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qcacmn: Dynamically allocate memory for work sta_ap_intf_check_work

소스 검색 
To handle back to back scheduling of sta_ap_intf_check_work, allocate the
memory used by the work dynamically.

Change-Id: Ibbcfafb2fadd2de1cca44086f9335dca86641f50
CRs-Fixed: 2070220
This commit is contained in:
Tushnim Bhattacharyya
2017-06-30 17:40:49 -07:00
committed by snandini
부모 abf086a231
커밋 d3c96deba9
3개의 변경된 파일95개의 추가작업 그리고 44개의 파일을 삭제
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70
umac/cmn_services/policy_mgr/src/wlan_policy_mgr_action.c
파일 보기

@@ -598,14 +598,15 @@ static bool policy_mgr_is_restart_sap_allowed(
uint32_t mcc_to_scc_switch)
{
if ((mcc_to_scc_switch == QDF_MCC_TO_SCC_SWITCH_DISABLE) ||
!(policy_mgr_concurrent_open_sessions_running(psoc) &&
((policy_mgr_get_concurrency_mode(psoc) ==
(QDF_STA_MASK | QDF_SAP_MASK)) ||
(policy_mgr_get_concurrency_mode(psoc) ==
(QDF_STA_MASK | QDF_P2P_GO_MASK))))) {
!policy_mgr_concurrent_open_sessions_running(psoc) ||
!((policy_mgr_get_concurrency_mode(psoc) ==
(QDF_STA_MASK | QDF_SAP_MASK)) ||
(policy_mgr_get_concurrency_mode(psoc) ==
(QDF_STA_MASK | QDF_P2P_GO_MASK)))) {
policy_mgr_err("MCC switch disabled or not concurrent STA/SAP, STA/GO");
return false;
}
return true;
}
@@ -649,18 +650,30 @@ bool policy_mgr_is_safe_channel(struct wlan_objmgr_psoc *psoc,
*/
void policy_mgr_check_sta_ap_concurrent_ch_intf(void *data)
{
struct wlan_objmgr_psoc *psoc =
(struct wlan_objmgr_psoc *) data;
struct policy_mgr_psoc_priv_obj *pm_ctx;
struct wlan_objmgr_psoc *psoc;
struct policy_mgr_psoc_priv_obj *pm_ctx = NULL;
struct sta_ap_intf_check_work_ctx *work_info = NULL;
uint32_t mcc_to_scc_switch;
QDF_STATUS status;
uint8_t channel, sec_ch;
uint8_t operating_channel, vdev_id;
work_info = (struct sta_ap_intf_check_work_ctx *) data;
if (!work_info) {
policy_mgr_err("Invalid work_info");
goto end;
}
psoc = work_info->psoc;
if (!psoc) {
policy_mgr_err("Invalid psoc");
goto end;
}
pm_ctx = policy_mgr_get_context(psoc);
if (!pm_ctx) {
policy_mgr_err("Invalid context");
return;
goto end;
}
mcc_to_scc_switch =
policy_mgr_mcc_to_scc_switch_mode_in_user_cfg(psoc);
@@ -669,7 +682,7 @@ void policy_mgr_check_sta_ap_concurrent_ch_intf(void *data)
policy_mgr_concurrent_open_sessions_running(psoc));
if (!policy_mgr_is_restart_sap_allowed(psoc, mcc_to_scc_switch))
return;
goto end;
if (policy_mgr_get_mode_specific_conn_info(psoc,
&operating_channel,
@@ -685,12 +698,12 @@ void policy_mgr_check_sta_ap_concurrent_ch_intf(void *data)
operating_channel);
} else {
policy_mgr_err("Could not retrieve SAP/GO operating channel&vdevid");
return;
goto end;
}
if (!pm_ctx->hdd_cbacks.wlan_hdd_get_channel_for_sap_restart) {
policy_mgr_err("SAP restart get channel callback in NULL");
return;
goto end;
}
qdf_mutex_acquire(&pm_ctx->qdf_conc_list_lock);
status = pm_ctx->hdd_cbacks.
@@ -699,11 +712,17 @@ void policy_mgr_check_sta_ap_concurrent_ch_intf(void *data)
qdf_mutex_release(&pm_ctx->qdf_conc_list_lock);
if (status != QDF_STATUS_SUCCESS) {
policy_mgr_err("Failed to switch SAP channel");
return;
goto end;
}
policy_mgr_info("SAP restarts due to MCC->SCC switch, old chan :%d new chan: %d",
operating_channel, channel);
end:
if (work_info) {
qdf_mem_free(work_info);
if (pm_ctx)
pm_ctx->sta_ap_intf_check_work_info = NULL;
}
}
static bool policy_mgr_valid_sta_channel_check(struct wlan_objmgr_psoc *psoc,
@@ -846,15 +865,30 @@ void policy_mgr_check_concurrent_intf_and_restart_sap(
policy_mgr_mcc_to_scc_switch_mode_in_user_cfg(psoc);
policy_mgr_info("MCC to SCC switch: %d chan: %d",
mcc_to_scc_switch, operating_channel);
if (!policy_mgr_is_restart_sap_allowed(psoc, mcc_to_scc_switch)) {
policy_mgr_debug(
"No action taken at check_concurrent_intf_and_restart_sap");
return;
}
if ((mcc_to_scc_switch != QDF_MCC_TO_SCC_SWITCH_DISABLE) &&
policy_mgr_valid_sta_channel_check(psoc,
operating_channel)
) {
qdf_create_work(0, &pm_ctx->sta_ap_intf_check_work,
&& !pm_ctx->sta_ap_intf_check_work_info) {
struct sta_ap_intf_check_work_ctx *work_info;
work_info = qdf_mem_malloc(
sizeof(struct sta_ap_intf_check_work_ctx));
pm_ctx->sta_ap_intf_check_work_info = work_info;
if (work_info) {
work_info->psoc = psoc;
qdf_create_work(0, &pm_ctx->sta_ap_intf_check_work,
policy_mgr_check_sta_ap_concurrent_ch_intf,
psoc);
qdf_sched_work(0, &pm_ctx->sta_ap_intf_check_work);
policy_mgr_info("Checking for Concurrent Change interference");
work_info);
qdf_sched_work(0, &pm_ctx->sta_ap_intf_check_work);
policy_mgr_info(
"Checking for Concurrent Change interference");
}
}
}
#endif /* FEATURE_WLAN_MCC_TO_SCC_SWITCH */

63
umac/cmn_services/policy_mgr/src/wlan_policy_mgr_i.h
파일 보기

@@ -184,6 +184,15 @@ extern enum policy_mgr_conc_next_action
(*policy_mgr_get_current_pref_hw_mode_ptr)
(struct wlan_objmgr_psoc *psoc);
/**
* struct sta_ap_intf_check_work_ctx - sta_ap_intf_check_work
* related info
* @psoc: pointer to PSOC object information
*/
struct sta_ap_intf_check_work_ctx {
struct wlan_objmgr_psoc *psoc;
};
/**
* struct policy_mgr_psoc_priv_obj - Policy manager private data
* @psoc: pointer to PSOC object information
@@ -229,34 +238,36 @@ extern enum policy_mgr_conc_next_action
* value from INI
* @unsafe_channel_list: LTE coex channel avoidance list
* @unsafe_channel_count: LTE coex channel avoidance list count
* @sta_ap_intf_check_work_info: Info related to sta_ap_intf_check_work
*/
struct policy_mgr_psoc_priv_obj {
struct wlan_objmgr_psoc *psoc;
struct wlan_objmgr_pdev *pdev;
qdf_event_t connection_update_done_evt;
qdf_mutex_t qdf_conc_list_lock;
qdf_mc_timer_t dbs_opportunistic_timer;
struct policy_mgr_hdd_cbacks hdd_cbacks;
struct policy_mgr_sme_cbacks sme_cbacks;
struct policy_mgr_wma_cbacks wma_cbacks;
struct policy_mgr_tdls_cbacks tdls_cbacks;
struct policy_mgr_cdp_cbacks cdp_cbacks;
uint8_t sap_mandatory_channels[QDF_MAX_NUM_CHAN];
uint32_t sap_mandatory_channels_len;
bool do_hw_mode_change;
uint32_t concurrency_mode;
uint8_t no_of_open_sessions[QDF_MAX_NO_OF_MODE];
uint8_t no_of_active_sessions[QDF_MAX_NO_OF_MODE];
qdf_work_t sta_ap_intf_check_work;
uint32_t num_dbs_hw_modes;
struct dbs_hw_mode_info hw_mode;
uint32_t old_hw_mode_index;
uint32_t new_hw_mode_index;
struct dual_mac_config dual_mac_cfg;
uint32_t hw_mode_change_in_progress;
struct policy_mgr_user_cfg user_cfg;
uint16_t unsafe_channel_list[QDF_MAX_NUM_CHAN];
uint16_t unsafe_channel_count;
struct wlan_objmgr_psoc *psoc;
struct wlan_objmgr_pdev *pdev;
qdf_event_t connection_update_done_evt;
qdf_mutex_t qdf_conc_list_lock;
qdf_mc_timer_t dbs_opportunistic_timer;
struct policy_mgr_hdd_cbacks hdd_cbacks;
struct policy_mgr_sme_cbacks sme_cbacks;
struct policy_mgr_wma_cbacks wma_cbacks;
struct policy_mgr_tdls_cbacks tdls_cbacks;
struct policy_mgr_cdp_cbacks cdp_cbacks;
uint8_t sap_mandatory_channels[QDF_MAX_NUM_CHAN];
uint32_t sap_mandatory_channels_len;
bool do_hw_mode_change;
uint32_t concurrency_mode;
uint8_t no_of_open_sessions[QDF_MAX_NO_OF_MODE];
uint8_t no_of_active_sessions[QDF_MAX_NO_OF_MODE];
qdf_work_t sta_ap_intf_check_work;
uint32_t num_dbs_hw_modes;
struct dbs_hw_mode_info hw_mode;
uint32_t old_hw_mode_index;
uint32_t new_hw_mode_index;
struct dual_mac_config dual_mac_cfg;
uint32_t hw_mode_change_in_progress;
struct policy_mgr_user_cfg user_cfg;
uint16_t unsafe_channel_list[QDF_MAX_NUM_CHAN];
uint16_t unsafe_channel_count;
struct sta_ap_intf_check_work_ctx *sta_ap_intf_check_work_info;
};
/**

6
umac/cmn_services/policy_mgr/src/wlan_policy_mgr_init_deinit.c
파일 보기

@@ -364,6 +364,12 @@ QDF_STATUS policy_mgr_psoc_close(struct wlan_objmgr_psoc *psoc)
policy_mgr_info("HW list is freed");
}
if (pm_ctx->sta_ap_intf_check_work_info) {
qdf_cancel_work(0, &pm_ctx->sta_ap_intf_check_work);
qdf_mem_free(pm_ctx->sta_ap_intf_check_work_info);
pm_ctx->sta_ap_intf_check_work_info = NULL;
}
return QDF_STATUS_SUCCESS;
}