blob: 80db2527461e4aa734ce1c0bbe89a65cee74f51a [file] [log] [blame]
/*===- InstrProfilingMerge.c - Profile in-process Merging ---------------===*\
|*
|* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
|* See https://llvm.org/LICENSE.txt for license information.
|* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
|*
|*===----------------------------------------------------------------------===*
|* This file defines the API needed for in-process merging of profile data
|* stored in memory buffer.
\*===---------------------------------------------------------------------===*/
#include "InstrProfiling.h"
#include "InstrProfilingInternal.h"
#include "InstrProfilingUtil.h"
#define INSTR_PROF_VALUE_PROF_DATA
#include "profile/InstrProfData.inc"
COMPILER_RT_VISIBILITY
void (*VPMergeHook)(ValueProfData *, __llvm_profile_data *);
COMPILER_RT_VISIBILITY
uint64_t lprofGetLoadModuleSignature() {
/* A very fast way to compute a module signature. */
uint64_t Version = __llvm_profile_get_version();
uint64_t CounterSize = (uint64_t)(__llvm_profile_end_counters() -
__llvm_profile_begin_counters());
uint64_t DataSize = __llvm_profile_get_data_size(__llvm_profile_begin_data(),
__llvm_profile_end_data());
uint64_t NamesSize =
(uint64_t)(__llvm_profile_end_names() - __llvm_profile_begin_names());
uint64_t NumVnodes =
(uint64_t)(__llvm_profile_end_vnodes() - __llvm_profile_begin_vnodes());
const __llvm_profile_data *FirstD = __llvm_profile_begin_data();
return (NamesSize << 40) + (CounterSize << 30) + (DataSize << 20) +
(NumVnodes << 10) + (DataSize > 0 ? FirstD->NameRef : 0) + Version +
__llvm_profile_get_magic();
}
/* Returns 1 if profile is not structurally compatible. */
COMPILER_RT_VISIBILITY
int __llvm_profile_check_compatibility(const char *ProfileData,
uint64_t ProfileSize) {
/* Check profile header only for now */
__llvm_profile_header *Header = (__llvm_profile_header *)ProfileData;
__llvm_profile_data *SrcDataStart, *SrcDataEnd, *SrcData, *DstData;
SrcDataStart =
(__llvm_profile_data *)(ProfileData + sizeof(__llvm_profile_header) +
Header->BinaryIdsSize);
SrcDataEnd = SrcDataStart + Header->DataSize;
if (ProfileSize < sizeof(__llvm_profile_header))
return 1;
/* Check the header first. */
if (Header->Magic != __llvm_profile_get_magic() ||
Header->Version != __llvm_profile_get_version() ||
Header->DataSize !=
__llvm_profile_get_data_size(__llvm_profile_begin_data(),
__llvm_profile_end_data()) ||
Header->CountersSize != (uint64_t)(__llvm_profile_end_counters() -
__llvm_profile_begin_counters()) ||
Header->NamesSize != (uint64_t)(__llvm_profile_end_names() -
__llvm_profile_begin_names()) ||
Header->ValueKindLast != IPVK_Last)
return 1;
if (ProfileSize < sizeof(__llvm_profile_header) + Header->BinaryIdsSize +
Header->DataSize * sizeof(__llvm_profile_data) +
Header->NamesSize + Header->CountersSize)
return 1;
for (SrcData = SrcDataStart,
DstData = (__llvm_profile_data *)__llvm_profile_begin_data();
SrcData < SrcDataEnd; ++SrcData, ++DstData) {
if (SrcData->NameRef != DstData->NameRef ||
SrcData->FuncHash != DstData->FuncHash ||
SrcData->NumCounters != DstData->NumCounters)
return 1;
}
/* Matched! */
return 0;
}
static uintptr_t signextIfWin64(void *V) {
#ifdef _WIN64
return (uintptr_t)(int32_t)(uintptr_t)V;
#else
return (uintptr_t)V;
#endif
}
COMPILER_RT_VISIBILITY
int __llvm_profile_merge_from_buffer(const char *ProfileData,
uint64_t ProfileSize) {
__llvm_profile_data *SrcDataStart, *SrcDataEnd, *SrcData, *DstData;
__llvm_profile_header *Header = (__llvm_profile_header *)ProfileData;
uint64_t *SrcCountersStart;
const char *SrcNameStart;
const char *SrcValueProfDataStart, *SrcValueProfData;
uintptr_t CountersDelta = Header->CountersDelta;
SrcDataStart =
(__llvm_profile_data *)(ProfileData + sizeof(__llvm_profile_header) +
Header->BinaryIdsSize);
SrcDataEnd = SrcDataStart + Header->DataSize;
SrcCountersStart = (uint64_t *)SrcDataEnd;
SrcNameStart = (const char *)(SrcCountersStart + Header->CountersSize);
SrcValueProfDataStart =
SrcNameStart + Header->NamesSize +
__llvm_profile_get_num_padding_bytes(Header->NamesSize);
if (SrcNameStart < (const char *)SrcCountersStart)
return 1;
for (SrcData = SrcDataStart,
DstData = (__llvm_profile_data *)__llvm_profile_begin_data(),
SrcValueProfData = SrcValueProfDataStart;
SrcData < SrcDataEnd; ++SrcData, ++DstData) {
// For the in-memory destination, CounterPtr is the distance from the start
// address of the data to the start address of the counter. On WIN64,
// CounterPtr is a truncated 32-bit value due to COFF limitation. Sign
// extend CounterPtr to get the original value.
uint64_t *DstCounters =
(uint64_t *)((uintptr_t)DstData + signextIfWin64(DstData->CounterPtr));
unsigned NVK = 0;
// SrcData is a serialized representation of the memory image. We need to
// compute the in-buffer counter offset from the in-memory address distance.
// The initial CountersDelta is the in-memory address difference
// start(__llvm_prf_cnts)-start(__llvm_prf_data), so SrcData->CounterPtr -
// CountersDelta computes the offset into the in-buffer counter section.
//
// On WIN64, CountersDelta is truncated as well, so no need for signext.
uint64_t *SrcCounters =
SrcCountersStart +
((uintptr_t)SrcData->CounterPtr - CountersDelta) / sizeof(uint64_t);
// CountersDelta needs to be decreased as we advance to the next data
// record.
CountersDelta -= sizeof(*SrcData);
unsigned NC = SrcData->NumCounters;
if (NC == 0)
return 1;
if (SrcCounters < SrcCountersStart ||
(const char *)SrcCounters >= SrcNameStart ||
(const char *)(SrcCounters + NC) > SrcNameStart)
return 1;
for (unsigned I = 0; I < NC; I++)
DstCounters[I] += SrcCounters[I];
/* Now merge value profile data. */
if (!VPMergeHook)
continue;
for (unsigned I = 0; I <= IPVK_Last; I++)
NVK += (SrcData->NumValueSites[I] != 0);
if (!NVK)
continue;
if (SrcValueProfData >= ProfileData + ProfileSize)
return 1;
VPMergeHook((ValueProfData *)SrcValueProfData, DstData);
SrcValueProfData =
SrcValueProfData + ((ValueProfData *)SrcValueProfData)->TotalSize;
}
return 0;
}