InstrProfilingInternal.h
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/*===- InstrProfiling.h- Support library for PGO instrumentation ----------===*\
|*
|* 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
|*
\*===----------------------------------------------------------------------===*/
#ifndef PROFILE_INSTRPROFILING_INTERNALH_
#define PROFILE_INSTRPROFILING_INTERNALH_
#include <stddef.h>
#include "InstrProfiling.h"
/*!
* \brief Write instrumentation data to the given buffer, given explicit
* pointers to the live data in memory. This function is probably not what you
* want. Use __llvm_profile_get_size_for_buffer instead. Use this function if
* your program has a custom memory layout.
*/
uint64_t __llvm_profile_get_size_for_buffer_internal(
const __llvm_profile_data *DataBegin, const __llvm_profile_data *DataEnd,
const uint64_t *CountersBegin, const uint64_t *CountersEnd,
const char *NamesBegin, const char *NamesEnd);
/*!
* \brief Write instrumentation data to the given buffer, given explicit
* pointers to the live data in memory. This function is probably not what you
* want. Use __llvm_profile_write_buffer instead. Use this function if your
* program has a custom memory layout.
*
* \pre \c Buffer is the start of a buffer at least as big as \a
* __llvm_profile_get_size_for_buffer_internal().
*/
int __llvm_profile_write_buffer_internal(
char *Buffer, const __llvm_profile_data *DataBegin,
const __llvm_profile_data *DataEnd, const uint64_t *CountersBegin,
const uint64_t *CountersEnd, const char *NamesBegin, const char *NamesEnd);
/*!
* The data structure describing the data to be written by the
* low level writer callback function.
*
* If \ref ProfDataIOVec.Data is null, and \ref ProfDataIOVec.UseZeroPadding is
* 0, the write is skipped (the writer simply advances ElmSize*NumElm bytes).
*
* If \ref ProfDataIOVec.Data is null, and \ref ProfDataIOVec.UseZeroPadding is
* nonzero, ElmSize*NumElm zero bytes are written.
*/
typedef struct ProfDataIOVec {
const void *Data;
size_t ElmSize;
size_t NumElm;
int UseZeroPadding;
} ProfDataIOVec;
struct ProfDataWriter;
typedef uint32_t (*WriterCallback)(struct ProfDataWriter *This, ProfDataIOVec *,
uint32_t NumIOVecs);
typedef struct ProfDataWriter {
WriterCallback Write;
void *WriterCtx;
} ProfDataWriter;
/*!
* The data structure for buffered IO of profile data.
*/
typedef struct ProfBufferIO {
ProfDataWriter *FileWriter;
uint32_t OwnFileWriter;
/* The start of the buffer. */
uint8_t *BufferStart;
/* Total size of the buffer. */
uint32_t BufferSz;
/* Current byte offset from the start of the buffer. */
uint32_t CurOffset;
} ProfBufferIO;
/* The creator interface used by testing. */
ProfBufferIO *lprofCreateBufferIOInternal(void *File, uint32_t BufferSz);
/*!
* This is the interface to create a handle for buffered IO.
*/
ProfBufferIO *lprofCreateBufferIO(ProfDataWriter *FileWriter);
/*!
* The interface to destroy the bufferIO handle and reclaim
* the memory.
*/
void lprofDeleteBufferIO(ProfBufferIO *BufferIO);
/*!
* This is the interface to write \c Data of \c Size bytes through
* \c BufferIO. Returns 0 if successful, otherwise return -1.
*/
int lprofBufferIOWrite(ProfBufferIO *BufferIO, const uint8_t *Data,
uint32_t Size);
/*!
* The interface to flush the remaining data in the buffer.
* through the low level writer callback.
*/
int lprofBufferIOFlush(ProfBufferIO *BufferIO);
/* The low level interface to write data into a buffer. It is used as the
* callback by other high level writer methods such as buffered IO writer
* and profile data writer. */
uint32_t lprofBufferWriter(ProfDataWriter *This, ProfDataIOVec *IOVecs,
uint32_t NumIOVecs);
void initBufferWriter(ProfDataWriter *BufferWriter, char *Buffer);
struct ValueProfData;
struct ValueProfRecord;
struct InstrProfValueData;
struct ValueProfNode;
/*!
* The class that defines a set of methods to read value profile
* data for streaming/serialization from the instrumentation runtime.
*/
typedef struct VPDataReaderType {
uint32_t (*InitRTRecord)(const __llvm_profile_data *Data,
uint8_t *SiteCountArray[]);
/* Function pointer to getValueProfRecordHeader method. */
uint32_t (*GetValueProfRecordHeaderSize)(uint32_t NumSites);
/* Function pointer to getFristValueProfRecord method. */
struct ValueProfRecord *(*GetFirstValueProfRecord)(struct ValueProfData *);
/* Return the number of value data for site \p Site. */
uint32_t (*GetNumValueDataForSite)(uint32_t VK, uint32_t Site);
/* Return the total size of the value profile data of the
* current function. */
uint32_t (*GetValueProfDataSize)(void);
/*!
* Read the next \p N value data for site \p Site and store the data
* in \p Dst. \p StartNode is the first value node to start with if
* it is not null. The function returns the pointer to the value
* node pointer to be used as the \p StartNode of the next batch reading.
* If there is nothing left, it returns NULL.
*/
struct ValueProfNode *(*GetValueData)(uint32_t ValueKind, uint32_t Site,
struct InstrProfValueData *Dst,
struct ValueProfNode *StartNode,
uint32_t N);
} VPDataReaderType;
/* Write profile data to destinitation. If SkipNameDataWrite is set to 1,
the name data is already in destintation, we just skip over it. */
int lprofWriteData(ProfDataWriter *Writer, VPDataReaderType *VPDataReader,
int SkipNameDataWrite);
int lprofWriteDataImpl(ProfDataWriter *Writer,
const __llvm_profile_data *DataBegin,
const __llvm_profile_data *DataEnd,
const uint64_t *CountersBegin,
const uint64_t *CountersEnd,
VPDataReaderType *VPDataReader, const char *NamesBegin,
const char *NamesEnd, int SkipNameDataWrite);
/* Merge value profile data pointed to by SrcValueProfData into
* in-memory profile counters pointed by to DstData. */
void lprofMergeValueProfData(struct ValueProfData *SrcValueProfData,
__llvm_profile_data *DstData);
VPDataReaderType *lprofGetVPDataReader();
/* Internal interface used by test to reset the max number of
* tracked values per value site to be \p MaxVals.
*/
void lprofSetMaxValsPerSite(uint32_t MaxVals);
void lprofSetupValueProfiler();
/* Return the profile header 'signature' value associated with the current
* executable or shared library. The signature value can be used to for
* a profile name that is unique to this load module so that it does not
* collide with profiles from other binaries. It also allows shared libraries
* to dump merged profile data into its own profile file. */
uint64_t lprofGetLoadModuleSignature();
/*
* Return non zero value if the profile data has already been
* dumped to the file.
*/
unsigned lprofProfileDumped();
void lprofSetProfileDumped();
COMPILER_RT_VISIBILITY extern void (*FreeHook)(void *);
COMPILER_RT_VISIBILITY extern uint8_t *DynamicBufferIOBuffer;
COMPILER_RT_VISIBILITY extern uint32_t VPBufferSize;
COMPILER_RT_VISIBILITY extern uint32_t VPMaxNumValsPerSite;
/* Pointer to the start of static value counters to be allocted. */
COMPILER_RT_VISIBILITY extern ValueProfNode *CurrentVNode;
COMPILER_RT_VISIBILITY extern ValueProfNode *EndVNode;
extern void (*VPMergeHook)(struct ValueProfData *, __llvm_profile_data *);
#endif