Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Stéphane Eranian | 2469 | 99.80% | 1 | 50.00% |
Arnaldo Carvalho de Melo | 5 | 0.20% | 1 | 50.00% |
Total | 2474 | 2 |
/* * genelf_debug.c * Copyright (C) 2015, Google, Inc * * Contributed by: * Stephane Eranian <eranian@google.com> * * Released under the GPL v2. * * based on GPLv2 source code from Oprofile * @remark Copyright 2007 OProfile authors * @author Philippe Elie */ #include <linux/compiler.h> #include <sys/types.h> #include <stdio.h> #include <getopt.h> #include <stddef.h> #include <libelf.h> #include <string.h> #include <stdlib.h> #include <inttypes.h> #include <limits.h> #include <fcntl.h> #include <err.h> #include <dwarf.h> #include "perf.h" #include "genelf.h" #include "../util/jitdump.h" #define BUFFER_EXT_DFL_SIZE (4 * 1024) typedef uint32_t uword; typedef uint16_t uhalf; typedef int32_t sword; typedef int16_t shalf; typedef uint8_t ubyte; typedef int8_t sbyte; struct buffer_ext { size_t cur_pos; size_t max_sz; void *data; }; static void buffer_ext_dump(struct buffer_ext *be, const char *msg) { size_t i; warnx("DUMP for %s", msg); for (i = 0 ; i < be->cur_pos; i++) warnx("%4zu 0x%02x", i, (((char *)be->data)[i]) & 0xff); } static inline int buffer_ext_add(struct buffer_ext *be, void *addr, size_t sz) { void *tmp; size_t be_sz = be->max_sz; retry: if ((be->cur_pos + sz) < be_sz) { memcpy(be->data + be->cur_pos, addr, sz); be->cur_pos += sz; return 0; } if (!be_sz) be_sz = BUFFER_EXT_DFL_SIZE; else be_sz <<= 1; tmp = realloc(be->data, be_sz); if (!tmp) return -1; be->data = tmp; be->max_sz = be_sz; goto retry; } static void buffer_ext_init(struct buffer_ext *be) { be->data = NULL; be->cur_pos = 0; be->max_sz = 0; } static inline size_t buffer_ext_size(struct buffer_ext *be) { return be->cur_pos; } static inline void * buffer_ext_addr(struct buffer_ext *be) { return be->data; } struct debug_line_header { // Not counting this field uword total_length; // version number (2 currently) uhalf version; // relative offset from next field to // program statement uword prolog_length; ubyte minimum_instruction_length; ubyte default_is_stmt; // line_base - see DWARF 2 specs sbyte line_base; // line_range - see DWARF 2 specs ubyte line_range; // number of opcode + 1 ubyte opcode_base; /* follow the array of opcode args nr: ubytes [nr_opcode_base] */ /* follow the search directories index, zero terminated string * terminated by an empty string. */ /* follow an array of { filename, LEB128, LEB128, LEB128 }, first is * the directory index entry, 0 means current directory, then mtime * and filesize, last entry is followed by en empty string. */ /* follow the first program statement */ } __packed; /* DWARF 2 spec talk only about one possible compilation unit header while * binutils can handle two flavours of dwarf 2, 32 and 64 bits, this is not * related to the used arch, an ELF 32 can hold more than 4 Go of debug * information. For now we handle only DWARF 2 32 bits comp unit. It'll only * become a problem if we generate more than 4GB of debug information. */ struct compilation_unit_header { uword total_length; uhalf version; uword debug_abbrev_offset; ubyte pointer_size; } __packed; #define DW_LNS_num_opcode (DW_LNS_set_isa + 1) /* field filled at run time are marked with -1 */ static struct debug_line_header const default_debug_line_header = { .total_length = -1, .version = 2, .prolog_length = -1, .minimum_instruction_length = 1, /* could be better when min instruction size != 1 */ .default_is_stmt = 1, /* we don't take care about basic block */ .line_base = -5, /* sensible value for line base ... */ .line_range = -14, /* ... and line range are guessed statically */ .opcode_base = DW_LNS_num_opcode }; static ubyte standard_opcode_length[] = { 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 }; #if 0 { [DW_LNS_advance_pc] = 1, [DW_LNS_advance_line] = 1, [DW_LNS_set_file] = 1, [DW_LNS_set_column] = 1, [DW_LNS_fixed_advance_pc] = 1, [DW_LNS_set_isa] = 1, }; #endif /* field filled at run time are marked with -1 */ static struct compilation_unit_header default_comp_unit_header = { .total_length = -1, .version = 2, .debug_abbrev_offset = 0, /* we reuse the same abbrev entries for all comp unit */ .pointer_size = sizeof(void *) }; static void emit_uword(struct buffer_ext *be, uword data) { buffer_ext_add(be, &data, sizeof(uword)); } static void emit_string(struct buffer_ext *be, const char *s) { buffer_ext_add(be, (void *)s, strlen(s) + 1); } static void emit_unsigned_LEB128(struct buffer_ext *be, unsigned long data) { do { ubyte cur = data & 0x7F; data >>= 7; if (data) cur |= 0x80; buffer_ext_add(be, &cur, 1); } while (data); } static void emit_signed_LEB128(struct buffer_ext *be, long data) { int more = 1; int negative = data < 0; int size = sizeof(long) * CHAR_BIT; while (more) { ubyte cur = data & 0x7F; data >>= 7; if (negative) data |= - (1 << (size - 7)); if ((data == 0 && !(cur & 0x40)) || (data == -1l && (cur & 0x40))) more = 0; else cur |= 0x80; buffer_ext_add(be, &cur, 1); } } static void emit_extended_opcode(struct buffer_ext *be, ubyte opcode, void *data, size_t data_len) { buffer_ext_add(be, (char *)"", 1); emit_unsigned_LEB128(be, data_len + 1); buffer_ext_add(be, &opcode, 1); buffer_ext_add(be, data, data_len); } static void emit_opcode(struct buffer_ext *be, ubyte opcode) { buffer_ext_add(be, &opcode, 1); } static void emit_opcode_signed(struct buffer_ext *be, ubyte opcode, long data) { buffer_ext_add(be, &opcode, 1); emit_signed_LEB128(be, data); } static void emit_opcode_unsigned(struct buffer_ext *be, ubyte opcode, unsigned long data) { buffer_ext_add(be, &opcode, 1); emit_unsigned_LEB128(be, data); } static void emit_advance_pc(struct buffer_ext *be, unsigned long delta_pc) { emit_opcode_unsigned(be, DW_LNS_advance_pc, delta_pc); } static void emit_advance_lineno(struct buffer_ext *be, long delta_lineno) { emit_opcode_signed(be, DW_LNS_advance_line, delta_lineno); } static void emit_lne_end_of_sequence(struct buffer_ext *be) { emit_extended_opcode(be, DW_LNE_end_sequence, NULL, 0); } static void emit_set_file(struct buffer_ext *be, unsigned long idx) { emit_opcode_unsigned(be, DW_LNS_set_file, idx); } static void emit_lne_define_filename(struct buffer_ext *be, const char *filename) { buffer_ext_add(be, (void *)"", 1); /* LNE field, strlen(filename) + zero termination, 3 bytes for: the dir entry, timestamp, filesize */ emit_unsigned_LEB128(be, strlen(filename) + 5); emit_opcode(be, DW_LNE_define_file); emit_string(be, filename); /* directory index 0=do not know */ emit_unsigned_LEB128(be, 0); /* last modification date on file 0=do not know */ emit_unsigned_LEB128(be, 0); /* filesize 0=do not know */ emit_unsigned_LEB128(be, 0); } static void emit_lne_set_address(struct buffer_ext *be, void *address) { emit_extended_opcode(be, DW_LNE_set_address, &address, sizeof(unsigned long)); } static ubyte get_special_opcode(struct debug_entry *ent, unsigned int last_line, unsigned long last_vma) { unsigned int temp; unsigned long delta_addr; /* * delta from line_base */ temp = (ent->lineno - last_line) - default_debug_line_header.line_base; if (temp >= default_debug_line_header.line_range) return 0; /* * delta of addresses */ delta_addr = (ent->addr - last_vma) / default_debug_line_header.minimum_instruction_length; /* This is not sufficient to ensure opcode will be in [0-256] but * sufficient to ensure when summing with the delta lineno we will * not overflow the unsigned long opcode */ if (delta_addr <= 256 / default_debug_line_header.line_range) { unsigned long opcode = temp + (delta_addr * default_debug_line_header.line_range) + default_debug_line_header.opcode_base; return opcode <= 255 ? opcode : 0; } return 0; } static void emit_lineno_info(struct buffer_ext *be, struct debug_entry *ent, size_t nr_entry, unsigned long code_addr) { size_t i; /* * Machine state at start of a statement program * address = 0 * file = 1 * line = 1 * column = 0 * is_stmt = default_is_stmt as given in the debug_line_header * basic block = 0 * end sequence = 0 */ /* start state of the state machine we take care of */ unsigned long last_vma = code_addr; char const *cur_filename = NULL; unsigned long cur_file_idx = 0; int last_line = 1; emit_lne_set_address(be, (void *)code_addr); for (i = 0; i < nr_entry; i++, ent = debug_entry_next(ent)) { int need_copy = 0; ubyte special_opcode; /* * check if filename changed, if so add it */ if (!cur_filename || strcmp(cur_filename, ent->name)) { emit_lne_define_filename(be, ent->name); cur_filename = ent->name; emit_set_file(be, ++cur_file_idx); need_copy = 1; } special_opcode = get_special_opcode(ent, last_line, last_vma); if (special_opcode != 0) { last_line = ent->lineno; last_vma = ent->addr; emit_opcode(be, special_opcode); } else { /* * lines differ, emit line delta */ if (last_line != ent->lineno) { emit_advance_lineno(be, ent->lineno - last_line); last_line = ent->lineno; need_copy = 1; } /* * addresses differ, emit address delta */ if (last_vma != ent->addr) { emit_advance_pc(be, ent->addr - last_vma); last_vma = ent->addr; need_copy = 1; } /* * add new row to matrix */ if (need_copy) emit_opcode(be, DW_LNS_copy); } } } static void add_debug_line(struct buffer_ext *be, struct debug_entry *ent, size_t nr_entry, unsigned long code_addr) { struct debug_line_header * dbg_header; size_t old_size; old_size = buffer_ext_size(be); buffer_ext_add(be, (void *)&default_debug_line_header, sizeof(default_debug_line_header)); buffer_ext_add(be, &standard_opcode_length, sizeof(standard_opcode_length)); // empty directory entry buffer_ext_add(be, (void *)"", 1); // empty filename directory buffer_ext_add(be, (void *)"", 1); dbg_header = buffer_ext_addr(be) + old_size; dbg_header->prolog_length = (buffer_ext_size(be) - old_size) - offsetof(struct debug_line_header, minimum_instruction_length); emit_lineno_info(be, ent, nr_entry, code_addr); emit_lne_end_of_sequence(be); dbg_header = buffer_ext_addr(be) + old_size; dbg_header->total_length = (buffer_ext_size(be) - old_size) - offsetof(struct debug_line_header, version); } static void add_debug_abbrev(struct buffer_ext *be) { emit_unsigned_LEB128(be, 1); emit_unsigned_LEB128(be, DW_TAG_compile_unit); emit_unsigned_LEB128(be, DW_CHILDREN_yes); emit_unsigned_LEB128(be, DW_AT_stmt_list); emit_unsigned_LEB128(be, DW_FORM_data4); emit_unsigned_LEB128(be, 0); emit_unsigned_LEB128(be, 0); emit_unsigned_LEB128(be, 0); } static void add_compilation_unit(struct buffer_ext *be, size_t offset_debug_line) { struct compilation_unit_header *comp_unit_header; size_t old_size = buffer_ext_size(be); buffer_ext_add(be, &default_comp_unit_header, sizeof(default_comp_unit_header)); emit_unsigned_LEB128(be, 1); emit_uword(be, offset_debug_line); comp_unit_header = buffer_ext_addr(be) + old_size; comp_unit_header->total_length = (buffer_ext_size(be) - old_size) - offsetof(struct compilation_unit_header, version); } static int jit_process_debug_info(uint64_t code_addr, void *debug, int nr_debug_entries, struct buffer_ext *dl, struct buffer_ext *da, struct buffer_ext *di) { struct debug_entry *ent = debug; int i; for (i = 0; i < nr_debug_entries; i++) { ent->addr = ent->addr - code_addr; ent = debug_entry_next(ent); } add_compilation_unit(di, buffer_ext_size(dl)); add_debug_line(dl, debug, nr_debug_entries, 0); add_debug_abbrev(da); if (0) buffer_ext_dump(da, "abbrev"); return 0; } int jit_add_debug_info(Elf *e, uint64_t code_addr, void *debug, int nr_debug_entries) { Elf_Data *d; Elf_Scn *scn; Elf_Shdr *shdr; struct buffer_ext dl, di, da; int ret; buffer_ext_init(&dl); buffer_ext_init(&di); buffer_ext_init(&da); ret = jit_process_debug_info(code_addr, debug, nr_debug_entries, &dl, &da, &di); if (ret) return -1; /* * setup .debug_line section */ scn = elf_newscn(e); if (!scn) { warnx("cannot create section"); return -1; } d = elf_newdata(scn); if (!d) { warnx("cannot get new data"); return -1; } d->d_align = 1; d->d_off = 0LL; d->d_buf = buffer_ext_addr(&dl); d->d_type = ELF_T_BYTE; d->d_size = buffer_ext_size(&dl); d->d_version = EV_CURRENT; shdr = elf_getshdr(scn); if (!shdr) { warnx("cannot get section header"); return -1; } shdr->sh_name = 52; /* .debug_line */ shdr->sh_type = SHT_PROGBITS; shdr->sh_addr = 0; /* must be zero or == sh_offset -> dynamic object */ shdr->sh_flags = 0; shdr->sh_entsize = 0; /* * setup .debug_info section */ scn = elf_newscn(e); if (!scn) { warnx("cannot create section"); return -1; } d = elf_newdata(scn); if (!d) { warnx("cannot get new data"); return -1; } d->d_align = 1; d->d_off = 0LL; d->d_buf = buffer_ext_addr(&di); d->d_type = ELF_T_BYTE; d->d_size = buffer_ext_size(&di); d->d_version = EV_CURRENT; shdr = elf_getshdr(scn); if (!shdr) { warnx("cannot get section header"); return -1; } shdr->sh_name = 64; /* .debug_info */ shdr->sh_type = SHT_PROGBITS; shdr->sh_addr = 0; /* must be zero or == sh_offset -> dynamic object */ shdr->sh_flags = 0; shdr->sh_entsize = 0; /* * setup .debug_abbrev section */ scn = elf_newscn(e); if (!scn) { warnx("cannot create section"); return -1; } d = elf_newdata(scn); if (!d) { warnx("cannot get new data"); return -1; } d->d_align = 1; d->d_off = 0LL; d->d_buf = buffer_ext_addr(&da); d->d_type = ELF_T_BYTE; d->d_size = buffer_ext_size(&da); d->d_version = EV_CURRENT; shdr = elf_getshdr(scn); if (!shdr) { warnx("cannot get section header"); return -1; } shdr->sh_name = 76; /* .debug_info */ shdr->sh_type = SHT_PROGBITS; shdr->sh_addr = 0; /* must be zero or == sh_offset -> dynamic object */ shdr->sh_flags = 0; shdr->sh_entsize = 0; /* * now we update the ELF image with all the sections */ if (elf_update(e, ELF_C_WRITE) < 0) { warnx("elf_update debug failed"); return -1; } return 0; }
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