/*
* Copyright (c) Facebook, Inc.
* Licensed under the Apache License, Version 2.0 (the "License")
*/
#include <map>
#include <string>
#include "PyPerfDefaultPrinter.h"
#include "PyPerfUtil.h"
namespace ebpf {
namespace pyperf {
const static std::string kLostSymbol = "[Lost Symbol]";
const static std::string kIncompleteStack = "[Truncated Stack]";
const static std::string kErrorStack = "[Stack Error]";
const static std::string kNonPythonStack = "[Non-Python Code]";
const static std::map<int, const char*> kGILStateValues = {
{GIL_STATE_NO_INFO, "No GIL Info"},
{GIL_STATE_ERROR, "Error Reading GIL State"},
{GIL_STATE_UNINITIALIZED, "GIL Uninitialized"},
{GIL_STATE_NOT_LOCKED, "GIL Not Locked"},
{GIL_STATE_THIS_THREAD, "GIL on This Thread"},
{GIL_STATE_GLOBAL_CURRENT_THREAD,
"GIL on Global _PyThreadState_Current Thread"},
{GIL_STATE_OTHER_THREAD, "GIL on Unexpected Thread"},
{GIL_STATE_NULL, "GIL State Empty"}};
const static std::map<int, const char*> kThreadStateValues = {
{THREAD_STATE_UNKNOWN, "ThreadState Unknown"},
{THREAD_STATE_MATCH, "TLS ThreadState is Global _PyThreadState_Current"},
{THREAD_STATE_MISMATCH,
"TLS ThreadState is not Global _PyThreadState_Current"},
{THREAD_STATE_THIS_THREAD_NULL, "TLS ThreadState is NULL"},
{THREAD_STATE_GLOBAL_CURRENT_THREAD_NULL,
"Global _PyThreadState_Current is NULL"},
{THREAD_STATE_BOTH_NULL,
"Both TLS ThreadState and Global _PyThreadState_Current is NULL"},
};
const static std::map<int, const char*> kPthreadIDStateValues = {
{PTHREAD_ID_UNKNOWN, "Pthread ID Unknown"},
{PTHREAD_ID_MATCH, "System Pthread ID is Python ThreadState Pthread ID"},
{PTHREAD_ID_MISMATCH,
"System Pthread ID is not Python ThreadState Pthread ID"},
{PTHREAD_ID_THREAD_STATE_NULL, "No Pthread ID: TLS ThreadState is NULL"},
{PTHREAD_ID_NULL, "Pthread ID on TLS ThreadState is NULL"},
{PTHREAD_ID_ERROR, "Error Reading System Pthread ID"}};
void PyPerfDefaultPrinter::processSamples(
const std::vector<PyPerfSample>& samples, PyPerfUtil* util) {
auto symbols = util->getSymbolMapping();
uint32_t lostSymbols = 0;
uint32_t truncatedStack = 0;
for (auto& sample : samples) {
if (sample.threadStateMatch != THREAD_STATE_THIS_THREAD_NULL &&
sample.threadStateMatch != THREAD_STATE_BOTH_NULL) {
for (const auto stackId : sample.pyStackIds) {
auto symbIt = symbols.find(stackId);
if (symbIt != symbols.end()) {
std::printf(" %s\n", symbIt->second.c_str());
} else {
std::printf(" %s\n", kLostSymbol.c_str());
lostSymbols++;
}
}
switch (sample.stackStatus) {
case STACK_STATUS_TRUNCATED:
std::printf(" %s\n", kIncompleteStack.c_str());
truncatedStack++;
break;
case STACK_STATUS_ERROR:
std::printf(" %s\n", kErrorStack.c_str());
break;
default:
break;
}
} else {
std::printf(" %s\n", kNonPythonStack.c_str());
}
std::printf("PID: %d TID: %d (%s)\n", sample.pid, sample.tid,
sample.comm.c_str());
if (showGILState_)
std::printf("GIL State: %s\n", kGILStateValues.at(sample.gilState));
if (showThreadState_)
std::printf("Thread State: %s\n",
kThreadStateValues.at(sample.threadStateMatch));
if (showPthreadIDState_)
std::printf("Pthread ID State: %s\n",
kPthreadIDStateValues.at(sample.pthreadIDMatch));
std::printf("\n");
}
std::printf("%d samples collected\n", util->getTotalSamples());
std::printf("%d samples lost\n", util->getLostSamples());
std::printf("%d samples with truncated stack\n", truncatedStack);
std::printf("%d times Python symbol lost\n", lostSymbols);
}
} // namespace pyperf
} // namespace ebpf