/* jartool.c - main functions for fastjar utility Copyright (C) 1999, 2000 Bryan Burns 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 2 of the License, 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: jartool.c,v 1.2 2000/12/13 18:11:57 tromey Exp $ $Log: jartool.c,v $ Revision 1.2 2000/12/13 18:11:57 tromey * jartool.c (extract_jar): Use strchr, not index. Revision 1.1 2000/12/09 03:08:23 apbianco 2000-12-08 Alexandre Petit-Bianco * fastjar: Imported. Revision 1.5 2000/08/24 15:01:27 cory Made certain that fastjar opened the jar file before trying to update it with the -u option. Revision 1.4 2000/08/24 13:39:21 cory Changed +'s to |'s in jartool.c to insure there was no confusion with sign when byte swapping. Better safe than sorry. Revision 1.3 2000/08/23 19:42:17 cory Added support for more Unix platforms. The following code has been hacked to work on AIX, Solaris, True 64, and HP-UX. Added bigendian check. Probably works on most big and little endian platforms now. Revision 1.2 1999/12/06 07:38:28 toast fixed recursive archiving bug Revision 1.1.1.1 1999/12/06 03:09:34 toast initial checkin.. Revision 1.22 1999/10/12 19:45:13 burnsbr adding patch to fix compat problem Revision 1.21 1999/05/10 09:15:49 burnsbr fixed manifest file version info Revision 1.20 1999/05/10 08:53:16 burnsbr *** empty log message *** Revision 1.19 1999/05/10 08:30:39 burnsbr added extract / listing code Revision 1.18 1999/04/28 04:24:29 burnsbr updated version Revision 1.17 1999/04/28 04:21:23 burnsbr added support for -C dir-changing flag.. Updated total compression display Revision 1.16 1999/04/27 10:28:22 burnsbr updated version string Revision 1.15 1999/04/27 10:04:06 burnsbr configure support Revision 1.14 1999/04/27 08:56:14 burnsbr added -V flag, better error messages Revision 1.13 1999/04/26 02:35:21 burnsbr changed all sorts of stuff.. compression now works 100% Revision 1.12 1999/04/23 12:00:45 burnsbr 90% done with compression code Revision 1.11 1999/04/22 04:12:57 burnsbr finished first round of Manifest file support.. might need to do more, digest etc.. Revision 1.10 1999/04/22 02:35:23 burnsbr added more manifest support, about 75% done now. Replaced all the redundant shifts and bit-logic with a macro or two, making the code easier to read. Revision 1.9 1999/04/21 09:55:16 burnsbr pulled out printfs Revision 1.8 1999/04/21 02:58:01 burnsbr started manifest code Revision 1.7 1999/04/20 23:15:28 burnsbr added patch sent by John Bley Revision 1.6 1999/04/20 08:56:02 burnsbr added GPL comment Revision 1.5 1999/04/20 08:16:09 burnsbr fixed verbose flag, did some optimization Revision 1.4 1999/04/20 05:09:59 burnsbr added rcsid variable Revision 1.3 1999/04/20 05:08:54 burnsbr fixed Log statement */ #include "config.h" #include #ifdef STDC_HEADERS #include #endif #ifdef HAVE_UNISTD_H #include #endif #include #include #include #ifdef HAVE_SYS_PARAM_H #include #else #define MAXPATHLEN 1024 #endif #ifdef HAVE_DIRENT_H #include #endif #ifdef HAVE_FCNTL_H #include #endif #include #include #ifdef TM_IN_SYS_TIME #include #else #include #endif #include "jartool.h" #include "zipfile.h" #include "dostime.h" #include "pushback.h" #include "compress.h" #ifdef WORDS_BIGENDIAN #define L2BI(l) ((l & 0xff000000) >> 24) | \ ((l & 0x00ff0000) >> 8) | \ ((l & 0x0000ff00) << 8) | \ ((l & 0x000000ff) << 24); #define L2BS(l) ((l & 0xff00) >> 8) | ((l & 0x00ff) << 8); #endif static char version_string[] = VERSION; extern int errno; void usage(const char*); void add_entry(struct zipentry *); void init_headers(void); int consume(pb_file *, int); int list_jar(int, char**, int); int extract_jar(int, char**, int); int add_file_to_jar(int, int, const char*, struct stat*); int add_to_jar(int, const char*, const char*); int create_central_header(int); int make_manifest(int, const char*); static void init_args(char **, int); static char *get_next_arg (void); /* global variables */ ub1 file_header[30]; ub1 data_descriptor[16]; int do_compress; int seekable; int verbose; char jarfile[256]; /* If non zero, then don't recurse in directory. Instead, add the directory entry and relie on an explicit list of files to populate the archive. This option isn't supported by the original jar tool. */ int use_explicit_list_only; /* If non zero, then read the entry names from stdin. This option isn't supported by the original jar tool. */ int read_names_from_stdin; zipentry *ziplist; /* linked list of entries */ zipentry *ziptail; /* tail of the linked list */ int number_of_entries; /* number of entries in the linked list */ int main(int argc, char **argv){ char mfile[256]; int action = ACTION_NONE; int manifest = TRUE; int manifest_file = FALSE; int file = FALSE; int file_first = FALSE; int i, j; int jarfd = -1; do_compress = TRUE; verbose = FALSE; ziplist = NULL; number_of_entries = 0; if(argc < 2) usage(argv[0]); j = strlen(argv[1]); for(i = 0; i < j; i++){ switch(argv[1][i]){ case 'c': action = ACTION_CREATE; break; case 't': action = ACTION_LIST; break; case 'x': action = ACTION_EXTRACT; break; case 'u': action = ACTION_UPDATE; break; case 'v': verbose = TRUE; break; case 'V': printf("%s\n", version_string); exit(0); case 'f': file = TRUE; if(!manifest_file) file_first = TRUE; else file_first = FALSE; break; case 'm': manifest_file = TRUE; break; case '0': do_compress = FALSE; break; case 'M': manifest = FALSE; break; case '-': break; /* The following options aren't supported by the original jar tool. */ case 'E': use_explicit_list_only = TRUE; break; case '@': read_names_from_stdin = TRUE; break; default: fprintf(stderr, "Illegal option: %c\n", argv[1][i]); usage(argv[0]); } } if(action == ACTION_NONE){ fprintf(stderr, "One of options -{ctxu} must be specified.\n"); usage(argv[0]); } /* Verify unsupported combinations and warn of the use of non standard features */ if(verbose && use_explicit_list_only) fprintf (stderr, "Warning: using non standard '-E' option\n"); if(verbose && read_names_from_stdin) fprintf (stderr, "Warning: using non standard '-@' option\n"); if(read_names_from_stdin && (action != ACTION_CREATE && action != ACTION_UPDATE)){ fprintf(stderr, "Option '-@' is supported only with '-c' or '-u'.\n"); usage(argv[0]); } i = 2; /* get the jarfile and manifest file (if any) */ if(file && file_first){ if(i >= argc) usage(argv[0]); strncpy(jarfile, argv[i++], 256); } if(manifest_file){ if(i >= argc) usage(argv[0]); strncpy(mfile, argv[i++], 256); } if(file && !file_first){ if(i >= argc) usage(argv[0]); strncpy(jarfile, argv[i++], 256); } /* create the jarfile */ if(action == ACTION_CREATE){ if(file){ jarfd = creat(jarfile, S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH); if(jarfd < 0){ fprintf(stderr, "Error opening %s for writing!\n", jarfile); perror(jarfile); exit(1); } /* We assume that the file is seekable */ seekable = TRUE; } else { jarfd = STDOUT_FILENO; /* jarfd is stdout otherwise */ /* standard out is not seekable */ seekable = FALSE; /* don't want our output to be part of the jar file.. figured this one out the hard way.. =P */ verbose = FALSE; } } else if(action == ACTION_LIST || action == ACTION_EXTRACT){ if(file){ jarfd = open(jarfile, O_RDONLY); if(jarfd < 0){ fprintf(stderr, "Error opening %s for reading!\n", jarfile); perror(jarfile); exit(1); } seekable = TRUE; } else { jarfd = STDIN_FILENO; /* jarfd is standard in */ /* we assume that the stream isn't seekable for safety */ seekable = FALSE; } } if(action == ACTION_CREATE || action == ACTION_UPDATE){ const char *arg; init_headers(); if((action == ACTION_UPDATE) && file) { if((jarfd = open(jarfile, O_RDWR)) < 0) { fprintf(stderr, "Error opening %s for reading!\n", jarfile); perror(jarfile); exit(1); } } if(do_compress) init_compression(); /* Add the META-INF/ directory and the manifest */ if(manifest && manifest_file) make_manifest(jarfd, mfile); else if(manifest) make_manifest(jarfd, NULL); init_args (argv, i); /* now we add the files to the archive */ while ((arg = get_next_arg ())){ if(!strcmp(arg, "-C")){ const char *dir_to_change = get_next_arg (); const char *file_to_add = get_next_arg (); if(!dir_to_change || !file_to_add || add_to_jar(jarfd, dir_to_change, file_to_add)){ printf("Error adding %s to jar archive!\n", arg); exit(1); } } else { if(add_to_jar(jarfd, NULL, arg)){ printf("Error adding %s to jar archive!\n", arg); exit(1); } } } /* de-initialize the compression DS */ if(do_compress) end_compression(); create_central_header(jarfd); if (close(jarfd) != 0) { fprintf(stderr, "Error closing jar archive!\n"); } } else if(action == ACTION_LIST){ list_jar(jarfd, &argv[i], (argc - i)); } else if(action == ACTION_EXTRACT){ extract_jar(jarfd, &argv[i], (argc - i)); } exit(0); } static int args_current_g; static char **args_g; static void init_args(args, current) char **args; int current; { if(!read_names_from_stdin) { args_g = args; args_current_g = current; } } static char * get_next_arg () { static int reached_end = 0; if (reached_end) return NULL; if (args_g) { if (!args_g [args_current_g]) { reached_end = 1; return NULL; } return args_g [args_current_g++]; } else { /* Read the name from stdin. Delimiters are '\n' and '\r'. Reading EOF indicates that we don't have anymore file names characters to read. */ char s [MAXPATHLEN]; int pos = 0; /* Get rid of '\n' and '\r' first. */ while (1) { int c = getc (stdin); if (c == '\n' || c == '\r') continue; else { if (c == EOF) return NULL; ungetc (c, stdin); break; } } while (1) { int c = getc (stdin); /* Exit when we get a delimiter or don't have any characters to read */ if (c == '\n'|| c == '\r'|| c == EOF) break; s [pos++] = (char) c; } if (pos) { s [pos] = '\0'; return strdup (s); } else return NULL; } } void init_headers(){ /* packing file header */ /* magic number */ file_header[0] = 0x50; file_header[1] = 0x4b; file_header[2] = 0x03; file_header[3] = 0x04; /* version number (Unix 1.0)*/ file_header[4] = 10; file_header[5] = 0; /* bit flag (normal deflation)*/ file_header[6] = 0x00; file_header[7] = 0x00; /* do_compression method (deflation) */ file_header[8] = 0; file_header[9] = 0; /* last mod file time (MS-DOS format) */ file_header[10] = 0; file_header[11] = 0; /* last mod file date (MS-DOS format) */ file_header[12] = 0; file_header[13] = 0; /* CRC 32 */ file_header[14] = 0; file_header[15] = 0; file_header[16] = 0; file_header[17] = 0; /* compressed size */ file_header[18] = 0; file_header[19] = 0; file_header[20] = 0; file_header[21] = 0; /* uncompressed size */ file_header[22] = 0; file_header[23] = 0; file_header[24] = 0; file_header[25] = 0; /* filename length */ file_header[26] = 0; file_header[27] = 0; /* extra field length */ file_header[28] = 0; file_header[29] = 0; /* Initialize the compression DS */ PACK_UB4(data_descriptor, 0, 0x08074b50); } void add_entry(struct zipentry *ze){ if(ziplist == NULL){ ziplist = ze; ziptail = ziplist; } else { ziplist->next_entry = ze; ziplist = ze; } number_of_entries++; } int make_manifest(int jfd, const char *mf_name){ time_t current_time; int nlen; /* length of file name */ int mod_time; /* file modification time */ struct zipentry *ze; nlen = 9; /* trust me on this one */ memset((file_header + 12), '\0', 16); /*clear mod time, crc, size fields*/ current_time = time(NULL); if(current_time == (time_t)-1){ perror("time"); exit(1); } mod_time = unix2dostime(¤t_time); PACK_UB2(file_header, LOC_EXTRA, 0); PACK_UB2(file_header, LOC_COMP, 0); PACK_UB2(file_header, LOC_FNLEN, nlen); PACK_UB4(file_header, LOC_MODTIME, mod_time); if(verbose) printf("adding: META-INF/ (in=0) (out=0) (stored 0%%)\n"); ze = (zipentry*)malloc(sizeof(zipentry)); if(ze == NULL){ perror("malloc"); exit(1); } memset(ze, 0, sizeof(zipentry)); /* clear all the fields*/ ze->filename = (char*)malloc((nlen + 1) * sizeof(char) + 1); strcpy(ze->filename, "META-INF/"); ze->filename[nlen] = '\0'; ze->offset = lseek(jfd, 0, SEEK_CUR); ze->mod_time = (ub2)(mod_time & 0x0000ffff); ze->mod_date = (ub2)((mod_time & 0xffff0000) >> 16); ze->compressed = FALSE; add_entry(ze); write(jfd, file_header, 30); write(jfd, "META-INF/", nlen); /* if the user didn't specify an external manifest file... */ if(mf_name == NULL){ int mf_len = 37 + strlen(VERSION); char *mf; if((mf = (char *) malloc(mf_len + 1))) { uLong crc; sprintf(mf, "Manifest-Version: 1.0\nCreated-By: %s\n\n", VERSION); crc = crc32(0L, Z_NULL, 0); crc = crc32(crc, (const unsigned char *)mf, mf_len); nlen = 20; /* once again, trust me */ PACK_UB2(file_header, LOC_EXTRA, 0); PACK_UB2(file_header, LOC_COMP, 0); PACK_UB2(file_header, LOC_FNLEN, nlen); PACK_UB4(file_header, LOC_USIZE, mf_len); memcpy((file_header + LOC_CSIZE), (file_header + LOC_USIZE), 4); PACK_UB4(file_header, LOC_CRC, crc); if(verbose) printf("adding: META-INF/MANIFEST.MF (in=56) (out=56) (stored 0%%)\n"); ze = (zipentry*)malloc(sizeof(zipentry)); if(ze == NULL){ perror("malloc"); exit(1); } memset(ze, 0, sizeof(zipentry)); /* clear all the fields*/ ze->filename = (char*)malloc((nlen + 1) * sizeof(char) + 1); strcpy(ze->filename, "META-INF/MANIFEST.MF"); ze->filename[nlen] = '\0'; ze->offset = lseek(jfd, 0, SEEK_CUR); ze->mod_time = (ub2)(mod_time & 0x0000ffff); ze->mod_date = (ub2)((mod_time & 0xffff0000) >> 16); ze->crc = crc; ze->csize = mf_len; ze->usize = ze->csize; ze->compressed = FALSE; add_entry(ze); write(jfd, file_header, 30); write(jfd, "META-INF/MANIFEST.MF", nlen); write(jfd, mf, mf_len); free(mf); } else { printf("malloc errror\n"); exit(-1); } } else { int mfd; struct stat statbuf; stat(mf_name, &statbuf); if(!S_ISREG(statbuf.st_mode)){ fprintf(stderr, "Invalid manifest file specified.\n"); exit(1); } mfd = open(mf_name, O_RDONLY); if(mfd < 0){ fprintf(stderr, "Error opening %s.\n", mf_name); exit(1); } if(add_file_to_jar(jfd, mfd, "META-INF/MANIFEST.MF", &statbuf)){ perror("error writing to jar"); exit(1); } } return 0; } int add_to_jar(int fd, const char *new_dir, const char *file){ struct stat statbuf; DIR *dir; struct dirent *de; zipentry *ze; int stat_return; char *old_dir = NULL; /* This is a quick compatibility fix -- Simon Weijgers * It fixes this: * "normal" jar : org/apache/java/io/LogRecord.class * fastjar : ./org/apache/java/io/LogRecord.class * Fastjar's preservation of the ./'s makes the jarfile unusuable for use * with both kaffe-1.0b4 and JDK. */ while (*file=='.' && *(file+1)=='/') file+=2; /* If new_dir isn't null, we need to change to that directory. However, we also need to return to the old directory when we're done */ if(new_dir != NULL){ old_dir = getcwd(NULL, 0); if(chdir(new_dir) == -1){ perror(new_dir); return 1; } } if(!strcmp(file, jarfile)){ if(verbose) printf("skipping: %s\n", file); return 0; /* we don't want to add ourselves.. */ } stat_return = stat(file, &statbuf); if(stat_return == -1){ perror(file); } else if(S_ISDIR(statbuf.st_mode)){ char *fullname; char *t_ptr; int nlen; unsigned long mod_time; dir = opendir(file); if(dir == NULL){ perror("opendir"); return 1; } nlen = strlen(file) + 256; fullname = (char*)malloc(nlen * sizeof(char)); memset(fullname, 0, (nlen * sizeof(char))); if(fullname == NULL){ fprintf(stderr, "Filename is NULL!\n"); return 1; } strcpy(fullname, file); nlen = strlen(file); if(fullname[nlen - 1] != '/'){ fullname[nlen] = '/'; t_ptr = (fullname + nlen + 1); } else t_ptr = (fullname + nlen); memset((file_header + 12), '\0', 16); /*clear mod time, crc, size fields*/ nlen = (t_ptr - fullname); mod_time = unix2dostime(&statbuf.st_mtime); PACK_UB2(file_header, LOC_EXTRA, 0); PACK_UB2(file_header, LOC_COMP, 0); PACK_UB2(file_header, LOC_FNLEN, nlen); PACK_UB4(file_header, LOC_MODTIME, mod_time); if(verbose) printf("adding: %s (in=%d) (out=%d) (stored 0%%)\n", fullname, 0, 0); ze = (zipentry*)malloc(sizeof(zipentry)); if(ze == NULL){ perror("malloc"); exit(1); } memset(ze, 0, sizeof(zipentry)); /* clear all the fields*/ ze->filename = (char*)malloc((nlen + 1) * sizeof(char) + 1); strcpy(ze->filename, fullname); ze->filename[nlen] = '\0'; ze->offset = lseek(fd, 0, SEEK_CUR); ze->mod_time = (ub2)(mod_time & 0x0000ffff); ze->mod_date = (ub2)((mod_time & 0xffff0000) >> 16); ze->compressed = FALSE; add_entry(ze); write(fd, file_header, 30); write(fd, fullname, nlen); while(!use_explicit_list_only && (de = readdir(dir)) != NULL){ if(de->d_name[0] == '.') continue; if(!strcmp(de->d_name, jarfile)){ /* we don't want to add ourselves. Believe me */ if(verbose) printf("skipping: %s\n", de->d_name); continue; } strcpy(t_ptr, de->d_name); if(add_to_jar(fd, NULL, fullname)){ fprintf(stderr, "Error adding file to jar!\n"); return 1; } } free(fullname); closedir(dir); } else if(S_ISREG(statbuf.st_mode)){ int add_fd; add_fd = open(file, O_RDONLY); if(add_fd < 0){ fprintf(stderr, "Error opening %s.\n", file); return 0; } if(add_file_to_jar(fd, add_fd, file, &statbuf)){ fprintf(stderr, "Error adding file to jar!\n"); return 1; } } else { fprintf(stderr, "Illegal file specified: %s\n", file); } if(old_dir != NULL){ if(chdir(old_dir)) perror(old_dir); free(old_dir); } return 0; } int add_file_to_jar(int jfd, int ffd, const char *fname, struct stat *statbuf){ unsigned short file_name_length; unsigned long mod_time; ub1 rd_buff[RDSZ]; uLong crc = 0; off_t offset = 0; int rdamt; struct zipentry *ze; mod_time = unix2dostime(&(statbuf->st_mtime)); file_name_length = strlen(fname); if(!seekable && !do_compress){ crc = crc32(0L, Z_NULL, 0); while((rdamt = read(ffd, rd_buff, RDSZ)) != 0) crc = crc32(crc, rd_buff, rdamt); lseek(ffd, 0, SEEK_SET); } /* data descriptor */ if(!seekable && do_compress){ PACK_UB2(file_header, LOC_EXTRA, 8); } else { PACK_UB2(file_header, LOC_EXTRA, 0); } if(do_compress){ PACK_UB2(file_header, LOC_COMP, 8); } else { PACK_UB2(file_header, LOC_COMP, 0); } PACK_UB4(file_header, LOC_MODTIME, mod_time); PACK_UB2(file_header, LOC_FNLEN, file_name_length); if(!seekable && !do_compress){ PACK_UB4(file_header, LOC_CRC, crc); PACK_UB4(file_header, LOC_USIZE, statbuf->st_size); PACK_UB4(file_header, LOC_CSIZE, statbuf->st_size); } else memset((file_header + LOC_CRC), '\0', 12); /* clear crc/usize/csize */ ze = (zipentry*)malloc(sizeof(zipentry)); if(ze == NULL){ perror("malloc"); exit(1); } memset(ze, 0, sizeof(zipentry)); /* clear all the fields*/ ze->filename = (char*)malloc((file_name_length + 1) * sizeof(char)); strcpy(ze->filename, fname); ze->mod_time = (ub2)(mod_time & 0x0000ffff); ze->mod_date = (ub2)((mod_time & 0xffff0000) >> 16); if(!seekable && !do_compress) ze->crc = crc; ze->csize = statbuf->st_size; ze->usize = ze->csize; ze->offset = lseek(jfd, 0, SEEK_CUR); if(do_compress) ze->compressed = TRUE; else ze->compressed = FALSE; add_entry(ze); /* Write the local header */ write(jfd, file_header, 30); /* write the file name to the zip file */ write(jfd, fname, file_name_length); if(verbose){ printf("adding: %s ", fname); fflush(stdout); } if(do_compress){ /* compress the file */ compress_file(ffd, jfd, ze); } else { /* Write the contents of the file (uncompressed) to the zip file */ /* calculate the CRC as we go along */ ze->crc = crc32(0L, Z_NULL, 0); while((rdamt = read(ffd, rd_buff, RDSZ)) != 0){ ze->crc = crc32(ze->crc, rd_buff, rdamt); if(write(jfd, rd_buff, rdamt) != rdamt){ perror("write"); return 0; } } } close(ffd); /* write out data descriptor */ PACK_UB4(data_descriptor, 4, ze->crc); PACK_UB4(data_descriptor, 8, ze->csize); PACK_UB4(data_descriptor, 12, ze->usize); /* we need to seek back and fill the header */ if(seekable){ offset = (ze->csize + strlen(ze->filename) + 16); if(lseek(jfd, -offset, SEEK_CUR) == (off_t)-1){ perror("lseek"); exit(1); } if(write(jfd, (data_descriptor + 4), 12) != 12){ perror("write"); return 0; } offset -= 12; if(lseek(jfd, offset, SEEK_CUR) == (off_t)-1){ perror("lseek"); exit(1); } } else if(do_compress){ /* Sun's jar tool will only allow a data descriptor if the entry is compressed, but we'll save 16 bytes/entry if we only use it when we can't seek back on the file */ if(write(jfd, data_descriptor, 16) != 16){ perror("write"); return 0; } } if(verbose) printf("(in=%d) (out=%d) (%s %d%%)\n", (int)ze->usize, (int)ze->csize, (do_compress ? "deflated" : "stored"), (do_compress ? ((int)((1 - ze->csize/(float)ze->usize) * 100)) : 0)); return 0; } int create_central_header(int fd){ ub1 header[46]; ub1 end_header[22]; int start_offset; int dir_size; int *iheader; int total_in = 0, total_out = 22; zipentry *ze; iheader = (int*)header; /* magic number */ header[0] = 'P'; header[1] = 'K'; header[2] = 1; header[3] = 2; /* version made by */ header[4] = 10; header[5] = 0; /* version needed to extract */ header[6] = 10; header[7] = 0; /* bit flag */ header[8] = 0; header[9] = 0; /* compression method */ header[10] = 0; header[11] = 0; /* file mod time */ header[12] = 0; header[13] = 0; /* file mod date */ header[14] = 0; header[15] = 0; /* crc 32 */ header[16] = 0; header[17] = 0; header[18] = 0; header[19] = 0; /* compressed size */ header[20] = 0; header[21] = 0; header[22] = 0; header[23] = 0; /* uncompressed size */ header[24] = 0; header[25] = 0; header[26] = 0; header[27] = 0; /* filename length */ header[28] = 0; header[29] = 0; /* extra field length */ header[30] = 0; header[31] = 0; /* file comment length */ header[32] = 0; header[33] = 0; /* disk number start */ header[34] = 0; header[35] = 0; /* internal file attribs */ header[36] = 0; header[37] = 0; /* external file attribs */ header[38] = 0; header[39] = 0; header[40] = 0; header[41] = 0; /* relative offset of local header */ header[42] = 0; header[43] = 0; header[44] = 0; header[45] = 0; start_offset = lseek(fd, 0, SEEK_CUR); for(ze = ziptail; ze != NULL; ze = ze->next_entry){ total_in += ze->usize; total_out += ze->csize + 76 + strlen(ze->filename) * 2; if(ze->compressed){ PACK_UB2(header, CEN_COMP, 8); } else { PACK_UB2(header, CEN_COMP, 0); } PACK_UB2(header, CEN_MODTIME, ze->mod_time); PACK_UB2(header, CEN_MODDATE, ze->mod_date); PACK_UB4(header, CEN_CRC, ze->crc); PACK_UB4(header, CEN_CSIZE, ze->csize); PACK_UB4(header, CEN_USIZE, ze->usize); PACK_UB2(header, CEN_FNLEN, strlen(ze->filename)); PACK_UB4(header, CEN_OFFSET, ze->offset); write(fd, header, 46); write(fd, ze->filename, strlen(ze->filename)); } dir_size = lseek(fd, 0, SEEK_CUR) - start_offset; /* magic number */ end_header[0] = 0x50; end_header[1] = 0x4b; end_header[2] = 0x05; end_header[3] = 0x06; /* number of this disk */ end_header[4] = 0; end_header[5] = 0; /* number of disk w/ start of central header */ end_header[6] = 0; end_header[7] = 0; /* total number of entries in central dir on this disk*/ PACK_UB2(end_header, 8, number_of_entries); /* total number of entries in central dir*/ PACK_UB2(end_header, 10, number_of_entries); /* size of central dir. */ PACK_UB4(end_header, 12, dir_size); /* offset of start of central dir */ PACK_UB4(end_header, 16, start_offset); /* zipfile comment length */ end_header[20] = 0; end_header[21] = 0; write(fd, end_header, 22); if(verbose) printf("Total:\n------\n(in = %d) (out = %d) (%s %d%%)\n", total_in, total_out, (do_compress ? "deflated" : "stored"), (int)((1 - (total_out / (float)total_in)) * 100) ); return 0; } int extract_jar(int fd, char **files, int file_num){ int rdamt; int out_a, in_a; ub4 signature; ub4 csize; ub4 crc; ub2 fnlen; ub2 eflen; ub2 flags; ub2 method; ub1 *filename = NULL; int filename_len = 0; ub4 rd_buff[RDSZ]; pb_file pbf; ub1 scratch[16]; zipentry ze; int f_fd; int dir; int handle; int j; init_inflation(); pb_init(&pbf, fd); for(;;){ f_fd = 0; crc = 0; ze.crc = 0; dir = FALSE; /* by default, the file isn't a dir */ handle = TRUE; /* by default we'll extract/create the file */ if((rdamt = pb_read(&pbf, scratch, 4)) != 4){ perror("read"); break; } signature = UNPACK_UB4(scratch, 0); #ifdef DEBUG printf("signature is %x\n", signature); #endif if(signature == 0x08074b50){ #ifdef DEBUG printf("skipping data descriptor\n"); #endif pb_read(&pbf, scratch, 12); continue; } else if(signature == 0x02014b50){ #ifdef DEBUG printf("Central header reached.. we're all done!\n"); #endif break; }else if(signature != 0x04034b50){ printf("Ick! %#x\n", signature); break; } if((rdamt = pb_read(&pbf, (file_header + 4), 26)) != 26){ perror("read"); break; } csize = UNPACK_UB4(file_header, LOC_CSIZE); #ifdef DEBUG printf("Compressed size is %u\n", csize); #endif fnlen = UNPACK_UB2(file_header, LOC_FNLEN); #ifdef DEBUG printf("Filename length is %hu\n", fnlen); #endif eflen = UNPACK_UB2(file_header, LOC_EFLEN); #ifdef DEBUG printf("Extra field length is %hu\n", eflen); #endif flags = UNPACK_UB2(file_header, LOC_EXTRA); #ifdef DEBUG printf("Flags are %#hx\n", flags); #endif method = UNPACK_UB2(file_header, LOC_COMP); #ifdef DEBUG printf("Compression method is %#hx\n", method); #endif /* if there isn't a data descriptor */ if(!(flags & 0x0008)){ crc = UNPACK_UB4(file_header, LOC_CRC); #ifdef DEBUG printf("CRC is %x\n", crc); #endif } if(filename_len < fnlen){ if(filename != NULL) free(filename); filename = malloc(sizeof(ub1) * (fnlen + 1)); filename_len = fnlen + 1; } pb_read(&pbf, filename, fnlen); filename[fnlen] = '\0'; #ifdef DEBUG printf("filename is %s\n", filename); #endif if(file_num > 0){ handle = FALSE; for(j = 0; j < file_num; j++) if(strcmp(files[j], (const char *)filename) == 0){ handle = TRUE; break; } } if(!handle) f_fd = -1; /* OK, there is some directory information in the file. Nothing to do but ensure the directory(s) exist, and create them if they don't. What a pain! */ if(strchr((const char *)filename, '/') != NULL && handle){ /* Loop through all the directories in the path, (everything w/ a '/') */ const ub1 *start = filename; char *tmp_buff; struct stat sbuf; tmp_buff = malloc(sizeof(char) * strlen((const char *)filename)); for(;;){ const ub1 *idx = (const unsigned char *)strchr((const char *)start, '/'); if(idx == NULL) break; else if(idx == start){ start++; continue; } start = idx + 1; strncpy(tmp_buff, (const char *)filename, (idx - filename)); tmp_buff[(idx - filename)] = '\0'; #ifdef DEBUG printf("checking the existance of %s\n", tmp_buff); #endif if(stat(tmp_buff, &sbuf) < 0){ if(errno != ENOENT){ perror("stat"); exit(1); } } else if(S_ISDIR(sbuf.st_mode)){ #ifdef DEBUG printf("Directory exists\n"); #endif continue; }else { fprintf(stderr, "Hmmm.. %s exists but isn't a directory!\n", tmp_buff); exit(1); } #ifdef DEBUG printf("Making directory..\n"); #endif if(mkdir(tmp_buff, 0755) < 0){ perror("mkdir"); exit(1); } if(verbose && handle) printf("%10s: %s/\n", "created", tmp_buff); } /* only a directory */ if(strlen((const char *)start) == 0) dir = TRUE; #ifdef DEBUG printf("Leftovers are \"%s\" (%d)\n", start, strlen((const char *)start)); #endif /* If the entry was just a directory, don't write to file, etc */ if(strlen((const char *)start) == 0) f_fd = -1; free(tmp_buff); } if(f_fd != -1 && handle){ f_fd = creat((const char *)filename, 00644); if(f_fd < 0){ fprintf(stderr, "Error extracting JAR archive!\n"); perror((const char *)filename); exit(1); } } if(method != 8 && flags & 0x0008){ fprintf(stderr, "Error in JAR file! (not compressed but data desc.)\n"); exit(1); } if(method == 8 || flags & 0x0008){ if(seekable) lseek(fd, eflen, SEEK_CUR); else consume(&pbf, eflen); inflate_file(&pbf, f_fd, &ze); } else { #ifdef DEBUG printf("writing stored data.. (%d bytes)\n", csize); #endif out_a = 0; in_a = csize; ze.crc = crc32(ze.crc, NULL, 0); /* initialize the crc */ while(out_a < csize){ rdamt = (in_a > RDSZ ? RDSZ : in_a); if(pb_read(&pbf, rd_buff, rdamt) != rdamt){ perror("read"); exit(1); } ze.crc = crc32(ze.crc, (Bytef*)rd_buff, rdamt); if(f_fd >= 0) write(f_fd, rd_buff, rdamt); out_a += rdamt; in_a -= rdamt; #ifdef DEBUG printf("%d bytes written\n", out_a); #endif } if(seekable) lseek(fd, eflen, SEEK_CUR); else consume(&pbf, eflen); } /* if there is a data descriptor left, compare the CRC */ if(flags & 0x0008){ if(pb_read(&pbf, scratch, 16) != 16){ perror("read"); exit(1); } signature = UNPACK_UB4(scratch, 0); if(signature != 0x08074b50){ fprintf(stderr, "Error! Missing data descriptor!\n"); exit(1); } crc = UNPACK_UB4(scratch, 4); } if(crc != ze.crc){ fprintf(stderr, "Error! CRCs do not match! Got %x, expected %x\n", ze.crc, crc); exit(1); } close(f_fd); if(verbose && dir == FALSE && handle) printf("%10s: %s\n", (method == 8 ? "inflated" : "extracted"), filename); } return 0; } int list_jar(int fd, char **files, int file_num){ int rdamt; ub4 signature; ub4 csize; ub4 usize; ub4 mdate; ub4 tmp; ub2 fnlen; ub2 eflen; ub2 clen; ub2 flags; ub2 method; ub2 cen_size; ub1 *filename = NULL; ub1 scratch[16]; ub1 cen_header[46]; int filename_len = 0; off_t size; int i, j; time_t tdate; struct tm *s_tm; char ascii_date[30]; zipentry ze; #ifdef DEBUG printf("Listing jar file, looking for %d files\n", file_num); #endif /* This should be the start of the central-header-end section */ if(seekable){ if(lseek(fd, -22, SEEK_END) == (off_t)-1){ perror("lseek"); exit(1); } if(read(fd, &tmp, sizeof(ub4)) != 4){ perror("read"); exit(1); } #ifdef WORDS_BIGENDIAN tmp = L2BI(tmp); #endif if(tmp != 0x06054b50){ fprintf(stderr, "Error in JAR file format. zip-style comment?\n"); exit(1); } if(lseek(fd, 6, SEEK_CUR) == (off_t)-1){ perror("lseek"); exit(1); } if(read(fd, &cen_size, 2) != 2){ perror("read"); exit(1); } #ifdef WORDS_BIGENDIAN cen_size = L2BS(cen_size); #endif /* printf("%hu entries in central header\n", cen_size); */ if(lseek(fd, 4, SEEK_CUR) == (off_t)-1){ perror("lseek"); exit(1); } if(read(fd, &tmp, 4) != 4){ perror("read"); exit(1); } #ifdef WORDS_BIGENDIAN tmp = L2BI(tmp); #endif /* printf("Central header offset = %d\n", tmp); */ if(lseek(fd, tmp, SEEK_SET) != tmp){ perror("lseek"); exit(1); } /* Loop through the entries in the central header */ for(i = 0; i < cen_size; i++){ if(read(fd, &cen_header, 46) != 46){ perror("read"); exit(1); } signature = UNPACK_UB4(cen_header, 0); if(signature != 0x02014b50){ fprintf(stderr, "Error in JAR file! Cannot locate central header!\n"); exit(1); } usize = UNPACK_UB4(cen_header, CEN_USIZE); fnlen = UNPACK_UB2(cen_header, CEN_FNLEN); eflen = UNPACK_UB2(cen_header, CEN_EFLEN); clen = UNPACK_UB2(cen_header, CEN_COMLEN); /* If we're providing verbose output, we need to make an ASCII * formatted version of the date. */ if(verbose){ mdate = UNPACK_UB4(cen_header, CEN_MODTIME); tdate = dos2unixtime(mdate); s_tm = localtime(&tdate); strftime(ascii_date, 30, "%a %b %d %H:%M:%S %Z %Y", s_tm); } if(filename_len < fnlen){ if(filename != NULL) free(filename); filename = malloc(sizeof(ub1) * (fnlen + 1)); filename_len = fnlen + 1; } if(read(fd, filename, fnlen) != fnlen){ perror("read"); exit(1); } filename[fnlen] = '\0'; /* if the user specified a list of files on the command line, we'll only display those, otherwise we'll display everything */ if(file_num > 0){ for(j = 0; j < file_num; j++) if(strcmp(files[j], (const char *)filename) == 0){ if(verbose) printf("%6d %s %s\n", usize, ascii_date, filename); else printf("%s\n", filename); break; } } else { if(verbose) printf("%6d %s %s\n", usize, ascii_date, filename); else printf("%s\n", filename); } size = eflen + clen; if(size > 0){ if(lseek(fd, size, SEEK_CUR) == (off_t)-1){ perror("lseek"); exit(1); } } } } else { /* the file isn't seekable.. evil! */ pb_file pbf; pb_init(&pbf, fd); init_inflation(); for(;;){ if((rdamt = pb_read(&pbf, scratch, 4)) != 4){ perror("read"); break; } signature = UNPACK_UB4(scratch, 0); #ifdef DEBUG printf("signature is %x\n", signature); #endif if(signature == 0x08074b50){ #ifdef DEBUG printf("skipping data descriptor\n"); #endif pb_read(&pbf, scratch, 12); continue; } else if(signature == 0x02014b50){ #ifdef DEBUG printf("Central header reached.. we're all done!\n"); #endif break; }else if(signature != 0x04034b50){ #ifdef DEBUG printf("Ick! %#x\n", signature); #endif break; } if((rdamt = pb_read(&pbf, (file_header + 4), 26)) != 26){ perror("read"); break; } csize = UNPACK_UB4(file_header, LOC_CSIZE); #ifdef DEBUG printf("Compressed size is %u\n", csize); #endif fnlen = UNPACK_UB2(file_header, LOC_FNLEN); #ifdef DEBUG printf("Filename length is %hu\n", fnlen); #endif eflen = UNPACK_UB2(file_header, LOC_EFLEN); #ifdef DEBUG printf("Extra field length is %hu\n", eflen); #endif method = UNPACK_UB2(file_header, LOC_COMP); #ifdef DEBUG printf("Compression method is %#hx\n", method); #endif flags = UNPACK_UB2(file_header, LOC_EXTRA); #ifdef DEBUG printf("Flags are %#hx\n", flags); #endif usize = UNPACK_UB4(file_header, LOC_USIZE); /* If we're providing verbose output, we need to make an ASCII * formatted version of the date. */ if(verbose){ mdate = UNPACK_UB4(file_header, LOC_MODTIME); tdate = dos2unixtime(mdate); s_tm = localtime(&tdate); strftime(ascii_date, 30, "%a %b %d %H:%M:%S %Z %Y", s_tm); } if(filename_len < fnlen){ if(filename != NULL) free(filename); filename = malloc(sizeof(ub1) * (fnlen + 1)); filename_len = fnlen + 1; } pb_read(&pbf, filename, fnlen); filename[fnlen] = '\0'; /* the header is at the end. In a JAR file, this means that the data happens to be compressed. We have no choice but to inflate the data */ if(flags & 0x0008){ size = eflen; if(size > 0) consume(&pbf, size); if(method == 8){ #ifdef DEBUG printf("inflating %s\n", filename); #endif inflate_file(&pbf, -1, &ze); usize = ze.usize; } else printf("We're shit outta luck!\n"); } else { size = csize + (eflen > 0 ? eflen : 0); #ifdef DEBUG printf("Skipping %ld bytes\n", (long)size); #endif consume(&pbf, size); } /* print out the listing */ if(file_num > 0){ for(j = 0; j < file_num; j++) if(strcmp(files[j], (const char *)filename) == 0){ if(verbose) printf("%6d %s %s\n", usize, ascii_date, filename); else printf("%s\n", filename); break; } } else { if(verbose) printf("%6d %s %s\n", usize, ascii_date, filename); else printf("%s\n", filename); } } } return 0; } int consume(pb_file *pbf, int amt){ int tc = 0; /* total amount consumed */ ub1 buff[RDSZ]; int rdamt; #ifdef DEBUG printf("Consuming %d bytes\n", amt); #endif while(tc < amt){ rdamt = pb_read(pbf, buff, ((amt - tc) < RDSZ ? (amt - tc) : RDSZ)); #ifdef DEBUG printf("got %d bytes\n", rdamt); #endif tc += rdamt; } #ifdef DEBUG printf("%d bytes consumed\n", tc); #endif return 0; } void usage(const char *filename){ fprintf(stderr, "\ Usage: %s {ctxuV}[vfm0ME@] [jar-file] [manifest-file] [-C dir] files ...\n\ Options\n\ -c create new archive\n\ -t list table of contents for archive\n\ -x extract named (or all) files from archive\n\ ", filename); fprintf(stderr, "\ -u update existing archive\n\ -V display version information\n\ -v generate verbose output on standard output\n\ -f specify archive file name\n\ -m include manifest information from specified manifest file\n\ -0 store only; use no ZIP compression\n\ -M Do not create a manifest file for the entries\n\ -C change to the specified directory and include the following file\n\ -E don't include the files found in a directory\n\ -@ Read names from stdin\n\ "); fprintf(stderr, "\ If any file is a directory then it is processed recursively.\n\ The manifest file name and the archive file name needs to be specified\n\ in the same order the 'm' and 'f' flags are specified.\n\ \n\ Example 1: to archive two class files into an archive called classes.jar: \n\ jar cvf classes.jar Foo.class Bar.class \n\ Example 2: use an existing manifest file 'mymanifest' and archive all the\n\ files in the foo/ directory into 'classes.jar': \n\ jar cvfm classes.jar mymanifest -C foo/ .\n\ "); exit(1); }