mirror of
https://github.com/hrydgard/ppsspp.git
synced 2024-12-04 20:06:51 +00:00
480 lines
14 KiB
C++
480 lines
14 KiB
C++
// Copyright (c) 2019- PPSSPP Project.
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, version 2.0 or later versions.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License 2.0 for more details.
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// A copy of the GPL 2.0 should have been included with the program.
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// If not, see http://www.gnu.org/licenses/
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// Official git repository and contact information can be found at
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// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
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#include "ppsspp_config.h"
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#include <algorithm>
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#include <mutex>
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#include "Common/Serialize/Serializer.h"
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#include "Common/Serialize/SerializeFuncs.h"
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#include "Common/System/System.h"
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#include "Common/System/Request.h"
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#include "Core/HLE/HLE.h"
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#include "Core/HLE/FunctionWrappers.h"
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#include "Core/HLE/sceKernelThread.h"
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#include "Core/HLE/sceUsbMic.h"
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#include "Core/CoreTiming.h"
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#include "Core/MemMapHelpers.h"
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#if defined(_WIN32) && !PPSSPP_PLATFORM(UWP) && !defined(__LIBRETRO__)
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#define HAVE_WIN32_MICROPHONE
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#endif
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#ifdef HAVE_WIN32_MICROPHONE
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#include "Common/CommonWindows.h"
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#include "Windows/CaptureDevice.h"
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#endif
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enum {
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SCE_USBMIC_ERROR_INVALID_MAX_SAMPLES = 0x80243806,
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SCE_USBMIC_ERROR_INVALID_SAMPLERATE = 0x8024380A,
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};
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int eventMicBlockingResume = -1;
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static QueueBuf *audioBuf = nullptr;
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static u32 numNeedSamples;
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static std::vector<MicWaitInfo> waitingThreads;
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static bool isNeedInput;
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static u32 curSampleRate;
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static u32 curChannels;
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static u32 readMicDataLength;
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static u32 curTargetAddr;
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static int micState; // 0 means stopped, 1 means started, for save state.
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static void __MicBlockingResume(u64 userdata, int cyclesLate) {
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SceUID threadID = (SceUID)userdata;
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u32 error;
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int count = 0;
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for (auto waitingThread : waitingThreads) {
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if (waitingThread.threadID == threadID) {
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SceUID waitID = __KernelGetWaitID(threadID, WAITTYPE_MICINPUT, error);
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if (waitID == 0)
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continue;
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if (Microphone::isHaveDevice()) {
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if (Microphone::getReadMicDataLength() >= waitingThread.needSize) {
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u32 ret = __KernelGetWaitValue(threadID, error);
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DEBUG_LOG(HLE, "sceUsbMic: Waking up thread(%d)", (int)waitingThread.threadID);
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__KernelResumeThreadFromWait(threadID, ret);
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waitingThreads.erase(waitingThreads.begin() + count);
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} else {
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u64 waitTimeus = (waitingThread.needSize - Microphone::getReadMicDataLength()) * 1000000 / 2 / waitingThread.sampleRate;
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CoreTiming::ScheduleEvent(usToCycles(waitTimeus), eventMicBlockingResume, userdata);
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}
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} else {
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for (u32 i = 0; i < waitingThread.needSize; i++) {
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if (Memory::IsValidAddress(waitingThread.addr + i)) {
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Memory::Write_U8(i & 0xFF, waitingThread.addr + i);
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}
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}
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u32 ret = __KernelGetWaitValue(threadID, error);
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DEBUG_LOG(HLE, "sceUsbMic: Waking up thread(%d)", (int)waitingThread.threadID);
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__KernelResumeThreadFromWait(threadID, ret);
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waitingThreads.erase(waitingThreads.begin() + count);
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readMicDataLength += waitingThread.needSize;
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}
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}
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++count;
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}
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}
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void __UsbMicInit() {
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if (audioBuf) {
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delete audioBuf;
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audioBuf = nullptr;
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}
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numNeedSamples = 0;
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waitingThreads.clear();
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isNeedInput = true;
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curSampleRate = 44100;
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curChannels = 1;
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curTargetAddr = 0;
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readMicDataLength = 0;
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micState = 0;
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eventMicBlockingResume = CoreTiming::RegisterEvent("MicBlockingResume", &__MicBlockingResume);
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}
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void __UsbMicShutdown() {
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if (audioBuf) {
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delete audioBuf;
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audioBuf = nullptr;
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}
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Microphone::stopMic();
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}
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void __UsbMicDoState(PointerWrap &p) {
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auto s = p.Section("sceUsbMic", 0, 3);
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if (!s) {
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// Still need to restore the event.
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eventMicBlockingResume = -1;
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CoreTiming::RestoreRegisterEvent(eventMicBlockingResume, "MicBlockingResume", &__MicBlockingResume);
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waitingThreads.clear();
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return;
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}
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bool isMicStartedNow = Microphone::isMicStarted();
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Do(p, numNeedSamples);
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Do(p, waitingThreads);
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Do(p, isNeedInput);
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Do(p, curSampleRate);
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Do(p, curChannels);
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Do(p, micState);
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if (s > 1) {
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Do(p, eventMicBlockingResume);
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} else {
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eventMicBlockingResume = -1;
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}
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CoreTiming::RestoreRegisterEvent(eventMicBlockingResume, "MicBlockingResume", &__MicBlockingResume);
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if (s > 2) {
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Do(p, curTargetAddr);
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Do(p, readMicDataLength);
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}
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if (!audioBuf && numNeedSamples > 0) {
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audioBuf = new QueueBuf(numNeedSamples << 1);
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}
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if (micState == 0) {
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if (isMicStartedNow)
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Microphone::stopMic();
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} else if (micState == 1) {
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if (isMicStartedNow) {
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// Ok, started.
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} else {
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Microphone::startMic(new std::vector<u32>({ curSampleRate, curChannels }));
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}
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}
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}
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QueueBuf::QueueBuf(u32 size) : available(0), end(0), capacity(size) {
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buf_ = new u8[size];
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}
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QueueBuf::~QueueBuf() {
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delete[] buf_;
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}
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QueueBuf::QueueBuf(const QueueBuf &buf) {
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buf_ = new u8[buf.capacity];
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memcpy(buf_, buf.buf_, buf.capacity);
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available = buf.available;
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end = buf.end;
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capacity = buf.capacity;
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}
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QueueBuf& QueueBuf::operator=(const QueueBuf &buf) {
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if (capacity < buf.capacity) {
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resize(buf.capacity);
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}
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std::unique_lock<std::mutex> lock(mutex);
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memcpy(buf_, buf.buf_, buf.capacity);
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available = buf.available;
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end = buf.end;
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lock.unlock();
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return *this;
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}
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u32 QueueBuf::push(u8 *buf, u32 size) {
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u32 addedSize = 0;
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if (size > capacity)
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resize(size);
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// This will overwrite the old data if the size prepare to add more than remaining size.
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std::unique_lock<std::mutex> lock(mutex);
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while (end + size > capacity) {
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memcpy(buf_ + end, buf + addedSize, capacity - end);
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addedSize += capacity - end;
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size -= capacity - end;
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end = 0;
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}
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memcpy(buf_ + end, buf + addedSize, size);
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addedSize += size;
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end = (end + size) % capacity;
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available = std::min(capacity, available + addedSize);
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lock.unlock();
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return addedSize;
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}
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u32 QueueBuf::pop(u8 *buf, u32 size) {
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u32 ret = 0;
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if (getAvailableSize() < size)
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size = getAvailableSize();
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ret = size;
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std::unique_lock<std::mutex> lock(mutex);
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if (getStartPos() + size <= capacity) {
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memcpy(buf, buf_ + getStartPos(), size);
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} else {
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memcpy(buf, buf_ + getStartPos(), capacity - getStartPos());
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memcpy(buf + capacity - getStartPos(), buf_, size - (capacity - getStartPos()));
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}
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available -= size;
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lock.unlock();
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return ret;
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}
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void QueueBuf::resize(u32 newSize) {
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if (capacity >= newSize) {
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return;
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}
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u32 availableSize = getAvailableSize();
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u8 *oldbuf = buf_;
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buf_ = new u8[newSize];
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pop(buf_, std::min(availableSize, newSize));
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available = availableSize;
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end = availableSize;
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capacity = newSize;
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delete[] oldbuf;
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}
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void QueueBuf::flush() {
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std::unique_lock<std::mutex> lock(mutex);
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available = 0;
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end = 0;
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lock.unlock();
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}
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u32 QueueBuf::getAvailableSize() {
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return available;
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}
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u32 QueueBuf::getRemainingSize() {
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return capacity - getAvailableSize();
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}
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u32 QueueBuf::getStartPos() {
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return end >= available ? end - available : capacity - available + end;
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}
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static int sceUsbMicPollInputEnd() {
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ERROR_LOG(HLE, "UNIMPL sceUsbMicPollInputEnd");
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return 0;
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}
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static int sceUsbMicInputBlocking(u32 maxSamples, u32 sampleRate, u32 bufAddr) {
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if (!Memory::IsValidAddress(bufAddr)) {
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ERROR_LOG(HLE, "sceUsbMicInputBlocking(%d, %d, %08x): invalid addresses", maxSamples, sampleRate, bufAddr);
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return -1;
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}
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INFO_LOG(HLE, "sceUsbMicInputBlocking: maxSamples: %d, samplerate: %d, bufAddr: %08x", maxSamples, sampleRate, bufAddr);
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if (maxSamples <= 0 || (maxSamples & 0x3F) != 0) {
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return SCE_USBMIC_ERROR_INVALID_MAX_SAMPLES;
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}
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if (sampleRate != 44100 && sampleRate != 22050 && sampleRate != 11025) {
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return SCE_USBMIC_ERROR_INVALID_SAMPLERATE;
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}
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return __MicInput(maxSamples, sampleRate, bufAddr, USBMIC);
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}
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static int sceUsbMicInputInitEx(u32 paramAddr) {
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ERROR_LOG(HLE, "UNIMPL sceUsbMicInputInitEx: %08x", paramAddr);
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return 0;
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}
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static int sceUsbMicInput(u32 maxSamples, u32 sampleRate, u32 bufAddr) {
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if (!Memory::IsValidAddress(bufAddr)) {
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ERROR_LOG(HLE, "sceUsbMicInput(%d, %d, %08x): invalid addresses", maxSamples, sampleRate, bufAddr);
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return -1;
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}
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ERROR_LOG(HLE, "UNTEST sceUsbMicInput: maxSamples: %d, samplerate: %d, bufAddr: %08x", maxSamples, sampleRate, bufAddr);
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if (maxSamples <= 0 || (maxSamples & 0x3F) != 0) {
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return SCE_USBMIC_ERROR_INVALID_MAX_SAMPLES;
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}
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if (sampleRate != 44100 && sampleRate != 22050 && sampleRate != 11025) {
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return SCE_USBMIC_ERROR_INVALID_SAMPLERATE;
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}
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return __MicInput(maxSamples, sampleRate, bufAddr, USBMIC, false);
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}
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static int sceUsbMicGetInputLength() {
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int ret = Microphone::getReadMicDataLength() / 2;
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ERROR_LOG(HLE, "UNTEST sceUsbMicGetInputLength(ret: %d)", ret);
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return ret;
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}
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static int sceUsbMicInputInit(int unknown1, int inputVolume, int unknown2) {
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ERROR_LOG(HLE, "UNIMPL sceUsbMicInputInit(unknown1: %d, inputVolume: %d, unknown2: %d)", unknown1, inputVolume, unknown2);
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return 0;
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}
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static int sceUsbMicWaitInputEnd() {
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ERROR_LOG(HLE, "UNIMPL sceUsbMicWaitInputEnd");
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return 0;
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}
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int Microphone::startMic(void *param) {
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#ifdef HAVE_WIN32_MICROPHONE
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if (winMic)
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winMic->sendMessage({ CAPTUREDEVIDE_COMMAND::START, param });
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#elif PPSSPP_PLATFORM(ANDROID)
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std::vector<u32> *micParam = static_cast<std::vector<u32>*>(param);
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int sampleRate = micParam->at(0);
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int channels = micParam->at(1);
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INFO_LOG(HLE, "microphone_command : sr = %d", sampleRate);
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System_MicrophoneCommand("startRecording:" + std::to_string(sampleRate));
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#endif
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micState = 1;
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return 0;
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}
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int Microphone::stopMic() {
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#ifdef HAVE_WIN32_MICROPHONE
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if (winMic)
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winMic->sendMessage({ CAPTUREDEVIDE_COMMAND::STOP, nullptr });
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#elif PPSSPP_PLATFORM(ANDROID)
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System_MicrophoneCommand("stopRecording");
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#endif
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micState = 0;
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return 0;
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}
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bool Microphone::isHaveDevice() {
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#ifdef HAVE_WIN32_MICROPHONE
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return winMic->getDeviceCounts() >= 1;
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#elif PPSSPP_PLATFORM(ANDROID)
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return System_AudioRecordingIsAvailable();
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#endif
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return false;
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}
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bool Microphone::isMicStarted() {
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return micState == 1;
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}
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// Deprecated.
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bool Microphone::isNeedInput() {
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return ::isNeedInput;
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}
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u32 Microphone::numNeedSamples() {
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return ::numNeedSamples;
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}
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u32 Microphone::availableAudioBufSize() {
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return audioBuf->getAvailableSize();
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}
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u32 Microphone::getReadMicDataLength() {
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return ::readMicDataLength;
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}
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int Microphone::addAudioData(u8 *buf, u32 size) {
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if (!audioBuf)
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return 0;
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audioBuf->push(buf, size);
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u32 addSize = std::min(audioBuf->getAvailableSize(), numNeedSamples() * 2 - getReadMicDataLength());
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if (Memory::IsValidRange(curTargetAddr + readMicDataLength, addSize)) {
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getAudioData(Memory::GetPointerWriteUnchecked(curTargetAddr + readMicDataLength), addSize);
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NotifyMemInfo(MemBlockFlags::WRITE, curTargetAddr + readMicDataLength, addSize, "MicAddAudioData");
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}
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readMicDataLength += addSize;
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return size;
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}
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u32 Microphone::getAudioData(u8 *buf, u32 size) {
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if(audioBuf)
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return audioBuf->pop(buf, size);
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return 0;
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}
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void Microphone::flushAudioData() {
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audioBuf->flush();
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}
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std::vector<std::string> Microphone::getDeviceList() {
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#ifdef HAVE_WIN32_MICROPHONE
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if (winMic) {
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return winMic->getDeviceList();
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}
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#endif
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return std::vector<std::string>();
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}
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void Microphone::onMicDeviceChange() {
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if (Microphone::isMicStarted()) {
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Microphone::stopMic();
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// Just use the last param.
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Microphone::startMic(nullptr);
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}
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}
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u32 __MicInput(u32 maxSamples, u32 sampleRate, u32 bufAddr, MICTYPE type, bool block) {
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curSampleRate = sampleRate;
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curChannels = 1;
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curTargetAddr = bufAddr;
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u32 size = maxSamples << 1;
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if (!audioBuf) {
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audioBuf = new QueueBuf(size);
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} else {
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audioBuf->resize(size);
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}
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if (!audioBuf)
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return 0;
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numNeedSamples = maxSamples;
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readMicDataLength = 0;
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if (!Microphone::isMicStarted()) {
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std::vector<u32> *param = new std::vector<u32>({ sampleRate, 1 });
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Microphone::startMic(param);
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}
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if (Microphone::availableAudioBufSize() > 0) {
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u32 addSize = std::min(Microphone::availableAudioBufSize(), size);
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if (Memory::IsValidRange(curTargetAddr, addSize)) {
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Microphone::getAudioData(Memory::GetPointerWriteUnchecked(curTargetAddr), addSize);
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NotifyMemInfo(MemBlockFlags::WRITE, curTargetAddr, addSize, "MicInput");
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}
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readMicDataLength += addSize;
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}
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if (!block) {
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return type == CAMERAMIC ? size : maxSamples;
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}
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u64 waitTimeus = (size - Microphone::availableAudioBufSize()) * 1000000 / 2 / sampleRate;
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CoreTiming::ScheduleEvent(usToCycles(waitTimeus), eventMicBlockingResume, __KernelGetCurThread());
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MicWaitInfo waitInfo = { __KernelGetCurThread(), bufAddr, size, sampleRate };
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waitingThreads.push_back(waitInfo);
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DEBUG_LOG(HLE, "MicInputBlocking: blocking thread(%d)", (int)__KernelGetCurThread());
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__KernelWaitCurThread(WAITTYPE_MICINPUT, 1, size, 0, false, "blocking microphone");
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return type == CAMERAMIC ? size : maxSamples;
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}
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const HLEFunction sceUsbMic[] =
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{
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{0x06128E42, &WrapI_V<sceUsbMicPollInputEnd>, "sceUsbMicPollInputEnd", 'i', "" },
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{0x2E6DCDCD, &WrapI_UUU<sceUsbMicInputBlocking>, "sceUsbMicInputBlocking", 'i', "xxx" },
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{0x45310F07, &WrapI_U<sceUsbMicInputInitEx>, "sceUsbMicInputInitEx", 'i', "x" },
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{0x5F7F368D, &WrapI_UUU<sceUsbMicInput>, "sceUsbMicInput", 'i', "xxx" },
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{0x63400E20, &WrapI_V<sceUsbMicGetInputLength>, "sceUsbMicGetInputLength", 'i', "" },
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{0xB8E536EB, &WrapI_III<sceUsbMicInputInit>, "sceUsbMicInputInit", 'i', "iii" },
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{0xF899001C, &WrapI_V<sceUsbMicWaitInputEnd>, "sceUsbMicWaitInputEnd", 'i', "" },
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};
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void Register_sceUsbMic()
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{
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RegisterModule("sceUsbMic", ARRAY_SIZE(sceUsbMic), sceUsbMic);
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}
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