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

 /*===- InstrProfilingPlatformAIX.c - Profile data AIX platform ------------===*\
 |*
 |* 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
 |*
 \*===----------------------------------------------------------------------===*/

 #if defined(_AIX)

 #ifdef __64BIT__
 #define __XCOFF64__
 #endif
 #include <errno.h>
 #include <stdlib.h>
 #include <string.h>
 #include <sys/ldr.h>
 #include <xcoff.h>

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

 #define BIN_ID_PREFIX "xcoff_binary_id:"

 // If found, write the build-id into the Result buffer.
 static size_t FindBinaryId(char *Result, size_t Size) {
   unsigned long EntryAddr = (unsigned long)__builtin_return_address(0);

   // Use loadquery to get information about loaded modules; loadquery writes
   // its result into a buffer of unknown size.
   char Buf[1024];
   size_t BufSize = sizeof(Buf);
   char *BufPtr = Buf;
   int RC = -1;

   errno = 0;
   RC = loadquery(L_GETXINFO | L_IGNOREUNLOAD, BufPtr, (unsigned int)BufSize);
   if (RC == -1 && errno == ENOMEM) {
     BufSize = 64000; // should be plenty for any program.
     BufPtr = malloc(BufSize);
     if (BufPtr != 0)
       RC = loadquery(L_GETXINFO | L_IGNOREUNLOAD, BufPtr, (unsigned int)BufSize);
   }

   if (RC == -1)
     goto done;

   // Locate the ld_xinfo corresponding to this module.
   struct ld_xinfo *CurInfo = (struct ld_xinfo *)BufPtr;
   while (1) {
     unsigned long CurTextStart = (uint64_t)CurInfo->ldinfo_textorg;
     unsigned long CurTextEnd = CurTextStart + CurInfo->ldinfo_textsize;
     if (CurTextStart <= EntryAddr && EntryAddr < CurTextEnd) {
       // Found my slot. Now search for the build-id.
       char *p = (char *)CurInfo->ldinfo_textorg;

       FILHDR *f = (FILHDR *)p;
       AOUTHDR *a = (AOUTHDR *)(p + FILHSZ);
       SCNHDR *s =
           (SCNHDR *)(p + FILHSZ + f->f_opthdr + SCNHSZ * (a->o_snloader - 1));
       LDHDR *ldhdr = (LDHDR *)(p + s->s_scnptr);
       // This is the loader string table
       char *lstr = (char *)ldhdr + ldhdr->l_stoff;

       // If the build-id exists, it's the first entry.
       // Each entry is comprised of a 2-byte size component, followed by the
       // data.
       size_t len = *(short *)lstr;
       char *str = (char *)(lstr + 2);
       size_t PrefixLen = sizeof(BIN_ID_PREFIX) - 1;
       if (len > PrefixLen && (len - PrefixLen) <= Size &&
           strncmp(str, BIN_ID_PREFIX, PrefixLen) == 0) {
         memcpy(Result, str + PrefixLen, len - PrefixLen);
         RC = len - PrefixLen;
         goto done;
       }
       break;
     }
     if (CurInfo->ldinfo_next == 0u)
       break;
     CurInfo = (struct ld_xinfo *)((char *)CurInfo + CurInfo->ldinfo_next);
   }
 done:
   if (BufSize != sizeof(Buf) && BufPtr != 0)
     free(BufPtr);
   return RC;
 }

 static int StrToHexError = 0;
 static uint8_t StrToHex(char c) {
   if (c >= '0' && c <= '9')
     return c - '0';
   if (c >= 'a' && c <= 'f')
     return c - 'a' + 0xa;
   if (c >= 'A' && c <= 'F')
     return c - 'A' + 0xa;
   StrToHexError = 1;
   return 0;
 }

 COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) {
   // 200 bytes should be enough for the build-id hex string.
   static char Buf[200];
   // Profile reading tools expect this to be 8-bytes long.
   static int64_t BinaryIdLen = 0;
   static uint8_t *BinaryIdData = 0;

   // -1 means we already checked for a BinaryId and didn't find one.
   if (BinaryIdLen == -1)
     return 0;

   // Are we being called for the first time?
   if (BinaryIdLen == 0) {
     if (getenv("LLVM_PROFILE_NO_BUILD_ID"))
       goto fail;

     int BuildIdLen = FindBinaryId(Buf, sizeof(Buf));
     if (BuildIdLen <= 0)
       goto fail;

     if (Buf[BuildIdLen - 1] == '\0')
       BuildIdLen--;

     // assume even number of digits/chars, so 0xabc must be 0x0abc
     if ((BuildIdLen % 2) != 0 || BuildIdLen == 0)
       goto fail;

     // The numeric ID is represented as an ascii string in the loader section,
     // so convert it to raw binary.
     BinaryIdLen = BuildIdLen / 2;
     BinaryIdData = (uint8_t *)Buf;

     // Skip "0x" prefix if it exists.
     if (Buf[0] == '0' && Buf[1] == 'x') {
       BinaryIdLen -= 1;
       BinaryIdData += 2;
     }

     StrToHexError = 0;
     for (int i = 0; i < BinaryIdLen; i++)
       BinaryIdData[i] = (StrToHex(BinaryIdData[2 * i]) << 4) +
                         StrToHex(BinaryIdData[2 * i + 1]);

     if (StrToHexError)
       goto fail;

     if (getenv("LLVM_PROFILE_VERBOSE")) {
       char *StrBuf = (char *)COMPILER_RT_ALLOCA(2 * BinaryIdLen + 1);
       for (int i = 0; i < (int)BinaryIdLen; i++)
         sprintf(&StrBuf[2 * i], "%02x", BinaryIdData[i]);
       PROF_NOTE("Writing binary id: %s\n", StrBuf);
     }
   }

   uint8_t BinaryIdPadding = __llvm_profile_get_num_padding_bytes(BinaryIdLen);
   if (Writer && lprofWriteOneBinaryId(Writer, BinaryIdLen, BinaryIdData,
                                       BinaryIdPadding) == -1)
     return -1; // Return -1 rather goto fail to match the NT_GNU_BUILD_ID path.

   return sizeof(BinaryIdLen) + BinaryIdLen + BinaryIdPadding;

 fail:
   if (getenv("LLVM_PROFILE_VERBOSE"))
     fprintf(stderr, "no or invalid binary id: %.*s\n", (int)sizeof(Buf), Buf);
   BinaryIdLen = -1;
   return 0;
 }

 // Empty stubs to allow linking object files using the registration-based scheme
 COMPILER_RT_VISIBILITY
 void __llvm_profile_register_function(void *Data_) {}

 COMPILER_RT_VISIBILITY
 void __llvm_profile_register_names_function(void *NamesStart,
                                             uint64_t NamesSize) {}

 // The __start_SECNAME and __stop_SECNAME symbols (for SECNAME \in
 // {"__llvm_prf_cnts", "__llvm_prf_data", "__llvm_prf_name", "__llvm_prf_vnds"})
 // are always live when linking on AIX, regardless if the .o's being linked
 // reference symbols from the profile library (for example when no files were
 // compiled with -fprofile-generate). That's because these symbols are kept
 // alive through references in constructor functions that are always live in the
 // default linking model on AIX (-bcdtors:all). The __start_SECNAME and
 // __stop_SECNAME symbols are only resolved by the linker when the SECNAME
 // section exists. So for the scenario where the user objects have no such
 // section (i.e. when they are compiled with -fno-profile-generate), we always
 // define these zero length variables in each of the above 4 sections.
 static int dummy_cnts[0] COMPILER_RT_SECTION(
     COMPILER_RT_SEG INSTR_PROF_CNTS_SECT_NAME);
 static int dummy_data[0] COMPILER_RT_SECTION(
     COMPILER_RT_SEG INSTR_PROF_DATA_SECT_NAME);
 static const int dummy_name[0] COMPILER_RT_SECTION(
     COMPILER_RT_SEG INSTR_PROF_NAME_SECT_NAME);
 static int dummy_vnds[0] COMPILER_RT_SECTION(
     COMPILER_RT_SEG INSTR_PROF_VNODES_SECT_NAME);

 // To avoid GC'ing of the dummy variables by the linker, reference them in an
 // array and reference the array in the runtime registration code
 // (InstrProfilingRuntime.cpp)
 COMPILER_RT_VISIBILITY
 void *__llvm_profile_keep[] = {(void *)&dummy_cnts, (void *)&dummy_data,
                                (void *)&dummy_name, (void *)&dummy_vnds};

 #endif
	/===- InstrProfilingPlatformAIX.c - Profile data AIX platform ------------===\
	\|*
	\|* 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
	\|*
	\===----------------------------------------------------------------------===/

	#if defined(_AIX)

	#ifdef __64BIT__
	#define __XCOFF64__
	#endif
	#include <errno.h>
	#include <stdlib.h>
	#include <string.h>
	#include <sys/ldr.h>
	#include <xcoff.h>

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

	#define BIN_ID_PREFIX "xcoff_binary_id:"

	// If found, write the build-id into the Result buffer.
	static size_t FindBinaryId(char *Result, size_t Size) {
	unsigned long EntryAddr = (unsigned long)__builtin_return_address(0);

	// Use loadquery to get information about loaded modules; loadquery writes
	// its result into a buffer of unknown size.
	char Buf[1024];
	size_t BufSize = sizeof(Buf);
	char *BufPtr = Buf;
	int RC = -1;

	errno = 0;
	RC = loadquery(L_GETXINFO \| L_IGNOREUNLOAD, BufPtr, (unsigned int)BufSize);
	if (RC == -1 && errno == ENOMEM) {
	BufSize = 64000; // should be plenty for any program.
	BufPtr = malloc(BufSize);
	if (BufPtr != 0)
	RC = loadquery(L_GETXINFO \| L_IGNOREUNLOAD, BufPtr, (unsigned int)BufSize);
	}

	if (RC == -1)
	goto done;

	// Locate the ld_xinfo corresponding to this module.
	struct ld_xinfo CurInfo = (struct ld_xinfo )BufPtr;
	while (1) {
	unsigned long CurTextStart = (uint64_t)CurInfo->ldinfo_textorg;
	unsigned long CurTextEnd = CurTextStart + CurInfo->ldinfo_textsize;
	if (CurTextStart <= EntryAddr && EntryAddr < CurTextEnd) {
	// Found my slot. Now search for the build-id.
	char p = (char )CurInfo->ldinfo_textorg;

	FILHDR f = (FILHDR )p;
	AOUTHDR a = (AOUTHDR )(p + FILHSZ);
	SCNHDR *s =
	(SCNHDR )(p + FILHSZ + f->f_opthdr + SCNHSZ (a->o_snloader - 1));
	LDHDR ldhdr = (LDHDR )(p + s->s_scnptr);
	// This is the loader string table
	char lstr = (char )ldhdr + ldhdr->l_stoff;

	// If the build-id exists, it's the first entry.
	// Each entry is comprised of a 2-byte size component, followed by the
	// data.
	size_t len = (short )lstr;
	char str = (char )(lstr + 2);
	size_t PrefixLen = sizeof(BIN_ID_PREFIX) - 1;
	if (len > PrefixLen && (len - PrefixLen) <= Size &&
	strncmp(str, BIN_ID_PREFIX, PrefixLen) == 0) {
	memcpy(Result, str + PrefixLen, len - PrefixLen);
	RC = len - PrefixLen;
	goto done;
	}
	break;
	}
	if (CurInfo->ldinfo_next == 0u)
	break;
	CurInfo = (struct ld_xinfo )((char )CurInfo + CurInfo->ldinfo_next);
	}
	done:
	if (BufSize != sizeof(Buf) && BufPtr != 0)
	free(BufPtr);
	return RC;
	}

	static int StrToHexError = 0;
	static uint8_t StrToHex(char c) {
	if (c >= '0' && c <= '9')
	return c - '0';
	if (c >= 'a' && c <= 'f')
	return c - 'a' + 0xa;
	if (c >= 'A' && c <= 'F')
	return c - 'A' + 0xa;
	StrToHexError = 1;
	return 0;
	}

	COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) {
	// 200 bytes should be enough for the build-id hex string.
	static char Buf[200];
	// Profile reading tools expect this to be 8-bytes long.
	static int64_t BinaryIdLen = 0;
	static uint8_t *BinaryIdData = 0;

	// -1 means we already checked for a BinaryId and didn't find one.
	if (BinaryIdLen == -1)
	return 0;

	// Are we being called for the first time?
	if (BinaryIdLen == 0) {
	if (getenv("LLVM_PROFILE_NO_BUILD_ID"))
	goto fail;

	int BuildIdLen = FindBinaryId(Buf, sizeof(Buf));
	if (BuildIdLen <= 0)
	goto fail;

	if (Buf[BuildIdLen - 1] == '\0')
	BuildIdLen--;

	// assume even number of digits/chars, so 0xabc must be 0x0abc
	if ((BuildIdLen % 2) != 0 \|\| BuildIdLen == 0)
	goto fail;

	// The numeric ID is represented as an ascii string in the loader section,
	// so convert it to raw binary.
	BinaryIdLen = BuildIdLen / 2;
	BinaryIdData = (uint8_t *)Buf;

	// Skip "0x" prefix if it exists.
	if (Buf[0] == '0' && Buf[1] == 'x') {
	BinaryIdLen -= 1;
	BinaryIdData += 2;
	}

	StrToHexError = 0;
	for (int i = 0; i < BinaryIdLen; i++)
	BinaryIdData[i] = (StrToHex(BinaryIdData[2 * i]) << 4) +
	StrToHex(BinaryIdData[2 * i + 1]);

	if (StrToHexError)
	goto fail;

	if (getenv("LLVM_PROFILE_VERBOSE")) {
	char StrBuf = (char )COMPILER_RT_ALLOCA(2 * BinaryIdLen + 1);
	for (int i = 0; i < (int)BinaryIdLen; i++)
	sprintf(&StrBuf[2 * i], "%02x", BinaryIdData[i]);
	PROF_NOTE("Writing binary id: %s\n", StrBuf);
	}
	}

	uint8_t BinaryIdPadding = __llvm_profile_get_num_padding_bytes(BinaryIdLen);
	if (Writer && lprofWriteOneBinaryId(Writer, BinaryIdLen, BinaryIdData,
	BinaryIdPadding) == -1)
	return -1; // Return -1 rather goto fail to match the NT_GNU_BUILD_ID path.

	return sizeof(BinaryIdLen) + BinaryIdLen + BinaryIdPadding;

	fail:
	if (getenv("LLVM_PROFILE_VERBOSE"))
	fprintf(stderr, "no or invalid binary id: %.*s\n", (int)sizeof(Buf), Buf);
	BinaryIdLen = -1;
	return 0;
	}

	// Empty stubs to allow linking object files using the registration-based scheme
	COMPILER_RT_VISIBILITY
	void __llvm_profile_register_function(void *Data_) {}

	COMPILER_RT_VISIBILITY
	void __llvm_profile_register_names_function(void *NamesStart,
	uint64_t NamesSize) {}

	// The __start_SECNAME and __stop_SECNAME symbols (for SECNAME \in
	// {"__llvm_prf_cnts", "__llvm_prf_data", "__llvm_prf_name", "__llvm_prf_vnds"})
	// are always live when linking on AIX, regardless if the .o's being linked
	// reference symbols from the profile library (for example when no files were
	// compiled with -fprofile-generate). That's because these symbols are kept
	// alive through references in constructor functions that are always live in the
	// default linking model on AIX (-bcdtors:all). The __start_SECNAME and
	// __stop_SECNAME symbols are only resolved by the linker when the SECNAME
	// section exists. So for the scenario where the user objects have no such
	// section (i.e. when they are compiled with -fno-profile-generate), we always
	// define these zero length variables in each of the above 4 sections.
	static int dummy_cnts[0] COMPILER_RT_SECTION(
	COMPILER_RT_SEG INSTR_PROF_CNTS_SECT_NAME);
	static int dummy_data[0] COMPILER_RT_SECTION(
	COMPILER_RT_SEG INSTR_PROF_DATA_SECT_NAME);
	static const int dummy_name[0] COMPILER_RT_SECTION(
	COMPILER_RT_SEG INSTR_PROF_NAME_SECT_NAME);
	static int dummy_vnds[0] COMPILER_RT_SECTION(
	COMPILER_RT_SEG INSTR_PROF_VNODES_SECT_NAME);

	// To avoid GC'ing of the dummy variables by the linker, reference them in an
	// array and reference the array in the runtime registration code
	// (InstrProfilingRuntime.cpp)
	COMPILER_RT_VISIBILITY
	void __llvm_profile_keep[] = {(void )&dummy_cnts, (void *)&dummy_data,
	(void )&dummy_name, (void )&dummy_vnds};

	#endif