/* * 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. */ #define LOG_TAG "EffectHalHidl" //#define LOG_NDEBUG 0 #include #include #include #include #include #include #include #include #include #include #include #include #include "EffectBufferHalHidl.h" #include "EffectHalHidl.h" using ::android::hardware::audio::common::utils::EnumBitfield; using ::android::hardware::audio::effect::CPP_VERSION::implementation::EffectUtils; using ::android::hardware::hidl_vec; using ::android::hardware::MQDescriptorSync; using ::android::hardware::Return; namespace android { namespace effect { using namespace ::android::hardware::audio::common::CPP_VERSION; using namespace ::android::hardware::audio::effect::CPP_VERSION; EffectHalHidl::EffectHalHidl(const sp& effect, uint64_t effectId) : EffectConversionHelperHidl("EffectHalHidl"), mEffect(effect), mEffectId(effectId), mBuffersChanged(true), mEfGroup(nullptr) { effect_descriptor_t halDescriptor{}; if (EffectHalHidl::getDescriptor(&halDescriptor) == NO_ERROR) { mIsInput = (halDescriptor.flags & EFFECT_FLAG_TYPE_PRE_PROC) == EFFECT_FLAG_TYPE_PRE_PROC; const bool isSpatializer = memcmp(&halDescriptor.type, FX_IID_SPATIALIZER, sizeof(effect_uuid_t)) == 0; if (isSpatializer) { constexpr int32_t kRTPriorityMin = 1; constexpr int32_t kRTPriorityMax = 3; const int32_t priorityBoost = property_get_int32("audio.spatializer.priority", 1); if (priorityBoost >= kRTPriorityMin && priorityBoost <= kRTPriorityMax) { ALOGD("%s: audio.spatializer.priority %d on effect %lld", __func__, priorityBoost, (long long)effectId); mHalThreadPriority = priorityBoost; } } } } EffectHalHidl::~EffectHalHidl() { if (mEffect != 0) { close(); mEffect.clear(); hardware::IPCThreadState::self()->flushCommands(); } if (mEfGroup) { EventFlag::deleteEventFlag(&mEfGroup); } } status_t EffectHalHidl::setInBuffer(const sp& buffer) { TIME_CHECK(); if (!mBuffersChanged) { if (buffer.get() == nullptr || mInBuffer.get() == nullptr) { mBuffersChanged = buffer.get() != mInBuffer.get(); } else { mBuffersChanged = buffer->audioBuffer() != mInBuffer->audioBuffer(); } } mInBuffer = buffer; return OK; } status_t EffectHalHidl::setOutBuffer(const sp& buffer) { TIME_CHECK(); if (!mBuffersChanged) { if (buffer.get() == nullptr || mOutBuffer.get() == nullptr) { mBuffersChanged = buffer.get() != mOutBuffer.get(); } else { mBuffersChanged = buffer->audioBuffer() != mOutBuffer->audioBuffer(); } } mOutBuffer = buffer; return OK; } status_t EffectHalHidl::process() { // TIME_CHECK(); // TODO(b/243839867) reenable only when optimized. return processImpl(static_cast(MessageQueueFlagBits::REQUEST_PROCESS)); } status_t EffectHalHidl::processReverse() { // TIME_CHECK(); // TODO(b/243839867) reenable only when optimized. return processImpl(static_cast(MessageQueueFlagBits::REQUEST_PROCESS_REVERSE)); } status_t EffectHalHidl::prepareForProcessing() { std::unique_ptr tempStatusMQ; Result retval; Return ret = mEffect->prepareForProcessing( [&](Result r, const MQDescriptorSync& statusMQ) { retval = r; if (retval == Result::OK) { tempStatusMQ.reset(new StatusMQ(statusMQ)); if (tempStatusMQ->isValid() && tempStatusMQ->getEventFlagWord()) { EventFlag::createEventFlag(tempStatusMQ->getEventFlagWord(), &mEfGroup); } } }); if (!ret.isOk() || retval != Result::OK) { return ret.isOk() ? analyzeResult(retval) : FAILED_TRANSACTION; } if (!tempStatusMQ || !tempStatusMQ->isValid() || !mEfGroup) { ALOGE_IF(!tempStatusMQ, "Failed to obtain status message queue for effects"); ALOGE_IF(tempStatusMQ && !tempStatusMQ->isValid(), "Status message queue for effects is invalid"); ALOGE_IF(!mEfGroup, "Event flag creation for effects failed"); return NO_INIT; } (void)checkHalThreadPriority(); mStatusMQ = std::move(tempStatusMQ); return OK; } bool EffectHalHidl::needToResetBuffers() { if (mBuffersChanged) return true; bool inBufferFrameCountUpdated = mInBuffer->checkFrameCountChange(); bool outBufferFrameCountUpdated = mOutBuffer->checkFrameCountChange(); return inBufferFrameCountUpdated || outBufferFrameCountUpdated; } status_t EffectHalHidl::processImpl(uint32_t mqFlag) { if (mEffect == 0 || mInBuffer == 0 || mOutBuffer == 0) return NO_INIT; status_t status; if (!mStatusMQ && (status = prepareForProcessing()) != OK) { return status; } if (needToResetBuffers() && (status = setProcessBuffers()) != OK) { return status; } // The data is already in the buffers, just need to flush it and wake up the server side. std::atomic_thread_fence(std::memory_order_release); mEfGroup->wake(mqFlag); uint32_t efState = 0; retry: status_t ret = mEfGroup->wait( static_cast(MessageQueueFlagBits::DONE_PROCESSING), &efState); if (efState & static_cast(MessageQueueFlagBits::DONE_PROCESSING)) { Result retval = Result::NOT_INITIALIZED; mStatusMQ->read(&retval); if (retval == Result::OK || retval == Result::INVALID_STATE) { // Sync back the changed contents of the buffer. std::atomic_thread_fence(std::memory_order_acquire); } return analyzeResult(retval); } if (ret == -EAGAIN || ret == -EINTR) { // Spurious wakeup. This normally retries no more than once. goto retry; } return ret; } status_t EffectHalHidl::setProcessBuffers() { Return ret = mEffect->setProcessBuffers( static_cast(mInBuffer.get())->hidlBuffer(), static_cast(mOutBuffer.get())->hidlBuffer()); if (ret.isOk() && ret == Result::OK) { mBuffersChanged = false; return OK; } return ret.isOk() ? analyzeResult(ret) : FAILED_TRANSACTION; } status_t EffectHalHidl::command(uint32_t cmdCode, uint32_t cmdSize, void *pCmdData, uint32_t *replySize, void *pReplyData) { TIME_CHECK(); if (mEffect == 0) return NO_INIT; // Special cases. if (cmdCode == EFFECT_CMD_SET_CONFIG || cmdCode == EFFECT_CMD_SET_CONFIG_REVERSE) { return setConfigImpl(cmdCode, cmdSize, pCmdData, replySize, pReplyData); } else if (cmdCode == EFFECT_CMD_GET_CONFIG || cmdCode == EFFECT_CMD_GET_CONFIG_REVERSE) { return getConfigImpl(cmdCode, replySize, pReplyData); } // Common case. hidl_vec hidlData; if (pCmdData != nullptr && cmdSize > 0) { hidlData.setToExternal(reinterpret_cast(pCmdData), cmdSize); } status_t status; uint32_t replySizeStub = 0; if (replySize == nullptr || pReplyData == nullptr) replySize = &replySizeStub; Return ret = mEffect->command(cmdCode, hidlData, *replySize, [&](int32_t s, const hidl_vec& result) { status = s; if (status == 0) { if (*replySize > result.size()) *replySize = result.size(); if (pReplyData != nullptr && *replySize > 0) { memcpy(pReplyData, &result[0], *replySize); } } }); return ret.isOk() ? status : FAILED_TRANSACTION; } status_t EffectHalHidl::getDescriptor(effect_descriptor_t *pDescriptor) { TIME_CHECK(); if (mEffect == 0) return NO_INIT; Result retval = Result::NOT_INITIALIZED; Return ret = mEffect->getDescriptor( [&](Result r, const EffectDescriptor& result) { retval = r; if (retval == Result::OK) { EffectUtils::effectDescriptorToHal(result, pDescriptor); } }); return ret.isOk() ? analyzeResult(retval) : FAILED_TRANSACTION; } status_t EffectHalHidl::close() { TIME_CHECK(); if (mEffect == 0) return NO_INIT; Return ret = mEffect->close(); return ret.isOk() ? analyzeResult(ret) : FAILED_TRANSACTION; } status_t EffectHalHidl::dump(int fd) { TIME_CHECK(); if (mEffect == 0) return NO_INIT; native_handle_t* hidlHandle = native_handle_create(1, 0); hidlHandle->data[0] = fd; Return ret = mEffect->debug(hidlHandle, {} /* options */); native_handle_delete(hidlHandle); // TODO(b/111997867, b/177271958) Workaround - remove when fixed. // A Binder transmitted fd may not close immediately due to a race condition b/111997867 // when the remote binder thread removes the last refcount to the fd blocks in the // kernel for binder activity. We send a Binder ping() command to unblock the thread // and complete the fd close / release. // // See DeviceHalHidl::dump(), EffectHalHidl::dump(), StreamHalHidl::dump(), // EffectsFactoryHalHidl::dumpEffects(). (void)mEffect->ping(); // synchronous Binder call return ret.isOk() ? OK : FAILED_TRANSACTION; } status_t EffectHalHidl::getConfigImpl( uint32_t cmdCode, uint32_t *replySize, void *pReplyData) { if (replySize == NULL || *replySize != sizeof(effect_config_t) || pReplyData == NULL) { return BAD_VALUE; } status_t result = FAILED_TRANSACTION; Return ret; if (cmdCode == EFFECT_CMD_GET_CONFIG) { ret = mEffect->getConfig([&] (Result r, const EffectConfig &hidlConfig) { result = analyzeResult(r); if (r == Result::OK) { EffectUtils::effectConfigToHal( hidlConfig, static_cast(pReplyData)); } }); } else { ret = mEffect->getConfigReverse([&] (Result r, const EffectConfig &hidlConfig) { result = analyzeResult(r); if (r == Result::OK) { EffectUtils::effectConfigToHal( hidlConfig, static_cast(pReplyData)); } }); } if (!ret.isOk()) { result = FAILED_TRANSACTION; } return result; } status_t EffectHalHidl::setConfigImpl( uint32_t cmdCode, uint32_t cmdSize, void *pCmdData, uint32_t *replySize, void *pReplyData) { if (pCmdData == NULL || cmdSize != sizeof(effect_config_t) || replySize == NULL || *replySize != sizeof(int32_t) || pReplyData == NULL) { return BAD_VALUE; } const effect_config_t *halConfig = static_cast(pCmdData); if (halConfig->inputCfg.bufferProvider.getBuffer != NULL || halConfig->inputCfg.bufferProvider.releaseBuffer != NULL || halConfig->outputCfg.bufferProvider.getBuffer != NULL || halConfig->outputCfg.bufferProvider.releaseBuffer != NULL) { ALOGE("Buffer provider callbacks are not supported"); } EffectConfig hidlConfig; EffectUtils::effectConfigFromHal(*halConfig, mIsInput, &hidlConfig); Return ret = cmdCode == EFFECT_CMD_SET_CONFIG ? mEffect->setConfig(hidlConfig, nullptr, nullptr) : mEffect->setConfigReverse(hidlConfig, nullptr, nullptr); status_t result = FAILED_TRANSACTION; if (ret.isOk()) { result = analyzeResult(ret); *static_cast(pReplyData) = result; } return result; } status_t EffectHalHidl::getHalPid(pid_t *pid) const { using ::android::hidl::base::V1_0::DebugInfo; using ::android::hidl::manager::V1_0::IServiceManager; DebugInfo debugInfo; const auto ret = mEffect->getDebugInfo([&] (const auto &info) { debugInfo = info; }); if (!ret.isOk()) { ALOGW("%s: cannot get effect debug info", __func__); return INVALID_OPERATION; } if (debugInfo.pid != (int)IServiceManager::PidConstant::NO_PID) { *pid = debugInfo.pid; return NO_ERROR; } ALOGW("%s: effect debug info does not contain pid", __func__); return NAME_NOT_FOUND; } status_t EffectHalHidl::getHalWorkerTid(pid_t *tid) { int32_t reply = -1; uint32_t replySize = sizeof(reply); const status_t status = command('gtid', 0 /* cmdSize */, nullptr /* pCmdData */, &replySize, &reply); if (status == OK) { *tid = (pid_t)reply; } else { ALOGW("%s: failed with status:%d", __func__, status); } return status; } bool EffectHalHidl::requestHalThreadPriority(pid_t threadPid, pid_t threadId) { if (mHalThreadPriority == kRTPriorityDisabled) { return true; } const int err = requestPriority( threadPid, threadId, mHalThreadPriority, false /*isForApp*/, true /*asynchronous*/); ALOGW_IF(err, "%s: failed to set RT priority %d for pid %d tid %d; error %d", __func__, mHalThreadPriority, threadPid, threadId, err); // Audio will still work, but may be more susceptible to glitches. return err == 0; } status_t EffectHalHidl::checkHalThreadPriority() { if (mHalThreadPriority == kRTPriorityDisabled) return OK; if (mHalThreadPriority < kRTPriorityMin || mHalThreadPriority > kRTPriorityMax) return BAD_VALUE; pid_t halPid, halWorkerTid; const status_t status = getHalPid(&halPid) ?: getHalWorkerTid(&halWorkerTid); const bool success = status == OK && requestHalThreadPriority(halPid, halWorkerTid); ALOGD("%s: effectId %lld RT priority(%d) request %s%s", __func__, (long long)mEffectId, mHalThreadPriority, success ? "succeeded" : "failed", status == OK ? base::StringPrintf(" for pid:%d tid:%d", halPid, halWorkerTid).c_str() : " (pid / tid cannot be read)"); return success ? OK : status != OK ? status : INVALID_OPERATION /* request failed */; } } // namespace effect } // namespace android