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// -*- Mode: C++; c-basic-offset: 2; indent-tabs-mode: nil -*-
// Copyright (c) 2007, Google Inc.
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//
// ---
// Author: Sanjay Ghemawat
// Chris Demetriou (refactoring)
//
// Collect profiling data.
//
// The profile data file format is documented in
// doc/cpuprofile-fileformat.html
#ifndef BASE_PROFILEDATA_H_
#define BASE_PROFILEDATA_H_
#include <config.h>
#include <time.h> // for time_t
#include <stdint.h>
#include "base/basictypes.h"
// A class that accumulates profile samples and writes them to a file.
//
// Each sample contains a stack trace and a count. Memory usage is
// reduced by combining profile samples that have the same stack trace
// by adding up the associated counts.
//
// Profile data is accumulated in a bounded amount of memory, and will
// flushed to a file as necessary to stay within the memory limit.
//
// Use of this class assumes external synchronization. The exact
// requirements of that synchronization are that:
//
// - 'Add' may be called from asynchronous signals, but is not
// re-entrant.
//
// - None of 'Start', 'Stop', 'Reset', 'Flush', and 'Add' may be
// called at the same time.
//
// - 'Start', 'Stop', or 'Reset' should not be called while 'Enabled'
// or 'GetCurrent' are running, and vice versa.
//
// A profiler which uses asyncronous signals to add samples will
// typically use two locks to protect this data structure:
//
// - A SpinLock which is held over all calls except for the 'Add'
// call made from the signal handler.
//
// - A SpinLock which is held over calls to 'Start', 'Stop', 'Reset',
// 'Flush', and 'Add'. (This SpinLock should be acquired after
// the first SpinLock in all cases where both are needed.)
class ProfileData {
public:
struct State {
bool enabled; // Is profiling currently enabled?
time_t start_time; // If enabled, when was profiling started?
char profile_name[1024]; // Name of file being written, or '\0'
int samples_gathered; // Number of samples gathered to far (or 0)
};
class Options {
public:
Options();
// Get and set the sample frequency.
int frequency() const {
return frequency_;
}
void set_frequency(int frequency) {
frequency_ = frequency;
}
private:
int frequency_; // Sample frequency.
};
static const int kMaxStackDepth = 64; // Max stack depth stored in profile
ProfileData();
~ProfileData();
// If data collection is not already enabled start to collect data
// into fname. Parameters related to this profiling run are specified
// by 'options'.
//
// Returns true if data collection could be started, otherwise (if an
// error occurred or if data collection was already enabled) returns
// false.
bool Start(const char *fname, const Options& options);
// If data collection is enabled, stop data collection and write the
// data to disk.
void Stop();
// Stop data collection without writing anything else to disk, and
// discard any collected data.
void Reset();
// If data collection is enabled, record a sample with 'depth'
// entries from 'stack'. (depth must be > 0.) At most
// kMaxStackDepth stack entries will be recorded, starting with
// stack[0].
//
// This function is safe to call from asynchronous signals (but is
// not re-entrant).
void Add(int depth, const void* const* stack);
// If data collection is enabled, write the data to disk (and leave
// the collector enabled).
void FlushTable();
// Is data collection currently enabled?
bool enabled() const { return out_ >= 0; }
// Get the current state of the data collector.
void GetCurrentState(State* state) const;
private:
static const int kAssociativity = 4; // For hashtable
static const int kBuckets = 1 << 10; // For hashtable
static const int kBufferLength = 1 << 18; // For eviction buffer
// Type of slots: each slot can be either a count, or a PC value
typedef uintptr_t Slot;
// Hash-table/eviction-buffer entry (a.k.a. a sample)
struct Entry {
Slot count; // Number of hits
Slot depth; // Stack depth
Slot stack[kMaxStackDepth]; // Stack contents
};
// Hash table bucket
struct Bucket {
Entry entry[kAssociativity];
};
Bucket* hash_; // hash table
Slot* evict_; // evicted entries
int num_evicted_; // how many evicted entries?
int out_; // fd for output file.
int count_; // How many samples recorded
int evictions_; // How many evictions
size_t total_bytes_; // How much output
char* fname_; // Profile file name
time_t start_time_; // Start time, or 0
// Move 'entry' to the eviction buffer.
void Evict(const Entry& entry);
// Write contents of eviction buffer to disk.
void FlushEvicted();
DISALLOW_COPY_AND_ASSIGN(ProfileData);
};
#endif // BASE_PROFILEDATA_H_