/* * IR - Lightweight JIT Compilation Framework * (Disassembler based on libcapstone) * Copyright (C) 2022 Zend by Perforce. * Authors: Dmitry Stogov */ #ifndef _GNU_SOURCE # define _GNU_SOURCE #endif #ifndef _WIN32 # include # include # include # include # if defined(__FreeBSD__) || defined(__DragonFly__) # include # endif #endif #include "ir.h" #include "ir_private.h" #ifndef _WIN32 # include "ir_elf.h" #endif #include #define HAVE_CAPSTONE_ITER #ifndef IR_DISASM_INTEL_SYNTAX # define IR_DISASM_INTEL_SYNTAX 0 #endif typedef struct _ir_sym_node { uint64_t addr; uint64_t end; struct _ir_sym_node *parent; struct _ir_sym_node *child[2]; unsigned char info; char name[1]; } ir_sym_node; static ir_sym_node *_symbols = NULL; static void ir_syms_rotateleft(ir_sym_node *p) { ir_sym_node *r = p->child[1]; p->child[1] = r->child[0]; if (r->child[0]) { r->child[0]->parent = p; } r->parent = p->parent; if (p->parent == NULL) { _symbols = r; } else if (p->parent->child[0] == p) { p->parent->child[0] = r; } else { p->parent->child[1] = r; } r->child[0] = p; p->parent = r; } static void ir_syms_rotateright(ir_sym_node *p) { ir_sym_node *l = p->child[0]; p->child[0] = l->child[1]; if (l->child[1]) { l->child[1]->parent = p; } l->parent = p->parent; if (p->parent == NULL) { _symbols = l; } else if (p->parent->child[1] == p) { p->parent->child[1] = l; } else { p->parent->child[0] = l; } l->child[1] = p; p->parent = l; } void ir_disasm_add_symbol(const char *name, uint64_t addr, uint64_t size) { ir_sym_node *sym; size_t len = strlen(name); sym = ir_mem_pmalloc(sizeof(ir_sym_node) + len + 1); if (!sym) { return; } sym->addr = addr; sym->end = (addr + size - 1); memcpy((char*)&sym->name, name, len + 1); sym->parent = sym->child[0] = sym->child[1] = NULL; sym->info = 1; if (_symbols) { ir_sym_node *node = _symbols; /* insert it into rbtree */ do { if (sym->addr > node->addr) { IR_ASSERT(sym->addr > (node->end)); if (node->child[1]) { node = node->child[1]; } else { node->child[1] = sym; sym->parent = node; break; } } else if (sym->addr < node->addr) { if (node->child[0]) { node = node->child[0]; } else { node->child[0] = sym; sym->parent = node; break; } } else { IR_ASSERT(sym->addr == node->addr); if (strcmp(name, node->name) == 0 && sym->end < node->end) { /* reduce size of the existing symbol */ node->end = sym->end; } ir_mem_pfree(sym); return; } } while (1); /* fix rbtree after inserting */ while (sym && sym != _symbols && sym->parent->info == 1) { if (sym->parent == sym->parent->parent->child[0]) { node = sym->parent->parent->child[1]; if (node && node->info == 1) { sym->parent->info = 0; node->info = 0; sym->parent->parent->info = 1; sym = sym->parent->parent; } else { if (sym == sym->parent->child[1]) { sym = sym->parent; ir_syms_rotateleft(sym); } sym->parent->info = 0; sym->parent->parent->info = 1; ir_syms_rotateright(sym->parent->parent); } } else { node = sym->parent->parent->child[0]; if (node && node->info == 1) { sym->parent->info = 0; node->info = 0; sym->parent->parent->info = 1; sym = sym->parent->parent; } else { if (sym == sym->parent->child[0]) { sym = sym->parent; ir_syms_rotateright(sym); } sym->parent->info = 0; sym->parent->parent->info = 1; ir_syms_rotateleft(sym->parent->parent); } } } } else { _symbols = sym; } _symbols->info = 0; } static void ir_disasm_destroy_symbols(ir_sym_node *n) { if (n) { if (n->child[0]) { ir_disasm_destroy_symbols(n->child[0]); } if (n->child[1]) { ir_disasm_destroy_symbols(n->child[1]); } ir_mem_pfree(n); } } const char* ir_disasm_find_symbol(uint64_t addr, int64_t *offset) { ir_sym_node *node = _symbols; while (node) { if (addr < node->addr) { node = node->child[0]; } else if (addr > node->end) { node = node->child[1]; } else { *offset = addr - node->addr; return node->name; } } return NULL; } static uint64_t ir_disasm_branch_target(csh cs, const cs_insn *insn) { unsigned int i; #if defined(IR_TARGET_X86) || defined(IR_TARGET_X64) if (cs_insn_group(cs, insn, X86_GRP_JUMP)) { for (i = 0; i < insn->detail->x86.op_count; i++) { if (insn->detail->x86.operands[i].type == X86_OP_IMM) { return insn->detail->x86.operands[i].imm; } } } #elif defined(IR_TARGET_AARCH64) if (cs_insn_group(cs, insn, ARM64_GRP_JUMP) || insn->id == ARM64_INS_BL || insn->id == ARM64_INS_ADR) { for (i = 0; i < insn->detail->arm64.op_count; i++) { if (insn->detail->arm64.operands[i].type == ARM64_OP_IMM) return insn->detail->arm64.operands[i].imm; } } #endif return 0; } static uint64_t ir_disasm_rodata_reference(csh cs, const cs_insn *insn) { #if defined(IR_TARGET_X86) unsigned int i; for (i = 0; i < insn->detail->x86.op_count; i++) { if (insn->detail->x86.operands[i].type == X86_OP_MEM && insn->detail->x86.operands[i].mem.base == X86_REG_INVALID && insn->detail->x86.operands[i].mem.segment == X86_REG_INVALID && insn->detail->x86.operands[i].mem.index == X86_REG_INVALID && insn->detail->x86.operands[i].mem.scale == 1) { return (uint32_t)insn->detail->x86.operands[i].mem.disp; } } if (cs_insn_group(cs, insn, X86_GRP_JUMP)) { for (i = 0; i < insn->detail->x86.op_count; i++) { if (insn->detail->x86.operands[i].type == X86_OP_MEM && insn->detail->x86.operands[i].mem.disp) { return (uint32_t)insn->detail->x86.operands[i].mem.disp; } } } if (insn->id == X86_INS_MOV && insn->detail->x86.op_count == 2 && insn->detail->x86.operands[0].type == X86_OP_IMM && insn->detail->x86.operands[0].size == sizeof(void*)) { return (uint32_t)insn->detail->x86.operands[0].imm; } #elif defined(IR_TARGET_X64) unsigned int i; for (i = 0; i < insn->detail->x86.op_count; i++) { if (insn->detail->x86.operands[i].type == X86_OP_MEM && insn->detail->x86.operands[i].mem.base == X86_REG_RIP && insn->detail->x86.operands[i].mem.segment == X86_REG_INVALID // TODO: support for index and scale && insn->detail->x86.operands[i].mem.index == X86_REG_INVALID && insn->detail->x86.operands[i].mem.scale == 1) { return insn->detail->x86.operands[i].mem.disp + insn->address + insn->size; } } #elif defined(IR_TARGET_AARCH64) unsigned int i; if (insn->id == ARM64_INS_ADR || insn->id == ARM64_INS_LDRB || insn->id == ARM64_INS_LDR || insn->id == ARM64_INS_LDRH || insn->id == ARM64_INS_LDRSB || insn->id == ARM64_INS_LDRSH || insn->id == ARM64_INS_LDRSW || insn->id == ARM64_INS_STRB || insn->id == ARM64_INS_STR || insn->id == ARM64_INS_STRH) { for (i = 0; i < insn->detail->arm64.op_count; i++) { if (insn->detail->arm64.operands[i].type == ARM64_OP_IMM) return insn->detail->arm64.operands[i].imm; } } return 0; #endif return 0; } static const char* ir_disasm_resolver(uint64_t addr, int64_t *offset) { #ifndef _WIN32 const char *name; void *a = (void*)(uintptr_t)(addr); Dl_info info; name = ir_disasm_find_symbol(addr, offset); if (name) { return name; } if (dladdr(a, &info) && info.dli_sname != NULL && info.dli_saddr == a) { *offset = 0; return info.dli_sname; } #else const char *name; name = ir_disasm_find_symbol(addr, offset); if (name) { return name; } #endif return NULL; } int ir_disasm(const char *name, const void *start, size_t size, bool asm_addr, ir_ctx *ctx, FILE *f) { size_t orig_size = size; const void *orig_end = (void *)((char *)start + size); const void *end; ir_hashtab labels; int32_t l, n; uint64_t addr; csh cs; cs_insn *insn; # ifdef HAVE_CAPSTONE_ITER const uint8_t *cs_code; size_t cs_size; uint64_t cs_addr; # else size_t count, i; # endif const char *sym; int64_t offset = 0; char *p, *q, *r; uint32_t rodata_offset = 0; uint32_t jmp_table_offset = 0; ir_hashtab_bucket *b; int32_t entry; cs_err ret; # if defined(IR_TARGET_X86) || defined(IR_TARGET_X64) # ifdef IR_TARGET_X64 ret = cs_open(CS_ARCH_X86, CS_MODE_64, &cs); if (ret != CS_ERR_OK) { fprintf(stderr, "cs_open(CS_ARCH_X86, CS_MODE_64, ...) failed; [%d] %s\n", ret, cs_strerror(ret)); return 0; } # else ret = cs_open(CS_ARCH_X86, CS_MODE_32, &cs); if (ret != CS_ERR_OK) { fprintf(stderr, "cs_open(CS_ARCH_X86, CS_MODE_32, ...) failed; [%d] %s\n", ret, cs_strerror(ret)); return 0; } # endif cs_option(cs, CS_OPT_DETAIL, CS_OPT_ON); # if IR_DISASM_INTEL_SYNTAX cs_option(cs, CS_OPT_SYNTAX, CS_OPT_SYNTAX_INTEL); # else cs_option(cs, CS_OPT_SYNTAX, CS_OPT_SYNTAX_ATT); # endif # elif defined(IR_TARGET_AARCH64) ret = cs_open(CS_ARCH_ARM64, CS_MODE_ARM, &cs); if (ret != CS_ERR_OK) { fprintf(stderr, "cs_open(CS_ARCH_ARM64, CS_MODE_ARM, ...) failed; [%d] %s\n", ret, cs_strerror(ret)); return 0; } cs_option(cs, CS_OPT_DETAIL, CS_OPT_ON); cs_option(cs, CS_OPT_SYNTAX, CS_OPT_SYNTAX_ATT); # endif if (name) { fprintf(f, "%s:\n", name); } ir_hashtab_init(&labels, 32); if (ctx) { if (ctx->entries_count) { int i = ctx->entries_count; do { ir_insn *insn = &ctx->ir_base[ctx->entries[--i]]; ir_hashtab_add(&labels, insn->op3, insn->op2); } while (i != 0); } rodata_offset = ctx->rodata_offset; if (rodata_offset) { if (size > rodata_offset) { size = rodata_offset; } } jmp_table_offset = ctx->jmp_table_offset; if (jmp_table_offset) { uint32_t n; uintptr_t *p; IR_ASSERT(orig_size - jmp_table_offset <= 0xffffffff); n = (uint32_t)(orig_size - jmp_table_offset); if (size > jmp_table_offset) { size = jmp_table_offset; } while (n > 0 && IR_ALIGNED_SIZE(n, sizeof(void*)) != n) { jmp_table_offset++; n--; } IR_ASSERT(n > 0 && n % sizeof(void*) == 0 && jmp_table_offset % sizeof(void*) == 0); p = (uintptr_t*)((char*)start + jmp_table_offset); while (n > 0) { if (*p) { if ((uintptr_t)*p >= (uintptr_t)start && (uintptr_t)*p < (uintptr_t)orig_end) { ir_hashtab_add(&labels, (uint32_t)((uintptr_t)*p - (uintptr_t)start), -1); } } p++; n -= sizeof(void*); } } } end = (void *)((char *)start + size); # ifdef HAVE_CAPSTONE_ITER cs_code = start; cs_size = (uint8_t*)end - (uint8_t*)start; cs_addr = (uint64_t)(uintptr_t)cs_code; insn = cs_malloc(cs); while (cs_disasm_iter(cs, &cs_code, &cs_size, &cs_addr, insn)) { if ((addr = ir_disasm_branch_target(cs, insn)) # else count = cs_disasm(cs, start, (uint8_t*)end - (uint8_t*)start, (uintptr_t)start, 0, &insn); for (i = 0; i < count; i++) { if ((addr = ir_disasm_branch_target(cs, &(insn[i]))) # endif && (addr >= (uint64_t)(uintptr_t)start && addr < (uint64_t)(uintptr_t)end)) { ir_hashtab_add(&labels, (uint32_t)((uintptr_t)addr - (uintptr_t)start), -1); # ifdef HAVE_CAPSTONE_ITER } else if ((addr = ir_disasm_rodata_reference(cs, insn))) { # else } else if ((addr = ir_disasm_rodata_reference(cs, &(insn[i])))) { # endif if (addr >= (uint64_t)(uintptr_t)end && addr < (uint64_t)(uintptr_t)orig_end) { ir_hashtab_add(&labels, (uint32_t)((uintptr_t)addr - (uintptr_t)start), -1); } } } ir_hashtab_key_sort(&labels); /* renumber labels */ l = 0; n = labels.count; b = labels.data; while (n > 0) { if (b->val < 0) { b->val = --l; } b++; n--; } # ifdef HAVE_CAPSTONE_ITER cs_code = start; cs_size = (uint8_t*)end - (uint8_t*)start; cs_addr = (uint64_t)(uintptr_t)cs_code; while (cs_disasm_iter(cs, &cs_code, &cs_size, &cs_addr, insn)) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)insn->address - (uintptr_t)start)); # else for (i = 0; i < count; i++) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)insn->address - (uintptr_t)start)); # endif if (entry != (ir_ref)IR_INVALID_VAL) { if (entry >= 0) { fprintf(f, ".ENTRY_%d:\n", entry); } else { fprintf(f, ".L%d:\n", -entry); } } # ifdef HAVE_CAPSTONE_ITER if (asm_addr) { fprintf(f, " %" PRIx64 ":", insn->address); } p = insn->op_str; #if defined(IR_TARGET_X64) && (CS_API_MAJOR < 5) /* Fix capstone MOVD/MOVQ disassemble mismatch */ if (insn->id == X86_INS_MOVQ && strcmp(insn->mnemonic, "movd") == 0) { insn->mnemonic[3] = 'q'; } #endif if (strlen(p) == 0) { fprintf(f, "\t%s\n", insn->mnemonic); continue; } else { fprintf(f, "\t%s ", insn->mnemonic); } # else if (asm_addr) { fprintf(f, " %" PRIx64 ":", insn[i].address); } p = insn[i].op_str; if (strlen(p) == 0) { fprintf(f, "\t%s\n", insn[i].mnemonic); continue; } else { fprintf(f, "\t%s ", insn[i].mnemonic); } # endif /* Try to replace the target addresses with a symbols */ #if defined(IR_TARGET_X64) # ifdef HAVE_CAPSTONE_ITER if ((addr = ir_disasm_rodata_reference(cs, insn))) { # else if ((addr = ir_disasm_rodata_reference(cs, &(insn[i])))) { # endif if (addr >= (uint64_t)(uintptr_t)end && addr < (uint64_t)(uintptr_t)orig_end) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)addr - (uintptr_t)start)); if (entry != (ir_ref)IR_INVALID_VAL) { r = q = strstr(p, "(%rip)"); if (r && r > p) { r--; while (r > p && ((*r >= '0' && *r <= '9') || (*r >= 'a' && *r <= 'f') || (*r >= 'A' && *r <= 'F'))) { r--; } if (r > p && *r == 'x' && *(r - 1) == '0') { r -= 2; } if (r > p) { fwrite(p, 1, r - p, f); } if (entry >= 0) { fprintf(f, ".ENTRY_%d%s\n", entry, q); } else { fprintf(f, ".L%d%s\n", -entry, q); } continue; } } } else if ((sym = ir_disasm_resolver(addr, &offset))) { r = q = strstr(p, "(%rip)"); if (r && r > p) { r--; while (r > p && ((*r >= '0' && *r <= '9') || (*r >= 'a' && *r <= 'f') || (*r >= 'A' && *r <= 'F'))) { r--; } if (r > p && *r == 'x' && *(r - 1) == '0') { r -= 2; } if (r > p) { fwrite(p, 1, r - p, f); } fputs(sym, f); if (offset != 0) { if (offset > 0) { fprintf(f, "+0x%" PRIx64, offset); } else { fprintf(f, "-0x%" PRIx64, -offset); } } fprintf(f, "%s\n", q); continue; } } } #endif #if defined(IR_TARGET_AARCH64) while ((q = strstr(p, "#0x")) != NULL) { r = q + 3; #else while ((q = strstr(p, "0x")) != NULL) { r = q + 2; #endif addr = 0; while (1) { if (*r >= '0' && *r <= '9') { addr = addr * 16 + (*r - '0'); } else if (*r >= 'A' && *r <= 'F') { addr = addr * 16 + (*r - 'A' + 10); } else if (*r >= 'a' && *r <= 'f') { addr = addr * 16 + (*r - 'a' + 10); } else { break; } r++; } if (p != q && *(q-1) == '-') { q--; addr = (uint32_t)(-(int64_t)addr); } if (addr >= (uint64_t)(uintptr_t)start && addr < (uint64_t)(uintptr_t)orig_end) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)addr - (uintptr_t)start)); if (entry != (ir_ref)IR_INVALID_VAL) { fwrite(p, 1, q - p, f); if (entry >= 0) { fprintf(f, ".ENTRY_%d", entry); } else { fprintf(f, ".L%d", -entry); } } else if (r > p) { fwrite(p, 1, r - p, f); } } else if ((sym = ir_disasm_resolver(addr, &offset))) { #if defined(IR_TARGET_X86) || defined(IR_TARGET_X64) if (offset && p != q && *(q-1) == '$') { if (r > p) { fwrite(p, 1, r - p, f); } p = r; continue; } #endif if (q > p) { fwrite(p, 1, q - p, f); } fputs(sym, f); if (offset != 0) { if (offset > 0) { fprintf(f, "+0x%" PRIx64, offset); } else { fprintf(f, "-0x%" PRIx64, -offset); } } } else if (r > p) { fwrite(p, 1, r - p, f); } p = r; } fprintf(f, "%s\n", p); } # ifdef HAVE_CAPSTONE_ITER cs_free(insn, 1); # else cs_free(insn, count); # endif if (rodata_offset || jmp_table_offset) { fprintf(f, ".rodata\n"); } if (rodata_offset) { const unsigned char *p = (unsigned char*)start + rodata_offset; uint32_t n = jmp_table_offset ? (uint32_t)(jmp_table_offset - rodata_offset) : (uint32_t)(orig_size - rodata_offset); uint32_t j; while (n > 0) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)p - (uintptr_t)start)); if (entry != (ir_ref)IR_INVALID_VAL) { if (entry >= 0) { fprintf(f, ".ENTRY_%d:\n", entry); } else { fprintf(f, ".L%d:\n", -entry); } } fprintf(f, "\t.db 0x%02x", (int)*p); p++; n--; j = 15; while (n > 0 && j > 0) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)p - (uintptr_t)start)); if (entry != (ir_ref)IR_INVALID_VAL) { break; } fprintf(f, ", 0x%02x", (int)*p); p++; n--; j--; } fprintf(f, "\n"); } } if (jmp_table_offset) { uintptr_t *p = (uintptr_t*)(unsigned char*)start + jmp_table_offset; uint32_t n = (uint32_t)(orig_size - jmp_table_offset); fprintf(f, ".align %d\n", (int)sizeof(void*)); p = (uintptr_t*)((char*)start + jmp_table_offset); while (n > 0) { entry = ir_hashtab_find(&labels, (uint32_t)((uintptr_t)p - (uintptr_t)start)); if (entry != (ir_ref)IR_INVALID_VAL) { if (entry >= 0) { fprintf(f, ".ENTRY_%d:\n", entry); } else { fprintf(f, ".L%d:\n", -entry); } } if (*p) { if ((uintptr_t)*p >= (uintptr_t)start && (uintptr_t)*p < (uintptr_t)orig_end) { entry = ir_hashtab_find(&labels, (uint32_t)(*p - (uintptr_t)start)); IR_ASSERT(entry != (ir_ref)IR_INVALID_VAL); if (entry >= 0) { if (sizeof(void*) == 8) { fprintf(f, "\t.qword .ENTRY_%d\n", entry); } else { fprintf(f, "\t.dword .ENTRY_%d\n", entry); } } else { if (sizeof(void*) == 8) { fprintf(f, "\t.qword .L%d\n", -entry); } else { fprintf(f, "\t.dword .L%d\n", -entry); } } } else { int64_t offset; const char *name = ir_disasm_find_symbol(*p, &offset); if (name && offset == 0) { if (sizeof(void*) == 8) { fprintf(f, "\t.qword %s\n", name); } else { fprintf(f, "\t.dword %s\n", name); } } else { if (sizeof(void*) == 8) { fprintf(f, "\t.qword 0x%0llx\n", (long long)*p); } else { fprintf(f, "\t.dword 0x%0x\n", (int)*p); } } } } else { if (sizeof(void*) == 8) { fprintf(f, "\t.qword 0\n"); } else { fprintf(f, "\t.dword 0\n"); } } p++; n -= sizeof(void*); } } fprintf(f, "\n"); ir_hashtab_free(&labels); cs_close(&cs); return 1; } #ifndef _WIN32 static void* ir_elf_read_sect(int fd, ir_elf_sectheader *sect) { void *s = ir_mem_malloc(sect->size); if (lseek(fd, sect->ofs, SEEK_SET) < 0) { ir_mem_free(s); return NULL; } if (read(fd, s, sect->size) != (ssize_t)sect->size) { ir_mem_free(s); return NULL; } return s; } static void ir_elf_load_symbols(void) { ir_elf_header hdr; ir_elf_sectheader sect; int i; #if defined(__linux__) int fd = open("/proc/self/exe", O_RDONLY); #elif defined(__NetBSD__) int fd = open("/proc/curproc/exe", O_RDONLY); #elif defined(__FreeBSD__) || defined(__DragonFly__) char path[PATH_MAX]; size_t pathlen = sizeof(path); int mib[4] = {CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1}; if (sysctl(mib, 4, path, &pathlen, NULL, 0) == -1) { return; } int fd = open(path, O_RDONLY); #elif defined(__sun) int fd = open("/proc/self/path/a.out", O_RDONLY); #elif defined(__HAIKU__) char path[PATH_MAX]; if (find_path(B_APP_IMAGE_SYMBOL, B_FIND_PATH_IMAGE_PATH, NULL, path, sizeof(path)) != B_OK) { return; } int fd = open(path, O_RDONLY); #else // To complete eventually for other ELF platforms. // Otherwise APPLE is Mach-O int fd = -1; #endif if (fd >= 0) { if (read(fd, &hdr, sizeof(hdr)) == sizeof(hdr) && hdr.emagic[0] == '\177' && hdr.emagic[1] == 'E' && hdr.emagic[2] == 'L' && hdr.emagic[3] == 'F' && lseek(fd, hdr.shofs, SEEK_SET) >= 0) { for (i = 0; i < hdr.shnum; i++) { if (read(fd, §, sizeof(sect)) == sizeof(sect) && sect.type == ELFSECT_TYPE_SYMTAB) { uint32_t n, count = sect.size / sizeof(ir_elf_symbol); ir_elf_symbol *syms = ir_elf_read_sect(fd, §); char *str_tbl; if (syms) { if (lseek(fd, hdr.shofs + sect.link * sizeof(sect), SEEK_SET) >= 0 && read(fd, §, sizeof(sect)) == sizeof(sect) && (str_tbl = (char*)ir_elf_read_sect(fd, §)) != NULL) { for (n = 0; n < count; n++) { if (syms[n].name && (ELFSYM_TYPE(syms[n].info) == ELFSYM_TYPE_FUNC /*|| ELFSYM_TYPE(syms[n].info) == ELFSYM_TYPE_DATA*/) && (ELFSYM_BIND(syms[n].info) == ELFSYM_BIND_LOCAL /*|| ELFSYM_BIND(syms[n].info) == ELFSYM_BIND_GLOBAL*/)) { ir_disasm_add_symbol(str_tbl + syms[n].name, syms[n].value, syms[n].size); } } ir_mem_free(str_tbl); } ir_mem_free(syms); } if (lseek(fd, hdr.shofs + (i + 1) * sizeof(sect), SEEK_SET) < 0) { break; } } } } close(fd); } } #endif int ir_disasm_init(void) { #ifndef _WIN32 ir_elf_load_symbols(); #endif return 1; } void ir_disasm_free(void) { if (_symbols) { ir_disasm_destroy_symbols(_symbols); _symbols = NULL; } }