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/*
**************************************************************************
* Copyright (c) 2015-2017, The Linux Foundation. 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 "nss_tx_rx_common.h"
/*
* nss_wifi_stats_sync()
* Handle the syncing of WIFI stats.
*/
void nss_wifi_stats_sync(struct nss_ctx_instance *nss_ctx,
struct nss_wifi_stats_sync_msg *stats, uint16_t interface)
{
struct nss_top_instance *nss_top = nss_ctx->nss_top;
uint32_t radio_id = interface - NSS_WIFI_INTERFACE0;
uint8_t i = 0;
if (radio_id >= NSS_MAX_WIFI_RADIO_INTERFACES) {
nss_warning("%p: invalid interface: %d", nss_ctx, interface);
return;
}
spin_lock_bh(&nss_top->stats_lock);
/*
* Tx/Rx stats
*/
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_PKTS] += stats->node_stats.rx_packets;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_DROPPED] += stats->node_stats.rx_dropped;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TX_PKTS] += stats->node_stats.tx_packets;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TX_DROPPED] += stats->tx_transmit_dropped;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TX_COMPLETED] += stats->tx_transmit_completions;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_MGMT_RCV_CNT] += stats->tx_mgmt_rcv_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_MGMT_TX_PKTS] += stats->tx_mgmt_pkts;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_MGMT_TX_DROPPED] += stats->tx_mgmt_dropped;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_MGMT_TX_COMPLETIONS] += stats->tx_mgmt_completions;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TX_INV_PEER_ENQUEUE_CNT] += stats->tx_inv_peer_enq_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_INV_PEER_RCV_CNT] += stats->rx_inv_peer_rcv_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_PN_CHECK_FAILED] += stats->rx_pn_check_failed;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_DELIVERED] += stats->rx_pkts_deliverd;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_BYTES_DELIVERED] += stats->rx_bytes_deliverd;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TX_BYTES_COMPLETED] += stats->tx_bytes_transmit_completions;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_DELIVER_UNALIGNED_DROP_CNT] += stats->rx_deliver_unaligned_drop_cnt;
for (i = 0; i < NSS_WIFI_TX_NUM_TOS_TIDS; i++) {
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_ENQUEUE_CNT + i] += stats->tidq_enqueue_cnt[i];
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_DEQUEUE_CNT + i] += stats->tidq_dequeue_cnt[i];
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_ENQUEUE_FAIL_CNT + i] += stats->tidq_enqueue_fail_cnt[i];
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_TTL_EXPIRE_CNT + i] += stats->tidq_ttl_expire_cnt[i];
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_DEQUEUE_REQ_CNT + i] += stats->tidq_dequeue_req_cnt[i];
}
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_RX_HTT_FETCH_CNT] += stats->rx_htt_fetch_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TOTAL_TIDQ_DEPTH] = stats->total_tidq_depth;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TOTAL_TIDQ_BYPASS_CNT] += stats->total_tidq_bypass_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_GLOBAL_Q_FULL_CNT] += stats->global_q_full_cnt;
nss_top->stats_wifi[radio_id][NSS_STATS_WIFI_TIDQ_FULL_CNT] += stats->tidq_full_cnt;
spin_unlock_bh(&nss_top->stats_lock);
}
/*
* nss_wifi_get_context()
* Get NSS context of Wifi.
*/
struct nss_ctx_instance *nss_wifi_get_context()
{
return (struct nss_ctx_instance *)&nss_top_main.nss[nss_top_main.wifi_handler_id];
}
/*
* nss_wifi_handler()
* Handle NSS -> HLOS messages for wifi
*/
static void nss_wifi_handler(struct nss_ctx_instance *nss_ctx, struct nss_cmn_msg *ncm, __attribute__((unused))void *app_data)
{
struct nss_wifi_msg *ntm = (struct nss_wifi_msg *)ncm;
void *ctx;
nss_wifi_msg_callback_t cb;
nss_info("%p: NSS ->HLOS message for wifi\n", nss_ctx);
BUG_ON(((ncm->interface < NSS_WIFI_INTERFACE0) || (ncm->interface > NSS_WIFI_INTERFACE2)));
/*
* Is this a valid request/response packet?
*/
if (ncm->type >= NSS_WIFI_MAX_MSG) {
nss_warning("%p: received invalid message %d for wifi interface", nss_ctx, ncm->type);
return;
}
if (nss_cmn_get_msg_len(ncm) > sizeof(struct nss_wifi_msg)) {
nss_warning("%p: Length of message is greater than required: %d", nss_ctx, nss_cmn_get_msg_len(ncm));
return;
}
/*
* Snoop messages for local driver and handle
*/
switch (ntm->cm.type) {
case NSS_WIFI_STATS_MSG:
/*
* To create the old API gmac statistics, we use the new extended GMAC stats.
*/
nss_wifi_stats_sync(nss_ctx, &ntm->msg.statsmsg, ncm->interface);
break;
}
/*
* Update the callback and app_data for NOTIFY messages, wifi sends all notify messages
* to the same callback/app_data.
*/
if (ncm->response == NSS_CMM_RESPONSE_NOTIFY) {
ncm->cb = (nss_ptr_t)nss_ctx->nss_top->wifi_msg_callback;
}
/*
* Log failures
*/
nss_core_log_msg_failures(nss_ctx, ncm);
/*
* Do we have a call back
*/
if (!ncm->cb) {
nss_info("%p: cb null for wifi interface %d", nss_ctx, ncm->interface);
return;
}
/*
* Get callback & context
*/
cb = (nss_wifi_msg_callback_t)ncm->cb;
ctx = nss_ctx->subsys_dp_register[ncm->interface].ndev;
/*
* call wifi msg callback
*/
if (!ctx) {
nss_warning("%p: Event received for wifi interface %d before registration", nss_ctx, ncm->interface);
return;
}
cb(ctx, ntm);
}
/*
* nss_wifi_tx_msg
* Transmit a wifi message to NSS FW
*/
nss_tx_status_t nss_wifi_tx_msg(struct nss_ctx_instance *nss_ctx, struct nss_wifi_msg *msg)
{
struct nss_wifi_msg *nm;
struct nss_cmn_msg *ncm = &msg->cm;
struct sk_buff *nbuf;
int32_t status;
NSS_VERIFY_CTX_MAGIC(nss_ctx);
if (unlikely(nss_ctx->state != NSS_CORE_STATE_INITIALIZED)) {
nss_warning("%p: wifi message dropped as core not ready", nss_ctx);
return NSS_TX_FAILURE_NOT_READY;
}
if (ncm->type > NSS_WIFI_MAX_MSG) {
nss_warning("%p: wifi message type out of range: %d", nss_ctx, ncm->type);
return NSS_TX_FAILURE;
}
if (nss_cmn_get_msg_len(ncm) > sizeof(struct nss_wifi_msg)) {
nss_warning("%p: wifi message length is invalid: %d", nss_ctx, nss_cmn_get_msg_len(ncm));
return NSS_TX_FAILURE;
}
nbuf = dev_alloc_skb(NSS_NBUF_PAYLOAD_SIZE);
if (unlikely(!nbuf)) {
spin_lock_bh(&nss_ctx->nss_top->stats_lock);
NSS_PKT_STATS_INCREMENT(nss_ctx, &nss_ctx->nss_top->stats_drv[NSS_STATS_DRV_NBUF_ALLOC_FAILS]);
spin_unlock_bh(&nss_ctx->nss_top->stats_lock);
nss_warning("%p: wifi message dropped as command allocation failed", nss_ctx);
return NSS_TX_FAILURE;
}
/*
* Copy the message to our skb
*/
nm = (struct nss_wifi_msg *)skb_put(nbuf, sizeof(struct nss_wifi_msg));
memcpy(nm, msg, sizeof(struct nss_wifi_msg));
status = nss_core_send_buffer(nss_ctx, 0, nbuf, NSS_IF_CMD_QUEUE, H2N_BUFFER_CTRL, 0);
if (status != NSS_CORE_STATUS_SUCCESS) {
dev_kfree_skb_any(nbuf);
nss_warning("%p: Unable to enqueue 'wifi message'", nss_ctx);
return NSS_TX_FAILURE;
}
nss_hal_send_interrupt(nss_ctx, NSS_H2N_INTR_DATA_COMMAND_QUEUE);
NSS_PKT_STATS_INCREMENT(nss_ctx, &nss_ctx->nss_top->stats_drv[NSS_STATS_DRV_TX_CMD_REQ]);
return NSS_TX_SUCCESS;
}
/*
****************************************
* Register/Unregister/Miscellaneous APIs
****************************************
*/
/*
* nss_register_wifi_if()
* Register Wifi with nss driver
*/
struct nss_ctx_instance *nss_register_wifi_if(uint32_t if_num, nss_wifi_callback_t wifi_callback,
nss_wifi_callback_t wifi_ext_callback,
nss_wifi_msg_callback_t event_callback, struct net_device *netdev, uint32_t features)
{
struct nss_ctx_instance *nss_ctx = (struct nss_ctx_instance *)&nss_top_main.nss[nss_top_main.wifi_handler_id];
nss_assert(nss_ctx);
nss_assert((if_num >= NSS_MAX_VIRTUAL_INTERFACES) && (if_num < NSS_MAX_NET_INTERFACES));
nss_info("%p: nss_register_wifi_if if_num %d wifictx %p", nss_ctx, if_num, netdev);
nss_ctx->subsys_dp_register[if_num].ndev = netdev;
nss_ctx->subsys_dp_register[if_num].cb = wifi_callback;
nss_ctx->subsys_dp_register[if_num].ext_cb = wifi_ext_callback;
nss_ctx->subsys_dp_register[if_num].app_data = NULL;
nss_ctx->subsys_dp_register[if_num].features = features;
nss_top_main.wifi_msg_callback = event_callback;
return nss_ctx;
}
/*
* nss_unregister_wifi_if()
* Unregister wifi with nss driver
*/
void nss_unregister_wifi_if(uint32_t if_num)
{
struct nss_ctx_instance *nss_ctx = (struct nss_ctx_instance *)&nss_top_main.nss[nss_top_main.wifi_handler_id];
nss_assert(nss_ctx);
nss_assert((if_num >= NSS_MAX_VIRTUAL_INTERFACES) && (if_num < NSS_MAX_NET_INTERFACES));
nss_ctx->subsys_dp_register[if_num].ndev = NULL;
nss_ctx->subsys_dp_register[if_num].cb = NULL;
nss_ctx->subsys_dp_register[if_num].ext_cb = NULL;
nss_ctx->subsys_dp_register[if_num].app_data = NULL;
nss_ctx->subsys_dp_register[if_num].features = 0;
}
/*
* nss_wifi_register_handler()
* Register handle for notfication messages received on wifi interface
*/
void nss_wifi_register_handler(void )
{
nss_info("nss_wifi_register_handler");
nss_core_register_handler(NSS_WIFI_INTERFACE0, nss_wifi_handler, NULL);
nss_core_register_handler(NSS_WIFI_INTERFACE1, nss_wifi_handler, NULL);
nss_core_register_handler(NSS_WIFI_INTERFACE2, nss_wifi_handler, NULL);
}
EXPORT_SYMBOL(nss_wifi_get_context);
EXPORT_SYMBOL(nss_wifi_tx_msg);
EXPORT_SYMBOL(nss_register_wifi_if);
EXPORT_SYMBOL(nss_unregister_wifi_if);