/* vi: set sw=4 ts=4: */ /* * Mini ar implementation for busybox * * Copyright (C) 2000 by Glenn McGrath * Written by Glenn McGrath 1 June 2000 * * Based in part on BusyBox tar, Debian dpkg-deb and GNU ar. * * 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 * * Last modified 20 September 2000 */ #include #include #include #include #include #include #include #include #include #include #include #include #include "busybox.h" #define BLOCK_SIZE 60 #define PRESERVE_DATE 1 /* preserve original dates */ #define VERBOSE 2 /* be verbose */ #define DISPLAY 4 /* display contents */ #define EXT_TO_FILE 8 /* extract contents of archive */ #define EXT_TO_STDOUT 16 /* extract to stdout */ #define RECURSIVE 32 #define MAX_NAME_LENGTH 100 //#define BB_DECLARE_EXTERN //#define bb_need_io_error //#include "messages.c" //#define BB_AR_EXPERIMENTAL_UNTAR #if defined BB_AR_EXPERIMENTAL_UNTAR typedef struct rawTarHeader { char name[100]; /* 0-99 */ char mode[8]; /* 100-107 */ char uid[8]; /* 108-115 */ char gid[8]; /* 116-123 */ char size[12]; /* 124-135 */ char mtime[12]; /* 136-147 */ char chksum[8]; /* 148-155 */ char typeflag; /* 156-156 */ char linkname[100]; /* 157-256 */ char magic[6]; /* 257-262 */ char version[2]; /* 263-264 */ char uname[32]; /* 265-296 */ char gname[32]; /* 297-328 */ char devmajor[8]; /* 329-336 */ char devminor[8]; /* 337-344 */ char prefix[155]; /* 345-499 */ char padding[12]; /* 500-512 */ } rawTarHeader_t; #endif typedef struct rawArHeader { /* Byte Offset */ char name[16]; /* 0-15 */ char date[12]; /* 16-27 */ char uid[6], gid[6]; /* 28-39 */ char mode[8]; /* 40-47 */ char size[10]; /* 48-57 */ char fmag[2]; /* 58-59 */ } rawArHeader_t; typedef struct headerL { char name[MAX_NAME_LENGTH]; size_t size; uid_t uid; gid_t gid; mode_t mode; time_t mtime; off_t offset; struct headerL *next; } headerL_t; #if defined BB_AR_EXPERIMENTAL_UNTAR /* * identify Tar header (magic field) and reset srcFd to entry position */ static int checkTarMagic(int srcFd) { off_t headerStart; char magic[6]; headerStart = lseek(srcFd, 0, SEEK_CUR); lseek(srcFd, (off_t) 257, SEEK_CUR); fullRead(srcFd, magic, 6); lseek(srcFd, headerStart, SEEK_SET); if (strncmp(magic, "ustar", 5)!=0) return(FALSE); return(TRUE); } static int readTarHeader(int srcFd, headerL_t *current) { rawTarHeader_t rawTarHeader; unsigned char *temp = (unsigned char *) &rawTarHeader; long sum = 0; int i; off_t initialOffset; initialOffset = lseek(srcFd, 0, SEEK_CUR); if (fullRead(srcFd, (char *) &rawTarHeader, 512) != 512) { lseek(srcFd, initialOffset, SEEK_SET); return(FALSE); } for (i = 0; i < 148 ; i++) sum += temp[i]; sum += ' ' * 8; for (i = 156; i < 512 ; i++) sum += temp[i]; if (sum!= strtol(rawTarHeader.chksum, NULL, 8)) return(FALSE); sscanf(rawTarHeader.name, "%s", current->name); current->size = strtol(rawTarHeader.size, NULL, 8); current->uid = strtol(rawTarHeader.uid, NULL, 8); current->gid = strtol(rawTarHeader.gid, NULL, 8); current->mode = strtol(rawTarHeader.mode, NULL, 8); current->mtime = strtol(rawTarHeader.mtime, NULL, 8); current->offset = lseek(srcFd, 0 , SEEK_CUR); current->next = (headerL_t *) xmalloc(sizeof(headerL_t)); current = current->next; return(TRUE); } #endif /* * identify Ar header (magic) and reset srcFd to entry position */ static int checkArMagic(int srcFd) { off_t headerStart; char arMagic[8]; headerStart = lseek(srcFd, 0, SEEK_CUR); if (fullRead(srcFd, arMagic, 8) != 8) { errorMsg("fatal error\n"); return (FALSE); } lseek(srcFd, headerStart, SEEK_SET); if (strncmp(arMagic,"!",7) != 0) return(FALSE); return(TRUE); } /* * get, check and correct the converted header */ static int readArEntry(int srcFd, headerL_t *entry) { size_t nameLength; rawArHeader_t rawArHeader; off_t initialOffset; initialOffset = lseek(srcFd, 0, SEEK_CUR); if (fullRead(srcFd, (char *) &rawArHeader, 60) != 60) { lseek(srcFd, initialOffset, SEEK_SET); return(FALSE); } if ((rawArHeader.fmag[0]!='`') || (rawArHeader.fmag[1]!='\n')) { lseek(srcFd, initialOffset, SEEK_SET); return(FALSE); } strncpy(entry->name, rawArHeader.name, 16); nameLength=strcspn(entry->name, " \\"); entry->name[nameLength]='\0'; parse_mode(rawArHeader.mode, &entry->mode); entry->mtime = atoi(rawArHeader.date); entry->uid = atoi(rawArHeader.uid); entry->gid = atoi(rawArHeader.gid); entry->size = (size_t) atoi(rawArHeader.size); entry->offset = initialOffset + (off_t) 60; nameLength = strcspn(entry->name, "/"); /* handle GNU style short filenames, strip trailing '/' */ if (nameLength > 0) entry->name[nameLength]='\0'; /* handle GNU style long filenames */ if (nameLength == 0) { /* escape from recursive call */ if (entry->name[1]=='0') return(TRUE); /* the data section contains the real filename */ if (entry->name[1]=='/') { char tempName[MAX_NAME_LENGTH]; if (entry->size > MAX_NAME_LENGTH) entry->size = MAX_NAME_LENGTH; fullRead(srcFd, tempName, entry->size); tempName[entry->size-3]='\0'; /* read the second header for this entry */ /* be carefull, this is recursive */ if (readArEntry(srcFd, entry)==FALSE) return(FALSE); if ((entry->name[0]='/') && (entry->name[1]='0')) strcpy(entry->name, tempName); else { errorMsg("Invalid long filename\n"); return(FALSE); } } } return(TRUE); } /* * return the headerL_t struct for the specified filename */ static headerL_t *getHeaders(int srcFd, headerL_t *head, int funct) { #if defined BB_AR_EXPERIMENTAL_UNTAR int tar=FALSE; #endif int ar=FALSE; headerL_t *list; off_t initialOffset; list = (headerL_t *) xmalloc(sizeof(headerL_t)); initialOffset=lseek(srcFd, 0, SEEK_CUR); if (checkArMagic(srcFd)==TRUE) ar=TRUE; #if defined BB_AR_EXPERIMENTAL_UNTAR if (checkTarMagic(srcFd)==TRUE) tar=TRUE; if (tar==TRUE) { while(readTarHeader(srcFd, list)==TRUE) { off_t tarOffset; list->next = (headerL_t *) xmalloc(sizeof(headerL_t)); *list->next = *head; *head = *list; /* recursive check for sub-archives */ if ((funct & RECURSIVE) == RECURSIVE) head = getHeaders(srcFd, head, funct); tarOffset = (off_t) head->size/512; if ( head->size % 512 > 0) tarOffset++; tarOffset=tarOffset*512; lseek(srcFd, head->offset + tarOffset, SEEK_SET); } } #endif if (ar==TRUE) { lseek(srcFd, 8, SEEK_CUR); while(1) { if (readArEntry(srcFd, list) == FALSE) { lseek(srcFd, ++initialOffset, SEEK_CUR); if (readArEntry(srcFd, list) == FALSE) return(head); } list->next = (headerL_t *) xmalloc(sizeof(headerL_t)); *list->next = *head; *head = *list; /* recursive check for sub-archives */ if (funct & RECURSIVE) head = getHeaders(srcFd, head, funct); lseek(srcFd, head->offset + head->size, SEEK_SET); } } return(head); } /* * find an entry in the linked list matching the filename */ static headerL_t *findEntry(headerL_t *head, const char *filename) { while(head->next != NULL) { if (strcmp(filename, head->name)==0) return(head); head=head->next; } return(NULL); } extern int ar_main(int argc, char **argv) { int funct = 0, opt=0; int srcFd=0, dstFd=0; headerL_t *header, *entry, *extractList; while ((opt = getopt(argc, argv, "ovtpxR")) != -1) { switch (opt) { case 'o': funct |= PRESERVE_DATE; break; case 'v': funct |= VERBOSE; break; case 't': funct |= DISPLAY; break; case 'x': funct |= EXT_TO_FILE; break; case 'p': funct |= EXT_TO_STDOUT; break; case 'R': funct |= RECURSIVE; break; default: usage(ar_usage); } } /* check the src filename was specified */ if (optind == argc) usage(ar_usage); if ( (srcFd = open(argv[optind], O_RDONLY)) < 0) fatalError("Cannot read %s\n", argv[optind]); optind++; entry = (headerL_t *) xmalloc(sizeof(headerL_t)); header = (headerL_t *) xmalloc(sizeof(headerL_t)); extractList = (headerL_t *) xmalloc(sizeof(headerL_t)); header = getHeaders(srcFd, header, funct); /* find files to extract or display */ if (optindnext = (headerL_t *) xmalloc(sizeof(headerL_t)); *entry->next = *extractList; *extractList = *entry; } optind++; } } else extractList = header; while(extractList->next != NULL) { if (funct & EXT_TO_FILE) { if (isDirectory(extractList->name, TRUE, NULL)==FALSE) createPath(extractList->name, 0666); dstFd = open(extractList->name, O_WRONLY | O_CREAT, extractList->mode); lseek(srcFd, extractList->offset, SEEK_SET); copySubFile(srcFd, dstFd, (size_t) extractList->size); } if (funct & EXT_TO_STDOUT) { lseek(srcFd, extractList->offset, SEEK_SET); copySubFile(srcFd, fileno(stdout), (size_t) extractList->size); } if ( (funct & DISPLAY) || (funct & VERBOSE)) { if (funct & VERBOSE) printf("%s %d/%d %8d %s ", modeString(extractList->mode), extractList->uid, extractList->gid, extractList->size, timeString(extractList->mtime)); printf("%s\n", extractList->name); } extractList=extractList->next; } return (TRUE); }