/*************************************************************************** archive.c The archive management routines (c) 2000-2007 Benoit Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 1, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ***************************************************************************/ #define __GBX_ARCH_C #include #include #include #include #include #include "gb_common.h" #include "gb_common_swap.h" #include "gb_error.h" #include "gb_alloc.h" #include "gb_arch.h" #ifndef PROJECT_EXEC #define E_ARCH "Bad archive: &1" #endif static bool _swap = FALSE; static const char *_path; static void arch_error(const char *msg) { const char *name = FILE_get_name(_path); if (msg == NULL) THROW(E_ARCH, name, strerror(errno)); else THROW(E_ARCH, name, msg); } static void read_at(ARCH *arch, int pos, void *buf, int len) { memcpy(buf, &arch->addr[pos], len); } static void load_arch(ARCH *arch, const char *path) { int len; int i; int pos; struct stat info; #ifdef OS_64BITS ARCH_SYMBOL_32 *sym; #endif _path = path; arch->fd = open(path, O_RDONLY); if (arch->fd < 0) THROW(E_OPEN, path, strerror(errno)); if (fstat(arch->fd, &info) < 0) THROW(E_OPEN, path, strerror(errno)); arch->length = info.st_size; arch->addr = mmap(NULL, arch->length, PROT_READ, MAP_PRIVATE, arch->fd, 0); if (arch->addr == MAP_FAILED) THROW(E_OPEN, path, strerror(errno)); //fprintf(stderr, "mmap: %s\n", path); /* Header */ read_at(arch, 32, &arch->header, sizeof(ARCH_HEADER)); _swap = arch->header.magic != ARCH_MAGIC; if (_swap) { fprintf(stderr, "gbx: Swapping archive\n"); SWAP_ints((int *)&arch->header, 6); } //if (arch->header.version != ARCH_VERSION) // arch_error("bad version"); /* Strings */ len = arch->header.pos_table - arch->header.pos_string; if (len <= 0) arch_error("corrupted header"); ALLOC(&arch->string, len, "ARCH_init"); read_at(arch, arch->header.pos_string, arch->string, len); /* File names table */ len = arch->header.n_symbol * sizeof(ARCH_SYMBOL); if (len <= 0) arch_error("corrupted header"); ALLOC(&arch->symbol, len, "ARCHIVE_load"); #ifdef OS_64BITS sym = (ARCH_SYMBOL_32 *)&arch->addr[arch->header.pos_table]; for (i = 0; i < arch->header.n_symbol; i++, sym++) { arch->symbol[i].sym.sort = sym->sym.sort; arch->symbol[i].sym.len = sym->sym.len; arch->symbol[i].sym.name = (char *)(intptr_t)sym->sym.name; arch->symbol[i].pos = sym->pos; arch->symbol[i].len = sym->len; } #else read_at(arch, arch->header.pos_table, arch->symbol, len); #endif /* String relocation */ pos = 0; if (_swap) { for (i = 0; i < arch->header.n_symbol; i++) { SWAP_short((short *)&arch->symbol[i].sym.sort); SWAP_short((short *)&arch->symbol[i].sym.len); SWAP_int(&arch->symbol[i].pos); SWAP_int(&arch->symbol[i].len); arch->symbol[i].sym.name = &arch->string[pos]; pos += arch->symbol[i].sym.len; } } else { for (i = 0; i < arch->header.n_symbol; i++) { arch->symbol[i].sym.name = &arch->string[pos]; pos += arch->symbol[i].sym.len; } } } ARCH *ARCH_open(const char *path) { ARCH *arch; ALLOC_ZERO(&arch, sizeof(ARCH), "ARCH_open"); load_arch(arch, path); return arch; } void ARCH_close(ARCH *arch) { if (arch->fd) { FREE(&arch->string, "ARCH_close"); FREE(&arch->symbol, "ARCH_close"); munmap(arch->addr, arch->length); close(arch->fd); } FREE(&arch, "ARCH_close"); } void ARCH_get_absolute_path(const char *path, int len_path, char *abs_path, int *len_abs_path) { const char *p, *lp; char *ap; char c; int rest; p = path; lp = p; ap = abs_path; *len_abs_path = 0; for(;;) { rest = &path[len_path] - p; if (rest <= 0) break; c = *p; if (p == lp && c == '.') { if (rest == 1 || p[1] == '/') { if (rest == 1) p++; else p += 2; lp = p; continue; } else if (rest >= 2 && p[1] == '.' && (rest == 2 || p[2] == '/')) { if (ap > abs_path) { ap--; // Jumps the last '/' while (ap > abs_path) { ap--; if (*ap == '/') { ap++; break; } } } p += 3; lp = p; continue; } } *ap++ = c; p++; if (c == '/') lp = p; } *len_abs_path = ap - abs_path; *ap = 0; } bool ARCH_find(ARCH *arch, const char *path, int len_path, ARCH_FIND *find) { int ind; ARCH_SYMBOL *sym; char tpath[MAX_PATH]; int len_tpath; if (len_path <= 0) len_path = strlen(path); ARCH_get_absolute_path(path, len_path, tpath, &len_tpath); if (len_tpath == 0) { find->sym = NULL; find->pos = -1; find->len = 0; return FALSE; } //if (arch->header.version == 2) //{ char *p; char tpath2[MAX_PATH]; for(;;) { p = index(tpath + 1, '/'); if (!p) break; SYMBOL_find(arch->symbol, arch->header.n_symbol, sizeof(ARCH_SYMBOL), TF_NORMAL, tpath, p - tpath, 0, &ind); if (ind == NO_SYMBOL) break; sym = &arch->symbol[ind]; len_tpath = snprintf(tpath2, sizeof(tpath2),"/%d:%s", ind, p + 1); strcpy(tpath, tpath2); } SYMBOL_find(arch->symbol, arch->header.n_symbol, sizeof(ARCH_SYMBOL), TF_NORMAL, tpath, len_tpath, 0, &ind); //} //else // SYMBOL_find_old(arch->symbol, arch->header.n_symbol, sizeof(ARCH_SYMBOL), TF_NORMAL, tpath, len_tpath, 0, &ind); if (ind == NO_SYMBOL) return TRUE; sym = &arch->symbol[ind]; find->sym = sym; find->pos = sym->pos; find->len = sym->len; find->index = ind; return FALSE; } bool ARCH_read(ARCH *arch, int pos, void *buffer, int len) { /*if (lseek(arch->fd, pos, SEEK_SET) < 0) return TRUE; if (read(arch->fd, buffer, len) != len) return TRUE;*/ memcpy(buffer, &arch->addr[pos], len); return FALSE; }