/*===- InstrProfilingPlatformLinux.c - Profile data Linux 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(__linux__) || defined(__FreeBSD__) || defined(__Fuchsia__) || \ (defined(__sun__) && defined(__svr4__)) || defined(__NetBSD__) || \ defined(_AIX) #if !defined(_AIX) #include #include #endif #include #include #include "InstrProfiling.h" #include "InstrProfilingInternal.h" #if defined(__FreeBSD__) && !defined(ElfW) /* * FreeBSD's elf.h and link.h headers do not define the ElfW(type) macro yet. * If this is added to all supported FreeBSD versions in the future, this * compatibility macro can be removed. */ #define ElfW(type) __ElfN(type) #endif #define PROF_DATA_START INSTR_PROF_SECT_START(INSTR_PROF_DATA_COMMON) #define PROF_DATA_STOP INSTR_PROF_SECT_STOP(INSTR_PROF_DATA_COMMON) #define PROF_NAME_START INSTR_PROF_SECT_START(INSTR_PROF_NAME_COMMON) #define PROF_NAME_STOP INSTR_PROF_SECT_STOP(INSTR_PROF_NAME_COMMON) #define PROF_CNTS_START INSTR_PROF_SECT_START(INSTR_PROF_CNTS_COMMON) #define PROF_CNTS_STOP INSTR_PROF_SECT_STOP(INSTR_PROF_CNTS_COMMON) #define PROF_ORDERFILE_START INSTR_PROF_SECT_START(INSTR_PROF_ORDERFILE_COMMON) #define PROF_VNODES_START INSTR_PROF_SECT_START(INSTR_PROF_VNODES_COMMON) #define PROF_VNODES_STOP INSTR_PROF_SECT_STOP(INSTR_PROF_VNODES_COMMON) /* Declare section start and stop symbols for various sections * generated by compiler instrumentation. */ extern __llvm_profile_data PROF_DATA_START COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern __llvm_profile_data PROF_DATA_STOP COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern char PROF_CNTS_START COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern char PROF_CNTS_STOP COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern uint32_t PROF_ORDERFILE_START COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern char PROF_NAME_START COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern char PROF_NAME_STOP COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern ValueProfNode PROF_VNODES_START COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; extern ValueProfNode PROF_VNODES_STOP COMPILER_RT_VISIBILITY COMPILER_RT_WEAK; COMPILER_RT_VISIBILITY const __llvm_profile_data * __llvm_profile_begin_data(void) { return &PROF_DATA_START; } COMPILER_RT_VISIBILITY const __llvm_profile_data * __llvm_profile_end_data(void) { return &PROF_DATA_STOP; } COMPILER_RT_VISIBILITY const char *__llvm_profile_begin_names(void) { return &PROF_NAME_START; } COMPILER_RT_VISIBILITY const char *__llvm_profile_end_names(void) { return &PROF_NAME_STOP; } COMPILER_RT_VISIBILITY char *__llvm_profile_begin_counters(void) { return &PROF_CNTS_START; } COMPILER_RT_VISIBILITY char *__llvm_profile_end_counters(void) { return &PROF_CNTS_STOP; } COMPILER_RT_VISIBILITY uint32_t *__llvm_profile_begin_orderfile(void) { return &PROF_ORDERFILE_START; } COMPILER_RT_VISIBILITY ValueProfNode * __llvm_profile_begin_vnodes(void) { return &PROF_VNODES_START; } COMPILER_RT_VISIBILITY ValueProfNode *__llvm_profile_end_vnodes(void) { return &PROF_VNODES_STOP; } COMPILER_RT_VISIBILITY ValueProfNode *CurrentVNode = &PROF_VNODES_START; COMPILER_RT_VISIBILITY ValueProfNode *EndVNode = &PROF_VNODES_STOP; #ifdef NT_GNU_BUILD_ID static size_t RoundUp(size_t size, size_t align) { return (size + align - 1) & ~(align - 1); } /* * Write binary id length and then its data, because binary id does not * have a fixed length. */ static int WriteOneBinaryId(ProfDataWriter *Writer, uint64_t BinaryIdLen, const uint8_t *BinaryIdData, uint64_t BinaryIdPadding) { ProfDataIOVec BinaryIdIOVec[] = { {&BinaryIdLen, sizeof(uint64_t), 1, 0}, {BinaryIdData, sizeof(uint8_t), BinaryIdLen, 0}, {NULL, sizeof(uint8_t), BinaryIdPadding, 1}, }; if (Writer->Write(Writer, BinaryIdIOVec, sizeof(BinaryIdIOVec) / sizeof(*BinaryIdIOVec))) return -1; /* Successfully wrote binary id, report success. */ return 0; } /* * Look for the note that has the name "GNU\0" and type NT_GNU_BUILD_ID * that contains build id. If build id exists, write binary id. * * Each note in notes section starts with a struct which includes * n_namesz, n_descsz, and n_type members. It is followed by the name * (whose length is defined in n_namesz) and then by the descriptor * (whose length is defined in n_descsz). * * Note sections like .note.ABI-tag and .note.gnu.build-id are aligned * to 4 bytes, so round n_namesz and n_descsz to the nearest 4 bytes. */ static int WriteBinaryIdForNote(ProfDataWriter *Writer, const ElfW(Nhdr) * Note) { int BinaryIdSize = 0; const char *NoteName = (const char *)Note + sizeof(ElfW(Nhdr)); if (Note->n_type == NT_GNU_BUILD_ID && Note->n_namesz == 4 && memcmp(NoteName, "GNU\0", 4) == 0) { uint64_t BinaryIdLen = Note->n_descsz; const uint8_t *BinaryIdData = (const uint8_t *)(NoteName + RoundUp(Note->n_namesz, 4)); uint8_t BinaryIdPadding = __llvm_profile_get_num_padding_bytes(BinaryIdLen); if (Writer != NULL && WriteOneBinaryId(Writer, BinaryIdLen, BinaryIdData, BinaryIdPadding) == -1) return -1; BinaryIdSize = sizeof(BinaryIdLen) + BinaryIdLen + BinaryIdPadding; } return BinaryIdSize; } /* * Helper function that iterates through notes section and find build ids. * If writer is given, write binary ids into profiles. * If an error happens while writing, return -1. */ static int WriteBinaryIds(ProfDataWriter *Writer, const ElfW(Nhdr) * Note, const ElfW(Nhdr) * NotesEnd) { int BinaryIdsSize = 0; while (Note < NotesEnd) { int OneBinaryIdSize = WriteBinaryIdForNote(Writer, Note); if (OneBinaryIdSize == -1) return -1; BinaryIdsSize += OneBinaryIdSize; /* Calculate the offset of the next note in notes section. */ size_t NoteOffset = sizeof(ElfW(Nhdr)) + RoundUp(Note->n_namesz, 4) + RoundUp(Note->n_descsz, 4); Note = (const ElfW(Nhdr) *)((const char *)(Note) + NoteOffset); } return BinaryIdsSize; } /* * Write binary ids into profiles if writer is given. * Return the total size of binary ids. * If an error happens while writing, return -1. */ COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) { extern const ElfW(Ehdr) __ehdr_start __attribute__((visibility("hidden"))); const ElfW(Ehdr) *ElfHeader = &__ehdr_start; const ElfW(Phdr) *ProgramHeader = (const ElfW(Phdr) *)((uintptr_t)ElfHeader + ElfHeader->e_phoff); int TotalBinaryIdsSize = 0; uint32_t I; /* Iterate through entries in the program header. */ for (I = 0; I < ElfHeader->e_phnum; I++) { /* Look for the notes segment in program header entries. */ if (ProgramHeader[I].p_type != PT_NOTE) continue; /* There can be multiple notes segment, and examine each of them. */ const ElfW(Nhdr) * Note; const ElfW(Nhdr) * NotesEnd; /* * When examining notes in file, use p_offset, which is the offset within * the elf file, to find the start of notes. */ if (ProgramHeader[I].p_memsz == 0 || ProgramHeader[I].p_memsz == ProgramHeader[I].p_filesz) { Note = (const ElfW(Nhdr) *)((uintptr_t)ElfHeader + ProgramHeader[I].p_offset); NotesEnd = (const ElfW(Nhdr) *)((const char *)(Note) + ProgramHeader[I].p_filesz); } else { /* * When examining notes in memory, use p_vaddr, which is the address of * section after loaded to memory, to find the start of notes. */ Note = (const ElfW(Nhdr) *)((uintptr_t)ElfHeader + ProgramHeader[I].p_vaddr); NotesEnd = (const ElfW(Nhdr) *)((const char *)(Note) + ProgramHeader[I].p_memsz); } int BinaryIdsSize = WriteBinaryIds(Writer, Note, NotesEnd); if (TotalBinaryIdsSize == -1) return -1; TotalBinaryIdsSize += BinaryIdsSize; } return TotalBinaryIdsSize; } #else /* !NT_GNU_BUILD_ID */ /* * Fallback implementation for targets that don't support the GNU * extensions NT_GNU_BUILD_ID and __ehdr_start. */ COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) { return 0; } #endif #if defined(_AIX) // 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. COMPILER_RT_VISIBILITY int dummy_cnts[0] COMPILER_RT_SECTION( COMPILER_RT_SEG INSTR_PROF_CNTS_SECT_NAME); COMPILER_RT_VISIBILITY int dummy_data[0] COMPILER_RT_SECTION( COMPILER_RT_SEG INSTR_PROF_DATA_SECT_NAME); COMPILER_RT_VISIBILITY const int dummy_name[0] COMPILER_RT_SECTION( COMPILER_RT_SEG INSTR_PROF_NAME_SECT_NAME); COMPILER_RT_VISIBILITY int dummy_vnds[0] COMPILER_RT_SECTION( COMPILER_RT_SEG INSTR_PROF_VNODES_SECT_NAME); // Create a fake reference to avoid GC'ing of the dummy variables by the linker. // Ideally, we create a ".ref" of each variable inside the function // __llvm_profile_begin_counters(), but there's no source level construct // that allows us to generate that. __attribute__((destructor)) void keep() { int volatile use = &dummy_cnts < &dummy_data && &dummy_name < &dummy_vnds; (void)use; } #endif #endif