platform_hardware_interfaces/wifi/1.2/default/wifi_chip.h
Ahmed ElArabawy 6a1accf8ba Wifi: Add Support for Body Proximity for SAR
This commit extends the SAR support to include scenarios for near
head/body and voice calls
These features are only applicale for a certain device capability
(defined in capability mask)

Bug: 3489513
Test: Manual

Change-Id: Ie99978df3c19e04fdd3d7862240f6d3c62eac539
Signed-off-by: Ahmed ElArabawy <arabawy@google.com>
2018-01-26 16:34:10 -08:00

251 lines
12 KiB
C++

/*
* Copyright (C) 2016 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.
*/
#ifndef WIFI_CHIP_H_
#define WIFI_CHIP_H_
#include <list>
#include <map>
#include <android-base/macros.h>
#include <android/hardware/wifi/1.2/IWifiChip.h>
#include "hidl_callback_util.h"
#include "ringbuffer.h"
#include "wifi_ap_iface.h"
#include "wifi_feature_flags.h"
#include "wifi_legacy_hal.h"
#include "wifi_mode_controller.h"
#include "wifi_nan_iface.h"
#include "wifi_p2p_iface.h"
#include "wifi_rtt_controller.h"
#include "wifi_sta_iface.h"
namespace android {
namespace hardware {
namespace wifi {
namespace V1_2 {
namespace implementation {
using namespace android::hardware::wifi::V1_0;
/**
* HIDL interface object used to control a Wifi HAL chip instance.
* Since there is only a single chip instance used today, there is no
* identifying handle information stored here.
*/
class WifiChip : public V1_2::IWifiChip {
public:
WifiChip(
ChipId chip_id,
const std::weak_ptr<legacy_hal::WifiLegacyHal> legacy_hal,
const std::weak_ptr<mode_controller::WifiModeController>
mode_controller,
const std::weak_ptr<feature_flags::WifiFeatureFlags> feature_flags);
// HIDL does not provide a built-in mechanism to let the server invalidate
// a HIDL interface object after creation. If any client process holds onto
// a reference to the object in their context, any method calls on that
// reference will continue to be directed to the server.
//
// However Wifi HAL needs to control the lifetime of these objects. So, add
// a public |invalidate| method to |WifiChip| and it's child objects. This
// will be used to mark an object invalid when either:
// a) Wifi HAL is stopped, or
// b) Wifi Chip is reconfigured.
//
// All HIDL method implementations should check if the object is still
// marked valid before processing them.
void invalidate();
bool isValid();
std::set<sp<IWifiChipEventCallback>> getEventCallbacks();
// HIDL methods exposed.
Return<void> getId(getId_cb hidl_status_cb) override;
Return<void> registerEventCallback(
const sp<V1_0::IWifiChipEventCallback>& event_callback,
registerEventCallback_cb hidl_status_cb) override;
Return<void> getCapabilities(getCapabilities_cb hidl_status_cb) override;
Return<void> getAvailableModes(
getAvailableModes_cb hidl_status_cb) override;
Return<void> configureChip(ChipModeId mode_id,
configureChip_cb hidl_status_cb) override;
Return<void> getMode(getMode_cb hidl_status_cb) override;
Return<void> requestChipDebugInfo(
requestChipDebugInfo_cb hidl_status_cb) override;
Return<void> requestDriverDebugDump(
requestDriverDebugDump_cb hidl_status_cb) override;
Return<void> requestFirmwareDebugDump(
requestFirmwareDebugDump_cb hidl_status_cb) override;
Return<void> createApIface(createApIface_cb hidl_status_cb) override;
Return<void> getApIfaceNames(getApIfaceNames_cb hidl_status_cb) override;
Return<void> getApIface(const hidl_string& ifname,
getApIface_cb hidl_status_cb) override;
Return<void> removeApIface(const hidl_string& ifname,
removeApIface_cb hidl_status_cb) override;
Return<void> createNanIface(createNanIface_cb hidl_status_cb) override;
Return<void> getNanIfaceNames(getNanIfaceNames_cb hidl_status_cb) override;
Return<void> getNanIface(const hidl_string& ifname,
getNanIface_cb hidl_status_cb) override;
Return<void> removeNanIface(const hidl_string& ifname,
removeNanIface_cb hidl_status_cb) override;
Return<void> createP2pIface(createP2pIface_cb hidl_status_cb) override;
Return<void> getP2pIfaceNames(getP2pIfaceNames_cb hidl_status_cb) override;
Return<void> getP2pIface(const hidl_string& ifname,
getP2pIface_cb hidl_status_cb) override;
Return<void> removeP2pIface(const hidl_string& ifname,
removeP2pIface_cb hidl_status_cb) override;
Return<void> createStaIface(createStaIface_cb hidl_status_cb) override;
Return<void> getStaIfaceNames(getStaIfaceNames_cb hidl_status_cb) override;
Return<void> getStaIface(const hidl_string& ifname,
getStaIface_cb hidl_status_cb) override;
Return<void> removeStaIface(const hidl_string& ifname,
removeStaIface_cb hidl_status_cb) override;
Return<void> createRttController(
const sp<IWifiIface>& bound_iface,
createRttController_cb hidl_status_cb) override;
Return<void> getDebugRingBuffersStatus(
getDebugRingBuffersStatus_cb hidl_status_cb) override;
Return<void> startLoggingToDebugRingBuffer(
const hidl_string& ring_name,
WifiDebugRingBufferVerboseLevel verbose_level,
uint32_t max_interval_in_sec, uint32_t min_data_size_in_bytes,
startLoggingToDebugRingBuffer_cb hidl_status_cb) override;
Return<void> forceDumpToDebugRingBuffer(
const hidl_string& ring_name,
forceDumpToDebugRingBuffer_cb hidl_status_cb) override;
Return<void> stopLoggingToDebugRingBuffer(
stopLoggingToDebugRingBuffer_cb hidl_status_cb) override;
Return<void> getDebugHostWakeReasonStats(
getDebugHostWakeReasonStats_cb hidl_status_cb) override;
Return<void> enableDebugErrorAlerts(
bool enable, enableDebugErrorAlerts_cb hidl_status_cb) override;
Return<void> selectTxPowerScenario(
V1_1::IWifiChip::TxPowerScenario scenario,
selectTxPowerScenario_cb hidl_status_cb) override;
Return<void> resetTxPowerScenario(
resetTxPowerScenario_cb hidl_status_cb) override;
Return<void> registerEventCallback_1_2(
const sp<IWifiChipEventCallback>& event_callback,
registerEventCallback_1_2_cb hidl_status_cb) override;
Return<void> selectTxPowerScenario_1_2(
TxPowerScenario scenario,
selectTxPowerScenario_cb hidl_status_cb) override;
Return<void> debug(const hidl_handle& handle,
const hidl_vec<hidl_string>& options) override;
private:
void invalidateAndRemoveAllIfaces();
// Corresponding worker functions for the HIDL methods.
std::pair<WifiStatus, ChipId> getIdInternal();
WifiStatus registerEventCallbackInternal(
const sp<V1_0::IWifiChipEventCallback>& event_callback);
std::pair<WifiStatus, uint32_t> getCapabilitiesInternal();
std::pair<WifiStatus, std::vector<ChipMode>> getAvailableModesInternal();
WifiStatus configureChipInternal(
std::unique_lock<std::recursive_mutex>* lock, ChipModeId mode_id);
std::pair<WifiStatus, uint32_t> getModeInternal();
std::pair<WifiStatus, IWifiChip::ChipDebugInfo>
requestChipDebugInfoInternal();
std::pair<WifiStatus, std::vector<uint8_t>>
requestDriverDebugDumpInternal();
std::pair<WifiStatus, std::vector<uint8_t>>
requestFirmwareDebugDumpInternal();
std::pair<WifiStatus, sp<IWifiApIface>> createApIfaceInternal();
std::pair<WifiStatus, std::vector<hidl_string>> getApIfaceNamesInternal();
std::pair<WifiStatus, sp<IWifiApIface>> getApIfaceInternal(
const std::string& ifname);
WifiStatus removeApIfaceInternal(const std::string& ifname);
std::pair<WifiStatus, sp<IWifiNanIface>> createNanIfaceInternal();
std::pair<WifiStatus, std::vector<hidl_string>> getNanIfaceNamesInternal();
std::pair<WifiStatus, sp<IWifiNanIface>> getNanIfaceInternal(
const std::string& ifname);
WifiStatus removeNanIfaceInternal(const std::string& ifname);
std::pair<WifiStatus, sp<IWifiP2pIface>> createP2pIfaceInternal();
std::pair<WifiStatus, std::vector<hidl_string>> getP2pIfaceNamesInternal();
std::pair<WifiStatus, sp<IWifiP2pIface>> getP2pIfaceInternal(
const std::string& ifname);
WifiStatus removeP2pIfaceInternal(const std::string& ifname);
std::pair<WifiStatus, sp<IWifiStaIface>> createStaIfaceInternal();
std::pair<WifiStatus, std::vector<hidl_string>> getStaIfaceNamesInternal();
std::pair<WifiStatus, sp<IWifiStaIface>> getStaIfaceInternal(
const std::string& ifname);
WifiStatus removeStaIfaceInternal(const std::string& ifname);
std::pair<WifiStatus, sp<IWifiRttController>> createRttControllerInternal(
const sp<IWifiIface>& bound_iface);
std::pair<WifiStatus, std::vector<WifiDebugRingBufferStatus>>
getDebugRingBuffersStatusInternal();
WifiStatus startLoggingToDebugRingBufferInternal(
const hidl_string& ring_name,
WifiDebugRingBufferVerboseLevel verbose_level,
uint32_t max_interval_in_sec, uint32_t min_data_size_in_bytes);
WifiStatus forceDumpToDebugRingBufferInternal(const hidl_string& ring_name);
WifiStatus stopLoggingToDebugRingBufferInternal();
std::pair<WifiStatus, WifiDebugHostWakeReasonStats>
getDebugHostWakeReasonStatsInternal();
WifiStatus enableDebugErrorAlertsInternal(bool enable);
WifiStatus selectTxPowerScenarioInternal(V1_1::IWifiChip::TxPowerScenario scenario);
WifiStatus resetTxPowerScenarioInternal();
WifiStatus registerEventCallbackInternal_1_2(
const sp<IWifiChipEventCallback>& event_callback);
WifiStatus selectTxPowerScenarioInternal_1_2(TxPowerScenario scenario);
WifiStatus handleChipConfiguration(
std::unique_lock<std::recursive_mutex>* lock, ChipModeId mode_id);
WifiStatus registerDebugRingBufferCallback();
WifiStatus registerRadioModeChangeCallback();
void populateModes();
std::vector<IWifiChip::ChipIfaceCombination>
getCurrentModeIfaceCombinations();
std::map<IfaceType, size_t> getCurrentIfaceCombination();
std::vector<std::map<IfaceType, size_t>> expandIfaceCombinations(
const IWifiChip::ChipIfaceCombination& combination);
bool canExpandedIfaceCombinationSupportIfaceOfType(
const std::map<IfaceType, size_t>& combo, IfaceType type);
bool canCurrentModeSupportIfaceOfType(IfaceType type);
bool isValidModeId(ChipModeId mode_id);
std::string allocateApOrStaIfaceName();
bool writeRingbufferFilesInternal();
ChipId chip_id_;
std::weak_ptr<legacy_hal::WifiLegacyHal> legacy_hal_;
std::weak_ptr<mode_controller::WifiModeController> mode_controller_;
std::weak_ptr<feature_flags::WifiFeatureFlags> feature_flags_;
std::vector<sp<WifiApIface>> ap_ifaces_;
std::vector<sp<WifiNanIface>> nan_ifaces_;
std::vector<sp<WifiP2pIface>> p2p_ifaces_;
std::vector<sp<WifiStaIface>> sta_ifaces_;
std::vector<sp<WifiRttController>> rtt_controllers_;
std::map<std::string, Ringbuffer> ringbuffer_map_;
bool is_valid_;
// Members pertaining to chip configuration.
uint32_t current_mode_id_;
std::vector<IWifiChip::ChipMode> modes_;
// The legacy ring buffer callback API has only a global callback
// registration mechanism. Use this to check if we have already
// registered a callback.
bool debug_ring_buffer_cb_registered_;
hidl_callback_util::HidlCallbackHandler<IWifiChipEventCallback>
event_cb_handler_;
DISALLOW_COPY_AND_ASSIGN(WifiChip);
};
} // namespace implementation
} // namespace V1_2
} // namespace wifi
} // namespace hardware
} // namespace android
#endif // WIFI_CHIP_H_