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vperfetto.cpp
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vperfetto.cpp
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// Copyright 2020 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 "vperfetto.h"
#include "perfetto-min/protos/perfetto/trace/trace_packet.pbzero.h"
#include "perfetto-min/protos/perfetto/trace/track_event/counter_descriptor.pbzero.h"
#include "perfetto-min/protos/perfetto/trace/track_event/track_descriptor.pbzero.h"
#include "perfetto-min/protos/perfetto/trace/track_event/track_event.pbzero.h"
#include "perfetto-min/protos/perfetto/trace/interned_data/interned_data.pbzero.h"
#include "perfetto/base/time.h"
#include "perfetto/protozero/message_handle.h"
#include "perfetto/protozero/proto_utils.h"
#include "perfetto/protozero/root_message.h"
#include "perfetto/protozero/scattered_stream_writer.h"
#include <atomic>
#include <chrono>
#include <cstdlib>
#include <fstream>
#include <thread>
#include <mutex>
#include <unordered_map>
#include <unordered_set>
#include <sstream>
#include "vperfetto-util.h"
namespace vperfetto {
static FILE* sDefaultFileHandle = nullptr;
static VirtualDeviceTraceConfig sTraceConfig = {
.initialized = false,
.tracingDisabled = true,
.packetsWritten = 0,
.sequenceIdWritten = 0,
.currentInterningId = 1,
.currentThreadId = 1,
.hostFilename = nullptr,
.guestFilename = nullptr,
.combinedFilename = nullptr,
.hostStartTime = 0,
.guestStartTime = 0,
.guestTimeDiff = 0,
.perThreadStorageMb = 1,
.addTraces = false;
};
#define TRACE_STACK_DEPTH_MAX 16
class TraceContext;
struct SavedTraceInfo {
uint8_t* data;
size_t allocSize;
size_t written;
bool first;
};
class TraceStorage {
public:
void add(TraceContext* context) {
std::lock_guard<std::mutex> lock(mContextsLock);
mContexts.insert(context);
}
void remove(TraceContext* context) {
std::lock_guard<std::mutex> lock(mContextsLock);
mContexts.erase(context);
}
void onTracingEnabled() {
// do stuff
}
void onTracingDisabled() {
saveTracesToDisk();
}
// When a thread exited early before tracing was disabled
void saveTrace(const SavedTraceInfo& trace) {
std::lock_guard<std::mutex> lock(mContextsLock);
saveTraceLocked(trace);
}
private:
void saveTraceLocked(const SavedTraceInfo& trace) {
if (trace.data)
mSavedTraces.push_back(trace);
}
void saveTracesToDisk();
std::mutex mContextsLock; // protects |mContexts|
std::unordered_set<TraceContext*> mContexts;
std::vector<SavedTraceInfo> mSavedTraces;
};
static TraceStorage sTraceStorage;
class TraceContext : public protozero::ScatteredStreamWriter::Delegate {
public:
TraceContext() :
mWriter(this) {
sTraceStorage.add(this);
}
SavedTraceInfo save(bool partialReset = false) {
ScopedTracingLock lock(&mTracingLock);
return saveLocked(partialReset);
}
virtual ~TraceContext() {
sTraceStorage.remove(this);
if (mTraceBuffer) {
sTraceStorage.saveTrace(save());
}
}
virtual protozero::ContiguousMemoryRange GetNewBuffer() {
if (mWritingPacket) {
mPacket.Finalize();
}
finishAndRefresh();
if (mWritingPacket) {
beginPacket();
size_t writtenThisTime = size_t(((uintptr_t)mWriter.write_ptr()) - (uintptr_t)mTraceBuffer);
return protozero::ContiguousMemoryRange{mWriter.write_ptr(), mWriter.write_ptr() + (mTraceBufferSize - writtenThisTime) };
} else {
return protozero::ContiguousMemoryRange{mTraceBuffer, mTraceBuffer + mTraceBufferSize};
}
}
#ifdef __cplusplus
# define CC_LIKELY( exp ) (__builtin_expect( !!(exp), true ))
# define CC_UNLIKELY( exp ) (__builtin_expect( !!(exp), false ))
#else
# define CC_LIKELY( exp ) (__builtin_expect( !!(exp), 1 ))
# define CC_UNLIKELY( exp ) (__builtin_expect( !!(exp), 0 ))
#endif
static const uint32_t kSequenceId = 1;
static constexpr char kTrackNamePrefix[] = "emu-";
static constexpr char kCounterNamePrefix[] = "-count-";
void beginTrace(const char* name) {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
if (CC_UNLIKELY(mStackDepth == TRACE_STACK_DEPTH_MAX)) return;
ScopedTracingLock lock(&mTracingLock);
ensureThreadInfo();
bool needEmitEventIntern = false;
mCurrentEventNameIid[mStackDepth] = internEvent(name, &needEmitEventIntern);
if (CC_UNLIKELY(needEmitEventIntern)) {
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
auto interned_data = mPacket.set_interned_data();
auto eventname = interned_data->add_event_names();
eventname->set_iid(mCurrentEventNameIid[mStackDepth]);
eventname->set_name(name);
endPacket();
}
// Finally do the actual thing
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
mPacket.set_timestamp(getTimestamp());
auto trackevent = mPacket.set_track_event();
trackevent->set_track_uuid(mThreadId); // thread id
trackevent->add_category_iids(mCurrentCategoryIid[mStackDepth]);
trackevent->set_name_iid(mCurrentEventNameIid[mStackDepth]);
trackevent->set_type(::perfetto::protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN);
endPacket();
++mStackDepth;
}
inline void ensureThreadInfo() __attribute__((always_inline)) {
// Write trusted sequence id if this is the first packet.
if (CC_UNLIKELY(1 == __atomic_add_fetch(&sTraceConfig.packetsWritten, 1, __ATOMIC_SEQ_CST))) {
mFirst = true;
sTraceConfig.sequenceIdWritten = true;
beginPacket();
mPacket.set_trusted_packet_sequence_id(1);
mPacket.set_sequence_flags(1);
endPacket();
} else if (!CC_LIKELY(sTraceConfig.sequenceIdWritten)) { // Not the first packet, but some other thread is writing the sequence id at the moment, wait for it.
while (!sTraceConfig.sequenceIdWritten);
}
// TODO: Allow changing category
static const char kCategory[] = "gfxstream";
bool needEmitCategoryIntern = false;
mCurrentCategoryIid[mStackDepth] = internCategory(kCategory, &needEmitCategoryIntern);
if (CC_UNLIKELY(needEmitCategoryIntern)) {
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
auto interned_data = mPacket.set_interned_data();
auto category = interned_data->add_event_categories();
category->set_iid(mCurrentCategoryIid[mStackDepth]);
category->set_name(kCategory);
endPacket();
}
if (CC_UNLIKELY(mNeedToSetThreadId)) {
mThreadId = __atomic_add_fetch(&sTraceConfig.currentThreadId, 1, __ATOMIC_RELAXED);
mNeedToSetThreadId = false;
fprintf(stderr, "%s: found thread id: %u\n", __func__, mThreadId);
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
auto desc = mPacket.set_track_descriptor();
desc->set_uuid(mThreadId);
desc->set_name(getTrackNameFromThreadId(mThreadId));
endPacket();
}
}
void endTrace() {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
if (CC_UNLIKELY(mStackDepth == TRACE_STACK_DEPTH_MAX)) return;
if (CC_UNLIKELY(mStackDepth == 0)) return;
--mStackDepth;
ScopedTracingLock lock(&mTracingLock);
// Finally do the actual thing
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
mPacket.set_timestamp(getTimestamp());
auto trackevent = mPacket.set_track_event();
trackevent->add_category_iids(mCurrentCategoryIid[mStackDepth]);
trackevent->set_track_uuid(mThreadId); // thread id
trackevent->set_name_iid(mCurrentEventNameIid[mStackDepth]);
trackevent->set_type(::perfetto::protos::pbzero::TrackEvent::TYPE_SLICE_END);
endPacket();
}
void traceCounter(const char* name, int64_t val) {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
ScopedTracingLock lock(&mTracingLock);
ensureThreadInfo();
bool first;
uint32_t counterId;
uint64_t counterTrackUuid = getOrCreateCounterTrackUuid(name, &counterId, &first);
if (CC_UNLIKELY(first)) {
fprintf(stderr, "%s: thread id: %u has a counter: %u. uuid: 0x%llx\n", __func__, mThreadId, counterId, (unsigned long long)(counterTrackUuid));
beginPacket();
auto desc = mPacket.set_track_descriptor();
desc->set_uuid(counterTrackUuid);
desc->set_name(getTrackNameFromThreadIdAndCounterName(mThreadId, name));
desc->set_counter();
endPacket();
}
// Do the actual counter track event
beginPacket();
mPacket.set_trusted_packet_sequence_id(kSequenceId);
mPacket.set_sequence_flags(2 /* incremental */);
mPacket.set_timestamp(getTimestamp());
auto trackevent = mPacket.set_track_event();
trackevent->set_track_uuid(counterTrackUuid);
trackevent->set_type(::perfetto::protos::pbzero::TrackEvent::TYPE_COUNTER);
trackevent->set_counter_value(val);
endPacket();
}
void waitFinish() {
ScopedTracingLock lock(&mTracingLock);
}
private:
class ScopedTracingLock {
public:
ScopedTracingLock(std::atomic_flag* flag) : mFlag(flag) {
while (mFlag->test_and_set(std::memory_order_acquire)) {
// spin
}
}
~ScopedTracingLock() {
mFlag->clear(std::memory_order_release);
}
private:
std::atomic_flag* mFlag;
};
SavedTraceInfo saveLocked(bool partialReset) {
// Invalidates mTraceBuffer, transfers ownership of it.
SavedTraceInfo info = {
mTraceBuffer,
mTraceBufferSize,
size_t(((uintptr_t)mWriter.write_ptr()) - (uintptr_t)mTraceBuffer),
mFirst,
};
resetLocked(partialReset);
return info;
}
void resetLocked(bool partialReset) {
mTraceBuffer = nullptr;
mTraceBufferSize = 0;
mFirst = false;
if (partialReset) return;
mNeedToSetThreadId = true;
mThreadId = 0;
mNeedToConfigureGuestTime = true;
mCurrentCounterId = 1;
mTimeDiff = 0;
mStackDepth = 0;
mEventCategoryInterningIds.clear();
mEventNameInterningIds.clear();
mCounterNameToTrackUuids.clear();
mPacket.Reset(&mWriter);
}
void finishAndRefresh() {
if (mTraceBuffer) {
sTraceStorage.saveTrace(saveLocked(true /* partial reset */));
}
allocTraceBuffer();
};
void allocTraceBuffer() {
// Freed after ownership is transferred to Trace Storage
mTraceBufferSize = sTraceConfig.perThreadStorageMb * 1048576;
mTraceBuffer = (uint8_t*)malloc(mTraceBufferSize);
mWriter.Reset(protozero::ContiguousMemoryRange{mTraceBuffer, mTraceBuffer + mTraceBufferSize});
}
inline uint64_t getTimestamp() {
uint64_t t = bootTimeNs();
t += sTraceConfig.guestTimeDiff;
return t;
}
template <typename T>
static inline uint8_t* writeVarInt(T value, uint8_t* target) {
// If value is <= 0 we must first sign extend to int64_t (see [1]).
// Finally we always cast to an unsigned value to to avoid arithmetic
// (sign expanding) shifts in the while loop.
// [1]: "If you use int32 or int64 as the type for a negative number, the
// resulting varint is always ten bytes long".
// - developers.google.com/protocol-buffers/docs/encoding
// So for each input type we do the following casts:
// uintX_t -> uintX_t -> uintX_t
// int8_t -> int64_t -> uint64_t
// int16_t -> int64_t -> uint64_t
// int32_t -> int64_t -> uint64_t
// int64_t -> int64_t -> uint64_t
using MaybeExtendedType =
typename std::conditional<std::is_unsigned<T>::value, T, int64_t>::type;
using UnsignedType = typename std::make_unsigned<MaybeExtendedType>::type;
MaybeExtendedType extended_value = static_cast<MaybeExtendedType>(value);
UnsignedType unsigned_value = static_cast<UnsignedType>(extended_value);
while (unsigned_value >= 0x80) {
*target++ = static_cast<uint8_t>(unsigned_value) | 0x80;
unsigned_value >>= 7;
}
*target = static_cast<uint8_t>(unsigned_value);
return target + 1;
}
void beginPacket() {
if (CC_UNLIKELY(mTraceBuffer == nullptr)) {
allocTraceBuffer();
}
// Make sure there's enough space for the preamble and size field, and to hold a track event.
static const size_t kTrackEventPadding = 200; // conservatively 200 bytes
static const size_t kPacketHeaderSize = 4;
size_t neededSpace = kPacketHeaderSize + 4 + kTrackEventPadding;
if (mWriter.bytes_available() < neededSpace) {
finishAndRefresh();
}
mPacket.Reset(&mWriter);
// Write the preamble
constexpr uint32_t tag = protozero::proto_utils::MakeTagLengthDelimited(1 /* trace packet id */);
uint8_t tagScratch[10];
auto scratchNext = writeVarInt(tag, tagScratch);
mWriter.WriteBytes(tagScratch, scratchNext - tagScratch);
// Reserve the size field
uint8_t* header = mWriter.ReserveBytes(kPacketHeaderSize);
memset(header, 0, kPacketHeaderSize);
mPacket.set_size_field(header);
mWritingPacket = true;
}
void endPacket() {
mWritingPacket = false;
mPacket.Finalize();
}
uint32_t internCategory(const char* str, bool* firstTime) {
auto it = mEventCategoryInterningIds.find(str);
if (it != mEventCategoryInterningIds.end()) {
*firstTime = false;
return it->second;
}
uint32_t res = sTraceConfig.currentInterningId;
mEventCategoryInterningIds[str] = res;
__atomic_add_fetch(&sTraceConfig.currentInterningId, 1, __ATOMIC_RELAXED);
*firstTime = true;
return res;
}
uint32_t internEvent(const char* str, bool* firstTime) {
auto it = mEventNameInterningIds.find(str);
if (it != mEventNameInterningIds.end()) {
*firstTime = false;
return it->second;
}
uint32_t res = sTraceConfig.currentInterningId;
mEventNameInterningIds[str] = res;
__atomic_add_fetch(&sTraceConfig.currentInterningId, 1, __ATOMIC_RELAXED);
*firstTime = true;
return res;
}
static std::string getTrackNameFromThreadId(uint32_t threadId) {
std::stringstream ss;
ss << kTrackNamePrefix << threadId;
return ss.str();
}
static std::string getTrackNameFromThreadIdAndCounterName(uint32_t threadId, const char* counterName) {
std::stringstream ss;
ss << kTrackNamePrefix << threadId << kCounterNamePrefix << counterName;
return ss.str();
}
uint64_t getOrCreateCounterTrackUuid(const char* name, uint32_t* counterId, bool* firstTime) {
auto it = mCounterNameToTrackUuids.find(name);
uint64_t res;
if (CC_UNLIKELY(it == mCounterNameToTrackUuids.end())) {
// The counter track uuid is the thread id | shifted counter id.
res = (((uint64_t)mCurrentCounterId) << 32) | mThreadId;
mCounterNameToTrackUuids[name] = res;
*counterId = mCurrentCounterId;
*firstTime = true;
// Increment counter id for this thread.
++mCurrentCounterId;
} else {
res = it->second;
*counterId = res >> 32;
*firstTime = false;
}
return res;
}
uint8_t* mTraceBuffer = nullptr;
size_t mTraceBufferSize = 0;
bool mFirst = false;
bool mWritingPacket = false;
bool mNeedToSetThreadId = true;
uint32_t mThreadId = 0;
bool mNeedToConfigureGuestTime = true;
uint32_t mCurrentCounterId = 1;
uint64_t mTimeDiff = 0;
std::atomic_flag mTracingLock;
uint32_t mStackDepth = 0;
uint32_t mCurrentCategoryIid[TRACE_STACK_DEPTH_MAX];
uint32_t mCurrentEventNameIid[TRACE_STACK_DEPTH_MAX];
protozero::RootMessage<::perfetto::protos::pbzero::TracePacket> mPacket;
protozero::ScatteredStreamWriter mWriter;
std::unordered_map<const char*, uint32_t> mEventCategoryInterningIds;
std::unordered_map<const char*, uint32_t> mEventNameInterningIds;
std::unordered_map<const char*, uint64_t> mCounterNameToTrackUuids;
};
void asyncTraceSaveFunc() {
fprintf(stderr, "%s: Saving combined trace async...\n", __func__);
static const int kWaitSecondsPerIteration = 1;
static const int kMaxIters = 20;
static const int kMinItersForGuestFileSize = 2;
const char* hostFilename = sTraceConfig.hostFilename;
const char* guestFilename = sTraceConfig.guestFilename;
const char* combinedFilename = sTraceConfig.combinedFilename;
std::streampos currGuestSize = 0;
int numGoodGuestFileSizeIters = 0;
bool good = false;
for (int i = 0; i < kMaxIters; ++i) {
fprintf(stderr, "%s: Waiting for 1 second...\n", __func__);
std::this_thread::sleep_for(std::chrono::seconds(kWaitSecondsPerIteration));
fprintf(stderr, "%s: Querying file size of guest trace...\n", __func__);
std::ifstream guestFile(guestFilename, std::ios::in | std::ios::binary | std::ios::ate);
std::streampos size = guestFile.tellg();
if (!size) {
fprintf(stderr, "%s: No size, try again\n", __func__);
continue;
}
if (size != currGuestSize) {
fprintf(stderr, "%s: Sized changed (%llu to %llu), try again\n", __func__,
(unsigned long long)currGuestSize, (unsigned long long)size);
currGuestSize = size;
continue;
}
++numGoodGuestFileSizeIters;
if (numGoodGuestFileSizeIters == kMinItersForGuestFileSize) {
fprintf(stderr, "%s: size is stable, continue saving\n", __func__);
good = true;
break;
}
}
if (!good) {
fprintf(stderr, "%s: Timed out when waiting for guest file to stabilize, skipping combined trace saving.\n", __func__);
sTraceConfig.saving = false;
return;
}
std::ifstream hostFile(hostFilename, std::ios_base::binary);
std::ifstream guestFile(guestFilename, std::ios_base::binary);
std::ofstream combinedFile(combinedFilename, std::ios::out | std::ios_base::binary);
combinedFile << guestFile.rdbuf() << hostFile.rdbuf();
combinedFile.close();
guestFile.close();
hostFile.close();
fprintf(stderr, "%s: Wrote combined trace (%s)\n", __func__, combinedFilename);
sTraceConfig.saving = false;
}
void TraceStorage::saveTracesToDisk() {
fprintf(stderr, "%s: Tracing ended================================================================================\n", __func__);
fprintf(stderr, "%s: Saving trace to disk. Configuration:\n", __func__);
fprintf(stderr, "%s: host filename: %s\n", __func__, sTraceConfig.hostFilename);
fprintf(stderr, "%s: guest filename: %s\n", __func__, sTraceConfig.guestFilename);
fprintf(stderr, "%s: combined filename: %s\n", __func__, sTraceConfig.combinedFilename);
fprintf(stderr, "%s: Saving host trace first...\n", __func__);
std::lock_guard<std::mutex> lock(mContextsLock);
for (auto context: mContexts) {
saveTraceLocked(context->save());
};
std::ofstream hostOut;
hostOut.open(sTraceConfig.hostFilename, std::ios::out | std::ios::binary);
for (const auto& info : mSavedTraces) {
if (info.first) {
hostOut.write((const char*)(info.data), info.written);
}
}
for (const auto& info : mSavedTraces) {
if (!info.first) {
hostOut.write((const char*)(info.data), info.written);
}
free(info.data);
}
hostOut.close();
mSavedTraces.clear();
fprintf(stderr, "%s: Saving host trace first...(done)\n", __func__);
if (!sTraceConfig.guestFilename || !sTraceConfig.combinedFilename) {
fprintf(stderr, "%s: skipping guest combined trace, "
"either guest file name (%p) not specified or "
"combined file name (%p) not specified\n", __func__,
sTraceConfig.guestFilename,
sTraceConfig.combinedFilename);
sTraceConfig.saving = false;
return;
}
std::thread saveThread(asyncTraceSaveFunc);
saveThread.detach();
}
static thread_local TraceContext sThreadLocalTraceContext;
VPERFETTO_EXPORT void setTraceConfig(std::function<void(VirtualDeviceTraceConfig&)> f) {
f(sTraceConfig);
}
VPERFETTO_EXPORT VirtualDeviceTraceConfig queryTraceConfig() {
return sTraceConfig;
}
VPERFETTO_EXPORT void initialize(const bool** tracingDisabledPtr) {
if (tracingDisabledPtr) {
*tracingDisabledPtr = &sTraceConfig.tracingDisabled;
}
}
bool useFilenameByEnv(const char* s) {
return s && ("" != std::string(s));
}
VPERFETTO_EXPORT void enableTracing() {
const char* hostFilenameByEnv = std::getenv("VPERFETTO_HOST_FILE");
const char* guestFilenameByEnv = std::getenv("VPERFETTO_GUEST_FILE");
const char* combinedFilenameByEnv = std::getenv("VPERFETTO_COMBINED_FILE");
if (useFilenameByEnv(hostFilenameByEnv)) {
sTraceConfig.hostFilename = hostFilenameByEnv;
}
if (useFilenameByEnv(guestFilenameByEnv)) {
sTraceConfig.guestFilename = guestFilenameByEnv;
}
if (useFilenameByEnv(combinedFilenameByEnv)) {
sTraceConfig.combinedFilename = combinedFilenameByEnv;
}
// Don't enable tracing if host filename is null
if (!sTraceConfig.hostFilename) return;
// Don't enable it twice
if (!sTraceConfig.tracingDisabled) return;
// Don't enable if we are saving
if (sTraceConfig.saving) return;
fprintf(stderr, "%s: Tracing begins================================================================================\n", __func__);
fprintf(stderr, "%s: Configuration:\n", __func__);
fprintf(stderr, "%s: host filename: %s (possibly set via $VPERFETTO_HOST_FILE)\n", __func__, sTraceConfig.hostFilename);
fprintf(stderr, "%s: guest filename: %s (possibly set via $VPERFETTO_GUEST_FILE)\n", __func__, sTraceConfig.guestFilename);
fprintf(stderr, "%s: combined filename: %s (possibly set via $VPERFETTO_COMBINED_FILE)\n", __func__, sTraceConfig.combinedFilename);
fprintf(stderr, "%s: guest time diff to add to host time: %lld\n", __func__, (long long)sTraceConfig.guestTimeDiff);
sTraceConfig.packetsWritten = 0;
sTraceConfig.sequenceIdWritten = 0;
sTraceConfig.currentInterningId = 1;
sTraceConfig.currentThreadId = 1;
sTraceStorage.onTracingEnabled();
sTraceConfig.tracingDisabled = 0;
}
VPERFETTO_EXPORT void disableTracing() {
// Don't enable or disable tracing if host filename is null
if (!sTraceConfig.hostFilename) return;
uint32_t tracingWasDisabled = sTraceConfig.tracingDisabled;
sTraceConfig.tracingDisabled = 1;
if (!tracingWasDisabled) {
// Set saving on
sTraceConfig.saving = false;
sTraceStorage.onTracingDisabled();
}
sTraceConfig.packetsWritten = 0;
sTraceConfig.sequenceIdWritten = 0;
sTraceConfig.currentInterningId = 1;
sTraceConfig.currentThreadId = 1;
sTraceConfig.guestTimeDiff = 0;
}
VPERFETTO_EXPORT void beginTrace(const char* name) {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
sThreadLocalTraceContext.beginTrace(name);
}
VPERFETTO_EXPORT void endTrace() {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
sThreadLocalTraceContext.endTrace();
}
VPERFETTO_EXPORT void traceCounter(const char* name, int64_t val) {
if (CC_LIKELY(sTraceConfig.tracingDisabled)) return;
sThreadLocalTraceContext.traceCounter(name, val);
}
VPERFETTO_EXPORT void setGuestTime(uint64_t t) {
vperfetto::setTraceConfig([t](vperfetto::VirtualDeviceTraceConfig& config) {
// can only be set before tracing
if (!config.tracingDisabled) {
return;
}
config.guestStartTime = t;
config.hostStartTime = bootTimeNs();
config.guestTimeDiff = getSignedDifference(config.guestStartTime, config.hostStartTime);
});
}
VPERFETTO_EXPORT uint64_t bootTimeNs() {
return (uint64_t)(::perfetto::base::GetBootTimeNs().count());
}
VPERFETTO_EXPORT void sleepUs(unsigned interval) {
::perfetto::base::SleepMicroseconds(interval);
}
VPERFETTO_EXPORT void waitSavingDone() {
while (sTraceConfig.saving) {
sleepUs(1000000);
}
}
VPERFETTO_EXPORT void combineTraces(const TraceCombineConfig* config) {
fprintf(stderr, "%s: error: trace combining not available yet in the non-sdk build. Need to refactor combiner into a separate lbirary first.\n", __func__);
}
} // namespace vperfetto