chromium / external / github.com / gperftools / gperftools / db7aa547abb5abdd558587a15502584cbc825438 / . / src / sampler.h

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// Author: Daniel Ford | |

#ifndef TCMALLOC_SAMPLER_H_ | |

#define TCMALLOC_SAMPLER_H_ | |

#include "config.h" | |

#include <stddef.h> // for size_t | |

#ifdef HAVE_STDINT_H | |

#include <stdint.h> // for uint64_t, uint32_t, int32_t | |

#endif | |

#include <string.h> // for memcpy | |

#include "base/basictypes.h" // for ASSERT | |

#include "internal_logging.h" // for ASSERT | |

#include "static_vars.h" | |

namespace tcmalloc { | |

//------------------------------------------------------------------- | |

// Sampler to decide when to create a sample trace for an allocation | |

// Not thread safe: Each thread should have it's own sampler object. | |

// Caller must use external synchronization if used | |

// from multiple threads. | |

// | |

// With 512K average sample step (the default): | |

// the probability of sampling a 4K allocation is about 0.00778 | |

// the probability of sampling a 1MB allocation is about 0.865 | |

// the probability of sampling a 1GB allocation is about 1.00000 | |

// In general, the probablity of sampling is an allocation of size X | |

// given a flag value of Y (default 1M) is: | |

// 1 - e^(-X/Y) | |

// | |

// With 128K average sample step: | |

// the probability of sampling a 1MB allocation is about 0.99966 | |

// the probability of sampling a 1GB allocation is about 1.0 | |

// (about 1 - 2**(-26)) | |

// With 1M average sample step: | |

// the probability of sampling a 4K allocation is about 0.00390 | |

// the probability of sampling a 1MB allocation is about 0.632 | |

// the probability of sampling a 1GB allocation is about 1.0 | |

// | |

// The sampler works by representing memory as a long stream from | |

// which allocations are taken. Some of the bytes in this stream are | |

// marked and if an allocation includes a marked byte then it is | |

// sampled. Bytes are marked according to a Poisson point process | |

// with each byte being marked independently with probability | |

// p = 1/tcmalloc_sample_parameter. This makes the probability | |

// of sampling an allocation of X bytes equal to the CDF of | |

// a geometric with mean tcmalloc_sample_parameter. (ie. the | |

// probability that at least one byte in the range is marked). This | |

// is accurately given by the CDF of the corresponding exponential | |

// distribution : 1 - e^(-X/tcmalloc_sample_parameter_) | |

// Independence of the byte marking ensures independence of | |

// the sampling of each allocation. | |

// | |

// This scheme is implemented by noting that, starting from any | |

// fixed place, the number of bytes until the next marked byte | |

// is geometrically distributed. This number is recorded as | |

// bytes_until_sample_. Every allocation subtracts from this | |

// number until it is less than 0. When this happens the current | |

// allocation is sampled. | |

// | |

// When an allocation occurs, bytes_until_sample_ is reset to | |

// a new independtly sampled geometric number of bytes. The | |

// memoryless property of the point process means that this may | |

// be taken as the number of bytes after the end of the current | |

// allocation until the next marked byte. This ensures that | |

// very large allocations which would intersect many marked bytes | |

// only result in a single call to PickNextSamplingPoint. | |

//------------------------------------------------------------------- | |

class SamplerTest; | |

class PERFTOOLS_DLL_DECL Sampler { | |

public: | |

constexpr Sampler() {} | |

// Initialize this sampler. | |

void Init(uint64_t seed); | |

// Record allocation of "k" bytes. Return true if no further work | |

// is need, and false if allocation needed to be sampled. | |

bool RecordAllocation(size_t k); | |

// Same as above (but faster), except: | |

// a) REQUIRES(k < std::numeric_limits<ssize_t>::max()) | |

// b) if this returns false, you must call RecordAllocation | |

// to confirm if sampling truly needed. | |

// | |

// The point of this function is to only deal with common case of no | |

// sampling and let caller (which is in malloc fast-path) to | |

// "escalate" to fuller and slower logic only if necessary. | |

bool TryRecordAllocationFast(size_t k); | |

// Generate a geometric with mean 512K (or FLAG_tcmalloc_sample_parameter) | |

ssize_t PickNextSamplingPoint(); | |

// Returns the current sample period | |

static int GetSamplePeriod(); | |

// The following are public for the purposes of testing | |

static uint64_t NextRandom(uint64_t rnd_); // Returns the next prng value | |

// C++03 requires that types stored in TLS be POD. As a result, you must | |

// initialize these members to {0, 0, false} before using this class! | |

// | |

// TODO(ahh): C++11 support will let us make these private. | |

// Bytes until we sample next. | |

// | |

// More specifically when bytes_until_sample_ is X, we can allocate | |

// X bytes without triggering sampling; on the (X+1)th allocated | |

// byte, the containing allocation will be sampled. | |

// | |

// Always non-negative with only very brief exceptions (see | |

// DecrementFast{,Finish}, so casting to size_t is ok. | |

private: | |

friend class SamplerTest; | |

bool RecordAllocationSlow(size_t k); | |

ssize_t bytes_until_sample_{}; | |

uint64_t rnd_{}; // Cheap random number generator | |

bool initialized_{}; | |

}; | |

inline bool Sampler::RecordAllocation(size_t k) { | |

// The first time we enter this function we expect bytes_until_sample_ | |

// to be zero, and we must call SampleAllocationSlow() to ensure | |

// proper initialization of static vars. | |

ASSERT(Static::IsInited() || bytes_until_sample_ == 0); | |

// Note that we have to deal with arbitrarily large values of k | |

// here. Thus we're upcasting bytes_until_sample_ to unsigned rather | |

// than the other way around. And this is why this code cannot be | |

// merged with DecrementFast code below. | |

if (static_cast<size_t>(bytes_until_sample_) < k) { | |

bool result = RecordAllocationSlow(k); | |

ASSERT(Static::IsInited()); | |

return result; | |

} else { | |

bytes_until_sample_ -= k; | |

ASSERT(Static::IsInited()); | |

return true; | |

} | |

} | |

inline bool Sampler::TryRecordAllocationFast(size_t k) { | |

// For efficiency reason, we're testing bytes_until_sample_ after | |

// decrementing it by k. This allows compiler to do sub <reg>, <mem> | |

// followed by conditional jump on sign. But it is correct only if k | |

// is actually smaller than largest ssize_t value. Otherwise | |

// converting k to signed value overflows. | |

// | |

// It would be great for generated code to be sub <reg>, <mem> | |

// followed by conditional jump on 'carry', which would work for | |

// arbitrary values of k, but there seem to be no way to express | |

// that in C++. | |

// | |

// Our API contract explicitly states that only small values of k | |

// are permitted. And thus it makes sense to assert on that. | |

ASSERT(static_cast<ssize_t>(k) >= 0); | |

bytes_until_sample_ -= static_cast<ssize_t>(k); | |

if (PREDICT_FALSE(bytes_until_sample_ < 0)) { | |

// Note, we undo sampling counter update, since we're not actually | |

// handling slow path in the "needs sampling" case (calling | |

// RecordAllocationSlow to reset counter). And we do that in order | |

// to avoid non-tail calls in malloc fast-path. See also comments | |

// on declaration inside Sampler class. | |

// | |

// volatile is used here to improve compiler's choice of | |

// instuctions. We know that this path is very rare and that there | |

// is no need to keep previous value of bytes_until_sample_ in | |

// register. This helps compiler generate slightly more efficient | |

// sub <reg>, <mem> instruction for subtraction above. | |

volatile ssize_t *ptr = | |

const_cast<volatile ssize_t *>(&bytes_until_sample_); | |

*ptr += k; | |

return false; | |

} | |

return true; | |

} | |

// Inline functions which are public for testing purposes | |

// Returns the next prng value. | |

// pRNG is: aX+b mod c with a = 0x5DEECE66D, b = 0xB, c = 1<<48 | |

// This is the lrand64 generator. | |

inline uint64_t Sampler::NextRandom(uint64_t rnd) { | |

const uint64_t prng_mult = 0x5DEECE66DULL; | |

const uint64_t prng_add = 0xB; | |

const uint64_t prng_mod_power = 48; | |

const uint64_t prng_mod_mask = | |

~((~static_cast<uint64_t>(0)) << prng_mod_power); | |

return (prng_mult * rnd + prng_add) & prng_mod_mask; | |

} | |

} // namespace tcmalloc | |

#endif // TCMALLOC_SAMPLER_H_ |