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qcacmn: Cleanup duplicate STA inactivity detection

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Move the station inactivity detection code from datapath to
SON layer.

Change-Id: Ia071a19ce2fd36b46a8b0bf4362077609e8b98f9
CRs-Fixed: 2326638
This commit is contained in:
Balaganapathy Palanisamy
2018-09-20 15:22:06 +05:30
committed by nshrivas
parent 3871ce8c90
commit 9e0e1667d4
7 changed files with 1 additions and 649 deletions
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122
dp/inc/cdp_txrx_ctrl.h
View File

@@ -346,128 +346,6 @@ cdp_peer_authorize(ol_txrx_soc_handle soc,
(peer, authorize); (peer, authorize);
} }
static inline bool
cdp_set_inact_params(ol_txrx_soc_handle soc, struct cdp_pdev *pdev,
u_int16_t inact_check_interval,
u_int16_t inact_normal,
u_int16_t inact_overload)
{
if (!soc || !pdev || !soc->ops) {
QDF_TRACE(QDF_MODULE_ID_CDP, QDF_TRACE_LEVEL_DEBUG,
"%s: Invalid Instance:", __func__);
QDF_BUG(0);
return false;
}
if (!soc->ops->ctrl_ops ||
!soc->ops->ctrl_ops->txrx_set_inact_params)
return false;
return soc->ops->ctrl_ops->txrx_set_inact_params
(pdev, inact_check_interval, inact_normal,
inact_overload);
}
static inline bool
cdp_start_inact_timer(ol_txrx_soc_handle soc,
struct cdp_pdev *pdev,
bool enable)
{
if (!soc || !pdev || !soc->ops) {
QDF_TRACE(QDF_MODULE_ID_CDP, QDF_TRACE_LEVEL_DEBUG,
"%s: Invalid Instance:", __func__);
QDF_BUG(0);
return false;
}
if (!soc->ops->ctrl_ops ||
!soc->ops->ctrl_ops->txrx_start_inact_timer)
return false;
return soc->ops->ctrl_ops->txrx_start_inact_timer
(pdev, enable);
}
/**
* @brief Set the overload status of the radio
* @details
* Set the overload status of the radio, updating the inactivity
* threshold and inactivity count for each node.
*
* @param pdev - the data physical device object
* @param overload - whether the radio is overloaded or not
*/
static inline void
cdp_set_overload(ol_txrx_soc_handle soc, struct cdp_pdev *pdev,
bool overload)
{
if (!soc || !pdev || !soc->ops) {
QDF_TRACE(QDF_MODULE_ID_CDP, QDF_TRACE_LEVEL_DEBUG,
"%s: Invalid Instance:", __func__);
QDF_BUG(0);
return;
}
if (!soc->ops->ctrl_ops ||
!soc->ops->ctrl_ops->txrx_set_overload)
return;
soc->ops->ctrl_ops->txrx_set_overload(pdev, overload);
}
/**
* @brief Check the inactivity status of the peer/node
*
* @param peer - pointer to the node's object
* @return true if the node is inactive; otherwise return false
*/
static inline bool
cdp_peer_is_inact(ol_txrx_soc_handle soc, void *peer)
{
if (!soc || !peer || !soc->ops) {
QDF_TRACE(QDF_MODULE_ID_CDP, QDF_TRACE_LEVEL_DEBUG,
"%s: Invalid Instance:", __func__);
QDF_BUG(0);
return false;
}
if (!soc->ops->ctrl_ops ||
!soc->ops->ctrl_ops->txrx_peer_is_inact)
return false;
return soc->ops->ctrl_ops->txrx_peer_is_inact(peer);
}
/**
* @brief Mark inactivity status of the peer/node
* @details
* If it becomes active, reset inactivity count to reload value;
* if the inactivity status changed, notify umac band steering.
*
* @param peer - pointer to the node's object
* @param inactive - whether the node is inactive or not
*/
static inline void
cdp_mark_peer_inact(ol_txrx_soc_handle soc,
void *peer,
bool inactive)
{
if (!soc || !soc->ops) {
QDF_TRACE(QDF_MODULE_ID_CDP, QDF_TRACE_LEVEL_DEBUG,
"%s: Invalid Instance:", __func__);
QDF_BUG(0);
return;
}
if (!soc->ops->ctrl_ops ||
!soc->ops->ctrl_ops->txrx_mark_peer_inact)
return;
soc->ops->ctrl_ops->txrx_mark_peer_inact
(peer, inactive);
}
/* Should be ol_txrx_ctrl_api.h */ /* Should be ol_txrx_ctrl_api.h */
static inline void cdp_set_mesh_mode static inline void cdp_set_mesh_mode
(ol_txrx_soc_handle soc, struct cdp_vdev *vdev, u_int32_t val) (ol_txrx_soc_handle soc, struct cdp_vdev *vdev, u_int32_t val)

46
dp/inc/cdp_txrx_ops.h
View File

@@ -482,52 +482,6 @@ struct cdp_ctrl_ops {
(*txrx_peer_authorize)(struct cdp_peer *peer, (*txrx_peer_authorize)(struct cdp_peer *peer,
u_int32_t authorize); u_int32_t authorize);
bool
(*txrx_set_inact_params)(struct cdp_pdev *pdev,
u_int16_t inact_check_interval,
u_int16_t inact_normal,
u_int16_t inact_overload);
bool
(*txrx_start_inact_timer)(
struct cdp_pdev *pdev,
bool enable);
/**
* @brief Set the overload status of the radio
* @details
* Set the overload status of the radio, updating the inactivity
* threshold and inactivity count for each node.
*
* @param pdev - the data physical device object
* @param overload - whether the radio is overloaded or not
*/
void (*txrx_set_overload)(
struct cdp_pdev *pdev,
bool overload);
/**
* @brief Check the inactivity status of the peer/node
*
* @param peer - pointer to the node's object
* @return true if the node is inactive; otherwise return false
*/
bool
(*txrx_peer_is_inact)(void *peer);
/**
* @brief Mark inactivity status of the peer/node
* @details
* If it becomes active, reset inactivity count to reload value;
* if the inactivity status changed, notify umac band steering.
*
* @param peer - pointer to the node's object
* @param inactive - whether the node is inactive or not
*/
void (*txrx_mark_peer_inact)(
void *peer,
bool inactive);
/* Should be ol_txrx_ctrl_api.h */ /* Should be ol_txrx_ctrl_api.h */
void (*txrx_set_mesh_mode)(struct cdp_vdev *vdev, u_int32_t val); void (*txrx_set_mesh_mode)(struct cdp_vdev *vdev, u_int32_t val);

9
dp/wifi3.0/dp_internal.h
View File

@@ -701,15 +701,6 @@ void dp_set_pn_check_wifi3(struct cdp_vdev *vdev_handle,
uint32_t *rx_pn); uint32_t *rx_pn);
void *dp_get_pdev_for_mac_id(struct dp_soc *soc, uint32_t mac_id); void *dp_get_pdev_for_mac_id(struct dp_soc *soc, uint32_t mac_id);
void dp_mark_peer_inact(void *peer_handle, bool inactive);
bool dp_set_inact_params(struct cdp_pdev *pdev_handle,
u_int16_t inact_check_interval,
u_int16_t inact_normal, u_int16_t inact_overload);
bool dp_start_inact_timer(struct cdp_pdev *pdev_handle, bool enable);
void dp_set_overload(struct cdp_pdev *pdev_handle, bool overload);
bool dp_peer_is_inact(void *peer_handle);
void dp_init_inact_timer(struct dp_soc *soc);
void dp_free_inact_timer(struct dp_soc *soc);
void dp_set_michael_key(struct cdp_peer *peer_handle, void dp_set_michael_key(struct cdp_peer *peer_handle,
bool is_unicast, uint32_t *key); bool is_unicast, uint32_t *key);

371
dp/wifi3.0/dp_main.c
View File

@@ -2678,127 +2678,6 @@ dp_dscp_tid_map_setup(struct dp_pdev *pdev)
} }
} }
#ifdef QCA_SUPPORT_SON
/**
* dp_mark_peer_inact(): Update peer inactivity status
* @peer_handle - datapath peer handle
*
* Return: void
*/
void dp_mark_peer_inact(void *peer_handle, bool inactive)
{
struct dp_peer *peer = (struct dp_peer *)peer_handle;
struct dp_pdev *pdev;
struct dp_soc *soc;
bool inactive_old;
if (!peer)
return;
pdev = peer->vdev->pdev;
soc = pdev->soc;
inactive_old = peer->peer_bs_inact_flag == 1;
if (!inactive)
peer->peer_bs_inact = soc->pdev_bs_inact_reload;
peer->peer_bs_inact_flag = inactive ? 1 : 0;
if (inactive_old != inactive) {
/**
* Note: a node lookup can happen in RX datapath context
* when a node changes from inactive to active (at most once
* per inactivity timeout threshold)
*/
if (soc->cdp_soc.ol_ops->record_act_change) {
soc->cdp_soc.ol_ops->record_act_change(
(void *)pdev->ctrl_pdev,
peer->mac_addr.raw, !inactive);
}
}
}
/**
* dp_txrx_peer_find_inact_timeout_handler(): Inactivity timeout function
*
* Periodically checks the inactivity status
*/
static os_timer_func(dp_txrx_peer_find_inact_timeout_handler)
{
struct dp_pdev *pdev;
struct dp_vdev *vdev;
struct dp_peer *peer;
struct dp_soc *soc;
int i;
OS_GET_TIMER_ARG(soc, struct dp_soc *);
qdf_spin_lock(&soc->peer_ref_mutex);
for (i = 0; i < soc->pdev_count; i++) {
pdev = soc->pdev_list[i];
if (!pdev)
continue;
qdf_spin_lock_bh(&pdev->vdev_list_lock);
TAILQ_FOREACH(vdev, &pdev->vdev_list, vdev_list_elem) {
if (vdev->opmode != wlan_op_mode_ap)
continue;
TAILQ_FOREACH(peer, &vdev->peer_list, peer_list_elem) {
if (!peer->authorize) {
/**
* Inactivity check only interested in
* connected node
*/
continue;
}
if (peer->peer_bs_inact > soc->pdev_bs_inact_reload) {
/**
* This check ensures we do not wait extra long
* due to the potential race condition
*/
peer->peer_bs_inact = soc->pdev_bs_inact_reload;
}
if (peer->peer_bs_inact > 0) {
/* Do not let it wrap around */
peer->peer_bs_inact--;
}
if (peer->peer_bs_inact == 0)
dp_mark_peer_inact(peer, true);
}
}
qdf_spin_unlock_bh(&pdev->vdev_list_lock);
}
qdf_spin_unlock(&soc->peer_ref_mutex);
qdf_timer_mod(&soc->pdev_bs_inact_timer,
soc->pdev_bs_inact_interval * 1000);
}
/**
* dp_free_inact_timer(): free inact timer
* @timer - inact timer handle
*
* Return: bool
*/
void dp_free_inact_timer(struct dp_soc *soc)
{
qdf_timer_free(&soc->pdev_bs_inact_timer);
}
#else
void dp_mark_peer_inact(void *peer, bool inactive)
{
return;
}
void dp_free_inact_timer(struct dp_soc *soc)
{
return;
}
#endif
#ifdef IPA_OFFLOAD #ifdef IPA_OFFLOAD
/** /**
* dp_setup_ipa_rx_refill_buf_ring - Setup second Rx refill buffer ring * dp_setup_ipa_rx_refill_buf_ring - Setup second Rx refill buffer ring
@@ -3363,8 +3242,6 @@ static void dp_soc_detach_wifi3(void *txrx_soc)
/* Free pending htt stats messages */ /* Free pending htt stats messages */
qdf_nbuf_queue_free(&soc->htt_stats.msg); qdf_nbuf_queue_free(&soc->htt_stats.msg);
dp_free_inact_timer(soc);
for (i = 0; i < MAX_PDEV_CNT; i++) { for (i = 0; i < MAX_PDEV_CNT; i++) {
if (soc->pdev_list[i]) if (soc->pdev_list[i])
dp_pdev_detach_wifi3( dp_pdev_detach_wifi3(
@@ -4295,21 +4172,6 @@ dp_get_pdev_reo_dest(struct cdp_pdev *pdev_handle)
return cdp_host_reo_dest_ring_unknown; return cdp_host_reo_dest_ring_unknown;
} }
#ifdef QCA_SUPPORT_SON
static void dp_son_peer_authorize(struct dp_peer *peer)
{
struct dp_soc *soc;
soc = peer->vdev->pdev->soc;
peer->peer_bs_inact_flag = 0;
peer->peer_bs_inact = soc->pdev_bs_inact_reload;
return;
}
#else
static void dp_son_peer_authorize(struct dp_peer *peer)
{
return;
}
#endif
/* /*
* dp_set_filter_neighbour_peers() - set filter neighbour peers for smart mesh * dp_set_filter_neighbour_peers() - set filter neighbour peers for smart mesh
* @pdev_handle: device object * @pdev_handle: device object
@@ -4437,234 +4299,11 @@ static void dp_peer_authorize(struct cdp_peer *peer_handle, uint32_t authorize)
if (peer != NULL) { if (peer != NULL) {
soc = peer->vdev->pdev->soc; soc = peer->vdev->pdev->soc;
qdf_spin_lock_bh(&soc->peer_ref_mutex); qdf_spin_lock_bh(&soc->peer_ref_mutex);
dp_son_peer_authorize(peer);
peer->authorize = authorize ? 1 : 0; peer->authorize = authorize ? 1 : 0;
qdf_spin_unlock_bh(&soc->peer_ref_mutex); qdf_spin_unlock_bh(&soc->peer_ref_mutex);
} }
} }
#ifdef QCA_SUPPORT_SON
/*
* dp_txrx_update_inact_threshold() - Update inact timer threshold
* @pdev_handle: Device handle
* @new_threshold : updated threshold value
*
*/
static void
dp_txrx_update_inact_threshold(struct cdp_pdev *pdev_handle,
u_int16_t new_threshold)
{
struct dp_vdev *vdev;
struct dp_peer *peer;
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
struct dp_soc *soc = pdev->soc;
u_int16_t old_threshold = soc->pdev_bs_inact_reload;
if (old_threshold == new_threshold)
return;
soc->pdev_bs_inact_reload = new_threshold;
qdf_spin_lock_bh(&soc->peer_ref_mutex);
qdf_spin_lock_bh(&pdev->vdev_list_lock);
TAILQ_FOREACH(vdev, &pdev->vdev_list, vdev_list_elem) {
if (vdev->opmode != wlan_op_mode_ap)
continue;
TAILQ_FOREACH(peer, &vdev->peer_list, peer_list_elem) {
if (!peer->authorize)
continue;
if (old_threshold - peer->peer_bs_inact >=
new_threshold) {
dp_mark_peer_inact((void *)peer, true);
peer->peer_bs_inact = 0;
} else {
peer->peer_bs_inact = new_threshold -
(old_threshold - peer->peer_bs_inact);
}
}
}
qdf_spin_unlock_bh(&pdev->vdev_list_lock);
qdf_spin_unlock_bh(&soc->peer_ref_mutex);
}
/**
* dp_txrx_reset_inact_count(): Reset inact count
* @pdev_handle - device handle
*
* Return: void
*/
static void
dp_txrx_reset_inact_count(struct cdp_pdev *pdev_handle)
{
struct dp_vdev *vdev = NULL;
struct dp_peer *peer = NULL;
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
struct dp_soc *soc = pdev->soc;
qdf_spin_lock_bh(&soc->peer_ref_mutex);
qdf_spin_lock_bh(&pdev->vdev_list_lock);
TAILQ_FOREACH(vdev, &pdev->vdev_list, vdev_list_elem) {
if (vdev->opmode != wlan_op_mode_ap)
continue;
TAILQ_FOREACH(peer, &vdev->peer_list, peer_list_elem) {
if (!peer->authorize)
continue;
peer->peer_bs_inact = soc->pdev_bs_inact_reload;
}
}
qdf_spin_unlock_bh(&pdev->vdev_list_lock);
qdf_spin_unlock_bh(&soc->peer_ref_mutex);
}
/**
* dp_set_inact_params(): set inactivity params
* @pdev_handle - device handle
* @inact_check_interval - inactivity interval
* @inact_normal - Inactivity normal
* @inact_overload - Inactivity overload
*
* Return: bool
*/
bool dp_set_inact_params(struct cdp_pdev *pdev_handle,
u_int16_t inact_check_interval,
u_int16_t inact_normal, u_int16_t inact_overload)
{
struct dp_soc *soc;
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
if (!pdev)
return false;
soc = pdev->soc;
if (!soc)
return false;
soc->pdev_bs_inact_interval = inact_check_interval;
soc->pdev_bs_inact_normal = inact_normal;
soc->pdev_bs_inact_overload = inact_overload;
dp_txrx_update_inact_threshold((struct cdp_pdev *)pdev,
soc->pdev_bs_inact_normal);
return true;
}
/**
* dp_start_inact_timer(): Inactivity timer start
* @pdev_handle - device handle
* @enable - Inactivity timer start/stop
*
* Return: bool
*/
bool dp_start_inact_timer(struct cdp_pdev *pdev_handle, bool enable)
{
struct dp_soc *soc;
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
if (!pdev)
return false;
soc = pdev->soc;
if (!soc)
return false;
if (enable) {
dp_txrx_reset_inact_count((struct cdp_pdev *)pdev);
qdf_timer_mod(&soc->pdev_bs_inact_timer,
soc->pdev_bs_inact_interval * 1000);
} else {
qdf_timer_stop(&soc->pdev_bs_inact_timer);
}
return true;
}
/**
* dp_set_overload(): Set inactivity overload
* @pdev_handle - device handle
* @overload - overload status
*
* Return: void
*/
void dp_set_overload(struct cdp_pdev *pdev_handle, bool overload)
{
struct dp_soc *soc;
struct dp_pdev *pdev = (struct dp_pdev *)pdev_handle;
if (!pdev)
return;
soc = pdev->soc;
if (!soc)
return;
dp_txrx_update_inact_threshold((struct cdp_pdev *)pdev,
overload ? soc->pdev_bs_inact_overload :
soc->pdev_bs_inact_normal);
}
/**
* dp_peer_is_inact(): check whether peer is inactive
* @peer_handle - datapath peer handle
*
* Return: bool
*/
bool dp_peer_is_inact(void *peer_handle)
{
struct dp_peer *peer = (struct dp_peer *)peer_handle;
if (!peer)
return false;
return peer->peer_bs_inact_flag == 1;
}
/**
* dp_init_inact_timer: initialize the inact timer
* @soc - SOC handle
*
* Return: void
*/
void dp_init_inact_timer(struct dp_soc *soc)
{
qdf_timer_init(soc->osdev, &soc->pdev_bs_inact_timer,
dp_txrx_peer_find_inact_timeout_handler,
(void *)soc, QDF_TIMER_TYPE_WAKE_APPS);
}
#else
bool dp_set_inact_params(struct cdp_pdev *pdev, u_int16_t inact_check_interval,
u_int16_t inact_normal, u_int16_t inact_overload)
{
return false;
}
bool dp_start_inact_timer(struct cdp_pdev *pdev, bool enable)
{
return false;
}
void dp_set_overload(struct cdp_pdev *pdev, bool overload)
{
return;
}
void dp_init_inact_timer(struct dp_soc *soc)
{
return;
}
bool dp_peer_is_inact(void *peer)
{
return false;
}
#endif
static void dp_reset_and_release_peer_mem(struct dp_soc *soc, static void dp_reset_and_release_peer_mem(struct dp_soc *soc,
struct dp_pdev *pdev, struct dp_pdev *pdev,
struct dp_peer *peer, struct dp_peer *peer,
@@ -8049,13 +7688,6 @@ static struct cdp_cmn_ops dp_ops_cmn = {
static struct cdp_ctrl_ops dp_ops_ctrl = { static struct cdp_ctrl_ops dp_ops_ctrl = {
.txrx_peer_authorize = dp_peer_authorize, .txrx_peer_authorize = dp_peer_authorize,
#ifdef QCA_SUPPORT_SON
.txrx_set_inact_params = dp_set_inact_params,
.txrx_start_inact_timer = dp_start_inact_timer,
.txrx_set_overload = dp_set_overload,
.txrx_peer_is_inact = dp_peer_is_inact,
.txrx_mark_peer_inact = dp_mark_peer_inact,
#endif
.txrx_set_vdev_rx_decap_type = dp_set_vdev_rx_decap_type, .txrx_set_vdev_rx_decap_type = dp_set_vdev_rx_decap_type,
.txrx_set_tx_encap_type = dp_set_vdev_tx_encap_type, .txrx_set_tx_encap_type = dp_set_vdev_tx_encap_type,
#ifdef MESH_MODE_SUPPORT #ifdef MESH_MODE_SUPPORT
@@ -8490,9 +8122,6 @@ void *dp_soc_attach_wifi3(void *ctrl_psoc, void *hif_handle,
/* initialize work queue for stats processing */ /* initialize work queue for stats processing */
qdf_create_work(0, &soc->htt_stats.work, htt_t2h_stats_handler, soc); qdf_create_work(0, &soc->htt_stats.work, htt_t2h_stats_handler, soc);
/*Initialize inactivity timer for wifison */
dp_init_inact_timer(soc);
return (void *)soc; return (void *)soc;
fail2: fail2:

2
dp/wifi3.0/dp_rx_mon_status.c
View File

@@ -180,8 +180,6 @@ static void dp_rx_stats_update(struct dp_soc *soc, struct dp_peer *peer,
pdev = peer->vdev->pdev; pdev = peer->vdev->pdev;
dp_mark_peer_inact(peer, false);
if (soc->process_rx_status) if (soc->process_rx_status)
return; return;

18
dp/wifi3.0/dp_types.h
View File

@@ -907,24 +907,6 @@ struct dp_soc {
qdf_list_t reo_desc_freelist; qdf_list_t reo_desc_freelist;
qdf_spinlock_t reo_desc_freelist_lock; qdf_spinlock_t reo_desc_freelist_lock;
#ifdef QCA_SUPPORT_SON
/* The timer to check station's inactivity status */
os_timer_t pdev_bs_inact_timer;
/* The current inactivity count reload value
based on overload condition */
u_int16_t pdev_bs_inact_reload;
/* The inactivity timer value when not overloaded */
u_int16_t pdev_bs_inact_normal;
/* The inactivity timer value when overloaded */
u_int16_t pdev_bs_inact_overload;
/* The inactivity timer check interval */
u_int16_t pdev_bs_inact_interval;
/* Inactivity timer */
#endif /* QCA_SUPPORT_SON */
/* htt stats */ /* htt stats */
struct htt_t2h_stats htt_stats; struct htt_t2h_stats htt_stats;

82
target_if/son/src/target_if_son.c
View File

@@ -25,23 +25,6 @@
#if QCA_SUPPORT_SON #if QCA_SUPPORT_SON
bool son_ol_is_peer_inact(struct wlan_objmgr_peer *peer)
{
struct wlan_objmgr_vdev *vdev;
struct wlan_objmgr_psoc *psoc;
vdev = wlan_peer_get_vdev(peer);
if (!vdev)
return false;
psoc = wlan_vdev_get_psoc(vdev);
if (!psoc)
return false;
return cdp_peer_is_inact(wlan_psoc_get_dp_handle(psoc),
(void *)(wlan_peer_get_dp_handle(peer)));
}
u_int32_t son_ol_get_peer_rate(struct wlan_objmgr_peer *peer, u_int8_t type) u_int32_t son_ol_get_peer_rate(struct wlan_objmgr_peer *peer, u_int8_t type)
{ {
return ol_if_peer_get_rate(peer, type); return ol_if_peer_get_rate(peer, type);
@@ -50,42 +33,7 @@ u_int32_t son_ol_get_peer_rate(struct wlan_objmgr_peer *peer, u_int8_t type)
bool son_ol_enable(struct wlan_objmgr_pdev *pdev, bool enable) bool son_ol_enable(struct wlan_objmgr_pdev *pdev, bool enable)
{ {
struct wlan_objmgr_psoc *psoc; return true;
psoc = wlan_pdev_get_psoc(pdev);
if (!psoc)
return false;
return cdp_start_inact_timer(wlan_psoc_get_dp_handle(psoc),
(void *)(wlan_pdev_get_dp_handle(pdev)),
enable);
}
/* Function pointer to set overload status */
void son_ol_set_overload(struct wlan_objmgr_pdev *pdev, bool overload)
{
struct wlan_objmgr_psoc *psoc;
psoc = wlan_pdev_get_psoc(pdev);
return cdp_set_overload(wlan_psoc_get_dp_handle(psoc),
(void *)(wlan_pdev_get_dp_handle(pdev)),
overload);
}
/* Function pointer to set band steering parameters */
bool son_ol_set_params(struct wlan_objmgr_pdev *pdev,
u_int32_t inactivity_check_period,
u_int32_t inactivity_threshold_normal,
u_int32_t inactivity_threshold_overload)
{
struct wlan_objmgr_psoc *psoc;
psoc = wlan_pdev_get_psoc(pdev);
return cdp_set_inact_params(wlan_psoc_get_dp_handle(psoc),
(void *)wlan_pdev_get_dp_handle(pdev),
inactivity_check_period,
inactivity_threshold_normal,
inactivity_threshold_overload);
} }
int8_t son_ol_sanitize_util_invtl(struct wlan_objmgr_pdev *pdev, int8_t son_ol_sanitize_util_invtl(struct wlan_objmgr_pdev *pdev,
@@ -142,8 +90,6 @@ void target_if_son_register_tx_ops(struct wlan_lmac_if_tx_ops *tx_ops)
{ {
/* wlan son related function handler */ /* wlan son related function handler */
tx_ops->son_tx_ops.son_enable = son_ol_enable; tx_ops->son_tx_ops.son_enable = son_ol_enable;
tx_ops->son_tx_ops.set_overload = son_ol_set_overload;
tx_ops->son_tx_ops.set_params = son_ol_set_params;
tx_ops->son_tx_ops.lmac_create = son_ol_lmac_create; tx_ops->son_tx_ops.lmac_create = son_ol_lmac_create;
tx_ops->son_tx_ops.lmac_destroy = son_ol_lmac_destroy; tx_ops->son_tx_ops.lmac_destroy = son_ol_lmac_destroy;
tx_ops->son_tx_ops.son_send_null = son_ol_send_null; tx_ops->son_tx_ops.son_send_null = son_ol_send_null;
@@ -151,7 +97,6 @@ void target_if_son_register_tx_ops(struct wlan_lmac_if_tx_ops *tx_ops)
tx_ops->son_tx_ops.son_rate_update = son_ol_rx_rate_update; tx_ops->son_tx_ops.son_rate_update = son_ol_rx_rate_update;
tx_ops->son_tx_ops.son_sanity_util_intvl = son_ol_sanitize_util_invtl; tx_ops->son_tx_ops.son_sanity_util_intvl = son_ol_sanitize_util_invtl;
tx_ops->son_tx_ops.get_peer_rate = son_ol_get_peer_rate; tx_ops->son_tx_ops.get_peer_rate = son_ol_get_peer_rate;
tx_ops->son_tx_ops.son_node_isinact = son_ol_is_peer_inact;
return; return;
} }
#else #else
@@ -179,27 +124,6 @@ bool son_ol_enable(struct wlan_objmgr_pdev *pdev, bool enable)
} }
/* Function pointer to set overload status */
void son_ol_set_overload(struct wlan_objmgr_pdev *pdev, bool overload)
{
return;
}
/* Function pointer to set band steering parameters */
bool son_ol_set_params(struct wlan_objmgr_pdev *dev,
u_int32_t inactivity_check_period,
u_int32_t inactivity_threshold_normal,
u_int32_t inactivity_threshold_overload)
{
return -EINVAL;
}
QDF_STATUS son_ol_send_null(struct wlan_objmgr_pdev *pdev, QDF_STATUS son_ol_send_null(struct wlan_objmgr_pdev *pdev,
u_int8_t *macaddr, u_int8_t *macaddr,
struct wlan_objmgr_vdev *vdev) struct wlan_objmgr_vdev *vdev)
@@ -239,8 +163,4 @@ void son_ol_rx_rate_update(struct wlan_objmgr_pdev *pdev, u_int8_t *macaddres,
return; return;
} }
bool son_ol_is_peer_inact(struct wlan_objmgr_peer *peer)
{
return false;
}
#endif #endif