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android / device / generic / goldfish / 945e2d3e34de6eee63bfff624861d555d96aa679 / . / wifi / wifi_hal / wifi_hal.cpp
blob: 62ac061b383f81a9f8f1f3c71935667de39b6ff6 [file] [log] [blame]
/*
* Copyright (C) 2017 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <memory>
#include "halstate.h"
#include "info.h"
#include "interface.h"
template<typename>
struct NotSupportedFunction;
template<typename R, typename... Args>
struct NotSupportedFunction<R (*)(Args...)> {
static constexpr R invoke(Args...) { return WIFI_ERROR_NOT_SUPPORTED; }
};
template<typename... Args>
struct NotSupportedFunction<void (*)(Args...)> {
static constexpr void invoke(Args...) { }
};
template<typename T>
void notSupported(T& val) {
val = &NotSupportedFunction<T>::invoke;
}
HalState* asHalState(wifi_handle h) {
return reinterpret_cast<HalState*>(h);
}
Info* asInfo(wifi_handle h) {
return asHalState(h)->info();
}
Interface* asInterface(wifi_interface_handle h) {
return reinterpret_cast<Interface*>(h);
}
wifi_error wifi_initialize(wifi_handle* handle) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
// Make the HAL state static inside the function for lazy construction. When
// stopping we want to keep track of the current HAL state because if the
// HAL starts again we need to know if we're in a state where we can start
// or not. If we're stopping with the intention of never starting back up
// again we could destroy the HAL state. Unfortunately there is no
// distinction between these two events so the safe choice is to leak this
// memory and always keep track of the HAL state. This is allocated on the
// heap instead of the stack to prevent any destructors being called when
// the dynamic library is being unloaded since the program state could be
// unreliable at this point.
static HalState* sHalState = new HalState();
if (!sHalState->init()) {
return WIFI_ERROR_UNKNOWN;
}
*handle = reinterpret_cast<wifi_handle>(sHalState);
return WIFI_SUCCESS;
}
void wifi_cleanup(wifi_handle handle, wifi_cleaned_up_handler handler) {
if (handle == nullptr) {
return;
}
std::condition_variable condition;
std::mutex mutex;
std::unique_lock<std::mutex> lock(mutex);
bool stopped = false;
// This lambda will be called when the stop completes. That will notify the
// condition variable and this function will wake up and exit. This ensures
// that this function is synchronous. The boolean is to ensure that when
// waiting we're protected against spurious wakeups, we only exit once the
// callback has signaled that it's been called.
auto callback = [&mutex, &stopped, &condition] {
std::unique_lock<std::mutex> lock(mutex);
stopped = true;
condition.notify_all();
};
if (asHalState(handle)->stop(callback)) {
// The handler succeeded and will call our callback, wait for it. If the
// stop call did not succeed we can't wait for this condition since our
// callback will never call notify on it.
while (!stopped) {
condition.wait(lock);
}
}
// The HAL seems to expect this callback to happen on the same thread, or at
// least that's what happens in other WiFi HALs. This is why this method has
// to be synchronous.
handler(handle);
}
void wifi_event_loop(wifi_handle handle) {
if (handle == nullptr) {
return;
}
asHalState(handle)->eventLoop();
}
wifi_error wifi_get_supported_feature_set(wifi_interface_handle handle,
feature_set* set) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getSupportedFeatureSet(set);
}
wifi_error wifi_get_ifaces(wifi_handle handle,
int* num,
wifi_interface_handle** interfaces) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInfo(handle)->getInterfaces(num, interfaces);
}
wifi_error wifi_get_iface_name(wifi_interface_handle handle,
char* name,
size_t size) {
if (handle == nullptr || (name == nullptr && size > 0)) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getName(name, size);
}
wifi_error wifi_get_link_stats(wifi_request_id id,
wifi_interface_handle handle,
wifi_stats_result_handler handler) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getLinkStats(id, handler);
}
wifi_error wifi_set_link_stats(wifi_interface_handle handle,
wifi_link_layer_params params) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->setLinkStats(params);
}
wifi_error wifi_set_alert_handler(wifi_request_id id,
wifi_interface_handle handle,
wifi_alert_handler handler) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->setAlertHandler(id, handler);
}
wifi_error wifi_reset_alert_handler(wifi_request_id id,
wifi_interface_handle handle) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->resetAlertHandler(id);
}
wifi_error wifi_get_firmware_version(wifi_interface_handle handle,
char* buffer,
int buffer_size) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getFirmwareVersion(buffer, buffer_size);
}
wifi_error wifi_get_driver_version(wifi_interface_handle handle,
char* buffer,
int buffer_size) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getDriverVersion(buffer, buffer_size);
}
wifi_error wifi_set_scanning_mac_oui(wifi_interface_handle handle,
oui scan_oui) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->setScanningMacOui(scan_oui);
}
wifi_error wifi_clear_link_stats(wifi_interface_handle handle,
u32 stats_clear_req_mask,
u32 *stats_clear_rsp_mask,
u8 stop_req,
u8 *stop_rsp) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->clearLinkStats(stats_clear_req_mask,
stats_clear_rsp_mask,
stop_req,
stop_rsp);
}
wifi_error wifi_get_valid_channels(wifi_interface_handle handle,
int band,
int max_channels,
wifi_channel *channels,
int *num_channels)
{
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getValidChannels(band,
max_channels,
channels,
num_channels);
}
wifi_error wifi_start_logging(wifi_interface_handle handle,
u32 verbose_level,
u32 flags,
u32 max_interval_sec,
u32 min_data_size,
char *ring_name) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->startLogging(verbose_level,
flags,
max_interval_sec,
min_data_size,
ring_name);
}
wifi_error wifi_set_country_code(wifi_interface_handle handle,
const char *country_code) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->setCountryCode(country_code);
}
wifi_error wifi_set_log_handler(wifi_request_id id,
wifi_interface_handle handle,
wifi_ring_buffer_data_handler handler) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->setLogHandler(id, handler);
}
wifi_error wifi_get_ring_buffers_status(wifi_interface_handle handle,
u32 *num_rings,
wifi_ring_buffer_status *status) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getRingBuffersStatus(num_rings, status);
}
wifi_error wifi_get_logger_supported_feature_set(wifi_interface_handle handle,
unsigned int *support) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getLoggerSupportedFeatureSet(support);
}
wifi_error wifi_get_ring_data(wifi_interface_handle handle, char *ring_name) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getRingData(ring_name);
}
wifi_error wifi_configure_nd_offload(wifi_interface_handle handle, u8 enable) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->configureNdOffload(enable);
}
wifi_error wifi_start_pkt_fate_monitoring(wifi_interface_handle handle) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->startPacketFateMonitoring();
}
wifi_error wifi_get_tx_pkt_fates(wifi_interface_handle handle,
wifi_tx_report *tx_report_bufs,
size_t n_requested_fates,
size_t *n_provided_fates) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getTxPacketFates(tx_report_bufs,
n_requested_fates,
n_provided_fates);
}
wifi_error wifi_get_rx_pkt_fates(wifi_interface_handle handle,
wifi_rx_report *rx_report_bufs,
size_t n_requested_fates,
size_t *n_provided_fates) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getRxPacketFates(rx_report_bufs,
n_requested_fates,
n_provided_fates);
}
wifi_error wifi_get_packet_filter_capabilities(wifi_interface_handle handle,
u32 *version,
u32 *max_len) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getPacketFilterCapabilities(version, max_len);
}
wifi_error
wifi_get_wake_reason_stats(wifi_interface_handle handle,
WLAN_DRIVER_WAKE_REASON_CNT *wifi_wake_reason_cnt) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->getWakeReasonStats(wifi_wake_reason_cnt);
}
wifi_error wifi_start_sending_offloaded_packet(wifi_request_id id,
wifi_interface_handle handle,
u16 ether_type,
u8 *ip_packet,
u16 ip_packet_len,
u8 *src_mac_addr,
u8 *dst_mac_addr,
u32 period_msec) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->startSendingOffloadedPacket(id,
ether_type,
ip_packet,
ip_packet_len,
src_mac_addr,
dst_mac_addr,
period_msec);
}
wifi_error wifi_stop_sending_offloaded_packet(wifi_request_id id,
wifi_interface_handle handle) {
if (handle == nullptr) {
return WIFI_ERROR_INVALID_ARGS;
}
return asInterface(handle)->stopSendingOffloadedPacket(id);
}
wifi_error init_wifi_vendor_hal_func_table(wifi_hal_fn* fn)
{
if (fn == NULL) {
return WIFI_ERROR_UNKNOWN;
}
fn->wifi_initialize = wifi_initialize;
fn->wifi_cleanup = wifi_cleanup;
fn->wifi_event_loop = wifi_event_loop;
fn->wifi_get_supported_feature_set = wifi_get_supported_feature_set;
fn->wifi_get_ifaces = wifi_get_ifaces;
fn->wifi_get_iface_name = wifi_get_iface_name;
fn->wifi_get_link_stats = wifi_get_link_stats;
fn->wifi_set_link_stats = wifi_set_link_stats;
fn->wifi_clear_link_stats = wifi_clear_link_stats;
fn->wifi_set_alert_handler = wifi_set_alert_handler;
fn->wifi_reset_alert_handler = wifi_reset_alert_handler;
fn->wifi_get_firmware_version = wifi_get_firmware_version;
fn->wifi_get_driver_version = wifi_get_driver_version;
fn->wifi_set_scanning_mac_oui = wifi_set_scanning_mac_oui;
fn->wifi_get_valid_channels = wifi_get_valid_channels;
fn->wifi_start_logging = wifi_start_logging;
fn->wifi_set_country_code = wifi_set_country_code;
fn->wifi_set_log_handler = wifi_set_log_handler;
fn->wifi_get_ring_buffers_status = wifi_get_ring_buffers_status;
fn->wifi_get_logger_supported_feature_set
= wifi_get_logger_supported_feature_set;
fn->wifi_get_ring_data = wifi_get_ring_data;
fn->wifi_configure_nd_offload = wifi_configure_nd_offload;
fn->wifi_start_pkt_fate_monitoring = wifi_start_pkt_fate_monitoring;
fn->wifi_get_tx_pkt_fates = wifi_get_tx_pkt_fates;
fn->wifi_get_rx_pkt_fates = wifi_get_rx_pkt_fates;
fn->wifi_get_packet_filter_capabilities
= wifi_get_packet_filter_capabilities;
fn->wifi_get_wake_reason_stats = wifi_get_wake_reason_stats;
fn->wifi_start_sending_offloaded_packet
= wifi_start_sending_offloaded_packet;
fn->wifi_stop_sending_offloaded_packet = wifi_stop_sending_offloaded_packet;
// These function will either return WIFI_ERROR_NOT_SUPPORTED or do nothing
notSupported(fn->wifi_set_nodfs_flag);
notSupported(fn->wifi_get_concurrency_matrix);
notSupported(fn->wifi_start_gscan);
notSupported(fn->wifi_stop_gscan);
notSupported(fn->wifi_get_cached_gscan_results);
notSupported(fn->wifi_set_bssid_hotlist);
notSupported(fn->wifi_reset_bssid_hotlist);
notSupported(fn->wifi_set_significant_change_handler);
notSupported(fn->wifi_reset_significant_change_handler);
notSupported(fn->wifi_get_gscan_capabilities);
notSupported(fn->wifi_rtt_range_request);
notSupported(fn->wifi_rtt_range_cancel);
notSupported(fn->wifi_get_rtt_capabilities);
notSupported(fn->wifi_rtt_get_responder_info);
notSupported(fn->wifi_enable_responder);
notSupported(fn->wifi_disable_responder);
notSupported(fn->wifi_set_epno_list);
notSupported(fn->wifi_reset_epno_list);
notSupported(fn->wifi_get_firmware_memory_dump);
notSupported(fn->wifi_reset_log_handler);
notSupported(fn->wifi_start_rssi_monitoring);
notSupported(fn->wifi_stop_rssi_monitoring);
notSupported(fn->wifi_set_packet_filter);
return WIFI_SUCCESS;
}