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profiler_legacy.h
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profiler_legacy.h
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#pragma once
#include <iostream>
#include <mutex>
#include <memory>
#include <vector>
#include <cstdint>
#include <string>
#include <sstream>
#include <forward_list>
#include <tuple>
#include <torch/csrc/Export.h>
#include <torch/csrc/profiler/util.h>
#include <torch/csrc/profiler/api.h>
namespace torch { namespace autograd {
struct Node;
namespace profiler {
enum class C10_API_ENUM EventKind : uint16_t {
Mark,
PushRange,
PopRange,
MemoryAlloc,
};
// To be deprecated, once we switch to Kineto profiling
struct TORCH_API LegacyEvent {
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-member-init)
LegacyEvent(
EventKind kind,
at::StringView name,
uint16_t thread_id,
bool record_cuda,
at::RecordFunctionHandle handle = 0,
std::vector<std::vector<int64_t>>&& shapes = {},
int node_id = -1,
bool is_async = false)
: name_(std::move(name)),
kind_(kind),
thread_id_(thread_id),
handle_(handle),
shapes_(shapes),
node_id_(node_id),
is_async_(is_async) {
record(record_cuda);
}
// Constructor to be used in conjunction with LegacyEvent::fromIValue.
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-member-init)
LegacyEvent(
EventKind kind,
at::StringView name,
uint16_t thread_id,
at::RecordFunctionHandle handle,
std::vector<std::vector<int64_t>>&& shapes,
int node_id,
bool is_remote,
int64_t cpu_memory_usage,
int64_t cpu_ns,
bool cuda_recorded,
int64_t cuda_memory_usage = 0,
int device = -1,
double cuda_us = -1)
: cpu_ns_(cpu_ns),
name_(std::move(name)),
kind_(kind),
thread_id_(thread_id),
handle_(handle),
shapes_(shapes),
cpu_memory_usage_(cpu_memory_usage),
cuda_memory_usage_(cuda_memory_usage),
device_(device),
node_id_(node_id),
is_remote_(is_remote),
cuda_us_(cuda_us) {
// Sanity check values that were deserialized
TORCH_INTERNAL_ASSERT(cpu_ns_ > 0);
if (cuda_recorded) {
TORCH_INTERNAL_ASSERT(device_ >= 0);
TORCH_INTERNAL_ASSERT(cuda_us_ >= 0);
}
}
// Returns IValues corresponding to event structure, to be used for
// serialization.
at::IValue toIValue() const;
// Reconstructs an event from IValues given by toIValue.
static LegacyEvent fromIValue(const at::IValue& eventIValue);
void record(bool record_cuda);
std::string kindStr() const {
switch (kind_) {
case EventKind::Mark: return "mark";
case EventKind::PushRange: return "push";
case EventKind::PopRange: return "pop";
case EventKind::MemoryAlloc: return "memory_alloc";
}
throw std::runtime_error("unknown event kind");
}
EventKind kind() const {
return kind_;
}
const char* name() const {
return name_.str();
}
uint64_t threadId() const {
return thread_id_;
}
std::vector<std::vector<int64_t>> shapes() const {
return shapes_;
}
double cpuElapsedUs(const LegacyEvent& e) const {
// NOLINTNEXTLINE(cppcoreguidelines-narrowing-conversions,bugprone-narrowing-conversions,cppcoreguidelines-avoid-magic-numbers)
return (e.cpu_ns_ - cpu_ns_)/(1000.0);
}
void setCpuUs(int64_t cpu_us) {
cpu_ns_ = cpu_us * 1000.0;
}
double cpuUs() const {
return cpu_ns_ / (1000.0);
}
double cudaElapsedUs(const LegacyEvent& e) const;
bool hasCuda() const {
return cuda_event != nullptr || (isRemote() && device_ != -1);
}
int device() const {
return device_;
}
void updateMemoryStats(int64_t alloc_size, c10::Device device) {
if (device.is_cuda() ||
device.type() == c10::DeviceType::HIP) {
cuda_memory_usage_ = alloc_size;
} else if (device.is_cpu() ||
device.type() == c10::DeviceType::MKLDNN ||
device.type() == c10::DeviceType::IDEEP) {
cpu_memory_usage_ = alloc_size;
} else {
LOG(WARNING) << "Unsupported memory profiling device: " << device;
}
}
int64_t cpuMemoryUsage() const {
return cpu_memory_usage_;
}
int64_t cudaMemoryUsage() const {
return cuda_memory_usage_;
}
at::RecordFunctionHandle handle() const {
return handle_;
}
// Node ID corresponding to this event.
int nodeId( ) const {
return node_id_;
}
// Set Node ID on this event.
void setNodeId(int node_id) {
node_id_ = node_id;
}
void setName(at::StringView newName_) {
name_ = std::move(newName_);
}
bool isRemote() const {
return is_remote_;
}
void setCudaUs(int64_t cuda_us) {
cuda_us_ = cuda_us;
}
void setSequenceNr(int64_t sequence_nr) {
sequence_nr_ = sequence_nr;
}
int64_t sequenceNr() const {
return sequence_nr_;
}
void setCorrelationId(uint64_t correlation_id) {
correlation_id_ = correlation_id;
}
uint64_t correlationId() const {
return correlation_id_;
}
const std::vector<std::string>& stack() const {
return stack_;
}
void setStack(const std::vector<std::string>& stack) {
stack_ = stack;
}
uint64_t fwdThreadId() const {
return fwd_thread_id_;
}
void setFwdThreadId(uint64_t fwd_thread_id) {
fwd_thread_id_ = fwd_thread_id;
}
uint8_t scope() const {
return scope_;
}
void setScope(uint8_t scope) {
scope_ = scope;
}
const std::unordered_map<std::string, c10::IValue>& extraArgs() const {
return extra_args_;
}
void setExtraArgs(std::unordered_map<std::string, c10::IValue>&& save_args) {
extra_args_ = std::move(save_args);
}
uint64_t flops() {
return flops_;
}
bool isAsync() {
return is_async_;
}
void setFlops(uint64_t flops) {
flops_ = flops;
}
private:
// signed to allow for negative intervals, initialized for safety.
int64_t cpu_ns_ = 0;
at::StringView name_;
EventKind kind_;
uint64_t thread_id_;
uint64_t fwd_thread_id_;
at::RecordFunctionHandle handle_ {0};
std::vector<std::vector<int64_t>> shapes_;
int64_t cpu_memory_usage_ = 0;
int64_t cuda_memory_usage_ = 0;
int device_ = -1;
torch::profiler::impl::CUDAEventStub cuda_event = nullptr;
int node_id_ = 0;
bool is_remote_ = false;
int64_t cuda_us_ = -1;
int64_t sequence_nr_ = -1;
bool is_async_ = false;
std::vector<std::string> stack_;
uint8_t scope_;
uint64_t correlation_id_;
// Extra arguments for computing op flops
std::unordered_map<std::string, c10::IValue> extra_args_;
uint64_t flops_ = 0;
};
// a linked-list of fixed sized vectors, to avoid
// a std::vector resize from taking a large amount of time inside
// a profiling event
struct RangeEventList {
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-member-init,modernize-use-equals-default)
RangeEventList() {
events_.reserve(kReservedCapacity);
}
template<typename... Args>
void record(Args&&... args) {
std::lock_guard<std::mutex> guard(mutex_);
events_.emplace_back(std::forward<Args>(args)...);
}
std::vector<LegacyEvent> consolidate() {
std::lock_guard<std::mutex> lock(mutex_);
// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
std::vector<LegacyEvent> result;
result.insert(
result.begin(),
std::make_move_iterator(events_.begin()),
std::make_move_iterator(events_.end()));
events_.erase(events_.begin(), events_.end());
return result;
}
size_t size() {
std::lock_guard<std::mutex> lock(mutex_);
return events_.size();
}
private:
// This mutex is used to serialize access when different threads are writing
// to the same instance of RangeEventList.
std::mutex mutex_;
std::vector<LegacyEvent> events_;
static const size_t kReservedCapacity = 1024;
};
// A struct to control settings of disableProfiler options.
struct TORCH_API ProfilerDisableOptions {
ProfilerDisableOptions() = default;
ProfilerDisableOptions(bool shouldCleanupTLSState, bool shouldConsolidate)
: cleanupTLSState(shouldCleanupTLSState),
consolidate(shouldConsolidate) {}
// Whether we should clean up profiler states that are thread local, such as
// ThreadLocalDebugInfo and thread local RecordFunction callbacks.
bool cleanupTLSState = true;
// Whether we should consolidate all currently recorded profiled events. If
// false, will not consolidate and other threads can continue to write to the
// event lists.
bool consolidate = true;
};
// NOTE: profiler mode is thread local, with automatic propagation
// across thread boundary (e.g. at::launch tasks)
TORCH_API void enableProfilerLegacy(const torch::profiler::impl::ProfilerConfig&);
using thread_event_lists = std::vector<std::vector<LegacyEvent>>;
TORCH_API thread_event_lists disableProfilerLegacy(c10::optional<ProfilerDisableOptions> profilerDisableOptions = c10::nullopt);
// adds profiledEvents to the current thread local recorded events. Each event
// will be marked with node ID given by fromNodeId.
TORCH_API void addEventList(std::vector<LegacyEvent>&& profiledEvents);
// Writes profiled events to a stream.
TORCH_API void writeProfilerEventsToStream(std::ostream& out, const std::vector<LegacyEvent*>& events);
// Usage:
// {
// RecordProfile guard("filename.trace");
// // code you want to profile
// }
// Then open filename.trace in chrome://tracing
struct TORCH_API RecordProfile {
RecordProfile(std::ostream& out);
RecordProfile(const std::string& filename);
~RecordProfile();
private:
void init();
std::unique_ptr<std::ofstream> file_;
std::ostream& out_;
void processEvents(const std::vector<LegacyEvent*>& events);
};
// A guard that enables the legacy profiler, taking in an optional callback to process
// the results
// Usage:
// {
// TLSLegacyProfilerGuard g([](thread_event_lists profilerResults) {
// // process profilerResults
// });
// Code to profile
// }
struct TORCH_API TLSLegacyProfilerGuard {
explicit TLSLegacyProfilerGuard(
const torch::profiler::impl::ProfilerConfig& cfg,
c10::optional<std::function<void(const thread_event_lists&)>>
resultCallback = c10::nullopt,
c10::optional<ProfilerDisableOptions> profilerDisableOptions =
c10::nullopt)
: cb_(std::move(resultCallback)),
// NOLINTNEXTLINE(performance-move-const-arg)
profilerDisableOptions_(std::move(profilerDisableOptions)) {
enableProfilerLegacy(cfg);
}
~TLSLegacyProfilerGuard() {
// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
thread_event_lists event_lists = disableProfilerLegacy(profilerDisableOptions_);
if (cb_) {
try {
(*cb_)(event_lists);
} catch (const std::exception& e) {
LOG(ERROR) << "Got error processing profiler events: " << e.what();
}
}
}
private:
c10::optional<std::function<void(const thread_event_lists&)>> cb_;
const c10::optional<ProfilerDisableOptions> profilerDisableOptions_;
};
}}} // namespace torch::autograd::profiler