#include #include #include #include #include #include #include #include #define TRACE_APP_NAME "ld.so" #define TRACE_LD(...) do { if (__trace_ld) { TRACE(__VA_ARGS__); } } while (0) static int __trace_ld = 0; #include "../kernel/include/elf.h" #include "../userspace/lib/trace.h" #include "../userspace/lib/list.c" #include "../userspace/lib/hashmap.c" typedef int (*entry_point_t)(int, char *[], char**); extern char end[]; static hashmap_t * dumb_symbol_table; static hashmap_t * glob_dat; static hashmap_t * objects_map; typedef struct elf_object { FILE * file; /* Full copy of the header. */ Elf32_Header header; /* Pointers to loaded stuff */ char * string_table; char * dyn_string_table; size_t dyn_string_table_size; Elf32_Sym * dyn_symbol_table; size_t dyn_symbol_table_size; Elf32_Dyn * dynamic; Elf32_Word * dyn_hash; void (*init)(void); void (**ctors)(void); size_t ctors_size; uintptr_t base; list_t * dependencies; int loaded; } elf_t; static elf_t * _main_obj = NULL; static char * find_lib(const char * file) { if (strchr(file, '/')) return strdup(file); char * path = getenv("LD_LIBRARY_PATH"); if (!path) { path = "/usr/lib:/lib"; } char * xpath = strdup(path); int found = 0; char * p, * tokens[10], * last; int i = 0; for ((p = strtok_r(xpath, ":", &last)); p; p = strtok_r(NULL, ":", &last)) { int r; struct stat stat_buf; char * exe = malloc(strlen(p) + strlen(file) + 2); strcpy(exe, p); strcat(exe, "/"); strcat(exe, file); r = stat(exe, &stat_buf); if (r != 0) { free(exe); continue; } return exe; } free(xpath); return NULL; } static elf_t * open_object(const char * path) { if (!path) { _main_obj->loaded = 1; return _main_obj; } if (hashmap_has(objects_map, (void*)path)) { elf_t * object = hashmap_get(objects_map, (void*)path); object->loaded = 1; return object; } char * file = find_lib(path); if (!file) return NULL; FILE * f = fopen(file, "r"); free(file); if (!f) { return NULL; } elf_t * object = calloc(1, sizeof(elf_t)); hashmap_set(objects_map, (void*)path, object); if (!object) { return NULL; } object->file = f; size_t r = fread(&object->header, sizeof(Elf32_Header), 1, object->file); if (!r) { free(object); return NULL; } if (object->header.e_ident[0] != ELFMAG0 || object->header.e_ident[1] != ELFMAG1 || object->header.e_ident[2] != ELFMAG2 || object->header.e_ident[3] != ELFMAG3) { free(object); return NULL; } object->dependencies = list_create(); return object; } static size_t object_calculate_size(elf_t * object) { uintptr_t base_addr = 0xFFFFFFFF; uintptr_t end_addr = 0x0; { size_t headers = 0; while (headers < object->header.e_phnum) { Elf32_Phdr phdr; fseek(object->file, object->header.e_phoff + object->header.e_phentsize * headers, SEEK_SET); fread(&phdr, object->header.e_phentsize, 1, object->file); switch (phdr.p_type) { case PT_LOAD: { if (phdr.p_vaddr < base_addr) { base_addr = phdr.p_vaddr; } if (phdr.p_memsz + phdr.p_vaddr > end_addr) { end_addr = phdr.p_memsz + phdr.p_vaddr; } } break; default: break; } headers++; } } if (base_addr == 0xFFFFFFFF) return 0; return end_addr - base_addr; } static uintptr_t object_load(elf_t * object, uintptr_t base) { uintptr_t end_addr = 0x0; object->base = base; /* Load object */ { size_t headers = 0; while (headers < object->header.e_phnum) { Elf32_Phdr phdr; fseek(object->file, object->header.e_phoff + object->header.e_phentsize * headers, SEEK_SET); fread(&phdr, object->header.e_phentsize, 1, object->file); switch (phdr.p_type) { case PT_LOAD: { char * args[] = {(char *)(base + phdr.p_vaddr), (char *)phdr.p_memsz}; syscall_system_function(10, args); fseek(object->file, phdr.p_offset, SEEK_SET); fread((void *)(base + phdr.p_vaddr), phdr.p_filesz, 1, object->file); size_t r = phdr.p_filesz; while (r < phdr.p_memsz) { *(char *)(phdr.p_vaddr + base + r) = 0; r++; } if (end_addr < phdr.p_vaddr + base + phdr.p_memsz) { end_addr = phdr.p_vaddr + base + phdr.p_memsz; } } break; case PT_DYNAMIC: { object->dynamic = (Elf32_Dyn *)(base + phdr.p_vaddr); } break; default: break; } headers++; } } return end_addr; } static int object_postload(elf_t * object) { /* Load section string table */ { Elf32_Shdr shdr; fseek(object->file, object->header.e_shoff + object->header.e_shentsize * object->header.e_shstrndx, SEEK_SET); fread(&shdr, object->header.e_shentsize, 1, object->file); object->string_table = malloc(shdr.sh_size); fseek(object->file, shdr.sh_offset, SEEK_SET); fread(object->string_table, shdr.sh_size, 1, object->file); } if (object->dynamic) { Elf32_Dyn * table; /* Locate string table */ table = object->dynamic; while (table->d_tag) { switch (table->d_tag) { case 4: object->dyn_hash = (Elf32_Word *)(object->base + table->d_un.d_ptr); object->dyn_symbol_table_size = object->dyn_hash[1]; break; case 5: /* Dynamic String Table */ object->dyn_string_table = (char *)(object->base + table->d_un.d_ptr); break; case 6: /* Dynamic Symbol Table */ object->dyn_symbol_table = (Elf32_Sym *)(object->base + table->d_un.d_ptr); break; case 10: /* Size of string table */ object->dyn_string_table_size = table->d_un.d_val; break; case 12: object->init = (void (*)(void))(table->d_un.d_ptr + object->base); break; } table++; } table = object->dynamic; while (table->d_tag) { switch (table->d_tag) { case 1: list_insert(object->dependencies, object->dyn_string_table + table->d_un.d_val); break; } table++; } } size_t i = 0; for (uintptr_t x = 0; x < object->header.e_shentsize * object->header.e_shnum; x += object->header.e_shentsize) { Elf32_Shdr shdr; fseek(object->file, object->header.e_shoff + x, SEEK_SET); fread(&shdr, object->header.e_shentsize, 1, object->file); if (!strcmp((char *)((uintptr_t)object->string_table + shdr.sh_name), ".ctors")) { object->ctors = (void *)(shdr.sh_addr + object->base); object->ctors_size = shdr.sh_size; } } return 0; } static int need_symbol_for_type(unsigned char type) { switch(type) { case 1: case 2: case 5: case 6: case 7: return 1; default: return 0; } } static int object_relocate(elf_t * object) { if (object->dyn_symbol_table) { Elf32_Sym * table = object->dyn_symbol_table; size_t i = 0; while (i < object->dyn_symbol_table_size) { char * symname = (char *)((uintptr_t)object->dyn_string_table + table->st_name); if (!hashmap_has(dumb_symbol_table, symname)) { if (table->st_shndx) { hashmap_set(dumb_symbol_table, symname, (void*)(table->st_value + object->base)); } } else { if (table->st_shndx) { //table->st_value = (uintptr_t)hashmap_get(dumb_symbol_table, symname); } } table++; i++; } } size_t i = 0; for (uintptr_t x = 0; x < object->header.e_shentsize * object->header.e_shnum; x += object->header.e_shentsize) { Elf32_Shdr shdr; fseek(object->file, object->header.e_shoff + x, SEEK_SET); fread(&shdr, object->header.e_shentsize, 1, object->file); if (shdr.sh_type == 9) { Elf32_Rel * table = (Elf32_Rel *)(shdr.sh_addr + object->base); while ((uintptr_t)table - ((uintptr_t)shdr.sh_addr + object->base) < shdr.sh_size) { unsigned int symbol = ELF32_R_SYM(table->r_info); unsigned char type = ELF32_R_TYPE(table->r_info); Elf32_Sym * sym = &object->dyn_symbol_table[symbol]; char * symname = NULL; uintptr_t x = sym->st_value + object->base; if (need_symbol_for_type(type) || (type == 5)) { symname = (char *)((uintptr_t)object->dyn_string_table + sym->st_name); } if ((sym->st_shndx == 0) && need_symbol_for_type(type) || (type == 5)) { if (symname && hashmap_has(dumb_symbol_table, symname)) { x = (uintptr_t)hashmap_get(dumb_symbol_table, symname); } else { fprintf(stderr, "Symbol not found: %s\n", symname); x = 0x0; } } /* Relocations, symbol lookups, etc. */ switch (type) { case 6: /* GLOB_DAT */ if (symname && hashmap_has(glob_dat, symname)) { x = (uintptr_t)hashmap_get(glob_dat, symname); } case 7: /* JUMP_SLOT */ memcpy((void *)(table->r_offset + object->base), &x, sizeof(uintptr_t)); break; case 1: /* 32 */ x += *((ssize_t *)(table->r_offset + object->base)); memcpy((void *)(table->r_offset + object->base), &x, sizeof(uintptr_t)); break; case 2: /* PC32 */ x += *((ssize_t *)(table->r_offset + object->base)); x -= (table->r_offset + object->base); memcpy((void *)(table->r_offset + object->base), &x, sizeof(uintptr_t)); break; case 8: /* RELATIVE */ x = object->base; x += *((ssize_t *)(table->r_offset + object->base)); memcpy((void *)(table->r_offset + object->base), &x, sizeof(uintptr_t)); break; case 5: /* COPY */ memcpy((void *)(table->r_offset + object->base), (void *)x, sym->st_size); break; default: TRACE_LD("Unknown relocation type: %d", type); } table++; } } } return 0; } static void object_find_copy_relocations(elf_t * object) { size_t i = 0; for (uintptr_t x = 0; x < object->header.e_shentsize * object->header.e_shnum; x += object->header.e_shentsize) { Elf32_Shdr shdr; fseek(object->file, object->header.e_shoff + x, SEEK_SET); fread(&shdr, object->header.e_shentsize, 1, object->file); if (shdr.sh_type == 9) { Elf32_Rel * table = (Elf32_Rel *)(shdr.sh_addr + object->base); while ((uintptr_t)table - ((uintptr_t)shdr.sh_addr + object->base) < shdr.sh_size) { unsigned char type = ELF32_R_TYPE(table->r_info); if (type == 5) { unsigned int symbol = ELF32_R_SYM(table->r_info); Elf32_Sym * sym = &object->dyn_symbol_table[symbol]; char * symname = (char *)((uintptr_t)object->dyn_string_table + sym->st_name); hashmap_set(glob_dat, symname, (void *)table->r_offset); } table++; } } } } static char * last_error = NULL; static void * object_find_symbol(elf_t * object, const char * symbol_name) { if (!object->dyn_symbol_table) { last_error = "lib does not have a symbol table"; return NULL; } Elf32_Sym * table = object->dyn_symbol_table; size_t i = 0; while (i < object->dyn_symbol_table_size) { if (!strcmp(symbol_name, (char *)((uintptr_t)object->dyn_string_table + table->st_name))) { return (void *)(table->st_value + object->base); } table++; i++; } last_error = "symbol not found in library"; return NULL; } static void * do_actual_load(const char * filename, elf_t * lib, int flags) { (void)flags; if (!lib) { last_error = "could not open library (not found, or other failure)"; return NULL; } size_t lib_size = object_calculate_size(lib); if (lib_size < 4096) { lib_size = 4096; } uintptr_t load_addr = (uintptr_t)malloc(lib_size); object_load(lib, load_addr); object_postload(lib); node_t * item; while (item = list_pop(lib->dependencies)) { elf_t * lib = open_object(item->value); if (!lib) { free((void *)load_addr); last_error = "Failed to load a dependency."; return NULL; } if (!lib->loaded) { do_actual_load(item->value, lib, 0); } } TRACE_LD("Relocating %s", filename); object_relocate(lib); fclose(lib->file); if (lib->ctors) { for (size_t i = 0; i < lib->ctors_size; i += sizeof(uintptr_t)) { TRACE_LD(" 0x%x()", lib->ctors[i]); lib->ctors[i](); } } if (lib->init) { lib->init(); } return (void *)lib; } static void * dlopen_ld(const char * filename, int flags) { TRACE_LD("dlopen(%s,0x%x)", filename, flags); elf_t * lib = open_object(filename); if (lib->loaded) { return lib; } return do_actual_load(filename, lib, flags); } static int dlclose_ld(elf_t * lib) { /* TODO close dependencies? Make sure nothing references this. */ free((void *)lib->base); return 0; } static char * dlerror_ld(void) { /* TODO actually do this */ char * this_error = last_error; last_error = NULL; return this_error; } typedef struct { char * name; void * symbol; } ld_exports_t; ld_exports_t ld_builtin_exports[] = { {"dlopen", dlopen_ld}, {"dlsym", object_find_symbol}, {"dlclose", dlclose_ld}, {"dlerror", dlerror_ld}, {NULL, NULL}, }; int main(int argc, char * argv[]) { char * file = argv[1]; size_t arg_offset = 1; if (!strcmp(argv[1], "-e")) { arg_offset = 3; file = argv[2]; } char * trace_ld_env = getenv("LD_DEBUG"); if (trace_ld_env && (!strcmp(trace_ld_env,"1") || !strcmp(trace_ld_env,"yes"))) { __trace_ld = 1; } dumb_symbol_table = hashmap_create(10); glob_dat = hashmap_create(10); objects_map = hashmap_create(10); ld_exports_t * ex = ld_builtin_exports; while (ex->name) { hashmap_set(dumb_symbol_table, ex->name, ex->symbol); ex++; } elf_t * main_obj = open_object(file); _main_obj = main_obj; if (!main_obj) { fprintf(stderr, "%s: error: failed to open object '%s'.\n", argv[0], file); return 1; } size_t main_size = object_calculate_size(main_obj); uintptr_t end_addr = object_load(main_obj, 0x0); object_postload(main_obj); object_find_copy_relocations(main_obj); hashmap_t * libs = hashmap_create(10); list_t * ctor_libs = list_create(); list_t * init_libs = list_create(); TRACE_LD("Loading dependencies."); node_t * item; while (item = list_pop(main_obj->dependencies)) { while (end_addr & 0xFFF) { end_addr++; } char * lib_name = item->value; if (!strcmp(lib_name, "libg.so")) goto nope; elf_t * lib = open_object(lib_name); if (!lib) { fprintf(stderr, "Failed to load dependency '%s'.\n", lib_name); return 1; } hashmap_set(libs, lib_name, lib); TRACE_LD("Loading %s at 0x%x", lib_name, end_addr); end_addr = object_load(lib, end_addr); object_postload(lib); TRACE_LD("Relocating %s", lib_name); object_relocate(lib); fclose(lib->file); /* Execute constructors */ if (lib->ctors) { list_insert(ctor_libs, lib); } if (lib->init) { list_insert(init_libs, lib); } nope: free(item); } TRACE_LD("Relocating main object"); object_relocate(main_obj); TRACE_LD("Placing heap at end"); while (end_addr & 0xFFF) { end_addr++; } char * ld_no_ctors = getenv("LD_DISABLE_CTORS"); if (ld_no_ctors && (!strcmp(ld_no_ctors,"1") || !strcmp(ld_no_ctors,"yes"))) { TRACE_LD("skipping ctors because LD_DISABLE_CTORS was set"); } else { foreach(node, ctor_libs) { elf_t * lib = node->value; if (lib->ctors) { TRACE_LD("Executing ctors..."); for (size_t i = 0; i < lib->ctors_size; i += sizeof(uintptr_t)) { TRACE_LD(" 0x%x()", lib->ctors[i]); lib->ctors[i](); } } } } foreach(node, init_libs) { elf_t * lib = node->value; lib->init(); } if (main_obj->init) { main_obj->init(); } { char * args[] = {(char*)end_addr}; syscall_system_function(9, args); } TRACE_LD("Jumping to entry point"); entry_point_t entry = (entry_point_t)main_obj->header.e_entry; entry(argc-arg_offset,argv+arg_offset,environ); return 0; }