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304 lines
11 KiB
304 lines
11 KiB
/*===- InstrProfilingWriter.c - Write instrumentation to a file or buffer -===*\
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|*
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|* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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|* See https://llvm.org/LICENSE.txt for license information.
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|* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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|*
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\*===----------------------------------------------------------------------===*/
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// Note: This is linked into the Darwin kernel, and must remain compatible
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// with freestanding compilation. See `darwin_add_builtin_libraries`.
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#ifdef _MSC_VER
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/* For _alloca */
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#include <malloc.h>
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#endif
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#include <string.h>
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#include "InstrProfiling.h"
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#include "InstrProfilingInternal.h"
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#include "InstrProfilingPort.h"
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#define INSTR_PROF_VALUE_PROF_DATA
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#include "profile/InstrProfData.inc"
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COMPILER_RT_VISIBILITY void (*FreeHook)(void *) = NULL;
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static ProfBufferIO TheBufferIO;
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#define VP_BUFFER_SIZE 8 * 1024
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static uint8_t BufferIOBuffer[VP_BUFFER_SIZE];
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static InstrProfValueData VPDataArray[16];
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static uint32_t VPDataArraySize = sizeof(VPDataArray) / sizeof(*VPDataArray);
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COMPILER_RT_VISIBILITY uint8_t *DynamicBufferIOBuffer = 0;
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COMPILER_RT_VISIBILITY uint32_t VPBufferSize = 0;
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/* The buffer writer is reponsponsible in keeping writer state
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* across the call.
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*/
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COMPILER_RT_VISIBILITY uint32_t lprofBufferWriter(ProfDataWriter *This,
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ProfDataIOVec *IOVecs,
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uint32_t NumIOVecs) {
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uint32_t I;
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char **Buffer = (char **)&This->WriterCtx;
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for (I = 0; I < NumIOVecs; I++) {
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size_t Length = IOVecs[I].ElmSize * IOVecs[I].NumElm;
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if (IOVecs[I].Data)
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memcpy(*Buffer, IOVecs[I].Data, Length);
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else if (IOVecs[I].UseZeroPadding) {
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/* Allocating the buffer should zero fill. */
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}
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*Buffer += Length;
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}
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return 0;
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}
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static void llvmInitBufferIO(ProfBufferIO *BufferIO, ProfDataWriter *FileWriter,
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uint8_t *Buffer, uint32_t BufferSz) {
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BufferIO->FileWriter = FileWriter;
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BufferIO->OwnFileWriter = 0;
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BufferIO->BufferStart = Buffer;
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BufferIO->BufferSz = BufferSz;
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BufferIO->CurOffset = 0;
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}
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COMPILER_RT_VISIBILITY ProfBufferIO *
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lprofCreateBufferIO(ProfDataWriter *FileWriter) {
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uint8_t *Buffer = DynamicBufferIOBuffer;
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uint32_t BufferSize = VPBufferSize;
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if (!Buffer) {
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Buffer = &BufferIOBuffer[0];
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BufferSize = sizeof(BufferIOBuffer);
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}
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llvmInitBufferIO(&TheBufferIO, FileWriter, Buffer, BufferSize);
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return &TheBufferIO;
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}
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COMPILER_RT_VISIBILITY void lprofDeleteBufferIO(ProfBufferIO *BufferIO) {
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if (BufferIO->OwnFileWriter)
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FreeHook(BufferIO->FileWriter);
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if (DynamicBufferIOBuffer) {
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FreeHook(DynamicBufferIOBuffer);
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DynamicBufferIOBuffer = 0;
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VPBufferSize = 0;
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}
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}
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COMPILER_RT_VISIBILITY int
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lprofBufferIOWrite(ProfBufferIO *BufferIO, const uint8_t *Data, uint32_t Size) {
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/* Buffer is not large enough, it is time to flush. */
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if (Size + BufferIO->CurOffset > BufferIO->BufferSz) {
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if (lprofBufferIOFlush(BufferIO) != 0)
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return -1;
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}
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/* Special case, bypass the buffer completely. */
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ProfDataIOVec IO[] = {{Data, sizeof(uint8_t), Size, 0}};
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if (Size > BufferIO->BufferSz) {
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if (BufferIO->FileWriter->Write(BufferIO->FileWriter, IO, 1))
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return -1;
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} else {
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/* Write the data to buffer */
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uint8_t *Buffer = BufferIO->BufferStart + BufferIO->CurOffset;
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ProfDataWriter BufferWriter;
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initBufferWriter(&BufferWriter, (char *)Buffer);
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lprofBufferWriter(&BufferWriter, IO, 1);
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BufferIO->CurOffset =
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(uint8_t *)BufferWriter.WriterCtx - BufferIO->BufferStart;
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}
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return 0;
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}
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COMPILER_RT_VISIBILITY int lprofBufferIOFlush(ProfBufferIO *BufferIO) {
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if (BufferIO->CurOffset) {
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ProfDataIOVec IO[] = {
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{BufferIO->BufferStart, sizeof(uint8_t), BufferIO->CurOffset, 0}};
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if (BufferIO->FileWriter->Write(BufferIO->FileWriter, IO, 1))
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return -1;
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BufferIO->CurOffset = 0;
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}
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return 0;
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}
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/* Write out value profile data for function specified with \c Data.
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* The implementation does not use the method \c serializeValueProfData
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* which depends on dynamic memory allocation. In this implementation,
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* value profile data is written out to \c BufferIO piecemeal.
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*/
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static int writeOneValueProfData(ProfBufferIO *BufferIO,
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VPDataReaderType *VPDataReader,
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const __llvm_profile_data *Data) {
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unsigned I, NumValueKinds = 0;
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ValueProfData VPHeader;
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uint8_t *SiteCountArray[IPVK_Last + 1];
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for (I = 0; I <= IPVK_Last; I++) {
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if (!Data->NumValueSites[I])
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SiteCountArray[I] = 0;
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else {
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uint32_t Sz =
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VPDataReader->GetValueProfRecordHeaderSize(Data->NumValueSites[I]) -
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offsetof(ValueProfRecord, SiteCountArray);
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/* Only use alloca for this small byte array to avoid excessive
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* stack growth. */
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SiteCountArray[I] = (uint8_t *)COMPILER_RT_ALLOCA(Sz);
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memset(SiteCountArray[I], 0, Sz);
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}
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}
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/* If NumValueKinds returned is 0, there is nothing to write, report
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success and return. This should match the raw profile reader's behavior. */
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if (!(NumValueKinds = VPDataReader->InitRTRecord(Data, SiteCountArray)))
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return 0;
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/* First write the header structure. */
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VPHeader.TotalSize = VPDataReader->GetValueProfDataSize();
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VPHeader.NumValueKinds = NumValueKinds;
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if (lprofBufferIOWrite(BufferIO, (const uint8_t *)&VPHeader,
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sizeof(ValueProfData)))
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return -1;
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/* Make sure nothing else needs to be written before value profile
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* records. */
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if ((void *)VPDataReader->GetFirstValueProfRecord(&VPHeader) !=
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(void *)(&VPHeader + 1))
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return -1;
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/* Write out the value profile record for each value kind
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* one by one. */
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for (I = 0; I <= IPVK_Last; I++) {
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uint32_t J;
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ValueProfRecord RecordHeader;
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/* The size of the value prof record header without counting the
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* site count array .*/
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uint32_t RecordHeaderSize = offsetof(ValueProfRecord, SiteCountArray);
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uint32_t SiteCountArraySize;
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if (!Data->NumValueSites[I])
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continue;
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/* Write out the record header. */
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RecordHeader.Kind = I;
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RecordHeader.NumValueSites = Data->NumValueSites[I];
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if (lprofBufferIOWrite(BufferIO, (const uint8_t *)&RecordHeader,
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RecordHeaderSize))
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return -1;
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/* Write out the site value count array including padding space. */
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SiteCountArraySize =
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VPDataReader->GetValueProfRecordHeaderSize(Data->NumValueSites[I]) -
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RecordHeaderSize;
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if (lprofBufferIOWrite(BufferIO, SiteCountArray[I], SiteCountArraySize))
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return -1;
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/* Write out the value profile data for each value site. */
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for (J = 0; J < Data->NumValueSites[I]; J++) {
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uint32_t NRead, NRemain;
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ValueProfNode *NextStartNode = 0;
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NRemain = VPDataReader->GetNumValueDataForSite(I, J);
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if (!NRemain)
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continue;
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/* Read and write out value data in small chunks till it is done. */
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do {
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NRead = (NRemain > VPDataArraySize ? VPDataArraySize : NRemain);
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NextStartNode =
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VPDataReader->GetValueData(I, /* ValueKind */
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J, /* Site */
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&VPDataArray[0], NextStartNode, NRead);
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if (lprofBufferIOWrite(BufferIO, (const uint8_t *)&VPDataArray[0],
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NRead * sizeof(InstrProfValueData)))
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return -1;
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NRemain -= NRead;
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} while (NRemain != 0);
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}
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}
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/* All done report success. */
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return 0;
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}
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static int writeValueProfData(ProfDataWriter *Writer,
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VPDataReaderType *VPDataReader,
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const __llvm_profile_data *DataBegin,
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const __llvm_profile_data *DataEnd) {
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ProfBufferIO *BufferIO;
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const __llvm_profile_data *DI = 0;
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if (!VPDataReader)
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return 0;
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BufferIO = lprofCreateBufferIO(Writer);
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for (DI = DataBegin; DI < DataEnd; DI++) {
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if (writeOneValueProfData(BufferIO, VPDataReader, DI))
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return -1;
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}
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if (lprofBufferIOFlush(BufferIO) != 0)
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return -1;
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lprofDeleteBufferIO(BufferIO);
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return 0;
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}
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COMPILER_RT_VISIBILITY int lprofWriteData(ProfDataWriter *Writer,
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VPDataReaderType *VPDataReader,
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int SkipNameDataWrite) {
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/* Match logic in __llvm_profile_write_buffer(). */
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const __llvm_profile_data *DataBegin = __llvm_profile_begin_data();
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const __llvm_profile_data *DataEnd = __llvm_profile_end_data();
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const uint64_t *CountersBegin = __llvm_profile_begin_counters();
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const uint64_t *CountersEnd = __llvm_profile_end_counters();
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const char *NamesBegin = __llvm_profile_begin_names();
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const char *NamesEnd = __llvm_profile_end_names();
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return lprofWriteDataImpl(Writer, DataBegin, DataEnd, CountersBegin,
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CountersEnd, VPDataReader, NamesBegin, NamesEnd,
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SkipNameDataWrite);
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}
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COMPILER_RT_VISIBILITY int
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lprofWriteDataImpl(ProfDataWriter *Writer, const __llvm_profile_data *DataBegin,
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const __llvm_profile_data *DataEnd,
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const uint64_t *CountersBegin, const uint64_t *CountersEnd,
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VPDataReaderType *VPDataReader, const char *NamesBegin,
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const char *NamesEnd, int SkipNameDataWrite) {
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/* Calculate size of sections. */
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const uint64_t DataSize = __llvm_profile_get_data_size(DataBegin, DataEnd);
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const uint64_t CountersSize = CountersEnd - CountersBegin;
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const uint64_t NamesSize = NamesEnd - NamesBegin;
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/* Create the header. */
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__llvm_profile_header Header;
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if (!DataSize)
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return 0;
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/* Determine how much padding is needed before/after the counters and after
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* the names. */
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uint64_t PaddingBytesBeforeCounters, PaddingBytesAfterCounters,
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PaddingBytesAfterNames;
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__llvm_profile_get_padding_sizes_for_counters(
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DataSize, CountersSize, NamesSize, &PaddingBytesBeforeCounters,
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&PaddingBytesAfterCounters, &PaddingBytesAfterNames);
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/* Initialize header structure. */
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#define INSTR_PROF_RAW_HEADER(Type, Name, Init) Header.Name = Init;
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#include "profile/InstrProfData.inc"
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/* Write the data. */
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ProfDataIOVec IOVec[] = {
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{&Header, sizeof(__llvm_profile_header), 1, 0},
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{DataBegin, sizeof(__llvm_profile_data), DataSize, 0},
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{NULL, sizeof(uint8_t), PaddingBytesBeforeCounters, 1},
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{CountersBegin, sizeof(uint64_t), CountersSize, 0},
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{NULL, sizeof(uint8_t), PaddingBytesAfterCounters, 1},
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{SkipNameDataWrite ? NULL : NamesBegin, sizeof(uint8_t), NamesSize, 0},
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{NULL, sizeof(uint8_t), PaddingBytesAfterNames, 1}};
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if (Writer->Write(Writer, IOVec, sizeof(IOVec) / sizeof(*IOVec)))
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return -1;
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/* Value profiling is not yet supported in continuous mode. */
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if (__llvm_profile_is_continuous_mode_enabled())
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return 0;
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return writeValueProfData(Writer, VPDataReader, DataBegin, DataEnd);
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}
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