1;
}
}
}
if (ppdu_info) {
if (ppdu_info->tlv_bitmap & (1 << tlv_type)) {
/**
* if we get tlv_type that is already been processed
* for ppdu, that means we got a new ppdu with same
* ppdu id. Hence Flush the older ppdu
* for MUMIMO and OFDMA, In a PPDU we have
* multiple user with same tlv types. tlv bitmap is
* used to check whether SU or MU_MIMO/OFDMA
*/
if (!(ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV)))
return ppdu_info;
ppdu_desc = (struct cdp_tx_completion_ppdu *)
qdf_nbuf_data(ppdu_info->nbuf);
/**
* apart from ACK BA STATUS TLV rest all comes in order
* so if tlv type not ACK BA STATUS TLV we can deliver
* ppdu_info
*/
if ((tlv_type ==
HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) &&
((ppdu_desc->htt_frame_type ==
HTT_STATS_FTYPE_SGEN_MU_BAR) ||
(ppdu_desc->htt_frame_type ==
HTT_STATS_FTYPE_SGEN_BE_MU_BAR)))
return ppdu_info;
dp_tx_ppdu_desc_deliver(pdev, ppdu_info);
} else {
return ppdu_info;
}
}
/**
* Flush the head ppdu descriptor if ppdu desc list reaches max
* threshold
*/
if (mon_pdev->list_depth > HTT_PPDU_DESC_MAX_DEPTH) {
ppdu_info = TAILQ_FIRST(&mon_pdev->ppdu_info_list);
TAILQ_REMOVE(&mon_pdev->ppdu_info_list,
ppdu_info, ppdu_info_list_elem);
mon_pdev->list_depth--;
pdev->stats.ppdu_drop++;
qdf_nbuf_free(ppdu_info->nbuf);
ppdu_info->nbuf = NULL;
qdf_mem_free(ppdu_info);
}
size = sizeof(struct cdp_tx_completion_ppdu) +
(max_users * sizeof(struct cdp_tx_completion_ppdu_user));
/*
* Allocate new ppdu_info node
*/
ppdu_info = qdf_mem_malloc(sizeof(struct ppdu_info));
if (!ppdu_info)
return NULL;
ppdu_info->nbuf = qdf_nbuf_alloc(pdev->soc->osdev, size,
0, 4, TRUE);
if (!ppdu_info->nbuf) {
qdf_mem_free(ppdu_info);
return NULL;
}
ppdu_info->ppdu_desc =
(struct cdp_tx_completion_ppdu *)qdf_nbuf_data(ppdu_info->nbuf);
qdf_mem_zero(qdf_nbuf_data(ppdu_info->nbuf), size);
if (!qdf_nbuf_put_tail(ppdu_info->nbuf, size)) {
dp_mon_err("No tailroom for HTT PPDU");
qdf_nbuf_free(ppdu_info->nbuf);
ppdu_info->nbuf = NULL;
ppdu_info->last_user = 0;
qdf_mem_free(ppdu_info);
return NULL;
}
ppdu_info->ppdu_desc->max_users = max_users;
ppdu_info->tsf_l32 = tsf_l32;
/**
* No lock is needed because all PPDU TLVs are processed in
* same context and this list is updated in same context
*/
TAILQ_INSERT_TAIL(&mon_pdev->ppdu_info_list, ppdu_info,
ppdu_info_list_elem);
mon_pdev->list_depth++;
return ppdu_info;
}
/**
* dp_htt_process_tlv(): Function to process each PPDU TLVs
* @pdev: DP pdev handle
* @htt_t2h_msg: HTT target to host message
*
* return: ppdu_info per ppdu tlv structure
*/
static struct ppdu_info *dp_htt_process_tlv(struct dp_pdev *pdev,
qdf_nbuf_t htt_t2h_msg)
{
uint32_t length;
uint32_t ppdu_id;
uint8_t tlv_type;
uint32_t tlv_length, tlv_bitmap_expected;
uint8_t *tlv_buf;
struct ppdu_info *ppdu_info = NULL;
struct cdp_tx_completion_ppdu *ppdu_desc = NULL;
uint8_t max_users = CDP_MU_MAX_USERS;
uint32_t tsf_l32;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
uint32_t *msg_word = (uint32_t *)qdf_nbuf_data(htt_t2h_msg);
length = HTT_T2H_PPDU_STATS_PAYLOAD_SIZE_GET(*msg_word);
msg_word = msg_word + 1;
ppdu_id = HTT_T2H_PPDU_STATS_PPDU_ID_GET(*msg_word);
msg_word = msg_word + 1;
tsf_l32 = (uint32_t)(*msg_word);
msg_word = msg_word + 2;
while (length > 0) {
tlv_buf = (uint8_t *)msg_word;
tlv_type = HTT_STATS_TLV_TAG_GET(*msg_word);
tlv_length = HTT_STATS_TLV_LENGTH_GET(*msg_word);
if (qdf_likely(tlv_type < CDP_PPDU_STATS_MAX_TAG))
pdev->stats.ppdu_stats_counter[tlv_type]++;
if (tlv_length == 0)
break;
tlv_length += HTT_TLV_HDR_LEN;
/**
* Not allocating separate ppdu descriptor for MGMT Payload
* TLV as this is sent as separate WDI indication and it
* doesn't contain any ppdu information
*/
if (tlv_type == HTT_PPDU_STATS_TX_MGMTCTRL_PAYLOAD_TLV) {
mon_pdev->mgmtctrl_frm_info.mgmt_buf = tlv_buf;
mon_pdev->mgmtctrl_frm_info.ppdu_id = ppdu_id;
mon_pdev->mgmtctrl_frm_info.mgmt_buf_len =
HTT_PPDU_STATS_TX_MGMTCTRL_TLV_FRAME_LENGTH_GET
(*(msg_word + 1));
msg_word =
(uint32_t *)((uint8_t *)tlv_buf + tlv_length);
length -= (tlv_length);
continue;
}
/*
* retrieve max_users if it's USERS_INFO,
* else, it's 1 for COMPLTN_FLUSH,
* else, use CDP_MU_MAX_USERS
*/
if (tlv_type == HTT_PPDU_STATS_USERS_INFO_TLV) {
max_users =
HTT_PPDU_STATS_USERS_INFO_TLV_MAX_USERS_GET(*(msg_word + 1));
} else if (tlv_type == HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV) {
max_users = 1;
}
ppdu_info = dp_get_ppdu_desc(pdev, ppdu_id, tlv_type,
tsf_l32, max_users);
if (!ppdu_info)
return NULL;
ppdu_info->ppdu_id = ppdu_id;
ppdu_info->tlv_bitmap |= (1 << tlv_type);
dp_process_ppdu_tag(pdev, msg_word, tlv_length, ppdu_info);
/**
* Increment pdev level tlv count to monitor
* missing TLVs
*/
mon_pdev->tlv_count++;
ppdu_info->last_tlv_cnt = mon_pdev->tlv_count;
msg_word = (uint32_t *)((uint8_t *)tlv_buf + tlv_length);
length -= (tlv_length);
}
if (!ppdu_info)
return NULL;
mon_pdev->last_ppdu_id = ppdu_id;
tlv_bitmap_expected = HTT_PPDU_DEFAULT_TLV_BITMAP;
if (mon_pdev->tx_sniffer_enable || mon_pdev->mcopy_mode ||
mon_pdev->tx_capture_enabled) {
if (ppdu_info->is_ampdu)
tlv_bitmap_expected =
dp_htt_get_ppdu_sniffer_ampdu_tlv_bitmap(
ppdu_info->tlv_bitmap);
}
ppdu_desc = ppdu_info->ppdu_desc;
if (!ppdu_desc)
return NULL;
if (ppdu_desc->user[ppdu_desc->last_usr_index].completion_status !=
HTT_PPDU_STATS_USER_STATUS_OK) {
tlv_bitmap_expected = tlv_bitmap_expected & 0xFF;
}
/*
* for frame type DATA and BAR, we update stats based on MSDU,
* successful msdu and mpdu are populate from ACK BA STATUS TLV
* which comes out of order. successful mpdu also populated from
* COMPLTN COMMON TLV which comes in order. for every ppdu_info
* we store successful mpdu from both tlv and compare before delivering
* to make sure we received ACK BA STATUS TLV. For some self generated
* frame we won't get ack ba status tlv so no need to wait for
* ack ba status tlv.
*/
if (ppdu_desc->frame_type != CDP_PPDU_FTYPE_CTRL &&
ppdu_desc->htt_frame_type != HTT_STATS_FTYPE_SGEN_QOS_NULL) {
/*
* most of the time bar frame will have duplicate ack ba
* status tlv
*/
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_BAR &&
(ppdu_info->compltn_common_tlv != ppdu_info->ack_ba_tlv))
return NULL;
/*
* For data frame, compltn common tlv should match ack ba status
* tlv and completion status. Reason we are checking first user
* for ofdma, completion seen at next MU BAR frm, for mimo
* only for first user completion will be immediate.
*/
if (ppdu_desc->frame_type == CDP_PPDU_FTYPE_DATA &&
(ppdu_desc->user[0].completion_status == 0 &&
(ppdu_info->compltn_common_tlv != ppdu_info->ack_ba_tlv)))
return NULL;
}
/**
* Once all the TLVs for a given PPDU has been processed,
* return PPDU status to be delivered to higher layer.
* tlv_bitmap_expected can't be available for different frame type.
* But SCHED CMD STATS TLV is the last TLV from the FW for a ppdu.
* apart from ACK BA TLV, FW sends other TLV in sequential order.
* flush tlv comes separate.
*/
if ((ppdu_info->tlv_bitmap != 0 &&
(ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV))) ||
(ppdu_info->tlv_bitmap &
(1 << HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV))) {
ppdu_info->done = 1;
return ppdu_info;
}
return NULL;
}
#endif /* QCA_ENHANCED_STATS_SUPPORT */
#ifdef QCA_ENHANCED_STATS_SUPPORT
/**
* dp_tx_ppdu_stats_feat_enable_check() - Check if feature(s) is enabled to
* consume stats received from FW via HTT
* @pdev: Datapath pdev handle
*
* Return: void
*/
static bool dp_tx_ppdu_stats_feat_enable_check(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (mon_ops && mon_ops->mon_ppdu_stats_feat_enable_check)
return mon_ops->mon_ppdu_stats_feat_enable_check(pdev);
else
return false;
}
#endif
#if defined(WDI_EVENT_ENABLE)
#ifdef QCA_ENHANCED_STATS_SUPPORT
/**
* dp_txrx_ppdu_stats_handler() - Function to process HTT PPDU stats from FW
* @soc: DP SOC handle
* @pdev_id: pdev id
* @htt_t2h_msg: HTT message nbuf
*
* return:void
*/
static bool dp_txrx_ppdu_stats_handler(struct dp_soc *soc,
uint8_t pdev_id, qdf_nbuf_t htt_t2h_msg)
{
struct dp_pdev *pdev;
struct ppdu_info *ppdu_info = NULL;
bool free_buf = true;
struct dp_mon_pdev *mon_pdev;
if (pdev_id >= MAX_PDEV_CNT)
return true;
pdev = soc->pdev_list[pdev_id];
if (!pdev)
return true;
mon_pdev = pdev->monitor_pdev;
if (!mon_pdev)
return true;
if (!dp_tx_ppdu_stats_feat_enable_check(pdev))
return free_buf;
qdf_spin_lock_bh(&mon_pdev->ppdu_stats_lock);
ppdu_info = dp_htt_process_tlv(pdev, htt_t2h_msg);
if (mon_pdev->mgmtctrl_frm_info.mgmt_buf) {
if (dp_process_ppdu_stats_tx_mgmtctrl_payload_tlv
(pdev, htt_t2h_msg, mon_pdev->mgmtctrl_frm_info.ppdu_id) !=
QDF_STATUS_SUCCESS)
free_buf = false;
}
if (ppdu_info)
dp_tx_ppdu_desc_deliver(pdev, ppdu_info);
mon_pdev->mgmtctrl_frm_info.mgmt_buf = NULL;
mon_pdev->mgmtctrl_frm_info.mgmt_buf_len = 0;
mon_pdev->mgmtctrl_frm_info.ppdu_id = 0;
qdf_spin_unlock_bh(&mon_pdev->ppdu_stats_lock);
return free_buf;
}
#elif (!defined(REMOVE_PKT_LOG))
static bool dp_txrx_ppdu_stats_handler(struct dp_soc *soc,
uint8_t pdev_id, qdf_nbuf_t htt_t2h_msg)
{
return true;
}
#endif/* QCA_ENHANCED_STATS_SUPPORT */
#endif
#if defined(WDI_EVENT_ENABLE) &&\
(defined(QCA_ENHANCED_STATS_SUPPORT) || !defined(REMOVE_PKT_LOG))
/*
* dp_ppdu_stats_ind_handler() - PPDU stats msg handler
* @htt_soc: HTT SOC handle
* @msg_word: Pointer to payload
* @htt_t2h_msg: HTT msg nbuf
*
* Return: True if buffer should be freed by caller.
*/
bool
dp_ppdu_stats_ind_handler(struct htt_soc *soc,
uint32_t *msg_word,
qdf_nbuf_t htt_t2h_msg)
{
u_int8_t pdev_id;
u_int8_t target_pdev_id;
bool free_buf;
target_pdev_id = HTT_T2H_PPDU_STATS_PDEV_ID_GET(*msg_word);
pdev_id = dp_get_host_pdev_id_for_target_pdev_id(soc->dp_soc,
target_pdev_id);
dp_wdi_event_handler(WDI_EVENT_LITE_T2H, soc->dp_soc,
htt_t2h_msg, HTT_INVALID_PEER, WDI_NO_VAL,
pdev_id);
free_buf = dp_txrx_ppdu_stats_handler(soc->dp_soc, pdev_id,
htt_t2h_msg);
return free_buf;
}
#endif
void
dp_mon_set_bsscolor(struct dp_pdev *pdev, uint8_t bsscolor)
{
pdev->monitor_pdev->rx_mon_recv_status.bsscolor = bsscolor;
}
bool dp_pdev_get_filter_ucast_data(struct cdp_pdev *pdev_handle)
{
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if ((mon_pdev->fp_data_filter & FILTER_DATA_UCAST) ||
(mon_pdev->mo_data_filter & FILTER_DATA_UCAST))
return true;
return false;
}
bool dp_pdev_get_filter_mcast_data(struct cdp_pdev *pdev_handle)
{
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if ((mon_pdev->fp_data_filter & FILTER_DATA_MCAST) ||
(mon_pdev->mo_data_filter & FILTER_DATA_MCAST))
return true;
return false;
}
bool dp_pdev_get_filter_non_data(struct cdp_pdev *pdev_handle)
{
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
if ((mon_pdev->fp_mgmt_filter & FILTER_MGMT_ALL) ||
(mon_pdev->mo_mgmt_filter & FILTER_MGMT_ALL)) {
if ((mon_pdev->fp_ctrl_filter & FILTER_CTRL_ALL) ||
(mon_pdev->mo_ctrl_filter & FILTER_CTRL_ALL)) {
return true;
}
}
return false;
}
QDF_STATUS dp_mon_soc_cfg_init(struct dp_soc *soc)
{
int target_type;
struct dp_mon_soc *mon_soc = soc->monitor_soc;
struct cdp_mon_ops *cdp_ops;
cdp_ops = dp_mon_cdp_ops_get(soc);
target_type = hal_get_target_type(soc->hal_soc);
switch (target_type) {
case TARGET_TYPE_QCA6290:
case TARGET_TYPE_QCA6390:
case TARGET_TYPE_QCA6490:
case TARGET_TYPE_QCA6750:
case TARGET_TYPE_KIWI:
case TARGET_TYPE_MANGO:
/* do nothing */
break;
case TARGET_TYPE_QCA8074:
wlan_cfg_set_mon_delayed_replenish_entries(soc->wlan_cfg_ctx,
MON_BUF_MIN_ENTRIES);
break;
case TARGET_TYPE_QCA8074V2:
case TARGET_TYPE_QCA6018:
case TARGET_TYPE_QCA9574:
wlan_cfg_set_mon_delayed_replenish_entries(soc->wlan_cfg_ctx,
MON_BUF_MIN_ENTRIES);
mon_soc->hw_nac_monitor_support = 1;
break;
case TARGET_TYPE_QCN9000:
wlan_cfg_set_mon_delayed_replenish_entries(soc->wlan_cfg_ctx,
MON_BUF_MIN_ENTRIES);
mon_soc->hw_nac_monitor_support = 1;
if (cfg_get(soc->ctrl_psoc, CFG_DP_FULL_MON_MODE)) {
if (cdp_ops && cdp_ops->config_full_mon_mode)
cdp_ops->config_full_mon_mode((struct cdp_soc_t *)soc, 1);
}
break;
case TARGET_TYPE_QCA5018:
case TARGET_TYPE_QCN6122:
case TARGET_TYPE_QCN9160:
wlan_cfg_set_mon_delayed_replenish_entries(soc->wlan_cfg_ctx,
MON_BUF_MIN_ENTRIES);
mon_soc->hw_nac_monitor_support = 1;
break;
case TARGET_TYPE_QCN9224:
case TARGET_TYPE_QCA5332:
wlan_cfg_set_mon_delayed_replenish_entries(soc->wlan_cfg_ctx,
MON_BUF_MIN_ENTRIES);
mon_soc->hw_nac_monitor_support = 1;
mon_soc->monitor_mode_v2 = 1;
break;
default:
dp_mon_info("%s: Unknown tgt type %d\n", __func__, target_type);
qdf_assert_always(0);
break;
}
dp_mon_info("hw_nac_monitor_support = %d",
mon_soc->hw_nac_monitor_support);
return QDF_STATUS_SUCCESS;
}
/**
* dp_mon_pdev_per_target_config() - Target specific monitor pdev configuration
* @pdev: PDEV handle [Should be valid]
*
* Return: None
*/
static void dp_mon_pdev_per_target_config(struct dp_pdev *pdev)
{
struct dp_soc *soc = pdev->soc;
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
int target_type;
target_type = hal_get_target_type(soc->hal_soc);
switch (target_type) {
case TARGET_TYPE_KIWI:
case TARGET_TYPE_MANGO:
mon_pdev->is_tlv_hdr_64_bit = true;
break;
default:
mon_pdev->is_tlv_hdr_64_bit = false;
break;
}
}
QDF_STATUS dp_mon_pdev_attach(struct dp_pdev *pdev)
{
struct dp_soc *soc;
struct dp_mon_pdev *mon_pdev;
struct dp_mon_ops *mon_ops;
qdf_size_t mon_pdev_context_size;
if (!pdev) {
dp_mon_err("pdev is NULL");
goto fail0;
}
soc = pdev->soc;
mon_pdev_context_size = soc->arch_ops.txrx_get_mon_context_size(DP_CONTEXT_TYPE_MON_PDEV);
mon_pdev = dp_context_alloc_mem(soc, DP_MON_PDEV_TYPE, mon_pdev_context_size);
if (!mon_pdev) {
dp_mon_err("%pK: MONITOR pdev allocation failed", pdev);
goto fail0;
}
pdev->monitor_pdev = mon_pdev;
mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops) {
dp_mon_err("%pK: Invalid monitor ops", pdev);
goto fail1;
}
if (mon_ops->mon_pdev_alloc) {
if (mon_ops->mon_pdev_alloc(pdev)) {
dp_mon_err("%pK: MONITOR pdev alloc failed", pdev);
goto fail1;
}
}
if (mon_ops->mon_rings_alloc) {
if (mon_ops->mon_rings_alloc(pdev)) {
dp_mon_err("%pK: MONITOR rings setup failed", pdev);
goto fail2;
}
}
/* Rx monitor mode specific init */
if (mon_ops->rx_mon_desc_pool_alloc) {
if (mon_ops->rx_mon_desc_pool_alloc(pdev)) {
dp_mon_err("%pK: dp_rx_pdev_mon_attach failed", pdev);
goto fail3;
}
}
if (mon_ops->mon_rx_ppdu_info_cache_create) {
if (mon_ops->mon_rx_ppdu_info_cache_create(pdev)) {
dp_mon_err("%pK: dp_rx_pdev_mon_attach failed", pdev);
goto fail4;
}
}
pdev->monitor_pdev = mon_pdev;
dp_mon_pdev_per_target_config(pdev);
return QDF_STATUS_SUCCESS;
fail4:
if (mon_ops->rx_mon_desc_pool_free)
mon_ops->rx_mon_desc_pool_free(pdev);
fail3:
if (mon_ops->mon_rings_free)
mon_ops->mon_rings_free(pdev);
fail2:
if (mon_ops->mon_pdev_free)
mon_ops->mon_pdev_free(pdev);
fail1:
pdev->monitor_pdev = NULL;
dp_context_free_mem(soc, DP_MON_PDEV_TYPE, mon_pdev);
fail0:
return QDF_STATUS_E_NOMEM;
}
QDF_STATUS dp_mon_pdev_detach(struct dp_pdev *pdev)
{
struct dp_mon_pdev *mon_pdev;
struct dp_mon_ops *mon_ops = NULL;
if (!pdev) {
dp_mon_err("pdev is NULL");
return QDF_STATUS_E_FAILURE;
}
mon_pdev = pdev->monitor_pdev;
if (!mon_pdev) {
dp_mon_err("Monitor pdev is NULL");
return QDF_STATUS_E_FAILURE;
}
mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops) {
dp_mon_err("Monitor ops is NULL");
return QDF_STATUS_E_FAILURE;
}
if (mon_ops->mon_rx_ppdu_info_cache_destroy)
mon_ops->mon_rx_ppdu_info_cache_destroy(pdev);
if (mon_ops->rx_mon_desc_pool_free)
mon_ops->rx_mon_desc_pool_free(pdev);
if (mon_ops->mon_rings_free)
mon_ops->mon_rings_free(pdev);
if (mon_ops->mon_pdev_free)
mon_ops->mon_pdev_free(pdev);
dp_context_free_mem(pdev->soc, DP_MON_PDEV_TYPE, mon_pdev);
pdev->monitor_pdev = NULL;
return QDF_STATUS_SUCCESS;
}
QDF_STATUS dp_mon_pdev_init(struct dp_pdev *pdev)
{
struct dp_soc *soc;
struct dp_mon_pdev *mon_pdev;
struct dp_mon_ops *mon_ops = NULL;
if (!pdev) {
dp_mon_err("pdev is NULL");
return QDF_STATUS_E_FAILURE;
}
soc = pdev->soc;
mon_pdev = pdev->monitor_pdev;
mon_pdev->invalid_mon_peer = qdf_mem_malloc(sizeof(struct dp_mon_peer));
if (!mon_pdev->invalid_mon_peer) {
dp_mon_err("%pK: Memory allocation failed for invalid "
"monitor peer", pdev);
return QDF_STATUS_E_NOMEM;
}
mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops) {
dp_mon_err("Monitor ops is NULL");
goto fail0;
}
mon_pdev->filter = dp_mon_filter_alloc(mon_pdev);
if (!mon_pdev->filter) {
dp_mon_err("%pK: Memory allocation failed for monitor filter",
pdev);
goto fail0;
}
if (mon_ops->tx_mon_filter_alloc) {
if (mon_ops->tx_mon_filter_alloc(pdev)) {
dp_mon_err("%pK: Memory allocation failed for tx monitor "
"filter", pdev);
goto fail1;
}
}
qdf_spinlock_create(&mon_pdev->ppdu_stats_lock);
qdf_spinlock_create(&mon_pdev->neighbour_peer_mutex);
mon_pdev->monitor_configured = false;
mon_pdev->mon_chan_band = REG_BAND_UNKNOWN;
TAILQ_INIT(&mon_pdev->neighbour_peers_list);
mon_pdev->neighbour_peers_added = false;
mon_pdev->monitor_configured = false;
/* Monitor filter init */
mon_pdev->mon_filter_mode = MON_FILTER_ALL;
mon_pdev->fp_mgmt_filter = FILTER_MGMT_ALL;
mon_pdev->fp_ctrl_filter = FILTER_CTRL_ALL;
mon_pdev->fp_data_filter = FILTER_DATA_ALL;
mon_pdev->mo_mgmt_filter = FILTER_MGMT_ALL;
mon_pdev->mo_ctrl_filter = FILTER_CTRL_ALL;
mon_pdev->mo_data_filter = FILTER_DATA_ALL;
/*
* initialize ppdu tlv list
*/
TAILQ_INIT(&mon_pdev->ppdu_info_list);
TAILQ_INIT(&mon_pdev->sched_comp_ppdu_list);
mon_pdev->list_depth = 0;
mon_pdev->tlv_count = 0;
/* initlialize cal client timer */
dp_cal_client_attach(&mon_pdev->cal_client_ctx,
dp_pdev_to_cdp_pdev(pdev),
pdev->soc->osdev,
&dp_iterate_update_peer_list);
if (dp_htt_ppdu_stats_attach(pdev) != QDF_STATUS_SUCCESS)
goto fail2;
if (mon_ops->mon_lite_mon_alloc) {
if (mon_ops->mon_lite_mon_alloc(pdev) != QDF_STATUS_SUCCESS) {
dp_mon_err("%pK: lite mon alloc failed", pdev);
goto fail3;
}
}
if (mon_ops->mon_rings_init) {
if (mon_ops->mon_rings_init(pdev)) {
dp_mon_err("%pK: MONITOR rings setup failed", pdev);
goto fail4;
}
}
/* initialize sw monitor rx descriptors */
if (mon_ops->rx_mon_desc_pool_init)
mon_ops->rx_mon_desc_pool_init(pdev);
/* allocate buffers and replenish the monitor RxDMA ring */
if (mon_ops->rx_mon_buffers_alloc) {
if (mon_ops->rx_mon_buffers_alloc(pdev)) {
dp_mon_err("%pK: rx mon buffers alloc failed", pdev);
goto fail5;
}
}
/* attach monitor function */
dp_monitor_tx_ppdu_stats_attach(pdev);
/* mon pdev extended init */
if (mon_ops->mon_pdev_ext_init)
mon_ops->mon_pdev_ext_init(pdev);
mon_pdev->is_dp_mon_pdev_initialized = true;
return QDF_STATUS_SUCCESS;
fail5:
if (mon_ops->rx_mon_desc_pool_deinit)
mon_ops->rx_mon_desc_pool_deinit(pdev);
if (mon_ops->mon_rings_deinit)
mon_ops->mon_rings_deinit(pdev);
fail4:
if (mon_ops->mon_lite_mon_dealloc)
mon_ops->mon_lite_mon_dealloc(pdev);
fail3:
dp_htt_ppdu_stats_detach(pdev);
fail2:
qdf_spinlock_destroy(&mon_pdev->neighbour_peer_mutex);
qdf_spinlock_destroy(&mon_pdev->ppdu_stats_lock);
if (mon_ops->tx_mon_filter_dealloc)
mon_ops->tx_mon_filter_dealloc(pdev);
fail1:
dp_mon_filter_dealloc(mon_pdev);
fail0:
qdf_mem_free(mon_pdev->invalid_mon_peer);
return QDF_STATUS_E_FAILURE;
}
QDF_STATUS dp_mon_pdev_deinit(struct dp_pdev *pdev)
{
struct dp_mon_pdev *mon_pdev = pdev->monitor_pdev;
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops) {
dp_mon_err("Monitor ops is NULL");
return QDF_STATUS_E_FAILURE;
}
if (!mon_pdev->is_dp_mon_pdev_initialized)
return QDF_STATUS_SUCCESS;
dp_mon_filters_reset(pdev);
/* mon pdev extended deinit */
if (mon_ops->mon_pdev_ext_deinit)
mon_ops->mon_pdev_ext_deinit(pdev);
/* detach monitor function */
dp_monitor_tx_ppdu_stats_detach(pdev);
if (mon_ops->rx_mon_buffers_free)
mon_ops->rx_mon_buffers_free(pdev);
if (mon_ops->rx_mon_desc_pool_deinit)
mon_ops->rx_mon_desc_pool_deinit(pdev);
if (mon_ops->mon_rings_deinit)
mon_ops->mon_rings_deinit(pdev);
dp_cal_client_detach(&mon_pdev->cal_client_ctx);
if (mon_ops->mon_lite_mon_dealloc)
mon_ops->mon_lite_mon_dealloc(pdev);
dp_htt_ppdu_stats_detach(pdev);
qdf_spinlock_destroy(&mon_pdev->ppdu_stats_lock);
dp_neighbour_peers_detach(pdev);
dp_pktlogmod_exit(pdev);
if (mon_ops->tx_mon_filter_dealloc)
mon_ops->tx_mon_filter_dealloc(pdev);
if (mon_pdev->filter)
dp_mon_filter_dealloc(mon_pdev);
if (mon_ops->mon_rings_deinit)
mon_ops->mon_rings_deinit(pdev);
if (mon_pdev->invalid_mon_peer)
qdf_mem_free(mon_pdev->invalid_mon_peer);
mon_pdev->is_dp_mon_pdev_initialized = false;
return QDF_STATUS_SUCCESS;
}
QDF_STATUS dp_mon_vdev_attach(struct dp_vdev *vdev)
{
struct dp_mon_vdev *mon_vdev;
struct dp_pdev *pdev = vdev->pdev;
mon_vdev = (struct dp_mon_vdev *)qdf_mem_malloc(sizeof(*mon_vdev));
if (!mon_vdev) {
dp_mon_err("%pK: Monitor vdev allocation failed", vdev);
return QDF_STATUS_E_NOMEM;
}
if (pdev && pdev->monitor_pdev &&
pdev->monitor_pdev->scan_spcl_vap_configured)
dp_scan_spcl_vap_stats_attach(mon_vdev);
vdev->monitor_vdev = mon_vdev;
return QDF_STATUS_SUCCESS;
}
QDF_STATUS dp_mon_vdev_detach(struct dp_vdev *vdev)
{
struct dp_mon_vdev *mon_vdev = vdev->monitor_vdev;
struct dp_pdev *pdev = vdev->pdev;
struct dp_mon_ops *mon_ops = dp_mon_ops_get(pdev->soc);
if (!mon_ops)
return QDF_STATUS_E_FAILURE;
if (!mon_vdev)
return QDF_STATUS_E_FAILURE;
if (pdev->monitor_pdev->scan_spcl_vap_configured)
dp_scan_spcl_vap_stats_detach(mon_vdev);
qdf_mem_free(mon_vdev);
vdev->monitor_vdev = NULL;
/* set mvdev to NULL only if detach is called for monitor/special vap
*/
if (pdev->monitor_pdev->mvdev == vdev)
pdev->monitor_pdev->mvdev = NULL;
if (mon_ops->mon_lite_mon_vdev_delete)
mon_ops->mon_lite_mon_vdev_delete(pdev, vdev);
return QDF_STATUS_SUCCESS;
}
#if defined(FEATURE_PERPKT_INFO) && WDI_EVENT_ENABLE
/**
* dp_mon_peer_attach_notify() - Raise WDI event for peer create
* @peer: DP Peer handle
*
* Return: none
*/
static inline
void dp_mon_peer_attach_notify(struct dp_peer *peer)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
struct dp_pdev *pdev;
struct dp_soc *soc;
struct cdp_peer_cookie peer_cookie;
pdev = peer->vdev->pdev;
soc = pdev->soc;
qdf_mem_copy(peer_cookie.mac_addr, peer->mac_addr.raw,
QDF_MAC_ADDR_SIZE);
peer_cookie.ctx = NULL;
peer_cookie.pdev_id = pdev->pdev_id;
peer_cookie.cookie = pdev->next_peer_cookie++;
dp_wdi_event_handler(WDI_EVENT_PEER_CREATE, soc,
(void *)&peer_cookie,
peer->peer_id, WDI_NO_VAL, pdev->pdev_id);
if (soc->peerstats_enabled) {
if (!peer_cookie.ctx) {
pdev->next_peer_cookie--;
qdf_err("Failed to initialize peer rate stats");
mon_peer->peerstats_ctx = NULL;
} else {
mon_peer->peerstats_ctx =
(struct cdp_peer_rate_stats_ctx *)
peer_cookie.ctx;
}
}
}
/**
* dp_mon_peer_detach_notify() - Raise WDI event for peer destroy
* @peer: DP Peer handle
*
* Return: none
*/
static inline
void dp_mon_peer_detach_notify(struct dp_peer *peer)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
struct dp_pdev *pdev;
struct dp_soc *soc;
struct cdp_peer_cookie peer_cookie;
pdev = peer->vdev->pdev;
soc = pdev->soc;
/* send peer destroy event to upper layer */
qdf_mem_copy(peer_cookie.mac_addr, peer->mac_addr.raw,
QDF_MAC_ADDR_SIZE);
peer_cookie.ctx = NULL;
peer_cookie.ctx = (struct cdp_stats_cookie *)mon_peer->peerstats_ctx;
dp_wdi_event_handler(WDI_EVENT_PEER_DESTROY,
soc,
(void *)&peer_cookie,
peer->peer_id,
WDI_NO_VAL,
pdev->pdev_id);
mon_peer->peerstats_ctx = NULL;
}
#else
static inline
void dp_mon_peer_attach_notify(struct dp_peer *peer)
{
peer->monitor_peer->peerstats_ctx = NULL;
}
static inline
void dp_mon_peer_detach_notify(struct dp_peer *peer)
{
peer->monitor_peer->peerstats_ctx = NULL;
}
#endif
#if defined(WLAN_TX_PKT_CAPTURE_ENH) || defined(FEATURE_PERPKT_INFO)
QDF_STATUS dp_mon_peer_attach(struct dp_peer *peer)
{
struct dp_mon_peer *mon_peer;
struct dp_pdev *pdev;
mon_peer = (struct dp_mon_peer *)qdf_mem_malloc(sizeof(*mon_peer));
if (!mon_peer) {
dp_mon_err("%pK: MONITOR peer allocation failed", peer);
return QDF_STATUS_E_NOMEM;
}
peer->monitor_peer = mon_peer;
pdev = peer->vdev->pdev;
/*
* In tx_monitor mode, filter may be set for unassociated peer
* when unassociated peer get associated peer need to
* update tx_cap_enabled flag to support peer filter.
*/
dp_monitor_peer_tx_capture_filter_check(pdev, peer);
DP_STATS_INIT(mon_peer);
DP_STATS_UPD(mon_peer, rx.avg_snr, CDP_INVALID_SNR);
dp_mon_peer_attach_notify(peer);
return QDF_STATUS_SUCCESS;
}
#endif
QDF_STATUS dp_mon_peer_detach(struct dp_peer *peer)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
if (!mon_peer)
return QDF_STATUS_SUCCESS;
dp_mon_peer_detach_notify(peer);
qdf_mem_free(mon_peer);
peer->monitor_peer = NULL;
return QDF_STATUS_SUCCESS;
}
#ifndef DISABLE_MON_CONFIG
void dp_mon_register_intr_ops(struct dp_soc *soc)
{
struct dp_mon_ops *mon_ops = NULL;
mon_ops = dp_mon_ops_get(soc);
if (!mon_ops) {
dp_mon_err("Monitor ops is NULL");
return;
}
if (mon_ops->mon_register_intr_ops)
mon_ops->mon_register_intr_ops(soc);
}
#endif
struct cdp_peer_rate_stats_ctx *dp_mon_peer_get_peerstats_ctx(struct
dp_peer *peer)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
if (mon_peer)
return mon_peer->peerstats_ctx;
else
return NULL;
}
#ifdef QCA_ENHANCED_STATS_SUPPORT
void dp_mon_peer_reset_stats(struct dp_peer *peer)
{
struct dp_mon_peer *mon_peer = NULL;
mon_peer = peer->monitor_peer;
if (!mon_peer)
return;
DP_STATS_CLR(mon_peer);
DP_STATS_UPD(mon_peer, rx.avg_snr, CDP_INVALID_SNR);
}
void dp_mon_peer_get_stats(struct dp_peer *peer, void *arg,
enum cdp_stat_update_type type)
{
struct dp_mon_peer *mon_peer = peer->monitor_peer;
struct dp_mon_peer_stats *mon_peer_stats;
if (!mon_peer || !arg)
return;
mon_peer_stats = &mon_peer->stats;
switch (type) {
case UPDATE_PEER_STATS:
{
struct cdp_peer_stats *peer_stats =
(struct cdp_peer_stats *)arg;
DP_UPDATE_MON_STATS(peer_stats, mon_peer_stats);
break;
}
case UPDATE_VDEV_STATS:
{
struct cdp_vdev_stats *vdev_stats =
(struct cdp_vdev_stats *)arg;
DP_UPDATE_MON_STATS(vdev_stats, mon_peer_stats);
break;
}
default:
dp_mon_err("Invalid stats_update_type");
}
}
void dp_mon_invalid_peer_update_pdev_stats(struct dp_pdev *pdev)
{
struct dp_mon_peer *mon_peer;
struct dp_mon_peer_stats *mon_peer_stats;
struct cdp_pdev_stats *pdev_stats;
if (!pdev || !pdev->monitor_pdev)
return;
mon_peer = pdev->monitor_pdev->invalid_mon_peer;
if (!mon_peer)
return;
mon_peer_stats = &mon_peer->stats;
pdev_stats = &pdev->stats;
DP_UPDATE_MON_STATS(pdev_stats, mon_peer_stats);
}
QDF_STATUS
dp_mon_peer_get_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_mon_peer *mon_peer;
mon_peer = peer->monitor_peer;
if (!mon_peer)
return QDF_STATUS_E_FAILURE;
switch (type) {
case cdp_peer_tx_rate:
buf->tx_rate = mon_peer->stats.tx.tx_rate;
break;
case cdp_peer_tx_last_tx_rate:
buf->last_tx_rate = mon_peer->stats.tx.last_tx_rate;
break;
case cdp_peer_tx_ratecode:
buf->tx_ratecode = mon_peer->stats.tx.tx_ratecode;
break;
case cdp_peer_rx_rate:
buf->rx_rate = mon_peer->stats.rx.rx_rate;
break;
case cdp_peer_rx_last_rx_rate:
buf->last_rx_rate = mon_peer->stats.rx.last_rx_rate;
break;
case cdp_peer_rx_ratecode:
buf->rx_ratecode = mon_peer->stats.rx.rx_ratecode;
break;
case cdp_peer_rx_avg_snr:
buf->rx_avg_snr = mon_peer->stats.rx.avg_snr;
break;
case cdp_peer_rx_snr:
buf->rx_snr = mon_peer->stats.rx.snr;
break;
default:
dp_err("Invalid stats type requested");
ret = QDF_STATUS_E_FAILURE;
}
return ret;
}
#endif
void dp_mon_ops_register(struct dp_soc *soc)
{
struct dp_mon_soc *mon_soc = soc->monitor_soc;
uint32_t target_type;
target_type = hal_get_target_type(soc->hal_soc);
switch (target_type) {
case TARGET_TYPE_QCA6290:
case TARGET_TYPE_QCA6390:
case TARGET_TYPE_QCA6490:
case TARGET_TYPE_QCA6750:
case TARGET_TYPE_KIWI:
case TARGET_TYPE_MANGO:
case TARGET_TYPE_QCA8074:
case TARGET_TYPE_QCA8074V2:
case TARGET_TYPE_QCA6018:
case TARGET_TYPE_QCA9574:
case TARGET_TYPE_QCN9160:
case TARGET_TYPE_QCN9000:
case TARGET_TYPE_QCA5018:
case TARGET_TYPE_QCN6122:
dp_mon_ops_register_1_0(mon_soc);
break;
case TARGET_TYPE_QCN9224:
case TARGET_TYPE_QCA5332:
#ifdef QCA_MONITOR_2_0_SUPPORT
dp_mon_ops_register_2_0(mon_soc);
#endif
break;
default:
dp_mon_err("%s: Unknown tgt type %d", __func__, target_type);
qdf_assert_always(0);
break;
}
}
#ifdef QCA_MONITOR_OPS_PER_SOC_SUPPORT
void dp_mon_ops_free(struct dp_soc *soc)
{
struct cdp_ops *ops = soc->cdp_soc.ops;
struct cdp_mon_ops *cdp_mon_ops = ops->mon_ops;
struct dp_mon_soc *mon_soc = soc->monitor_soc;
struct dp_mon_ops *mon_ops = mon_soc->mon_ops;
if (cdp_mon_ops)
qdf_mem_free(cdp_mon_ops);
if (mon_ops)
qdf_mem_free(mon_ops);
}
#else
void dp_mon_ops_free(struct dp_soc *soc)
{
}
#endif
void dp_mon_cdp_ops_register(struct dp_soc *soc)
{
struct cdp_ops *ops = soc->cdp_soc.ops;
uint32_t target_type;
if (!ops) {
dp_mon_err("cdp_ops is NULL");
return;
}
target_type = hal_get_target_type(soc->hal_soc);
switch (target_type) {
case TARGET_TYPE_QCA6290:
case TARGET_TYPE_QCA6390:
case TARGET_TYPE_QCA6490:
case TARGET_TYPE_QCA6750:
case TARGET_TYPE_KIWI:
case TARGET_TYPE_MANGO:
case TARGET_TYPE_QCA8074:
case TARGET_TYPE_QCA8074V2:
case TARGET_TYPE_QCA6018:
case TARGET_TYPE_QCA9574:
case TARGET_TYPE_QCN9160:
case TARGET_TYPE_QCN9000:
case TARGET_TYPE_QCA5018:
case TARGET_TYPE_QCN6122:
dp_mon_cdp_ops_register_1_0(ops);
#ifdef ATH_SUPPORT_NAC_RSSI
ops->ctrl_ops->txrx_vdev_config_for_nac_rssi =
dp_config_for_nac_rssi;
ops->ctrl_ops->txrx_vdev_get_neighbour_rssi =
dp_vdev_get_neighbour_rssi;
#endif
#if defined(ATH_SUPPORT_NAC_RSSI) || defined(ATH_SUPPORT_NAC)
ops->ctrl_ops->txrx_update_filter_neighbour_peers =
dp_update_filter_neighbour_peers;
#endif /* ATH_SUPPORT_NAC_RSSI || ATH_SUPPORT_NAC */
#if defined(WLAN_CFR_ENABLE) && defined(WLAN_ENH_CFR_ENABLE)
dp_cfr_filter_register_1_0(ops);
#endif
if (target_type == TARGET_TYPE_QCN9000)
ops->ctrl_ops->txrx_update_mon_mac_filter =
dp_update_mon_mac_filter;
break;
case TARGET_TYPE_QCN9224:
case TARGET_TYPE_QCA5332:
#ifdef QCA_MONITOR_2_0_SUPPORT
dp_mon_cdp_ops_register_2_0(ops);
#ifdef ATH_SUPPORT_NAC_RSSI
ops->ctrl_ops->txrx_vdev_config_for_nac_rssi =
dp_lite_mon_config_nac_rssi_peer;
ops->ctrl_ops->txrx_vdev_get_neighbour_rssi =
dp_lite_mon_get_nac_peer_rssi;
#endif
#if defined(ATH_SUPPORT_NAC_RSSI) || defined(ATH_SUPPORT_NAC)
ops->ctrl_ops->txrx_update_filter_neighbour_peers =
dp_lite_mon_config_nac_peer;
#endif /* ATH_SUPPORT_NAC_RSSI || ATH_SUPPORT_NAC */
#if defined(WLAN_CFR_ENABLE) && defined(WLAN_ENH_CFR_ENABLE)
dp_cfr_filter_register_2_0(ops);
#endif
#endif /* QCA_MONITOR_2_0_SUPPORT */
break;
default:
dp_mon_err("%s: Unknown tgt type %d", __func__, target_type);
qdf_assert_always(0);
break;
}
ops->cmn_drv_ops->txrx_set_monitor_mode = dp_vdev_set_monitor_mode;
ops->cmn_drv_ops->txrx_get_mon_vdev_from_pdev =
dp_get_mon_vdev_from_pdev_wifi3;
#ifdef DP_PEER_EXTENDED_API
ops->misc_ops->pkt_log_init = dp_pkt_log_init;
ops->misc_ops->pkt_log_con_service = dp_pkt_log_con_service;
ops->misc_ops->pkt_log_exit = dp_pkt_log_exit;
#endif
ops->ctrl_ops->enable_peer_based_pktlog =
dp_enable_peer_based_pktlog;
#if defined(WLAN_TX_PKT_CAPTURE_ENH) || defined(WLAN_RX_PKT_CAPTURE_ENH)
ops->ctrl_ops->txrx_update_peer_pkt_capture_params =
dp_peer_update_pkt_capture_params;
#endif /* WLAN_TX_PKT_CAPTURE_ENH || WLAN_RX_PKT_CAPTURE_ENH */
#ifdef QCA_ENHANCED_STATS_SUPPORT
ops->host_stats_ops->txrx_enable_enhanced_stats =
dp_enable_enhanced_stats;
ops->host_stats_ops->txrx_disable_enhanced_stats =
dp_disable_enhanced_stats;
#endif /* QCA_ENHANCED_STATS_SUPPORT */
#ifdef WDI_EVENT_ENABLE
ops->ctrl_ops->txrx_get_pldev = dp_get_pldev;
#endif
#ifdef QCA_SUPPORT_SCAN_SPCL_VAP_STATS
ops->host_stats_ops->txrx_get_scan_spcl_vap_stats =
dp_get_scan_spcl_vap_stats;
#endif
return;
}
#ifdef QCA_MONITOR_OPS_PER_SOC_SUPPORT
static inline void
dp_mon_cdp_mon_ops_deregister(struct cdp_ops *ops)
{
if (ops->mon_ops) {
qdf_mem_free(ops->mon_ops);
ops->mon_ops = NULL;
}
}
#else
static inline void
dp_mon_cdp_mon_ops_deregister(struct cdp_ops *ops)
{
ops->mon_ops = NULL;
}
#endif
void dp_mon_cdp_ops_deregister(struct dp_soc *soc)
{
struct cdp_ops *ops = soc->cdp_soc.ops;
if (!ops) {
dp_mon_err("cdp_ops is NULL");
return;
}
dp_mon_cdp_mon_ops_deregister(ops);
#if defined(WLAN_CFR_ENABLE) && defined(WLAN_ENH_CFR_ENABLE)
ops->cfr_ops->txrx_cfr_filter = NULL;
#endif
ops->cmn_drv_ops->txrx_set_monitor_mode = NULL;
ops->cmn_drv_ops->txrx_get_mon_vdev_from_pdev = NULL;
#ifdef DP_PEER_EXTENDED_API
ops->misc_ops->pkt_log_init = NULL;
ops->misc_ops->pkt_log_con_service = NULL;
ops->misc_ops->pkt_log_exit = NULL;
#endif
#ifdef ATH_SUPPORT_NAC_RSSI
ops->ctrl_ops->txrx_vdev_config_for_nac_rssi = NULL;
ops->ctrl_ops->txrx_vdev_get_neighbour_rssi = NULL;
#endif
#if defined(ATH_SUPPORT_NAC_RSSI) || defined(ATH_SUPPORT_NAC)
ops->ctrl_ops->txrx_update_filter_neighbour_peers = NULL;
#endif /* ATH_SUPPORT_NAC_RSSI || ATH_SUPPORT_NAC */
ops->ctrl_ops->enable_peer_based_pktlog = NULL;
#if defined(WLAN_TX_PKT_CAPTURE_ENH) || defined(WLAN_RX_PKT_CAPTURE_ENH)
ops->ctrl_ops->txrx_update_peer_pkt_capture_params = NULL;
#endif /* WLAN_TX_PKT_CAPTURE_ENH || WLAN_RX_PKT_CAPTURE_ENH */
#ifdef FEATURE_PERPKT_INFO
ops->host_stats_ops->txrx_enable_enhanced_stats = NULL;
ops->host_stats_ops->txrx_disable_enhanced_stats = NULL;
#endif /* FEATURE_PERPKT_INFO */
#ifdef WDI_EVENT_ENABLE
ops->ctrl_ops->txrx_get_pldev = NULL;
#endif
return;
}
#if defined(WDI_EVENT_ENABLE) &&\
(defined(QCA_ENHANCED_STATS_SUPPORT) || !defined(REMOVE_PKT_LOG))
static inline
void dp_mon_ppdu_stats_handler_deregister(struct dp_mon_soc *mon_soc)
{
mon_soc->mon_ops->mon_ppdu_stats_ind_handler = NULL;
}
#else
static inline
void dp_mon_ppdu_stats_handler_deregister(struct dp_mon_soc *mon_soc)
{
}
#endif
#ifdef QCA_RSSI_DB2DBM
/*
* dp_mon_compute_min_nf() - calculate the min nf value in the
* active chains 20MHZ subbands.
* computation: Need to calculate nfInDbm[][] to A_MIN(nfHwDbm[][])
* considering row index as active chains and column
* index as 20MHZ subbands per chain.
* example: chain_mask = 0x07 (consider 3 active chains 0,1,2 index)
* BandWidth = 40MHZ (40MHZ includes two 20MHZ subbands so need to
* consider 0,1 index calculate min_nf value)
*
*@conv_params: cdp_rssi_dbm_conv_param_dp structure value
*@chain_idx: active chain index in nfHwdbm array
*
* Return: QDF_STATUS_SUCCESS if value set successfully
* QDF_STATUS_E_INVAL false if error
*/
static QDF_STATUS
dp_mon_compute_min_nf(struct cdp_rssi_dbm_conv_param_dp *conv_params,
int8_t *min_nf, int chain_idx)
{
int j;
*min_nf = conv_params->nf_hw_dbm[chain_idx][0];
switch (conv_params->curr_bw) {
case CHAN_WIDTH_20:
case CHAN_WIDTH_5:
case CHAN_WIDTH_10:
break;
case CHAN_WIDTH_40:
for (j = 1; j < SUB40BW; j++) {
if (conv_params->nf_hw_dbm[chain_idx][j] < *min_nf)
*min_nf = conv_params->nf_hw_dbm[chain_idx][j];
}
break;
case CHAN_WIDTH_80:
for (j = 1; j < SUB80BW; j++) {
if (conv_params->nf_hw_dbm[chain_idx][j] < *min_nf)
*min_nf = conv_params->nf_hw_dbm[chain_idx][j];
}
break;
case CHAN_WIDTH_160:
case CHAN_WIDTH_80P80:
case CHAN_WIDTH_165:
for (j = 1; j < SUB160BW; j++) {
if (conv_params->nf_hw_dbm[chain_idx][j] < *min_nf)
*min_nf = conv_params->nf_hw_dbm[chain_idx][j];
}
break;
case CHAN_WIDTH_160P160:
case CHAN_WIDTH_320:
for (j = 1; j < SUB320BW; j++) {
if (conv_params->nf_hw_dbm[chain_idx][j] < *min_nf)
*min_nf = conv_params->nf_hw_dbm[chain_idx][j];
}
break;
default:
dp_cdp_err("Invalid bandwidth %u", conv_params->curr_bw);
return QDF_STATUS_E_INVAL;
}
return QDF_STATUS_SUCCESS;
}
/*
* dp_mon_pdev_params_rssi_dbm_conv() --> to set rssi in dbm conversion
* params into monitor pdev.
*@cdp_soc: dp soc handle.
*@params: cdp_rssi_db2dbm_param_dp structure value.
*
* Return: QDF_STATUS_SUCCESS if value set successfully
* QDF_STATUS_E_INVAL false if error
*/
QDF_STATUS
dp_mon_pdev_params_rssi_dbm_conv(struct cdp_soc_t *cdp_soc,
struct cdp_rssi_db2dbm_param_dp *params)
{
struct cdp_rssi_db2dbm_param_dp *dp_rssi_params = params;
uint8_t pdev_id = params->pdev_id;
struct dp_soc *soc = (struct dp_soc *)cdp_soc;
struct dp_pdev *pdev =
dp_get_pdev_from_soc_pdev_id_wifi3(soc, pdev_id);
struct dp_mon_pdev *mon_pdev;
struct cdp_rssi_temp_off_param_dp temp_off_param;
struct cdp_rssi_dbm_conv_param_dp conv_params;
int8_t min_nf = 0;
int i;
if (!soc->features.rssi_dbm_conv_support) {
dp_cdp_err("rssi dbm conversion support is false");
return QDF_STATUS_E_INVAL;
}
if (!pdev || !pdev->monitor_pdev) {
dp_cdp_err("Invalid pdev_id %u", pdev_id);
return QDF_STATUS_E_FAILURE;
}
mon_pdev = pdev->monitor_pdev;
mon_pdev->rssi_dbm_conv_support =
soc->features.rssi_dbm_conv_support;
if (dp_rssi_params->rssi_temp_off_present) {
temp_off_param = dp_rssi_params->temp_off_param;
mon_pdev->rssi_offsets.rssi_temp_offset =
temp_off_param.rssi_temp_offset;
}
if (dp_rssi_params->rssi_dbm_info_present) {
conv_params = dp_rssi_params->rssi_dbm_param;
for (i = 0; i < CDP_MAX_NUM_ANTENNA; i++) {
if (conv_params.curr_rx_chainmask & (0x01 << i)) {
if (QDF_STATUS_E_INVAL == dp_mon_compute_min_nf
(&conv_params, &min_nf, i))
return QDF_STATUS_E_INVAL;
} else {
continue;
}
}
mon_pdev->rssi_offsets.xlna_bypass_offset =
conv_params.xlna_bypass_offset;
mon_pdev->rssi_offsets.xlna_bypass_threshold =
conv_params.xlna_bypass_threshold;
mon_pdev->rssi_offsets.xbar_config = conv_params.xbar_config;
mon_pdev->rssi_offsets.min_nf_dbm = min_nf;
mon_pdev->rssi_offsets.rssi_offset =
mon_pdev->rssi_offsets.min_nf_dbm +
mon_pdev->rssi_offsets.rssi_temp_offset;
}
return QDF_STATUS_SUCCESS;
}
#endif
void dp_mon_intr_ops_deregister(struct dp_soc *soc)
{
struct dp_mon_soc *mon_soc = soc->monitor_soc;
mon_soc->mon_rx_process = NULL;
dp_mon_ppdu_stats_handler_deregister(mon_soc);
}
void dp_mon_feature_ops_deregister(struct dp_soc *soc)
{
struct dp_mon_ops *mon_ops = dp_mon_ops_get(soc);
if (!mon_ops) {
dp_err("mon_ops is NULL");
return;
}
mon_ops->mon_config_debug_sniffer = NULL;
mon_ops->mon_peer_tx_init = NULL;
mon_ops->mon_peer_tx_cleanup = NULL;
mon_ops->mon_htt_ppdu_stats_attach = NULL;
mon_ops->mon_htt_ppdu_stats_detach = NULL;
mon_ops->mon_print_pdev_rx_mon_stats = NULL;
mon_ops->mon_set_bsscolor = NULL;
mon_ops->mon_pdev_get_filter_ucast_data = NULL;
mon_ops->mon_pdev_get_filter_mcast_data = NULL;
mon_ops->mon_pdev_get_filter_non_data = NULL;
mon_ops->mon_neighbour_peer_add_ast = NULL;
#ifdef WLAN_TX_PKT_CAPTURE_ENH
mon_ops->mon_peer_tid_peer_id_update = NULL;
mon_ops->mon_tx_ppdu_stats_attach = NULL;
mon_ops->mon_tx_ppdu_stats_detach = NULL;
mon_ops->mon_tx_capture_debugfs_init = NULL;
mon_ops->mon_tx_add_to_comp_queue = NULL;
mon_ops->mon_peer_tx_capture_filter_check = NULL;
mon_ops->mon_print_pdev_tx_capture_stats = NULL;
mon_ops->mon_config_enh_tx_capture = NULL;
#endif
#ifdef WLAN_RX_PKT_CAPTURE_ENH
mon_ops->mon_config_enh_rx_capture = NULL;
#endif
#ifdef QCA_SUPPORT_BPR
mon_ops->mon_set_bpr_enable = NULL;
#endif
#ifdef ATH_SUPPORT_NAC
mon_ops->mon_set_filter_neigh_peers = NULL;
#endif
#ifdef WLAN_ATF_ENABLE
mon_ops->mon_set_atf_stats_enable = NULL;
#endif
#ifdef FEATURE_NAC_RSSI
mon_ops->mon_filter_neighbour_peer = NULL;
#endif
#ifdef QCA_MCOPY_SUPPORT
mon_ops->mon_filter_setup_mcopy_mode = NULL;
mon_ops->mon_filter_reset_mcopy_mode = NULL;
mon_ops->mon_mcopy_check_deliver = NULL;
#endif
#ifdef QCA_ENHANCED_STATS_SUPPORT
mon_ops->mon_filter_setup_enhanced_stats = NULL;
mon_ops->mon_tx_enable_enhanced_stats = NULL;
mon_ops->mon_tx_disable_enhanced_stats = NULL;
mon_ops->mon_ppdu_desc_deliver = NULL;
mon_ops->mon_ppdu_desc_notify = NULL;
mon_ops->mon_ppdu_stats_feat_enable_check = NULL;
#ifdef WLAN_FEATURE_11BE
mon_ops->mon_tx_stats_update = NULL;
#endif
#endif
#if defined(ATH_SUPPORT_NAC_RSSI) || defined(ATH_SUPPORT_NAC)
mon_ops->mon_filter_setup_smart_monitor = NULL;
#endif
mon_ops->mon_filter_set_reset_mon_mac_filter = NULL;
#ifdef WLAN_RX_PKT_CAPTURE_ENH
mon_ops->mon_filter_setup_rx_enh_capture = NULL;
#endif
#ifdef WDI_EVENT_ENABLE
mon_ops->mon_set_pktlog_wifi3 = NULL;
mon_ops->mon_filter_setup_rx_pkt_log_full = NULL;
mon_ops->mon_filter_reset_rx_pkt_log_full = NULL;
mon_ops->mon_filter_setup_rx_pkt_log_lite = NULL;
mon_ops->mon_filter_reset_rx_pkt_log_lite = NULL;
mon_ops->mon_filter_setup_rx_pkt_log_cbf = NULL;
mon_ops->mon_filter_reset_rx_pkt_log_cbf = NULL;
#ifdef BE_PKTLOG_SUPPORT
mon_ops->mon_filter_setup_pktlog_hybrid = NULL;
mon_ops->mon_filter_reset_pktlog_hybrid = NULL;
#endif
#endif
#if defined(DP_CON_MON) && !defined(REMOVE_PKT_LOG)
mon_ops->mon_pktlogmod_exit = NULL;
#endif
mon_ops->rx_hdr_length_set = NULL;
mon_ops->rx_packet_length_set = NULL;
mon_ops->rx_wmask_subscribe = NULL;
mon_ops->rx_enable_mpdu_logging = NULL;
mon_ops->rx_enable_fpmo = NULL;
mon_ops->mon_neighbour_peers_detach = NULL;
mon_ops->mon_vdev_set_monitor_mode_buf_rings = NULL;
mon_ops->mon_vdev_set_monitor_mode_rings = NULL;
#ifdef QCA_ENHANCED_STATS_SUPPORT
mon_ops->mon_rx_stats_update = NULL;
mon_ops->mon_rx_populate_ppdu_usr_info = NULL;
mon_ops->mon_rx_populate_ppdu_info = NULL;
#endif
}
QDF_STATUS dp_mon_soc_attach(struct dp_soc *soc)
{
struct dp_mon_soc *mon_soc;
if (!soc) {
dp_mon_err("dp_soc is NULL");
return QDF_STATUS_E_FAILURE;
}
mon_soc = (struct dp_mon_soc *)qdf_mem_malloc(sizeof(*mon_soc));
if (!mon_soc) {
dp_mon_err("%pK: mem allocation failed", soc);
return QDF_STATUS_E_NOMEM;
}
/* register monitor ops */
soc->monitor_soc = mon_soc;
dp_mon_ops_register(soc);
dp_mon_register_intr_ops(soc);
dp_mon_cdp_ops_register(soc);
dp_mon_register_feature_ops(soc);
return QDF_STATUS_SUCCESS;
}
QDF_STATUS dp_mon_soc_detach(struct dp_soc *soc)
{
struct dp_mon_soc *mon_soc;
if (!soc) {
dp_mon_err("dp_soc is NULL");
return QDF_STATUS_E_FAILURE;
}
mon_soc = soc->monitor_soc;
dp_monitor_vdev_timer_deinit(soc);
dp_mon_cdp_ops_deregister(soc);
soc->monitor_soc = NULL;
qdf_mem_free(mon_soc);
return QDF_STATUS_SUCCESS;
}
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