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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "VRPuppetCommandBuffer.h"
#include "prthread.h"
#include "mozilla/ClearOnShutdown.h"
namespace mozilla::gfx {
static StaticRefPtr<VRPuppetCommandBuffer> sVRPuppetCommandBufferSingleton;
/* static */
VRPuppetCommandBuffer& VRPuppetCommandBuffer::Get() {
if (sVRPuppetCommandBufferSingleton == nullptr) {
sVRPuppetCommandBufferSingleton = new VRPuppetCommandBuffer();
ClearOnShutdown(&sVRPuppetCommandBufferSingleton);
}
return *sVRPuppetCommandBufferSingleton;
}
/* static */
bool VRPuppetCommandBuffer::IsCreated() {
return sVRPuppetCommandBufferSingleton != nullptr;
}
VRPuppetCommandBuffer::VRPuppetCommandBuffer()
: mMutex("VRPuppetCommandBuffer::mMutex") {
MOZ_COUNT_CTOR(VRPuppetCommandBuffer);
MOZ_ASSERT(sVRPuppetCommandBufferSingleton == nullptr);
Reset();
}
VRPuppetCommandBuffer::~VRPuppetCommandBuffer() {
MOZ_COUNT_DTOR(VRPuppetCommandBuffer);
}
void VRPuppetCommandBuffer::Submit(const nsTArray<uint64_t>& aBuffer) {
MutexAutoLock lock(mMutex);
mBuffer.AppendElements(aBuffer);
mEnded = false;
mEndedWithTimeout = false;
}
bool VRPuppetCommandBuffer::HasEnded() {
MutexAutoLock lock(mMutex);
return mEnded;
}
void VRPuppetCommandBuffer::Reset() {
MutexAutoLock lock(mMutex);
memset(&mPendingState, 0, sizeof(VRSystemState));
memset(&mCommittedState, 0, sizeof(VRSystemState));
for (int iControllerIdx = 0; iControllerIdx < kVRControllerMaxCount;
iControllerIdx++) {
for (int iHaptic = 0; iHaptic < kNumPuppetHaptics; iHaptic++) {
mHapticPulseRemaining[iControllerIdx][iHaptic] = 0.0f;
mHapticPulseIntensity[iControllerIdx][iHaptic] = 0.0f;
}
}
mDataOffset = 0;
mPresentationRequested = false;
mFrameSubmitted = false;
mFrameAccepted = false;
mTimeoutDuration = 10.0f;
mWaitRemaining = 0.0f;
mBlockedTime = 0.0f;
mTimerElapsed = 0.0f;
mEnded = true;
mEndedWithTimeout = false;
mLastRunTimestamp = TimeStamp();
mTimerSamples.Clear();
mBuffer.Clear();
}
bool VRPuppetCommandBuffer::RunCommand(uint64_t aCommand, double aDeltaTime) {
/**
* Run a single command. If the command is blocking on a state change and
* can't be executed, return false.
*
* VRPuppetCommandBuffer::RunCommand is only called by
*VRPuppetCommandBuffer::Run(), which is already holding the mutex.
*
* Note that VRPuppetCommandBuffer::RunCommand may potentially be called >1000
*times per frame. It might not hurt to add an assert here, but we should
*avoid adding code which may potentially malloc (eg string handling) even for
*debug builds here. This function will need to be reasonably fast, even in
*debug builds which will be using it during tests.
**/
switch ((VRPuppet_Command)(aCommand & 0xff00000000000000)) {
case VRPuppet_Command::VRPuppet_End:
CompleteTest(false);
break;
case VRPuppet_Command::VRPuppet_ClearAll:
memset(&mPendingState, 0, sizeof(VRSystemState));
memset(&mCommittedState, 0, sizeof(VRSystemState));
mPresentationRequested = false;
mFrameSubmitted = false;
mFrameAccepted = false;
break;
case VRPuppet_Command::VRPuppet_ClearController: {
uint8_t controllerIdx = aCommand & 0x00000000000000ff;
if (controllerIdx < kVRControllerMaxCount) {
mPendingState.controllerState[controllerIdx].Clear();
}
} break;
case VRPuppet_Command::VRPuppet_Timeout:
mTimeoutDuration = (double)(aCommand & 0x00000000ffffffff) / 1000.0f;
break;
case VRPuppet_Command::VRPuppet_Wait:
if (mWaitRemaining == 0.0f) {
mWaitRemaining = (double)(aCommand & 0x00000000ffffffff) / 1000.0f;
// Wait timer started, block
return false;
}
mWaitRemaining -= aDeltaTime;
if (mWaitRemaining > 0.0f) {
// Wait timer still running, block
return false;
}
// Wait timer has elapsed, unblock
mWaitRemaining = 0.0f;
break;
case VRPuppet_Command::VRPuppet_WaitSubmit:
if (!mFrameSubmitted) {
return false;
}
break;
case VRPuppet_Command::VRPuppet_CaptureFrame:
// TODO - Capture the frame and record the output (Bug 1555180)
break;
case VRPuppet_Command::VRPuppet_AcknowledgeFrame:
mFrameSubmitted = false;
mFrameAccepted = true;
break;
case VRPuppet_Command::VRPuppet_RejectFrame:
mFrameSubmitted = false;
mFrameAccepted = false;
break;
case VRPuppet_Command::VRPuppet_WaitPresentationStart:
if (!mPresentationRequested) {
return false;
}
break;
case VRPuppet_Command::VRPuppet_WaitPresentationEnd:
if (mPresentationRequested) {
return false;
}
break;
case VRPuppet_Command::VRPuppet_WaitHapticIntensity: {
// 0x0800cchhvvvvvvvv - VRPuppet_WaitHapticIntensity(c, h, v)
uint8_t iControllerIdx = (aCommand & 0x0000ff0000000000) >> 40;
if (iControllerIdx >= kVRControllerMaxCount) {
// Puppet test is broken, ensure it fails
return false;
}
uint8_t iHapticIdx = (aCommand & 0x000000ff00000000) >> 32;
if (iHapticIdx >= kNumPuppetHaptics) {
// Puppet test is broken, ensure it fails
return false;
}
uint32_t iHapticIntensity =
aCommand & 0x00000000ffffffff; // interpreted as 16.16 fixed point
SimulateHaptics(aDeltaTime);
uint64_t iCurrentIntensity =
round(mHapticPulseIntensity[iControllerIdx][iHapticIdx] *
(1 << 16)); // convert to 16.16 fixed point
if (iCurrentIntensity > 0xffffffff) {
iCurrentIntensity = 0xffffffff;
}
if (iCurrentIntensity != iHapticIntensity) {
return false;
}
} break;
case VRPuppet_Command::VRPuppet_StartTimer:
mTimerElapsed = 0.0f;
break;
case VRPuppet_Command::VRPuppet_StopTimer:
mTimerSamples.AppendElements(mTimerElapsed);
// TODO - Return the timer samples to Javascript once the command buffer
// is complete (Bug 1555182)
break;
case VRPuppet_Command::VRPuppet_UpdateDisplay:
mDataOffset = (uint8_t*)&mPendingState.displayState -
(uint8_t*)&mPendingState + (aCommand & 0x00000000ffffffff);
break;
case VRPuppet_Command::VRPuppet_UpdateSensor:
mDataOffset = (uint8_t*)&mPendingState.sensorState -
(uint8_t*)&mPendingState + (aCommand & 0x00000000ffffffff);
break;
case VRPuppet_Command::VRPuppet_UpdateControllers:
mDataOffset = (uint8_t*)&mPendingState.controllerState -
(uint8_t*)&mPendingState + (aCommand & 0x00000000ffffffff);
break;
case VRPuppet_Command::VRPuppet_Commit:
memcpy(&mCommittedState, &mPendingState, sizeof(VRSystemState));
break;
case VRPuppet_Command::VRPuppet_Data7:
WriteData((aCommand & 0x00ff000000000000) >> 48);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data6:
WriteData((aCommand & 0x0000ff0000000000) >> 40);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data5:
WriteData((aCommand & 0x000000ff00000000) >> 32);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data4:
WriteData((aCommand & 0x00000000ff000000) >> 24);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data3:
WriteData((aCommand & 0x0000000000ff0000) >> 16);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data2:
WriteData((aCommand & 0x000000000000ff00) >> 8);
[[fallthrough]];
// Purposefully, no break
case VRPuppet_Command::VRPuppet_Data1:
WriteData(aCommand & 0x00000000000000ff);
break;
}
return true;
}
void VRPuppetCommandBuffer::WriteData(uint8_t aData) {
if (mDataOffset && mDataOffset < sizeof(VRSystemState)) {
((uint8_t*)&mPendingState)[mDataOffset++] = aData;
}
}
void VRPuppetCommandBuffer::Run() {
MutexAutoLock lock(mMutex);
TimeStamp now = TimeStamp::Now();
double deltaTime = 0.0f;
if (!mLastRunTimestamp.IsNull()) {
deltaTime = (now - mLastRunTimestamp).ToSeconds();
}
mLastRunTimestamp = now;
mTimerElapsed += deltaTime;
size_t transactionLength = 0;
while (transactionLength < mBuffer.Length() && !mEnded) {
if (RunCommand(mBuffer[transactionLength], deltaTime)) {
mBlockedTime = 0.0f;
transactionLength++;
} else {
mBlockedTime += deltaTime;
if (mBlockedTime > mTimeoutDuration) {
CompleteTest(true);
}
// If a command is blocked, we don't increment transactionLength,
// allowing the command to be retried on the next cycle
break;
}
}
mBuffer.RemoveElementsAt(0, transactionLength);
}
void VRPuppetCommandBuffer::Run(VRSystemState& aState) {
Run();
// We don't want to stomp over some members
bool bEnumerationCompleted = aState.enumerationCompleted;
bool bShutdown = aState.displayState.shutdown;
uint32_t minRestartInterval = aState.displayState.minRestartInterval;
// Overwrite it all
memcpy(&aState, &mCommittedState, sizeof(VRSystemState));
// Restore the members
aState.enumerationCompleted = bEnumerationCompleted;
aState.displayState.shutdown = bShutdown;
aState.displayState.minRestartInterval = minRestartInterval;
}
void VRPuppetCommandBuffer::StartPresentation() {
mPresentationRequested = true;
Run();
}
void VRPuppetCommandBuffer::StopPresentation() {
mPresentationRequested = false;
Run();
}
bool VRPuppetCommandBuffer::SubmitFrame() {
// Emulate blocking behavior of various XR API's as
// described by puppet script
mFrameSubmitted = true;
mFrameAccepted = false;
while (true) {
Run();
if (!mFrameSubmitted || mEnded) {
break;
}
PR_Sleep(PR_INTERVAL_NO_WAIT); // Yield
}
return mFrameAccepted;
}
void VRPuppetCommandBuffer::VibrateHaptic(uint32_t aControllerIdx,
uint32_t aHapticIndex,
float aIntensity, float aDuration) {
if (aHapticIndex >= kNumPuppetHaptics ||
aControllerIdx >= kVRControllerMaxCount) {
return;
}
// We must Run() before and after updating haptic state to avoid script
// deadlocks
// The deadlocks would be caused by scripts that include two
// VRPuppet_WaitHapticIntensity commands. If
// VRPuppetCommandBuffer::VibrateHaptic() is called twice without advancing
// through the command buffer with VRPuppetCommandBuffer::Run() in between,
// the first VRPuppet_WaitHapticInensity may not see the transient value that
// it is waiting for, thus blocking forever and deadlocking the script.
Run();
mHapticPulseRemaining[aControllerIdx][aHapticIndex] = aDuration;
mHapticPulseIntensity[aControllerIdx][aHapticIndex] = aIntensity;
Run();
}
void VRPuppetCommandBuffer::StopVibrateHaptic(uint32_t aControllerIdx) {
if (aControllerIdx >= kVRControllerMaxCount) {
return;
}
// We must Run() before and after updating haptic state to avoid script
// deadlocks
Run();
for (int iHaptic = 0; iHaptic < kNumPuppetHaptics; iHaptic++) {
mHapticPulseRemaining[aControllerIdx][iHaptic] = 0.0f;
mHapticPulseIntensity[aControllerIdx][iHaptic] = 0.0f;
}
Run();
}
void VRPuppetCommandBuffer::StopAllHaptics() {
// We must Run() before and after updating haptic state to avoid script
// deadlocks
Run();
for (int iControllerIdx = 0; iControllerIdx < kVRControllerMaxCount;
iControllerIdx++) {
for (int iHaptic = 0; iHaptic < kNumPuppetHaptics; iHaptic++) {
mHapticPulseRemaining[iControllerIdx][iHaptic] = 0.0f;
mHapticPulseIntensity[iControllerIdx][iHaptic] = 0.0f;
}
}
Run();
}
void VRPuppetCommandBuffer::SimulateHaptics(double aDeltaTime) {
for (int iControllerIdx = 0; iControllerIdx < kVRControllerMaxCount;
iControllerIdx++) {
for (int iHaptic = 0; iHaptic < kNumPuppetHaptics; iHaptic++) {
if (mHapticPulseIntensity[iControllerIdx][iHaptic] > 0.0f) {
mHapticPulseRemaining[iControllerIdx][iHaptic] -= aDeltaTime;
if (mHapticPulseRemaining[iControllerIdx][iHaptic] <= 0.0f) {
mHapticPulseRemaining[iControllerIdx][iHaptic] = 0.0f;
mHapticPulseIntensity[iControllerIdx][iHaptic] = 0.0f;
}
}
}
}
}
void VRPuppetCommandBuffer::CompleteTest(bool aTimedOut) {
mEndedWithTimeout = aTimedOut;
mEnded = true;
}
/**
* Generates a sequence of VRPuppet_Data# commands, as described
* in VRPuppetCommandBuffer.h, to encode the changes to be made to
* a "destination" structure to match the "source" structure.
* As the commands are encoded, the destination structure is updated
* to match the source.
*
* @param aBuffer
* The buffer in which the commands will be appended.
* @param aSrcStart
* Byte pointer to the start of the structure that
* will be copied from.
* @param aDstStart
* Byte pointer to the start of the structure that
* will be copied to.
* @param aLength
* Length of the structure that will be copied.
* @param aUpdateCommand
* VRPuppet_... command indicating which structure is being
* copied:
* VRPuppet_Command::VRPuppet_UpdateDisplay:
* A single VRDisplayState struct
* VRPuppet_Command::VRPuppet_UpdateSensor:
* A single VRHMDSensorState struct
* VRPuppet_Command::VRPuppet_UpdateControllers:
* An array of VRControllerState structs with a
* count of kVRControllerMaxCount
*/
void VRPuppetCommandBuffer::EncodeStruct(nsTArray<uint64_t>& aBuffer,
uint8_t* aSrcStart, uint8_t* aDstStart,
size_t aLength,
VRPuppet_Command aUpdateCommand) {
// Naive implementation, but will not be executed in realtime, so will not
// affect test timer results. Could be improved to avoid unaligned reads and
// to use SSE.
// Pointer to source byte being compared+copied
uint8_t* src = aSrcStart;
// Pointer to destination byte being compared+copied
uint8_t* dst = aDstStart;
// Number of bytes packed into bufData
uint8_t bufLen = 0;
// 64-bits to be interpreted as up to 7 separate bytes
// This will form the lower 56 bits of the command
uint64_t bufData = 0;
// purgebuffer takes the bytes stored in bufData and generates a VRPuppet
// command representing those bytes as "VRPuppet Data".
// VRPUppet_Data1 encodes 1 byte
// VRPuppet_Data2 encodes 2 bytes
// and so on, until..
// VRPuppet_Data7 encodes 7 bytes
// This command is appended to aBuffer, then bufLen and bufData are reset
auto purgeBuffer = [&]() {
// Only emit a command if there are data bytes in bufData
if (bufLen > 0) {
MOZ_ASSERT(bufLen <= 7);
uint64_t command = (uint64_t)VRPuppet_Command::VRPuppet_Data1;
command += ((uint64_t)VRPuppet_Command::VRPuppet_Data2 -
(uint64_t)VRPuppet_Command::VRPuppet_Data1) *
(bufLen - 1);
command |= bufData;
aBuffer.AppendElement(command);
bufLen = 0;
bufData = 0;
}
};
// Loop through the bytes of the structs.
// While copying the struct at aSrcStart to aDstStart,
// the differences are encoded as VRPuppet commands and
// appended to aBuffer.
for (size_t i = 0; i < aLength; i++) {
if (*src != *dst) {
// This byte is different
// Copy the byte to the destination
*dst = *src;
if (bufLen == 0) {
// This is the start of a new span of changed bytes
// Output a command to specify the offset of the
// span.
aBuffer.AppendElement((uint64_t)aUpdateCommand + i);
// Store this first byte in bufData.
// We will batch up to 7 bytes in one VRPuppet_DataXX
// command, so we won't emit it yet.
bufLen = 1;
bufData = *src;
} else if (bufLen <= 6) {
// This is the continuation of a span of changed bytes.
// There is room to add more bytes to bufData.
// Store the next byte in bufData.
// We will batch up to 7 bytes in one VRPuppet_DataXX
// command, so we won't emit it yet.
bufData = (bufData << 8) | *src;
bufLen++;
} else {
MOZ_ASSERT(bufLen == 7);
// This is the continuation of a span of changed bytes.
// There are already 7 bytes in bufData, so we must emit
// the VRPuppet_Data7 command for the prior bytes before
// starting a new command.
aBuffer.AppendElement((uint64_t)VRPuppet_Command::VRPuppet_Data7 +
bufData);
// Store this byte to be included in the next VRPuppet_DataXX
// command.
bufLen = 1;
bufData = *src;
}
} else {
// This byte is the same.
// If there are bytes in bufData, the span has now ended and we must
// emit a VRPuppet_DataXX command for the accumulated bytes.
// purgeBuffer will not emit any commands if there are no bytes
// accumulated.
purgeBuffer();
}
// Advance to the next source and destination byte.
++src;
++dst;
}
// In the event that the very last byte of the structs differ, we must
// ensure that the accumulated bytes are emitted as a VRPuppet_DataXX
// command.
purgeBuffer();
}
} // namespace mozilla::gfx
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