/* Copyright (c) 2015, 2018 The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "sync.h"
#include "wifi_hal.h"
#include "common.h"
#include "cpp_bindings.h"
#include <errno.h>
#include <utils/Log.h>
#include "wifiloggercmd.h"
#include "rb_wrapper.h"
#include <stdlib.h>
#define LOGGER_MEMDUMP_FILENAME "/proc/debug/fwdump"
#define DRIVER_MEMDUMP_FILENAME "/proc/debugdriver/driverdump"
#define LOGGER_MEMDUMP_CHUNKSIZE (4 * 1024)
#define DRIVER_MEMDUMP_MAX_FILESIZE (16 * 1024)
char power_events_ring_name[] = "power_events_rb";
char connectivity_events_ring_name[] = "connectivity_events_rb";
char pkt_stats_ring_name[] = "pkt_stats_rb";
char driver_prints_ring_name[] = "driver_prints_rb";
char firmware_prints_ring_name[] = "firmware_prints_rb";
static int get_ring_id(hal_info *info, char *ring_name)
{
int rb_id;
for (rb_id = 0; rb_id < NUM_RING_BUFS; rb_id++) {
if (is_rb_name_match(&info->rb_infos[rb_id], ring_name)) {
return rb_id;
}
}
return -1;
}
//Implementation of the functions exposed in wifi_logger.h
/* Function to intiate logging */
wifi_error wifi_start_logging(wifi_interface_handle iface,
u32 verbose_level, u32 flags,
u32 max_interval_sec, u32 min_data_size,
char *buffer_name)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand = NULL;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
int ring_id = 0;
if (!(info->supported_logger_feature_set & LOGGER_RING_BUFFER)) {
ALOGE("%s: Ring buffer logging feature not supported %x", __FUNCTION__,
info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
/*
* No request id from caller, so generate one and pass it on to the driver.
* Generate one randomly.
*/
requestId = get_requestid();
if (buffer_name == NULL) {
ALOGE("%s: Invalid Ring Name. \n", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
ring_id = get_ring_id(info, buffer_name);
if (ring_id < 0) {
ALOGE("%s: Invalid Ring Buffer Name ", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_WIFI_LOGGER_START);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
ret = wifiLoggerCommand->put_u32(QCA_WLAN_VENDOR_ATTR_WIFI_LOGGER_RING_ID,
ring_id);
if (ret != WIFI_SUCCESS)
goto cleanup;
ret = wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WIFI_LOGGER_VERBOSE_LEVEL,
verbose_level);
if (ret != WIFI_SUCCESS)
goto cleanup;
ret = wifiLoggerCommand->put_u32(QCA_WLAN_VENDOR_ATTR_WIFI_LOGGER_FLAGS,
flags);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
ALOGV("%s: Logging Started for %s.", __FUNCTION__, buffer_name);
rb_start_logging(&info->rb_infos[ring_id], verbose_level,
flags, max_interval_sec, min_data_size);
cleanup:
delete wifiLoggerCommand;
return ret;
}
/* Function to get each ring related info */
wifi_error wifi_get_ring_buffers_status(wifi_interface_handle iface,
u32 *num_buffers,
wifi_ring_buffer_status *status)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
wifi_ring_buffer_status *rbs;
struct rb_info *rb_info;
int rb_id;
/* Check Supported logger capability */
if (!(info->supported_logger_feature_set & LOGGER_RING_BUFFER)) {
ALOGE("%s: Ring buffer logging feature not supported %x", __FUNCTION__,
info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
if ((*num_buffers) < NUM_RING_BUFS) {
ALOGE("%s: Input num_buffers:%u cannot be accommodated, "
"Total ring buffer num:%d", __FUNCTION__, *num_buffers,
NUM_RING_BUFS);
*num_buffers = 0;
return WIFI_ERROR_OUT_OF_MEMORY;
}
for (rb_id = 0; rb_id < NUM_RING_BUFS; rb_id++) {
rb_info = &info->rb_infos[rb_id];
rbs = status + rb_id;
get_rb_status(rb_info, rbs);
}
*num_buffers = NUM_RING_BUFS;
return WIFI_SUCCESS;
}
void push_out_all_ring_buffers(hal_info *info)
{
int rb_id;
for (rb_id = 0; rb_id < NUM_RING_BUFS; rb_id++) {
push_out_rb_data(&info->rb_infos[rb_id]);
}
}
void send_alert(hal_info *info, int reason_code)
{
wifi_alert_handler handler;
char alert_msg[20] = "Fatal Event";
pthread_mutex_lock(&info->ah_lock);
handler.on_alert = info->on_alert;
pthread_mutex_unlock(&info->ah_lock);
if (handler.on_alert) {
handler.on_alert(0, alert_msg, strlen(alert_msg), reason_code);
}
}
void WifiLoggerCommand::setFeatureSet(u32 *support) {
mSupportedSet = support;
}
/* Function to get the supported feature set for logging.*/
wifi_error wifi_get_logger_supported_feature_set(wifi_interface_handle iface,
u32 *support)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
/* No request id from caller, so generate one and pass it on to the driver.
* Generate one randomly.
*/
requestId = get_requestid();
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_GET_LOGGER_FEATURE_SET);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
ret = wifiLoggerCommand->put_u32(QCA_WLAN_VENDOR_ATTR_FEATURE_SET,
requestId);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
wifiLoggerCommand->setFeatureSet(support);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
/* Function to get the data in each ring for the given ring ID.*/
wifi_error wifi_get_ring_data(wifi_interface_handle iface,
char *ring_name)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
int ring_id = 0;
/* Check Supported logger capability */
if (!(info->supported_logger_feature_set & LOGGER_RING_BUFFER)) {
ALOGE("%s: Ring buffer logging feature not supported %x", __FUNCTION__,
info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
ring_id = get_ring_id(info, ring_name);
if (ring_id < 0) {
ALOGE("%s: Invalid Ring Buffer Name ", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
requestId = get_requestid();
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_GET_RING_DATA);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
if (wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WIFI_LOGGER_RING_ID, ring_id))
{
goto cleanup;
}
wifiLoggerCommand->attr_end(nlData);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
void WifiLoggerCommand::setVersionInfo(char *buffer, int buffer_size) {
mVersion = buffer;
mVersionLen = buffer_size;
}
/* Function to send enable request to the wifi driver.*/
wifi_error wifi_get_firmware_version(wifi_interface_handle iface,
char *buffer, int buffer_size)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
/* No request id from caller, so generate one and pass it on to the driver.
* Generate one randomly.
*/
requestId = get_requestid();
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_GET_WIFI_INFO);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
ret = wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WIFI_INFO_FIRMWARE_VERSION, requestId);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
wifiLoggerCommand->setVersionInfo(buffer, buffer_size);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
/* Function to get wlan driver version.*/
wifi_error wifi_get_driver_version(wifi_interface_handle iface,
char *buffer, int buffer_size)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
/* No request id from caller, so generate one and pass it on to the driver.
* Generate one randomly.
*/
requestId = get_requestid();
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_GET_WIFI_INFO);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
ret = wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WIFI_INFO_DRIVER_VERSION, requestId);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
wifiLoggerCommand->setVersionInfo(buffer, buffer_size);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
/* Function to get the Firmware memory dump. */
wifi_error wifi_get_firmware_memory_dump(wifi_interface_handle iface,
wifi_firmware_memory_dump_handler handler)
{
wifi_error ret;
int requestId;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
/* Check Supported logger capability */
if (!(info->supported_logger_feature_set &
WIFI_LOGGER_MEMORY_DUMP_SUPPORTED)) {
ALOGE("%s: Firmware memory dump logging feature not supported %x",
__FUNCTION__, info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
/* No request id from caller, so generate one and pass it on to the driver.
* Generate one randomly.
*/
requestId = get_requestid();
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_WIFI_LOGGER_MEMORY_DUMP);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
/* copy the callback into callback handler */
WifiLoggerCallbackHandler callbackHandler;
memset(&callbackHandler, 0, sizeof(callbackHandler));
callbackHandler.on_firmware_memory_dump = \
handler.on_firmware_memory_dump;
ret = wifiLoggerCommand->setCallbackHandler(callbackHandler);
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Send the msg and wait for the memory dump response */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
wifi_error wifi_set_log_handler(wifi_request_id id,
wifi_interface_handle iface,
wifi_ring_buffer_data_handler handler)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
pthread_mutex_lock(&info->lh_lock);
info->on_ring_buffer_data = handler.on_ring_buffer_data;
pthread_mutex_unlock(&info->lh_lock);
if (handler.on_ring_buffer_data == NULL) {
ALOGE("Set log handler is NULL");
return WIFI_ERROR_UNKNOWN;
}
return WIFI_SUCCESS;
}
wifi_error wifi_reset_log_handler(wifi_request_id id,
wifi_interface_handle iface)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
pthread_mutex_lock(&info->lh_lock);
info->on_ring_buffer_data = NULL;
pthread_mutex_unlock(&info->lh_lock);
return WIFI_SUCCESS;
}
wifi_error wifi_set_alert_handler(wifi_request_id id,
wifi_interface_handle iface,
wifi_alert_handler handler)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
if (handler.on_alert == NULL) {
ALOGE("Set alert handler is NULL");
return WIFI_ERROR_UNKNOWN;
}
pthread_mutex_lock(&info->ah_lock);
info->on_alert = handler.on_alert;
pthread_mutex_unlock(&info->ah_lock);
return WIFI_SUCCESS;
}
wifi_error wifi_reset_alert_handler(wifi_request_id id,
wifi_interface_handle iface)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
pthread_mutex_lock(&info->ah_lock);
info->on_alert = NULL;
pthread_mutex_unlock(&info->ah_lock);
return WIFI_SUCCESS;
}
/**
API to start packet fate monitoring.
- Once stared, monitoring should remain active until HAL is unloaded.
- When HAL is unloaded, all packet fate buffers should be cleared.
*/
wifi_error wifi_start_pkt_fate_monitoring(wifi_interface_handle iface)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
if (!(info->supported_logger_feature_set &
WIFI_LOGGER_PACKET_FATE_SUPPORTED)) {
ALOGE("%s: packet fate logging feature not supported %x",
__FUNCTION__, info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
if (info->fate_monitoring_enabled == true) {
ALOGV("Packet monitoring is already enabled");
return WIFI_SUCCESS;
}
info->pkt_fate_stats = (packet_fate_monitor_info *) malloc (
sizeof(packet_fate_monitor_info));
if (info->pkt_fate_stats == NULL) {
ALOGE("Failed to allocate memory for : %zu bytes",
sizeof(packet_fate_monitor_info));
return WIFI_ERROR_OUT_OF_MEMORY;
}
memset(info->pkt_fate_stats, 0, sizeof(packet_fate_monitor_info));
pthread_mutex_lock(&info->pkt_fate_stats_lock);
info->fate_monitoring_enabled = true;
pthread_mutex_unlock(&info->pkt_fate_stats_lock);
return WIFI_SUCCESS;
}
/**
API to retrieve fates of outbound packets.
- HAL implementation should fill |tx_report_bufs| with fates of
_first_ min(n_requested_fates, actual packets) frames
transmitted for the most recent association. The fate reports
should follow the same order as their respective packets.
- Packets reported by firmware, but not recognized by driver
should be included. However, the ordering of the corresponding
reports is at the discretion of HAL implementation.
- Framework may call this API multiple times for the same association.
- Framework will ensure |n_requested_fates <= MAX_FATE_LOG_LEN|.
- Framework will allocate and free the referenced storage.
*/
wifi_error wifi_get_tx_pkt_fates(wifi_interface_handle iface,
wifi_tx_report *tx_report_bufs,
size_t n_requested_fates,
size_t *n_provided_fates)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
wifi_tx_report_i *tx_fate_stats;
size_t i;
if (info->fate_monitoring_enabled != true) {
ALOGE("Packet monitoring is not yet triggered");
return WIFI_ERROR_UNINITIALIZED;
}
pthread_mutex_lock(&info->pkt_fate_stats_lock);
tx_fate_stats = &info->pkt_fate_stats->tx_fate_stats[0];
*n_provided_fates = min(n_requested_fates,
info->pkt_fate_stats->n_tx_stats_collected);
for (i=0; i < *n_provided_fates; i++) {
memcpy(tx_report_bufs[i].md5_prefix,
tx_fate_stats[i].md5_prefix, MD5_PREFIX_LEN);
tx_report_bufs[i].fate = tx_fate_stats[i].fate;
tx_report_bufs[i].frame_inf.payload_type =
tx_fate_stats[i].frame_inf.payload_type;
tx_report_bufs[i].frame_inf.driver_timestamp_usec =
tx_fate_stats[i].frame_inf.driver_timestamp_usec;
tx_report_bufs[i].frame_inf.firmware_timestamp_usec =
tx_fate_stats[i].frame_inf.firmware_timestamp_usec;
tx_report_bufs[i].frame_inf.frame_len =
tx_fate_stats[i].frame_inf.frame_len;
if (tx_report_bufs[i].frame_inf.payload_type == FRAME_TYPE_ETHERNET_II)
memcpy(tx_report_bufs[i].frame_inf.frame_content.ethernet_ii_bytes,
tx_fate_stats[i].frame_inf.frame_content,
min(tx_fate_stats[i].frame_inf.frame_len,
MAX_FRAME_LEN_ETHERNET));
else if (tx_report_bufs[i].frame_inf.payload_type ==
FRAME_TYPE_80211_MGMT)
memcpy(
tx_report_bufs[i].frame_inf.frame_content.ieee_80211_mgmt_bytes,
tx_fate_stats[i].frame_inf.frame_content,
min(tx_fate_stats[i].frame_inf.frame_len,
MAX_FRAME_LEN_80211_MGMT));
else
/* Currently framework is interested only two types(
* FRAME_TYPE_ETHERNET_II and FRAME_TYPE_80211_MGMT) of packets, so
* ignore the all other types of packets received from driver */
ALOGI("Unknown format packet");
}
pthread_mutex_unlock(&info->pkt_fate_stats_lock);
return WIFI_SUCCESS;
}
/**
API to retrieve fates of inbound packets.
- HAL implementation should fill |rx_report_bufs| with fates of
_first_ min(n_requested_fates, actual packets) frames
received for the most recent association. The fate reports
should follow the same order as their respective packets.
- Packets reported by firmware, but not recognized by driver
should be included. However, the ordering of the corresponding
reports is at the discretion of HAL implementation.
- Framework may call this API multiple times for the same association.
- Framework will ensure |n_requested_fates <= MAX_FATE_LOG_LEN|.
- Framework will allocate and free the referenced storage.
*/
wifi_error wifi_get_rx_pkt_fates(wifi_interface_handle iface,
wifi_rx_report *rx_report_bufs,
size_t n_requested_fates,
size_t *n_provided_fates)
{
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
wifi_rx_report_i *rx_fate_stats;
size_t i;
if (info->fate_monitoring_enabled != true) {
ALOGE("Packet monitoring is not yet triggered");
return WIFI_ERROR_UNINITIALIZED;
}
pthread_mutex_lock(&info->pkt_fate_stats_lock);
rx_fate_stats = &info->pkt_fate_stats->rx_fate_stats[0];
*n_provided_fates = min(n_requested_fates,
info->pkt_fate_stats->n_rx_stats_collected);
for (i=0; i < *n_provided_fates; i++) {
memcpy(rx_report_bufs[i].md5_prefix,
rx_fate_stats[i].md5_prefix, MD5_PREFIX_LEN);
rx_report_bufs[i].fate = rx_fate_stats[i].fate;
rx_report_bufs[i].frame_inf.payload_type =
rx_fate_stats[i].frame_inf.payload_type;
rx_report_bufs[i].frame_inf.driver_timestamp_usec =
rx_fate_stats[i].frame_inf.driver_timestamp_usec;
rx_report_bufs[i].frame_inf.firmware_timestamp_usec =
rx_fate_stats[i].frame_inf.firmware_timestamp_usec;
rx_report_bufs[i].frame_inf.frame_len =
rx_fate_stats[i].frame_inf.frame_len;
if (rx_report_bufs[i].frame_inf.payload_type == FRAME_TYPE_ETHERNET_II)
memcpy(rx_report_bufs[i].frame_inf.frame_content.ethernet_ii_bytes,
rx_fate_stats[i].frame_inf.frame_content,
min(rx_fate_stats[i].frame_inf.frame_len,
MAX_FRAME_LEN_ETHERNET));
else if (rx_report_bufs[i].frame_inf.payload_type ==
FRAME_TYPE_80211_MGMT)
memcpy(
rx_report_bufs[i].frame_inf.frame_content.ieee_80211_mgmt_bytes,
rx_fate_stats[i].frame_inf.frame_content,
min(rx_fate_stats[i].frame_inf.frame_len,
MAX_FRAME_LEN_80211_MGMT));
else
/* Currently framework is interested only two types(
* FRAME_TYPE_ETHERNET_II and FRAME_TYPE_80211_MGMT) of packets, so
* ignore the all other types of packets received from driver */
ALOGI("Unknown format packet");
}
pthread_mutex_unlock(&info->pkt_fate_stats_lock);
return WIFI_SUCCESS;
}
WifiLoggerCommand::WifiLoggerCommand(wifi_handle handle, int id, u32 vendor_id, u32 subcmd)
: WifiVendorCommand(handle, id, vendor_id, subcmd)
{
mVersion = NULL;
mVersionLen = 0;
mRequestId = id;
memset(&mHandler, 0,sizeof(mHandler));
mWaitforRsp = false;
mMoreData = false;
mSupportedSet = NULL;
}
WifiLoggerCommand::~WifiLoggerCommand()
{
unregisterVendorHandler(mVendor_id, mSubcmd);
}
/* This function implements creation of Vendor command */
wifi_error WifiLoggerCommand::create() {
wifi_error ret = mMsg.create(NL80211_CMD_VENDOR, 0, 0);
if (ret != WIFI_SUCCESS)
return ret;
/* Insert the oui in the msg */
ret = mMsg.put_u32(NL80211_ATTR_VENDOR_ID, mVendor_id);
if (ret != WIFI_SUCCESS)
goto out;
/* Insert the subcmd in the msg */
ret = mMsg.put_u32(NL80211_ATTR_VENDOR_SUBCMD, mSubcmd);
if (ret != WIFI_SUCCESS)
goto out;
ALOGV("%s: mVendor_id = %d, Subcmd = %d.",
__FUNCTION__, mVendor_id, mSubcmd);
out:
return ret;
}
void rb_timerhandler(hal_info *info)
{
struct timeval now;
int rb_id;
gettimeofday(&now,NULL);
for (rb_id = 0; rb_id < NUM_RING_BUFS; rb_id++) {
rb_check_for_timeout(&info->rb_infos[rb_id], &now);
}
}
wifi_error wifi_logger_ring_buffers_init(hal_info *info)
{
wifi_error ret;
if (!(info->supported_logger_feature_set & LOGGER_RING_BUFFER)) {
ALOGE("%s: Ring buffer logging feature not supported %x", __FUNCTION__,
info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
ret = rb_init(info, &info->rb_infos[POWER_EVENTS_RB_ID],
POWER_EVENTS_RB_ID,
POWER_EVENTS_RB_BUF_SIZE,
POWER_EVENTS_NUM_BUFS,
power_events_ring_name);
if (ret != WIFI_SUCCESS) {
ALOGE("Failed to initialize power events ring buffer");
goto cleanup;
}
ret = rb_init(info, &info->rb_infos[CONNECTIVITY_EVENTS_RB_ID],
CONNECTIVITY_EVENTS_RB_ID,
CONNECTIVITY_EVENTS_RB_BUF_SIZE,
CONNECTIVITY_EVENTS_NUM_BUFS,
connectivity_events_ring_name);
if (ret != WIFI_SUCCESS) {
ALOGE("Failed to initialize connectivity events ring buffer");
goto cleanup;
}
ret = rb_init(info, &info->rb_infos[PKT_STATS_RB_ID],
PKT_STATS_RB_ID,
PKT_STATS_RB_BUF_SIZE,
PKT_STATS_NUM_BUFS,
pkt_stats_ring_name);
if (ret != WIFI_SUCCESS) {
ALOGE("Failed to initialize per packet stats ring buffer");
goto cleanup;
}
ret = rb_init(info, &info->rb_infos[DRIVER_PRINTS_RB_ID],
DRIVER_PRINTS_RB_ID,
DRIVER_PRINTS_RB_BUF_SIZE,
DRIVER_PRINTS_NUM_BUFS,
driver_prints_ring_name);
if (ret != WIFI_SUCCESS) {
ALOGE("Failed to initialize driver prints ring buffer");
goto cleanup;
}
ret = rb_init(info, &info->rb_infos[FIRMWARE_PRINTS_RB_ID],
FIRMWARE_PRINTS_RB_ID,
FIRMWARE_PRINTS_RB_BUF_SIZE,
FIRMWARE_PRINTS_NUM_BUFS,
firmware_prints_ring_name);
if (ret != WIFI_SUCCESS) {
ALOGE("Failed to initialize firmware prints ring buffer");
goto cleanup;
}
pthread_mutex_init(&info->lh_lock, NULL);
pthread_mutex_init(&info->ah_lock, NULL);
return ret;
cleanup:
wifi_logger_ring_buffers_deinit(info);
return ret;
}
void wifi_logger_ring_buffers_deinit(hal_info *info)
{
int i;
if (!(info->supported_logger_feature_set & LOGGER_RING_BUFFER))
return;
for (i = 0; i < NUM_RING_BUFS; i++) {
rb_deinit(&info->rb_infos[i]);
}
pthread_mutex_destroy(&info->lh_lock);
pthread_mutex_destroy(&info->ah_lock);
}
/* Callback handlers registered for nl message send */
static int error_handler_wifi_logger(struct sockaddr_nl *nla,
struct nlmsgerr *err,
void *arg)
{
struct sockaddr_nl *tmp;
int *ret = (int *)arg;
tmp = nla;
*ret = err->error;
ALOGE("%s: Error code:%d (%s)", __FUNCTION__, *ret, strerror(-(*ret)));
return NL_STOP;
}
/* Callback handlers registered for nl message send */
static int ack_handler_wifi_logger(struct nl_msg *msg, void *arg)
{
int *ret = (int *)arg;
struct nl_msg * a;
a = msg;
*ret = 0;
return NL_STOP;
}
/* Callback handlers registered for nl message send */
static int finish_handler_wifi_logger(struct nl_msg *msg, void *arg)
{
int *ret = (int *)arg;
struct nl_msg * a;
a = msg;
*ret = 0;
return NL_SKIP;
}
wifi_error WifiLoggerCommand::requestEvent()
{
int status;
wifi_error res = WIFI_SUCCESS;
struct nl_cb *cb;
cb = nl_cb_alloc(NL_CB_DEFAULT);
if (!cb) {
ALOGE("%s: Callback allocation failed",__FUNCTION__);
res = WIFI_ERROR_OUT_OF_MEMORY;
goto out;
}
/* Send message */
status = nl_send_auto_complete(mInfo->cmd_sock, mMsg.getMessage());
if (status < 0) {
res = mapKernelErrortoWifiHalError(status);
goto out;
}
status = 1;
nl_cb_err(cb, NL_CB_CUSTOM, error_handler_wifi_logger, &status);
nl_cb_set(cb, NL_CB_FINISH, NL_CB_CUSTOM, finish_handler_wifi_logger, &status);
nl_cb_set(cb, NL_CB_ACK, NL_CB_CUSTOM, ack_handler_wifi_logger, &status);
/* Err is populated as part of finish_handler. */
while (status > 0){
nl_recvmsgs(mInfo->cmd_sock, cb);
}
ALOGV("%s: Msg sent, status=%d, mWaitForRsp=%d", __FUNCTION__, status, mWaitforRsp);
/* Only wait for the asynchronous event if HDD returns success, res=0 */
if (!status && (mWaitforRsp == true)) {
struct timespec abstime;
abstime.tv_sec = 4;
abstime.tv_nsec = 0;
res = mCondition.wait(abstime);
if (res == WIFI_ERROR_TIMED_OUT)
ALOGE("%s: Time out happened.", __FUNCTION__);
ALOGV("%s: Command invoked return value:%d, mWaitForRsp=%d",
__FUNCTION__, res, mWaitforRsp);
}
out:
/* Cleanup the mMsg */
mMsg.destroy();
return res;
}
wifi_error WifiLoggerCommand::requestResponse()
{
return WifiCommand::requestResponse(mMsg);
}
int WifiLoggerCommand::handleResponse(WifiEvent &reply) {
int len = 0, version;
char version_type[20];
char* memBuffer = NULL;
FILE* memDumpFilePtr = NULL;
WifiVendorCommand::handleResponse(reply);
memset(version_type, 0, 20);
switch(mSubcmd)
{
case QCA_NL80211_VENDOR_SUBCMD_GET_WIFI_INFO:
{
struct nlattr *tb_vendor[QCA_WLAN_VENDOR_ATTR_WIFI_INFO_GET_MAX + 1];
nla_parse(tb_vendor, QCA_WLAN_VENDOR_ATTR_WIFI_INFO_GET_MAX,
(struct nlattr *)mVendorData, mDataLen, NULL);
if (tb_vendor[QCA_WLAN_VENDOR_ATTR_WIFI_INFO_DRIVER_VERSION]) {
len = nla_len(tb_vendor[
QCA_WLAN_VENDOR_ATTR_WIFI_INFO_DRIVER_VERSION]);
memcpy(version_type, "Driver", strlen("Driver"));
version = QCA_WLAN_VENDOR_ATTR_WIFI_INFO_DRIVER_VERSION;
} else if (
tb_vendor[QCA_WLAN_VENDOR_ATTR_WIFI_INFO_FIRMWARE_VERSION]) {
len = nla_len(
tb_vendor[
QCA_WLAN_VENDOR_ATTR_WIFI_INFO_FIRMWARE_VERSION]);
memcpy(version_type, "Firmware", strlen("Firmware"));
version = QCA_WLAN_VENDOR_ATTR_WIFI_INFO_FIRMWARE_VERSION;
}
if (len && mVersion && mVersionLen) {
memset(mVersion, 0, mVersionLen);
/* if len is greater than the incoming length then
accommodate 1 lesser than mVersionLen to have the
string terminated with '\0' */
len = (len > mVersionLen)? (mVersionLen - 1) : len;
memcpy(mVersion, nla_data(tb_vendor[version]), len);
ALOGV("%s: WLAN %s version : %s ", __FUNCTION__,
version_type, mVersion);
}
}
break;
case QCA_NL80211_VENDOR_SUBCMD_GET_LOGGER_FEATURE_SET:
{
struct nlattr *tb_vendor[QCA_WLAN_VENDOR_ATTR_FEATURE_SET_MAX + 1];
nla_parse(tb_vendor, QCA_WLAN_VENDOR_ATTR_FEATURE_SET_MAX,
(struct nlattr *)mVendorData, mDataLen, NULL);
if (tb_vendor[QCA_WLAN_VENDOR_ATTR_FEATURE_SET]) {
*mSupportedSet =
nla_get_u32(tb_vendor[QCA_WLAN_VENDOR_ATTR_FEATURE_SET]);
#ifdef QC_HAL_DEBUG
ALOGV("%s: Supported Feature Set : val 0x%x",
__FUNCTION__, *mSupportedSet);
#endif
}
}
break;
case QCA_NL80211_VENDOR_SUBCMD_WIFI_LOGGER_MEMORY_DUMP:
{
u32 memDumpSize = 0;
int numRecordsRead = 0;
u32 remaining = 0;
char* buffer = NULL;
struct nlattr *tbVendor[
QCA_WLAN_VENDOR_ATTR_LOGGER_RESULTS_MAX + 1];
nla_parse(tbVendor, QCA_WLAN_VENDOR_ATTR_LOGGER_RESULTS_MAX,
(struct nlattr *)mVendorData,
mDataLen, NULL);
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_LOGGER_RESULTS_MEMDUMP_SIZE]) {
ALOGE("%s: LOGGER_RESULTS_MEMDUMP_SIZE not"
"found", __FUNCTION__);
break;
}
memDumpSize = nla_get_u32(
tbVendor[QCA_WLAN_VENDOR_ATTR_LOGGER_RESULTS_MEMDUMP_SIZE]
);
/* Allocate the memory indicated in memDumpSize */
memBuffer = (char*) malloc(sizeof(char) * memDumpSize);
if (memBuffer == NULL) {
ALOGE("%s: No Memory for allocating Buffer size of %d",
__func__, memDumpSize);
break;
}
memset(memBuffer, 0, sizeof(char) * memDumpSize);
ALOGI("%s: Memory Dump size: %u", __func__,
memDumpSize);
/* Open the proc or debugfs filesystem */
memDumpFilePtr = fopen(LOGGER_MEMDUMP_FILENAME, "r");
if (memDumpFilePtr == NULL) {
ALOGE("Failed to open %s file", LOGGER_MEMDUMP_FILENAME);
break;
}
/* Read the memDumpSize value at once */
numRecordsRead = fread(memBuffer, 1, memDumpSize,
memDumpFilePtr);
if (numRecordsRead <= 0 ||
numRecordsRead != (int) memDumpSize) {
ALOGE("%s: Read %d failed for reading at once.",
__func__, numRecordsRead);
/* Lets try to read in chunks */
rewind(memDumpFilePtr);
remaining = memDumpSize;
buffer = memBuffer;
while (remaining) {
u32 readSize = 0;
if (remaining >= LOGGER_MEMDUMP_CHUNKSIZE) {
readSize = LOGGER_MEMDUMP_CHUNKSIZE;
}
else {
readSize = remaining;
}
numRecordsRead = fread(buffer, 1,
readSize, memDumpFilePtr);
if (numRecordsRead) {
remaining -= readSize;
buffer += readSize;
ALOGV("%s: Read successful for size:%u "
"remaining:%u", __func__, readSize,
remaining);
}
else {
ALOGE("%s: Chunk read failed for size:%u",
__func__, readSize);
break;
}
}
}
/* After successful read, call the callback handler*/
if (mHandler.on_firmware_memory_dump) {
mHandler.on_firmware_memory_dump(memBuffer,
memDumpSize);
}
}
break;
case QCA_NL80211_VENDOR_SUBCMD_GET_WAKE_REASON_STATS:
{
struct nlattr *tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_MAX +1];
/* parse and extract wake reason stats */
nla_parse(tbVendor, QCA_WLAN_VENDOR_ATTR_WAKE_STATS_MAX,
(struct nlattr *)mVendorData,
mDataLen, NULL);
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_CMD_EVENT_WAKE]) {
ALOGE("%s: TOTAL_CMD_EVENT_WAKE not found", __FUNCTION__);
break;
}
mGetWakeStats->total_cmd_event_wake = nla_get_u32(
tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_CMD_EVENT_WAKE]);
if (mGetWakeStats->total_cmd_event_wake &&
mGetWakeStats->cmd_event_wake_cnt) {
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_CMD_EVENT_WAKE_CNT_PTR]) {
ALOGE("%s: CMD_EVENT_WAKE_CNT_PTR not found", __FUNCTION__);
break;
}
len = nla_len(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_CMD_EVENT_WAKE_CNT_PTR]);
mGetWakeStats->cmd_event_wake_cnt_used =
(len < mGetWakeStats->cmd_event_wake_cnt_sz) ? len :
mGetWakeStats->cmd_event_wake_cnt_sz;
memcpy(mGetWakeStats->cmd_event_wake_cnt,
nla_data(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_CMD_EVENT_WAKE_CNT_PTR]),
(mGetWakeStats->cmd_event_wake_cnt_used * sizeof(int)));
} else
mGetWakeStats->cmd_event_wake_cnt_used = 0;
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_DRIVER_FW_LOCAL_WAKE])
{
ALOGE("%s: TOTAL_DRIVER_FW_LOCAL_WAKE not found", __FUNCTION__);
break;
}
mGetWakeStats->total_driver_fw_local_wake = nla_get_u32(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_DRIVER_FW_LOCAL_WAKE]);
if (mGetWakeStats->total_driver_fw_local_wake &&
mGetWakeStats->driver_fw_local_wake_cnt) {
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_DRIVER_FW_LOCAL_WAKE_CNT_PTR])
{
ALOGE("%s: DRIVER_FW_LOCAL_WAKE_CNT_PTR not found",
__FUNCTION__);
break;
}
len = nla_len(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_DRIVER_FW_LOCAL_WAKE_CNT_PTR]);
mGetWakeStats->driver_fw_local_wake_cnt_used =
(len < mGetWakeStats->driver_fw_local_wake_cnt_sz) ? len :
mGetWakeStats->driver_fw_local_wake_cnt_sz;
memcpy(mGetWakeStats->driver_fw_local_wake_cnt,
nla_data(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_DRIVER_FW_LOCAL_WAKE_CNT_PTR]),
(mGetWakeStats->driver_fw_local_wake_cnt_used * sizeof(int)));
} else
mGetWakeStats->driver_fw_local_wake_cnt_used = 0;
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_RX_DATA_WAKE]) {
ALOGE("%s: TOTAL_RX_DATA_WAKE not found", __FUNCTION__);
break;
}
mGetWakeStats->total_rx_data_wake = nla_get_u32(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_TOTAL_RX_DATA_WAKE]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_UNICAST_CNT]) {
ALOGE("%s: RX_UNICAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_details.rx_unicast_cnt = nla_get_u32(
tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_UNICAST_CNT]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_MULTICAST_CNT]) {
ALOGE("%s: RX_MULTICAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_details.rx_multicast_cnt = nla_get_u32(
tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_MULTICAST_CNT]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_BROADCAST_CNT]) {
ALOGE("%s: RX_BROADCAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_details.rx_broadcast_cnt = nla_get_u32(
tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_RX_BROADCAST_CNT]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP_PKT]) {
ALOGE("%s: ICMP_PKT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_pkt_classification_info.icmp_pkt =
nla_get_u32(tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP_PKT]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_PKT]) {
ALOGE("%s: ICMP6_PKT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_pkt_classification_info.icmp6_pkt =
nla_get_u32(tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_PKT]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_RA]) {
ALOGE("%s: ICMP6_RA not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_pkt_classification_info.icmp6_ra =
nla_get_u32(tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_RA]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_NA]) {
ALOGE("%s: ICMP6_NA not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_pkt_classification_info.icmp6_na =
nla_get_u32(tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_NA]);
if (!tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_NS]) {
ALOGE("%s: ICMP6_NS not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_wake_pkt_classification_info.icmp6_ns =
nla_get_u32(tbVendor[QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_NS]);
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP4_RX_MULTICAST_CNT]) {
ALOGE("%s: ICMP4_RX_MULTICAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_multicast_wake_pkt_info.ipv4_rx_multicast_addr_cnt =
nla_get_u32(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP4_RX_MULTICAST_CNT]);
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_RX_MULTICAST_CNT]) {
ALOGE("%s: ICMP6_RX_MULTICAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_multicast_wake_pkt_info.ipv6_rx_multicast_addr_cnt =
nla_get_u32(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_ICMP6_RX_MULTICAST_CNT]);
if (!tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_OTHER_RX_MULTICAST_CNT]) {
ALOGE("%s: OTHER_RX_MULTICAST_CNT not found", __FUNCTION__);
break;
}
mGetWakeStats->rx_multicast_wake_pkt_info.other_rx_multicast_addr_cnt =
nla_get_u32(tbVendor[
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_OTHER_RX_MULTICAST_CNT]);
}
break;
default :
ALOGE("%s: Wrong Wifi Logger subcmd response received %d",
__FUNCTION__, mSubcmd);
}
/* free the allocated memory */
if (memBuffer) {
free(memBuffer);
}
if (memDumpFilePtr) {
fclose(memDumpFilePtr);
}
return NL_SKIP;
}
/* This function will be the main handler for incoming (from driver)
* WIFI_LOGGER_SUBCMD.
* Calls the appropriate callback handler after parsing the vendor data.
*/
int WifiLoggerCommand::handleEvent(WifiEvent &event)
{
WifiVendorCommand::handleEvent(event);
switch(mSubcmd)
{
default:
/* Error case should not happen print log */
ALOGE("%s: Wrong subcmd received %d", __func__, mSubcmd);
break;
}
return NL_SKIP;
}
wifi_error WifiLoggerCommand::setCallbackHandler(WifiLoggerCallbackHandler nHandler)
{
wifi_error res;
mHandler = nHandler;
res = registerVendorHandler(mVendor_id, mSubcmd);
if (res != WIFI_SUCCESS) {
ALOGE("%s: Unable to register Vendor Handler Vendor Id=0x%x subcmd=%u",
__FUNCTION__, mVendor_id, mSubcmd);
}
return res;
}
void WifiLoggerCommand::unregisterHandler(u32 subCmd)
{
unregisterVendorHandler(mVendor_id, subCmd);
}
wifi_error WifiLoggerCommand::timed_wait(u16 wait_time)
{
struct timespec absTime;
absTime.tv_sec = wait_time;
absTime.tv_nsec = 0;
return mCondition.wait(absTime);
}
void WifiLoggerCommand::waitForRsp(bool wait)
{
mWaitforRsp = wait;
}
/* Function to get Driver memory dump */
wifi_error wifi_get_driver_memory_dump(wifi_interface_handle iface,
wifi_driver_memory_dump_callbacks callback)
{
FILE *fp;
size_t fileSize, remaining, readSize;
size_t numRecordsRead;
char *memBuffer = NULL, *buffer = NULL;
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
/* Check Supported logger capability */
if (!(info->supported_logger_feature_set &
WIFI_LOGGER_DRIVER_DUMP_SUPPORTED)) {
ALOGE("%s: Driver memory dump logging feature not supported %x",
__FUNCTION__, info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
/* Open File */
fp = fopen(DRIVER_MEMDUMP_FILENAME, "r");
if (fp == NULL) {
ALOGE("Failed to open %s file", DRIVER_MEMDUMP_FILENAME);
return WIFI_ERROR_UNKNOWN;
}
memBuffer = (char *) malloc(DRIVER_MEMDUMP_MAX_FILESIZE);
if (memBuffer == NULL) {
ALOGE("%s: malloc failed for size %d", __FUNCTION__,
DRIVER_MEMDUMP_MAX_FILESIZE);
fclose(fp);
return WIFI_ERROR_OUT_OF_MEMORY;
}
/* Read the DRIVER_MEMDUMP_MAX_FILESIZE value at once */
numRecordsRead = fread(memBuffer, 1, DRIVER_MEMDUMP_MAX_FILESIZE, fp);
if (feof(fp))
fileSize = numRecordsRead;
else if (numRecordsRead == DRIVER_MEMDUMP_MAX_FILESIZE) {
ALOGE("%s: Reading only first %zu bytes from file", __FUNCTION__,
numRecordsRead);
fileSize = numRecordsRead;
} else {
ALOGE("%s: Read failed for reading at once, ret: %zu. Trying to read in"
"chunks", __FUNCTION__, numRecordsRead);
/* Lets try to read in chunks */
rewind(fp);
remaining = DRIVER_MEMDUMP_MAX_FILESIZE;
buffer = memBuffer;
fileSize = 0;
while (remaining) {
readSize = 0;
if (remaining >= LOGGER_MEMDUMP_CHUNKSIZE)
readSize = LOGGER_MEMDUMP_CHUNKSIZE;
else
readSize = remaining;
numRecordsRead = fread(buffer, 1, readSize, fp);
fileSize += numRecordsRead;
if (feof(fp))
break;
else if (numRecordsRead == readSize) {
remaining -= readSize;
buffer += readSize;
ALOGV("%s: Read successful for size:%zu remaining:%zu",
__FUNCTION__, readSize, remaining);
} else {
ALOGE("%s: Chunk read failed for size:%zu", __FUNCTION__,
readSize);
free(memBuffer);
memBuffer = NULL;
fclose(fp);
return WIFI_ERROR_UNKNOWN;
}
}
}
ALOGV("%s filename: %s fileSize: %zu", __FUNCTION__, DRIVER_MEMDUMP_FILENAME,
fileSize);
/* After successful read, call the callback function*/
callback.on_driver_memory_dump(memBuffer, fileSize);
/* free the allocated memory */
free(memBuffer);
fclose(fp);
return WIFI_SUCCESS;
}
/* Function to get wake lock stats */
wifi_error wifi_get_wake_reason_stats(wifi_interface_handle iface,
WLAN_DRIVER_WAKE_REASON_CNT *wifi_wake_reason_cnt)
{
int requestId;
wifi_error ret;
WifiLoggerCommand *wifiLoggerCommand;
struct nlattr *nlData;
interface_info *ifaceInfo = getIfaceInfo(iface);
wifi_handle wifiHandle = getWifiHandle(iface);
hal_info *info = getHalInfo(wifiHandle);
/* Check Supported logger capability */
if (!(info->supported_logger_feature_set &
WIFI_LOGGER_WAKE_LOCK_SUPPORTED)) {
ALOGE("%s: Wake lock logging feature not supported %x",
__FUNCTION__, info->supported_logger_feature_set);
return WIFI_ERROR_NOT_SUPPORTED;
}
/* No request id from caller, so generate one and pass it on to the driver.
* Generate it randomly.
*/
requestId = get_requestid();
if (!wifi_wake_reason_cnt) {
ALOGE("%s: Invalid buffer provided. Exit.",
__FUNCTION__);
return WIFI_ERROR_INVALID_ARGS;
}
wifiLoggerCommand = new WifiLoggerCommand(
wifiHandle,
requestId,
OUI_QCA,
QCA_NL80211_VENDOR_SUBCMD_GET_WAKE_REASON_STATS);
if (wifiLoggerCommand == NULL) {
ALOGE("%s: Error WifiLoggerCommand NULL", __FUNCTION__);
return WIFI_ERROR_UNKNOWN;
}
/* Create the NL message. */
ret = wifiLoggerCommand->create();
if (ret != WIFI_SUCCESS)
goto cleanup;
/* Set the interface Id of the message. */
ret = wifiLoggerCommand->set_iface_id(ifaceInfo->name);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->getWakeStatsRspParams(wifi_wake_reason_cnt);
/* Add the vendor specific attributes for the NL command. */
nlData = wifiLoggerCommand->attr_start(NL80211_ATTR_VENDOR_DATA);
if (!nlData)
goto cleanup;
ret = wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_CMD_EVENT_WAKE_CNT_SZ,
wifi_wake_reason_cnt->cmd_event_wake_cnt_sz);
if (ret != WIFI_SUCCESS)
goto cleanup;
ret = wifiLoggerCommand->put_u32(
QCA_WLAN_VENDOR_ATTR_WAKE_STATS_DRIVER_FW_LOCAL_WAKE_CNT_SZ,
wifi_wake_reason_cnt->driver_fw_local_wake_cnt_sz);
if (ret != WIFI_SUCCESS)
goto cleanup;
wifiLoggerCommand->attr_end(nlData);
/* Send the msg and wait for a response. */
ret = wifiLoggerCommand->requestResponse();
if (ret != WIFI_SUCCESS)
ALOGE("%s: Error %d happened. ", __FUNCTION__, ret);
cleanup:
delete wifiLoggerCommand;
return ret;
}
void WifiLoggerCommand::getWakeStatsRspParams(
WLAN_DRIVER_WAKE_REASON_CNT *wifi_wake_reason_cnt)
{
mGetWakeStats = wifi_wake_reason_cnt;
}