third_party/llvm-project/compiler-rt/lib/profile/InstrProfilingFile.c - cobalt - Git at Google

 /*===- InstrProfilingFile.c - Write instrumentation to a file -------------===*\
 |*
 |*                     The LLVM Compiler Infrastructure
 |*
 |* This file is distributed under the University of Illinois Open Source
 |* License. See LICENSE.TXT for details.
 |*
 \*===----------------------------------------------------------------------===*/

 #if !defined(__Fuchsia__)

 #include <errno.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #ifdef _MSC_VER
 /* For _alloca. */
 #include <malloc.h>
 #endif
 #if defined(_WIN32)
 #include "WindowsMMap.h"
 /* For _chsize_s */
 #include <io.h>
 #include <process.h>
 #else
 #include <sys/file.h>
 #include <sys/mman.h>
 #include <unistd.h>
 #if defined(__linux__)
 #include <sys/types.h>
 #endif
 #endif

 #include "InstrProfiling.h"
 #include "InstrProfilingInternal.h"
 #include "InstrProfilingUtil.h"

 /* From where is profile name specified.
  * The order the enumerators define their
  * precedence. Re-order them may lead to
  * runtime behavior change. */
 typedef enum ProfileNameSpecifier {
   PNS_unknown = 0,
   PNS_default,
   PNS_command_line,
   PNS_environment,
   PNS_runtime_api
 } ProfileNameSpecifier;

 static const char *getPNSStr(ProfileNameSpecifier PNS) {
   switch (PNS) {
   case PNS_default:
     return "default setting";
   case PNS_command_line:
     return "command line";
   case PNS_environment:
     return "environment variable";
   case PNS_runtime_api:
     return "runtime API";
   default:
     return "Unknown";
   }
 }

 #define MAX_PID_SIZE 16
 /* Data structure holding the result of parsed filename pattern. */
 typedef struct lprofFilename {
   /* File name string possibly with %p or %h specifiers. */
   const char *FilenamePat;
   /* A flag indicating if FilenamePat's memory is allocated
    * by runtime. */
   unsigned OwnsFilenamePat;
   const char *ProfilePathPrefix;
   const char *Filename;
   char PidChars[MAX_PID_SIZE];
   char Hostname[COMPILER_RT_MAX_HOSTLEN];
   unsigned NumPids;
   unsigned NumHosts;
   /* When in-process merging is enabled, this parameter specifies
    * the total number of profile data files shared by all the processes
    * spawned from the same binary. By default the value is 1. If merging
    * is not enabled, its value should be 0. This parameter is specified
    * by the %[0-9]m specifier. For instance %2m enables merging using
    * 2 profile data files. %1m is equivalent to %m. Also %m specifier
    * can only appear once at the end of the name pattern. */
   unsigned MergePoolSize;
   ProfileNameSpecifier PNS;
 } lprofFilename;

 COMPILER_RT_WEAK lprofFilename lprofCurFilename = {0,   0, 0, 0, {0},
                                                    {0}, 0, 0, 0, PNS_unknown};

 static int getCurFilenameLength();
 static const char *getCurFilename(char *FilenameBuf, int ForceUseBuf);
 static unsigned doMerging() { return lprofCurFilename.MergePoolSize; }

 /* Return 1 if there is an error, otherwise return  0.  */
 static uint32_t fileWriter(ProfDataWriter *This, ProfDataIOVec *IOVecs,
                            uint32_t NumIOVecs) {
   uint32_t I;
   FILE *File = (FILE *)This->WriterCtx;
   for (I = 0; I < NumIOVecs; I++) {
     if (IOVecs[I].Data) {
       if (fwrite(IOVecs[I].Data, IOVecs[I].ElmSize, IOVecs[I].NumElm, File) !=
           IOVecs[I].NumElm)
         return 1;
     } else {
       if (fseek(File, IOVecs[I].ElmSize * IOVecs[I].NumElm, SEEK_CUR) == -1)
         return 1;
     }
   }
   return 0;
 }

 static void initFileWriter(ProfDataWriter *This, FILE *File) {
   This->Write = fileWriter;
   This->WriterCtx = File;
 }

 COMPILER_RT_VISIBILITY ProfBufferIO *
 lprofCreateBufferIOInternal(void *File, uint32_t BufferSz) {
   FreeHook = &free;
   DynamicBufferIOBuffer = (uint8_t *)calloc(BufferSz, 1);
   VPBufferSize = BufferSz;
   ProfDataWriter *fileWriter =
       (ProfDataWriter *)calloc(sizeof(ProfDataWriter), 1);
   initFileWriter(fileWriter, File);
   ProfBufferIO *IO = lprofCreateBufferIO(fileWriter);
   IO->OwnFileWriter = 1;
   return IO;
 }

 static void setupIOBuffer() {
   const char *BufferSzStr = 0;
   BufferSzStr = getenv("LLVM_VP_BUFFER_SIZE");
   if (BufferSzStr && BufferSzStr[0]) {
     VPBufferSize = atoi(BufferSzStr);
     DynamicBufferIOBuffer = (uint8_t *)calloc(VPBufferSize, 1);
   }
 }

 /* Read profile data in \c ProfileFile and merge with in-memory
    profile counters. Returns -1 if there is fatal error, otheriwse
    0 is returned. Returning 0 does not mean merge is actually
    performed. If merge is actually done, *MergeDone is set to 1.
 */
 static int doProfileMerging(FILE *ProfileFile, int *MergeDone) {
   uint64_t ProfileFileSize;
   char *ProfileBuffer;

   if (fseek(ProfileFile, 0L, SEEK_END) == -1) {
     PROF_ERR("Unable to merge profile data, unable to get size: %s\n",
              strerror(errno));
     return -1;
   }
   ProfileFileSize = ftell(ProfileFile);

   /* Restore file offset.  */
   if (fseek(ProfileFile, 0L, SEEK_SET) == -1) {
     PROF_ERR("Unable to merge profile data, unable to rewind: %s\n",
              strerror(errno));
     return -1;
   }

   /* Nothing to merge.  */
   if (ProfileFileSize < sizeof(__llvm_profile_header)) {
     if (ProfileFileSize)
       PROF_WARN("Unable to merge profile data: %s\n",
                 "source profile file is too small.");
     return 0;
   }

   ProfileBuffer = mmap(NULL, ProfileFileSize, PROT_READ, MAP_SHARED | MAP_FILE,
                        fileno(ProfileFile), 0);
   if (ProfileBuffer == MAP_FAILED) {
     PROF_ERR("Unable to merge profile data, mmap failed: %s\n",
              strerror(errno));
     return -1;
   }

   if (__llvm_profile_check_compatibility(ProfileBuffer, ProfileFileSize)) {
     (void)munmap(ProfileBuffer, ProfileFileSize);
     PROF_WARN("Unable to merge profile data: %s\n",
               "source profile file is not compatible.");
     return 0;
   }

   /* Now start merging */
   __llvm_profile_merge_from_buffer(ProfileBuffer, ProfileFileSize);

   // Truncate the file in case merging of value profile did not happend to
   // prevent from leaving garbage data at the end of the profile file.
   COMPILER_RT_FTRUNCATE(ProfileFile, __llvm_profile_get_size_for_buffer());

   (void)munmap(ProfileBuffer, ProfileFileSize);
   *MergeDone = 1;

   return 0;
 }

 /* Create the directory holding the file, if needed. */
 static void createProfileDir(const char *Filename) {
   size_t Length = strlen(Filename);
   if (lprofFindFirstDirSeparator(Filename)) {
     char *Copy = (char *)COMPILER_RT_ALLOCA(Length + 1);
     strncpy(Copy, Filename, Length + 1);
     __llvm_profile_recursive_mkdir(Copy);
   }
 }

 /* Open the profile data for merging. It opens the file in r+b mode with
  * file locking.  If the file has content which is compatible with the
  * current process, it also reads in the profile data in the file and merge
  * it with in-memory counters. After the profile data is merged in memory,
  * the original profile data is truncated and gets ready for the profile
  * dumper. With profile merging enabled, each executable as well as any of
  * its instrumented shared libraries dump profile data into their own data file.
 */
 static FILE *openFileForMerging(const char *ProfileFileName, int *MergeDone) {
   FILE *ProfileFile;
   int rc;

   createProfileDir(ProfileFileName);
   ProfileFile = lprofOpenFileEx(ProfileFileName);
   if (!ProfileFile)
     return NULL;

   rc = doProfileMerging(ProfileFile, MergeDone);
   if (rc || (!*MergeDone && COMPILER_RT_FTRUNCATE(ProfileFile, 0L)) ||
       fseek(ProfileFile, 0L, SEEK_SET) == -1) {
     PROF_ERR("Profile Merging of file %s failed: %s\n", ProfileFileName,
              strerror(errno));
     fclose(ProfileFile);
     return NULL;
   }
   return ProfileFile;
 }

 /* Write profile data to file \c OutputName.  */
 static int writeFile(const char *OutputName) {
   int RetVal;
   FILE *OutputFile;

   int MergeDone = 0;
   VPMergeHook = &lprofMergeValueProfData;
   if (!doMerging())
     OutputFile = fopen(OutputName, "ab");
   else
     OutputFile = openFileForMerging(OutputName, &MergeDone);

   if (!OutputFile)
     return -1;

   FreeHook = &free;
   setupIOBuffer();
   ProfDataWriter fileWriter;
   initFileWriter(&fileWriter, OutputFile);
   RetVal = lprofWriteData(&fileWriter, lprofGetVPDataReader(), MergeDone);

   fclose(OutputFile);
   return RetVal;
 }

 static void truncateCurrentFile(void) {
   const char *Filename;
   char *FilenameBuf;
   FILE *File;
   int Length;

   Length = getCurFilenameLength();
   FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
   Filename = getCurFilename(FilenameBuf, 0);
   if (!Filename)
     return;

   /* By pass file truncation to allow online raw profile
    * merging. */
   if (lprofCurFilename.MergePoolSize)
     return;

   createProfileDir(Filename);

   /* Truncate the file.  Later we'll reopen and append. */
   File = fopen(Filename, "w");
   if (!File)
     return;
   fclose(File);
 }

 static const char *DefaultProfileName = "default.profraw";
 static void resetFilenameToDefault(void) {
   if (lprofCurFilename.FilenamePat && lprofCurFilename.OwnsFilenamePat) {
     free((void *)lprofCurFilename.FilenamePat);
   }
   memset(&lprofCurFilename, 0, sizeof(lprofCurFilename));
   lprofCurFilename.FilenamePat = DefaultProfileName;
   lprofCurFilename.PNS = PNS_default;
 }

 static int containsMergeSpecifier(const char *FilenamePat, int I) {
   return (FilenamePat[I] == 'm' ||
           (FilenamePat[I] >= '1' && FilenamePat[I] <= '9' &&
            /* If FilenamePat[I] is not '\0', the next byte is guaranteed
             * to be in-bound as the string is null terminated. */
            FilenamePat[I + 1] == 'm'));
 }

 /* Parses the pattern string \p FilenamePat and stores the result to
  * lprofcurFilename structure. */
 static int parseFilenamePattern(const char *FilenamePat,
                                 unsigned CopyFilenamePat) {
   int NumPids = 0, NumHosts = 0, I;
   char *PidChars = &lprofCurFilename.PidChars[0];
   char *Hostname = &lprofCurFilename.Hostname[0];
   int MergingEnabled = 0;

   /* Clean up cached prefix and filename.  */
   if (lprofCurFilename.ProfilePathPrefix)
     free((void *)lprofCurFilename.ProfilePathPrefix);
   if (lprofCurFilename.Filename)
     free((void *)lprofCurFilename.Filename);

   if (lprofCurFilename.FilenamePat && lprofCurFilename.OwnsFilenamePat) {
     free((void *)lprofCurFilename.FilenamePat);
   }

   memset(&lprofCurFilename, 0, sizeof(lprofCurFilename));

   if (!CopyFilenamePat)
     lprofCurFilename.FilenamePat = FilenamePat;
   else {
     lprofCurFilename.FilenamePat = strdup(FilenamePat);
     lprofCurFilename.OwnsFilenamePat = 1;
   }
   /* Check the filename for "%p", which indicates a pid-substitution. */
   for (I = 0; FilenamePat[I]; ++I)
     if (FilenamePat[I] == '%') {
       if (FilenamePat[++I] == 'p') {
         if (!NumPids++) {
           if (snprintf(PidChars, MAX_PID_SIZE, "%ld", (long)getpid()) <= 0) {
             PROF_WARN("Unable to get pid for filename pattern %s. Using the "
                       "default name.",
                       FilenamePat);
             return -1;
           }
         }
       } else if (FilenamePat[I] == 'h') {
         if (!NumHosts++)
           if (COMPILER_RT_GETHOSTNAME(Hostname, COMPILER_RT_MAX_HOSTLEN)) {
             PROF_WARN("Unable to get hostname for filename pattern %s. Using "
                       "the default name.",
                       FilenamePat);
             return -1;
           }
       } else if (containsMergeSpecifier(FilenamePat, I)) {
         if (MergingEnabled) {
           PROF_WARN("%%m specifier can only be specified once in %s.\n",
                     FilenamePat);
           return -1;
         }
         MergingEnabled = 1;
         if (FilenamePat[I] == 'm')
           lprofCurFilename.MergePoolSize = 1;
         else {
           lprofCurFilename.MergePoolSize = FilenamePat[I] - '0';
           I++; /* advance to 'm' */
         }
       }
     }

   lprofCurFilename.NumPids = NumPids;
   lprofCurFilename.NumHosts = NumHosts;
   return 0;
 }

 static void parseAndSetFilename(const char *FilenamePat,
                                 ProfileNameSpecifier PNS,
                                 unsigned CopyFilenamePat) {

   const char *OldFilenamePat = lprofCurFilename.FilenamePat;
   ProfileNameSpecifier OldPNS = lprofCurFilename.PNS;

   if (PNS < OldPNS)
     return;

   if (!FilenamePat)
     FilenamePat = DefaultProfileName;

   if (OldFilenamePat && !strcmp(OldFilenamePat, FilenamePat)) {
     lprofCurFilename.PNS = PNS;
     return;
   }

   /* When PNS >= OldPNS, the last one wins. */
   if (!FilenamePat || parseFilenamePattern(FilenamePat, CopyFilenamePat))
     resetFilenameToDefault();
   lprofCurFilename.PNS = PNS;

   if (!OldFilenamePat) {
     if (getenv("LLVM_PROFILE_VERBOSE"))
       PROF_NOTE("Set profile file path to \"%s\" via %s.\n",
                 lprofCurFilename.FilenamePat, getPNSStr(PNS));
   } else {
     if (getenv("LLVM_PROFILE_VERBOSE"))
       PROF_NOTE("Override old profile path \"%s\" via %s to \"%s\" via %s.\n",
                 OldFilenamePat, getPNSStr(OldPNS), lprofCurFilename.FilenamePat,
                 getPNSStr(PNS));
   }

   truncateCurrentFile();
 }

 /* Return buffer length that is required to store the current profile
  * filename with PID and hostname substitutions. */
 /* The length to hold uint64_t followed by 2 digit pool id including '_' */
 #define SIGLEN 24
 static int getCurFilenameLength() {
   int Len;
   if (!lprofCurFilename.FilenamePat || !lprofCurFilename.FilenamePat[0])
     return 0;

   if (!(lprofCurFilename.NumPids || lprofCurFilename.NumHosts ||
         lprofCurFilename.MergePoolSize))
     return strlen(lprofCurFilename.FilenamePat);

   Len = strlen(lprofCurFilename.FilenamePat) +
         lprofCurFilename.NumPids * (strlen(lprofCurFilename.PidChars) - 2) +
         lprofCurFilename.NumHosts * (strlen(lprofCurFilename.Hostname) - 2);
   if (lprofCurFilename.MergePoolSize)
     Len += SIGLEN;
   return Len;
 }

 /* Return the pointer to the current profile file name (after substituting
  * PIDs and Hostnames in filename pattern. \p FilenameBuf is the buffer
  * to store the resulting filename. If no substitution is needed, the
  * current filename pattern string is directly returned, unless ForceUseBuf
  * is enabled. */
 static const char *getCurFilename(char *FilenameBuf, int ForceUseBuf) {
   int I, J, PidLength, HostNameLength, FilenamePatLength;
   const char *FilenamePat = lprofCurFilename.FilenamePat;

   if (!lprofCurFilename.FilenamePat || !lprofCurFilename.FilenamePat[0])
     return 0;

   if (!(lprofCurFilename.NumPids || lprofCurFilename.NumHosts ||
         lprofCurFilename.MergePoolSize)) {
     if (!ForceUseBuf)
       return lprofCurFilename.FilenamePat;

     FilenamePatLength = strlen(lprofCurFilename.FilenamePat);
     memcpy(FilenameBuf, lprofCurFilename.FilenamePat, FilenamePatLength);
     FilenameBuf[FilenamePatLength] = '\0';
     return FilenameBuf;
   }

   PidLength = strlen(lprofCurFilename.PidChars);
   HostNameLength = strlen(lprofCurFilename.Hostname);
   /* Construct the new filename. */
   for (I = 0, J = 0; FilenamePat[I]; ++I)
     if (FilenamePat[I] == '%') {
       if (FilenamePat[++I] == 'p') {
         memcpy(FilenameBuf + J, lprofCurFilename.PidChars, PidLength);
         J += PidLength;
       } else if (FilenamePat[I] == 'h') {
         memcpy(FilenameBuf + J, lprofCurFilename.Hostname, HostNameLength);
         J += HostNameLength;
       } else if (containsMergeSpecifier(FilenamePat, I)) {
         char LoadModuleSignature[SIGLEN];
         int S;
         int ProfilePoolId = getpid() % lprofCurFilename.MergePoolSize;
         S = snprintf(LoadModuleSignature, SIGLEN, "%" PRIu64 "_%d",
                      lprofGetLoadModuleSignature(), ProfilePoolId);
         if (S == -1 || S > SIGLEN)
           S = SIGLEN;
         memcpy(FilenameBuf + J, LoadModuleSignature, S);
         J += S;
         if (FilenamePat[I] != 'm')
           I++;
       }
       /* Drop any unknown substitutions. */
     } else
       FilenameBuf[J++] = FilenamePat[I];
   FilenameBuf[J] = 0;

   return FilenameBuf;
 }

 /* Returns the pointer to the environment variable
  * string. Returns null if the env var is not set. */
 static const char *getFilenamePatFromEnv(void) {
   const char *Filename = getenv("LLVM_PROFILE_FILE");
   if (!Filename || !Filename[0])
     return 0;
   return Filename;
 }

 COMPILER_RT_VISIBILITY
 const char *__llvm_profile_get_path_prefix(void) {
   int Length;
   char *FilenameBuf, *Prefix;
   const char *Filename, *PrefixEnd;

   if (lprofCurFilename.ProfilePathPrefix)
     return lprofCurFilename.ProfilePathPrefix;

   Length = getCurFilenameLength();
   FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
   Filename = getCurFilename(FilenameBuf, 0);
   if (!Filename)
     return "\0";

   PrefixEnd = lprofFindLastDirSeparator(Filename);
   if (!PrefixEnd)
     return "\0";

   Length = PrefixEnd - Filename + 1;
   Prefix = (char *)malloc(Length + 1);
   if (!Prefix) {
     PROF_ERR("Failed to %s\n", "allocate memory.");
     return "\0";
   }
   memcpy(Prefix, Filename, Length);
   Prefix[Length] = '\0';
   lprofCurFilename.ProfilePathPrefix = Prefix;
   return Prefix;
 }

 COMPILER_RT_VISIBILITY
 const char *__llvm_profile_get_filename(void) {
   int Length;
   char *FilenameBuf;
   const char *Filename;

   if (lprofCurFilename.Filename)
     return lprofCurFilename.Filename;

   Length = getCurFilenameLength();
   FilenameBuf = (char *)malloc(Length + 1);
   if (!FilenameBuf) {
     PROF_ERR("Failed to %s\n", "allocate memory.");
     return "\0";
   }
   Filename = getCurFilename(FilenameBuf, 1);
   if (!Filename)
     return "\0";

   lprofCurFilename.Filename = FilenameBuf;
   return FilenameBuf;
 }

 /* This method is invoked by the runtime initialization hook
  * InstrProfilingRuntime.o if it is linked in. Both user specified
  * profile path via -fprofile-instr-generate= and LLVM_PROFILE_FILE
  * environment variable can override this default value. */
 COMPILER_RT_VISIBILITY
 void __llvm_profile_initialize_file(void) {
   const char *EnvFilenamePat;
   const char *SelectedPat = NULL;
   ProfileNameSpecifier PNS = PNS_unknown;
   int hasCommandLineOverrider = (INSTR_PROF_PROFILE_NAME_VAR[0] != 0);

   EnvFilenamePat = getFilenamePatFromEnv();
   if (EnvFilenamePat) {
     /* Pass CopyFilenamePat = 1, to ensure that the filename would be valid
        at the  moment when __llvm_profile_write_file() gets executed. */
     parseAndSetFilename(EnvFilenamePat, PNS_environment, 1);
     return;
   } else if (hasCommandLineOverrider) {
     SelectedPat = INSTR_PROF_PROFILE_NAME_VAR;
     PNS = PNS_command_line;
   } else {
     SelectedPat = NULL;
     PNS = PNS_default;
   }

   parseAndSetFilename(SelectedPat, PNS, 0);
 }

 /* This API is directly called by the user application code. It has the
  * highest precedence compared with LLVM_PROFILE_FILE environment variable
  * and command line option -fprofile-instr-generate=<profile_name>.
  */
 COMPILER_RT_VISIBILITY
 void __llvm_profile_set_filename(const char *FilenamePat) {
   parseAndSetFilename(FilenamePat, PNS_runtime_api, 1);
 }

 /* The public API for writing profile data into the file with name
  * set by previous calls to __llvm_profile_set_filename or
  * __llvm_profile_override_default_filename or
  * __llvm_profile_initialize_file. */
 COMPILER_RT_VISIBILITY
 int __llvm_profile_write_file(void) {
   int rc, Length;
   const char *Filename;
   char *FilenameBuf;
   int PDeathSig = 0;

   if (lprofProfileDumped()) {
     PROF_NOTE("Profile data not written to file: %s.\n",
               "already written");
     return 0;
   }

   Length = getCurFilenameLength();
   FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
   Filename = getCurFilename(FilenameBuf, 0);

   /* Check the filename. */
   if (!Filename) {
     PROF_ERR("Failed to write file : %s\n", "Filename not set");
     return -1;
   }

   /* Check if there is llvm/runtime version mismatch.  */
   if (GET_VERSION(__llvm_profile_get_version()) != INSTR_PROF_RAW_VERSION) {
     PROF_ERR("Runtime and instrumentation version mismatch : "
              "expected %d, but get %d\n",
              INSTR_PROF_RAW_VERSION,
              (int)GET_VERSION(__llvm_profile_get_version()));
     return -1;
   }

   // Temporarily suspend getting SIGKILL when the parent exits.
   PDeathSig = lprofSuspendSigKill();

   /* Write profile data to the file. */
   rc = writeFile(Filename);
   if (rc)
     PROF_ERR("Failed to write file \"%s\": %s\n", Filename, strerror(errno));

   // Restore SIGKILL.
   if (PDeathSig == 1)
     lprofRestoreSigKill();

   return rc;
 }

 COMPILER_RT_VISIBILITY
 int __llvm_profile_dump(void) {
   if (!doMerging())
     PROF_WARN("Later invocation of __llvm_profile_dump can lead to clobbering "
               " of previously dumped profile data : %s. Either use %%m "
               "in profile name or change profile name before dumping.\n",
               "online profile merging is not on");
   int rc = __llvm_profile_write_file();
   lprofSetProfileDumped();
   return rc;
 }

 static void writeFileWithoutReturn(void) { __llvm_profile_write_file(); }

 COMPILER_RT_VISIBILITY
 int __llvm_profile_register_write_file_atexit(void) {
   static int HasBeenRegistered = 0;

   if (HasBeenRegistered)
     return 0;

   lprofSetupValueProfiler();

   HasBeenRegistered = 1;
   return atexit(writeFileWithoutReturn);
 }

 #endif
	/===- InstrProfilingFile.c - Write instrumentation to a file -------------===\
	\|*
	\|* The LLVM Compiler Infrastructure
	\|*
	\|* This file is distributed under the University of Illinois Open Source
	\|* License. See LICENSE.TXT for details.
	\|*
	\===----------------------------------------------------------------------===/

	#if !defined(__Fuchsia__)

	#include <errno.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#ifdef _MSC_VER
	/* For _alloca. */
	#include <malloc.h>
	#endif
	#if defined(_WIN32)
	#include "WindowsMMap.h"
	/* For _chsize_s */
	#include <io.h>
	#include <process.h>
	#else
	#include <sys/file.h>
	#include <sys/mman.h>
	#include <unistd.h>
	#if defined(__linux__)
	#include <sys/types.h>
	#endif
	#endif

	#include "InstrProfiling.h"
	#include "InstrProfilingInternal.h"
	#include "InstrProfilingUtil.h"

	/* From where is profile name specified.
	* The order the enumerators define their
	* precedence. Re-order them may lead to
	* runtime behavior change. */
	typedef enum ProfileNameSpecifier {
	PNS_unknown = 0,
	PNS_default,
	PNS_command_line,
	PNS_environment,
	PNS_runtime_api
	} ProfileNameSpecifier;

	static const char *getPNSStr(ProfileNameSpecifier PNS) {
	switch (PNS) {
	case PNS_default:
	return "default setting";
	case PNS_command_line:
	return "command line";
	case PNS_environment:
	return "environment variable";
	case PNS_runtime_api:
	return "runtime API";
	default:
	return "Unknown";
	}
	}

	#define MAX_PID_SIZE 16
	/* Data structure holding the result of parsed filename pattern. */
	typedef struct lprofFilename {
	/* File name string possibly with %p or %h specifiers. */
	const char *FilenamePat;
	/* A flag indicating if FilenamePat's memory is allocated
	* by runtime. */
	unsigned OwnsFilenamePat;
	const char *ProfilePathPrefix;
	const char *Filename;
	char PidChars[MAX_PID_SIZE];
	char Hostname[COMPILER_RT_MAX_HOSTLEN];
	unsigned NumPids;
	unsigned NumHosts;
	/* When in-process merging is enabled, this parameter specifies
	* the total number of profile data files shared by all the processes
	* spawned from the same binary. By default the value is 1. If merging
	* is not enabled, its value should be 0. This parameter is specified
	* by the %[0-9]m specifier. For instance %2m enables merging using
	* 2 profile data files. %1m is equivalent to %m. Also %m specifier
	* can only appear once at the end of the name pattern. */
	unsigned MergePoolSize;
	ProfileNameSpecifier PNS;
	} lprofFilename;

	COMPILER_RT_WEAK lprofFilename lprofCurFilename = {0, 0, 0, 0, {0},
	{0}, 0, 0, 0, PNS_unknown};

	static int getCurFilenameLength();
	static const char getCurFilename(char FilenameBuf, int ForceUseBuf);
	static unsigned doMerging() { return lprofCurFilename.MergePoolSize; }

	/* Return 1 if there is an error, otherwise return 0. */
	static uint32_t fileWriter(ProfDataWriter This, ProfDataIOVec IOVecs,
	uint32_t NumIOVecs) {
	uint32_t I;
	FILE File = (FILE )This->WriterCtx;
	for (I = 0; I < NumIOVecs; I++) {
	if (IOVecs[I].Data) {
	if (fwrite(IOVecs[I].Data, IOVecs[I].ElmSize, IOVecs[I].NumElm, File) !=
	IOVecs[I].NumElm)
	return 1;
	} else {
	if (fseek(File, IOVecs[I].ElmSize * IOVecs[I].NumElm, SEEK_CUR) == -1)
	return 1;
	}
	}
	return 0;
	}

	static void initFileWriter(ProfDataWriter This, FILE File) {
	This->Write = fileWriter;
	This->WriterCtx = File;
	}

	COMPILER_RT_VISIBILITY ProfBufferIO *
	lprofCreateBufferIOInternal(void *File, uint32_t BufferSz) {
	FreeHook = &free;
	DynamicBufferIOBuffer = (uint8_t *)calloc(BufferSz, 1);
	VPBufferSize = BufferSz;
	ProfDataWriter *fileWriter =
	(ProfDataWriter *)calloc(sizeof(ProfDataWriter), 1);
	initFileWriter(fileWriter, File);
	ProfBufferIO *IO = lprofCreateBufferIO(fileWriter);
	IO->OwnFileWriter = 1;
	return IO;
	}

	static void setupIOBuffer() {
	const char *BufferSzStr = 0;
	BufferSzStr = getenv("LLVM_VP_BUFFER_SIZE");
	if (BufferSzStr && BufferSzStr[0]) {
	VPBufferSize = atoi(BufferSzStr);
	DynamicBufferIOBuffer = (uint8_t *)calloc(VPBufferSize, 1);
	}
	}

	/* Read profile data in \c ProfileFile and merge with in-memory
	profile counters. Returns -1 if there is fatal error, otheriwse
	0 is returned. Returning 0 does not mean merge is actually
	performed. If merge is actually done, *MergeDone is set to 1.
	*/
	static int doProfileMerging(FILE ProfileFile, int MergeDone) {
	uint64_t ProfileFileSize;
	char *ProfileBuffer;

	if (fseek(ProfileFile, 0L, SEEK_END) == -1) {
	PROF_ERR("Unable to merge profile data, unable to get size: %s\n",
	strerror(errno));
	return -1;
	}
	ProfileFileSize = ftell(ProfileFile);

	/* Restore file offset. */
	if (fseek(ProfileFile, 0L, SEEK_SET) == -1) {
	PROF_ERR("Unable to merge profile data, unable to rewind: %s\n",
	strerror(errno));
	return -1;
	}

	/* Nothing to merge. */
	if (ProfileFileSize < sizeof(__llvm_profile_header)) {
	if (ProfileFileSize)
	PROF_WARN("Unable to merge profile data: %s\n",
	"source profile file is too small.");
	return 0;
	}

	ProfileBuffer = mmap(NULL, ProfileFileSize, PROT_READ, MAP_SHARED \| MAP_FILE,
	fileno(ProfileFile), 0);
	if (ProfileBuffer == MAP_FAILED) {
	PROF_ERR("Unable to merge profile data, mmap failed: %s\n",
	strerror(errno));
	return -1;
	}

	if (__llvm_profile_check_compatibility(ProfileBuffer, ProfileFileSize)) {
	(void)munmap(ProfileBuffer, ProfileFileSize);
	PROF_WARN("Unable to merge profile data: %s\n",
	"source profile file is not compatible.");
	return 0;
	}

	/* Now start merging */
	__llvm_profile_merge_from_buffer(ProfileBuffer, ProfileFileSize);

	// Truncate the file in case merging of value profile did not happend to
	// prevent from leaving garbage data at the end of the profile file.
	COMPILER_RT_FTRUNCATE(ProfileFile, __llvm_profile_get_size_for_buffer());

	(void)munmap(ProfileBuffer, ProfileFileSize);
	*MergeDone = 1;

	return 0;
	}

	/* Create the directory holding the file, if needed. */
	static void createProfileDir(const char *Filename) {
	size_t Length = strlen(Filename);
	if (lprofFindFirstDirSeparator(Filename)) {
	char Copy = (char )COMPILER_RT_ALLOCA(Length + 1);
	strncpy(Copy, Filename, Length + 1);
	__llvm_profile_recursive_mkdir(Copy);
	}
	}

	/* Open the profile data for merging. It opens the file in r+b mode with
	* file locking. If the file has content which is compatible with the
	* current process, it also reads in the profile data in the file and merge
	* it with in-memory counters. After the profile data is merged in memory,
	* the original profile data is truncated and gets ready for the profile
	* dumper. With profile merging enabled, each executable as well as any of
	* its instrumented shared libraries dump profile data into their own data file.
	*/
	static FILE openFileForMerging(const char ProfileFileName, int *MergeDone) {
	FILE *ProfileFile;
	int rc;

	createProfileDir(ProfileFileName);
	ProfileFile = lprofOpenFileEx(ProfileFileName);
	if (!ProfileFile)
	return NULL;

	rc = doProfileMerging(ProfileFile, MergeDone);
	if (rc \|\| (!*MergeDone && COMPILER_RT_FTRUNCATE(ProfileFile, 0L)) \|\|
	fseek(ProfileFile, 0L, SEEK_SET) == -1) {
	PROF_ERR("Profile Merging of file %s failed: %s\n", ProfileFileName,
	strerror(errno));
	fclose(ProfileFile);
	return NULL;
	}
	return ProfileFile;
	}

	/* Write profile data to file \c OutputName. */
	static int writeFile(const char *OutputName) {
	int RetVal;
	FILE *OutputFile;

	int MergeDone = 0;
	VPMergeHook = &lprofMergeValueProfData;
	if (!doMerging())
	OutputFile = fopen(OutputName, "ab");
	else
	OutputFile = openFileForMerging(OutputName, &MergeDone);

	if (!OutputFile)
	return -1;

	FreeHook = &free;
	setupIOBuffer();
	ProfDataWriter fileWriter;
	initFileWriter(&fileWriter, OutputFile);
	RetVal = lprofWriteData(&fileWriter, lprofGetVPDataReader(), MergeDone);

	fclose(OutputFile);
	return RetVal;
	}

	static void truncateCurrentFile(void) {
	const char *Filename;
	char *FilenameBuf;
	FILE *File;
	int Length;

	Length = getCurFilenameLength();
	FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
	Filename = getCurFilename(FilenameBuf, 0);
	if (!Filename)
	return;

	/* By pass file truncation to allow online raw profile
	* merging. */
	if (lprofCurFilename.MergePoolSize)
	return;

	createProfileDir(Filename);

	/* Truncate the file. Later we'll reopen and append. */
	File = fopen(Filename, "w");
	if (!File)
	return;
	fclose(File);
	}

	static const char *DefaultProfileName = "default.profraw";
	static void resetFilenameToDefault(void) {
	if (lprofCurFilename.FilenamePat && lprofCurFilename.OwnsFilenamePat) {
	free((void *)lprofCurFilename.FilenamePat);
	}
	memset(&lprofCurFilename, 0, sizeof(lprofCurFilename));
	lprofCurFilename.FilenamePat = DefaultProfileName;
	lprofCurFilename.PNS = PNS_default;
	}

	static int containsMergeSpecifier(const char *FilenamePat, int I) {
	return (FilenamePat[I] == 'm' \|\|
	(FilenamePat[I] >= '1' && FilenamePat[I] <= '9' &&
	/* If FilenamePat[I] is not '\0', the next byte is guaranteed
	* to be in-bound as the string is null terminated. */
	FilenamePat[I + 1] == 'm'));
	}

	/* Parses the pattern string \p FilenamePat and stores the result to
	* lprofcurFilename structure. */
	static int parseFilenamePattern(const char *FilenamePat,
	unsigned CopyFilenamePat) {
	int NumPids = 0, NumHosts = 0, I;
	char *PidChars = &lprofCurFilename.PidChars[0];
	char *Hostname = &lprofCurFilename.Hostname[0];
	int MergingEnabled = 0;

	/* Clean up cached prefix and filename. */
	if (lprofCurFilename.ProfilePathPrefix)
	free((void *)lprofCurFilename.ProfilePathPrefix);
	if (lprofCurFilename.Filename)
	free((void *)lprofCurFilename.Filename);

	if (lprofCurFilename.FilenamePat && lprofCurFilename.OwnsFilenamePat) {
	free((void *)lprofCurFilename.FilenamePat);
	}

	memset(&lprofCurFilename, 0, sizeof(lprofCurFilename));

	if (!CopyFilenamePat)
	lprofCurFilename.FilenamePat = FilenamePat;
	else {
	lprofCurFilename.FilenamePat = strdup(FilenamePat);
	lprofCurFilename.OwnsFilenamePat = 1;
	}
	/* Check the filename for "%p", which indicates a pid-substitution. */
	for (I = 0; FilenamePat[I]; ++I)
	if (FilenamePat[I] == '%') {
	if (FilenamePat[++I] == 'p') {
	if (!NumPids++) {
	if (snprintf(PidChars, MAX_PID_SIZE, "%ld", (long)getpid()) <= 0) {
	PROF_WARN("Unable to get pid for filename pattern %s. Using the "
	"default name.",
	FilenamePat);
	return -1;
	}
	}
	} else if (FilenamePat[I] == 'h') {
	if (!NumHosts++)
	if (COMPILER_RT_GETHOSTNAME(Hostname, COMPILER_RT_MAX_HOSTLEN)) {
	PROF_WARN("Unable to get hostname for filename pattern %s. Using "
	"the default name.",
	FilenamePat);
	return -1;
	}
	} else if (containsMergeSpecifier(FilenamePat, I)) {
	if (MergingEnabled) {
	PROF_WARN("%%m specifier can only be specified once in %s.\n",
	FilenamePat);
	return -1;
	}
	MergingEnabled = 1;
	if (FilenamePat[I] == 'm')
	lprofCurFilename.MergePoolSize = 1;
	else {
	lprofCurFilename.MergePoolSize = FilenamePat[I] - '0';
	I++; /* advance to 'm' */
	}
	}
	}

	lprofCurFilename.NumPids = NumPids;
	lprofCurFilename.NumHosts = NumHosts;
	return 0;
	}

	static void parseAndSetFilename(const char *FilenamePat,
	ProfileNameSpecifier PNS,
	unsigned CopyFilenamePat) {

	const char *OldFilenamePat = lprofCurFilename.FilenamePat;
	ProfileNameSpecifier OldPNS = lprofCurFilename.PNS;

	if (PNS < OldPNS)
	return;

	if (!FilenamePat)
	FilenamePat = DefaultProfileName;

	if (OldFilenamePat && !strcmp(OldFilenamePat, FilenamePat)) {
	lprofCurFilename.PNS = PNS;
	return;
	}

	/* When PNS >= OldPNS, the last one wins. */
	if (!FilenamePat \|\| parseFilenamePattern(FilenamePat, CopyFilenamePat))
	resetFilenameToDefault();
	lprofCurFilename.PNS = PNS;

	if (!OldFilenamePat) {
	if (getenv("LLVM_PROFILE_VERBOSE"))
	PROF_NOTE("Set profile file path to \"%s\" via %s.\n",
	lprofCurFilename.FilenamePat, getPNSStr(PNS));
	} else {
	if (getenv("LLVM_PROFILE_VERBOSE"))
	PROF_NOTE("Override old profile path \"%s\" via %s to \"%s\" via %s.\n",
	OldFilenamePat, getPNSStr(OldPNS), lprofCurFilename.FilenamePat,
	getPNSStr(PNS));
	}

	truncateCurrentFile();
	}

	/* Return buffer length that is required to store the current profile
	* filename with PID and hostname substitutions. */
	/* The length to hold uint64_t followed by 2 digit pool id including '_' */
	#define SIGLEN 24
	static int getCurFilenameLength() {
	int Len;
	if (!lprofCurFilename.FilenamePat \|\| !lprofCurFilename.FilenamePat[0])
	return 0;

	if (!(lprofCurFilename.NumPids \|\| lprofCurFilename.NumHosts \|\|
	lprofCurFilename.MergePoolSize))
	return strlen(lprofCurFilename.FilenamePat);

	Len = strlen(lprofCurFilename.FilenamePat) +
	lprofCurFilename.NumPids * (strlen(lprofCurFilename.PidChars) - 2) +
	lprofCurFilename.NumHosts * (strlen(lprofCurFilename.Hostname) - 2);
	if (lprofCurFilename.MergePoolSize)
	Len += SIGLEN;
	return Len;
	}

	/* Return the pointer to the current profile file name (after substituting
	* PIDs and Hostnames in filename pattern. \p FilenameBuf is the buffer
	* to store the resulting filename. If no substitution is needed, the
	* current filename pattern string is directly returned, unless ForceUseBuf
	* is enabled. */
	static const char getCurFilename(char FilenameBuf, int ForceUseBuf) {
	int I, J, PidLength, HostNameLength, FilenamePatLength;
	const char *FilenamePat = lprofCurFilename.FilenamePat;

	if (!lprofCurFilename.FilenamePat \|\| !lprofCurFilename.FilenamePat[0])
	return 0;

	if (!(lprofCurFilename.NumPids \|\| lprofCurFilename.NumHosts \|\|
	lprofCurFilename.MergePoolSize)) {
	if (!ForceUseBuf)
	return lprofCurFilename.FilenamePat;

	FilenamePatLength = strlen(lprofCurFilename.FilenamePat);
	memcpy(FilenameBuf, lprofCurFilename.FilenamePat, FilenamePatLength);
	FilenameBuf[FilenamePatLength] = '\0';
	return FilenameBuf;
	}

	PidLength = strlen(lprofCurFilename.PidChars);
	HostNameLength = strlen(lprofCurFilename.Hostname);
	/* Construct the new filename. */
	for (I = 0, J = 0; FilenamePat[I]; ++I)
	if (FilenamePat[I] == '%') {
	if (FilenamePat[++I] == 'p') {
	memcpy(FilenameBuf + J, lprofCurFilename.PidChars, PidLength);
	J += PidLength;
	} else if (FilenamePat[I] == 'h') {
	memcpy(FilenameBuf + J, lprofCurFilename.Hostname, HostNameLength);
	J += HostNameLength;
	} else if (containsMergeSpecifier(FilenamePat, I)) {
	char LoadModuleSignature[SIGLEN];
	int S;
	int ProfilePoolId = getpid() % lprofCurFilename.MergePoolSize;
	S = snprintf(LoadModuleSignature, SIGLEN, "%" PRIu64 "_%d",
	lprofGetLoadModuleSignature(), ProfilePoolId);
	if (S == -1 \|\| S > SIGLEN)
	S = SIGLEN;
	memcpy(FilenameBuf + J, LoadModuleSignature, S);
	J += S;
	if (FilenamePat[I] != 'm')
	I++;
	}
	/* Drop any unknown substitutions. */
	} else
	FilenameBuf[J++] = FilenamePat[I];
	FilenameBuf[J] = 0;

	return FilenameBuf;
	}

	/* Returns the pointer to the environment variable
	* string. Returns null if the env var is not set. */
	static const char *getFilenamePatFromEnv(void) {
	const char *Filename = getenv("LLVM_PROFILE_FILE");
	if (!Filename \|\| !Filename[0])
	return 0;
	return Filename;
	}

	COMPILER_RT_VISIBILITY
	const char *__llvm_profile_get_path_prefix(void) {
	int Length;
	char FilenameBuf, Prefix;
	const char Filename, PrefixEnd;

	if (lprofCurFilename.ProfilePathPrefix)
	return lprofCurFilename.ProfilePathPrefix;

	Length = getCurFilenameLength();
	FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
	Filename = getCurFilename(FilenameBuf, 0);
	if (!Filename)
	return "\0";

	PrefixEnd = lprofFindLastDirSeparator(Filename);
	if (!PrefixEnd)
	return "\0";

	Length = PrefixEnd - Filename + 1;
	Prefix = (char *)malloc(Length + 1);
	if (!Prefix) {
	PROF_ERR("Failed to %s\n", "allocate memory.");
	return "\0";
	}
	memcpy(Prefix, Filename, Length);
	Prefix[Length] = '\0';
	lprofCurFilename.ProfilePathPrefix = Prefix;
	return Prefix;
	}

	COMPILER_RT_VISIBILITY
	const char *__llvm_profile_get_filename(void) {
	int Length;
	char *FilenameBuf;
	const char *Filename;

	if (lprofCurFilename.Filename)
	return lprofCurFilename.Filename;

	Length = getCurFilenameLength();
	FilenameBuf = (char *)malloc(Length + 1);
	if (!FilenameBuf) {
	PROF_ERR("Failed to %s\n", "allocate memory.");
	return "\0";
	}
	Filename = getCurFilename(FilenameBuf, 1);
	if (!Filename)
	return "\0";

	lprofCurFilename.Filename = FilenameBuf;
	return FilenameBuf;
	}

	/* This method is invoked by the runtime initialization hook
	* InstrProfilingRuntime.o if it is linked in. Both user specified
	* profile path via -fprofile-instr-generate= and LLVM_PROFILE_FILE
	* environment variable can override this default value. */
	COMPILER_RT_VISIBILITY
	void __llvm_profile_initialize_file(void) {
	const char *EnvFilenamePat;
	const char *SelectedPat = NULL;
	ProfileNameSpecifier PNS = PNS_unknown;
	int hasCommandLineOverrider = (INSTR_PROF_PROFILE_NAME_VAR[0] != 0);

	EnvFilenamePat = getFilenamePatFromEnv();
	if (EnvFilenamePat) {
	/* Pass CopyFilenamePat = 1, to ensure that the filename would be valid
	at the moment when __llvm_profile_write_file() gets executed. */
	parseAndSetFilename(EnvFilenamePat, PNS_environment, 1);
	return;
	} else if (hasCommandLineOverrider) {
	SelectedPat = INSTR_PROF_PROFILE_NAME_VAR;
	PNS = PNS_command_line;
	} else {
	SelectedPat = NULL;
	PNS = PNS_default;
	}

	parseAndSetFilename(SelectedPat, PNS, 0);
	}

	/* This API is directly called by the user application code. It has the
	* highest precedence compared with LLVM_PROFILE_FILE environment variable
	* and command line option -fprofile-instr-generate=<profile_name>.
	*/
	COMPILER_RT_VISIBILITY
	void __llvm_profile_set_filename(const char *FilenamePat) {
	parseAndSetFilename(FilenamePat, PNS_runtime_api, 1);
	}

	/* The public API for writing profile data into the file with name
	* set by previous calls to __llvm_profile_set_filename or
	* __llvm_profile_override_default_filename or
	* __llvm_profile_initialize_file. */
	COMPILER_RT_VISIBILITY
	int __llvm_profile_write_file(void) {
	int rc, Length;
	const char *Filename;
	char *FilenameBuf;
	int PDeathSig = 0;

	if (lprofProfileDumped()) {
	PROF_NOTE("Profile data not written to file: %s.\n",
	"already written");
	return 0;
	}

	Length = getCurFilenameLength();
	FilenameBuf = (char *)COMPILER_RT_ALLOCA(Length + 1);
	Filename = getCurFilename(FilenameBuf, 0);

	/* Check the filename. */
	if (!Filename) {
	PROF_ERR("Failed to write file : %s\n", "Filename not set");
	return -1;
	}

	/* Check if there is llvm/runtime version mismatch. */
	if (GET_VERSION(__llvm_profile_get_version()) != INSTR_PROF_RAW_VERSION) {
	PROF_ERR("Runtime and instrumentation version mismatch : "
	"expected %d, but get %d\n",
	INSTR_PROF_RAW_VERSION,
	(int)GET_VERSION(__llvm_profile_get_version()));
	return -1;
	}

	// Temporarily suspend getting SIGKILL when the parent exits.
	PDeathSig = lprofSuspendSigKill();

	/* Write profile data to the file. */
	rc = writeFile(Filename);
	if (rc)
	PROF_ERR("Failed to write file \"%s\": %s\n", Filename, strerror(errno));

	// Restore SIGKILL.
	if (PDeathSig == 1)
	lprofRestoreSigKill();

	return rc;
	}

	COMPILER_RT_VISIBILITY
	int __llvm_profile_dump(void) {
	if (!doMerging())
	PROF_WARN("Later invocation of __llvm_profile_dump can lead to clobbering "
	" of previously dumped profile data : %s. Either use %%m "
	"in profile name or change profile name before dumping.\n",
	"online profile merging is not on");
	int rc = __llvm_profile_write_file();
	lprofSetProfileDumped();
	return rc;
	}

	static void writeFileWithoutReturn(void) { __llvm_profile_write_file(); }

	COMPILER_RT_VISIBILITY
	int __llvm_profile_register_write_file_atexit(void) {
	static int HasBeenRegistered = 0;

	if (HasBeenRegistered)
	return 0;

	lprofSetupValueProfiler();

	HasBeenRegistered = 1;
	return atexit(writeFileWithoutReturn);
	}

	#endif