/* vi: set sw=4 ts=4: */ /* * Mini tar implementation for busybox * * Modifed to use common extraction code used by ar, cpio, dpkg-deb, dpkg * Glenn McGrath * * Note, that as of BusyBox-0.43, tar has been completely rewritten from the * ground up. It still has remnents of the old code lying about, but it is * very different now (i.e., cleaner, less global variables, etc.) * * Copyright (C) 1999,2000 by Lineo, inc. and Erik Andersen * Copyright (C) 1999,2000,2001 by Erik Andersen * * Based in part in the tar implementation in sash * Copyright (c) 1999 by David I. Bell * Permission is granted to use, distribute, or modify this source, * provided that this copyright notice remains intact. * Permission to distribute sash derived code under the GPL has been granted. * * Based in part on the tar implementation from busybox-0.28 * Copyright (C) 1995 Bruce Perens * This is free software under the GNU General Public License. * * 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 * */ #include #include #include #include #include #include #include #include #include #include "unarchive.h" #include "busybox.h" #ifdef CONFIG_FEATURE_TAR_CREATE /* Tar file constants */ # define TAR_MAGIC "ustar" /* ustar and a null */ # define TAR_VERSION " " /* Be compatable with GNU tar format */ # ifndef MAJOR # define MAJOR(dev) (((dev)>>8)&0xff) # define MINOR(dev) ((dev)&0xff) # endif static const int TAR_BLOCK_SIZE = 512; static const int TAR_MAGIC_LEN = 6; static const int TAR_VERSION_LEN = 2; /* POSIX tar Header Block, from POSIX 1003.1-1990 */ enum { NAME_SIZE = 100 }; /* because gcc won't let me use 'static const int' */ struct TarHeader { /* byte offset */ char name[NAME_SIZE]; /* 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[NAME_SIZE]; /* 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 (pad to exactly the TAR_BLOCK_SIZE) */ }; typedef struct TarHeader TarHeader; /* ** writeTarFile(), writeFileToTarball(), and writeTarHeader() are ** the only functions that deal with the HardLinkInfo structure. ** Even these functions use the xxxHardLinkInfo() functions. */ typedef struct HardLinkInfo HardLinkInfo; struct HardLinkInfo { HardLinkInfo *next; /* Next entry in list */ dev_t dev; /* Device number */ ino_t ino; /* Inode number */ short linkCount; /* (Hard) Link Count */ char name[1]; /* Start of filename (must be last) */ }; /* Some info to be carried along when creating a new tarball */ struct TarBallInfo { char* fileName; /* File name of the tarball */ int tarFd; /* Open-for-write file descriptor for the tarball */ struct stat statBuf; /* Stat info for the tarball, letting us know the inode and device that the tarball lives, so we can avoid trying to include the tarball into itself */ int verboseFlag; /* Whether to print extra stuff or not */ char** excludeList; /* List of files to not include */ HardLinkInfo *hlInfoHead; /* Hard Link Tracking Information */ HardLinkInfo *hlInfo; /* Hard Link Info for the current file */ }; typedef struct TarBallInfo TarBallInfo; /* A nice enum with all the possible tar file content types */ enum TarFileType { REGTYPE = '0', /* regular file */ REGTYPE0 = '\0', /* regular file (ancient bug compat)*/ LNKTYPE = '1', /* hard link */ SYMTYPE = '2', /* symbolic link */ CHRTYPE = '3', /* character special */ BLKTYPE = '4', /* block special */ DIRTYPE = '5', /* directory */ FIFOTYPE = '6', /* FIFO special */ CONTTYPE = '7', /* reserved */ GNULONGLINK = 'K', /* GNU long (>100 chars) link name */ GNULONGNAME = 'L', /* GNU long (>100 chars) file name */ }; typedef enum TarFileType TarFileType; /* Might be faster (and bigger) if the dev/ino were stored in numeric order;) */ static void addHardLinkInfo (HardLinkInfo **hlInfoHeadPtr, dev_t dev, ino_t ino, short linkCount, const char *name) { /* Note: hlInfoHeadPtr can never be NULL! */ HardLinkInfo *hlInfo; hlInfo = (HardLinkInfo *)xmalloc(sizeof(HardLinkInfo)+strlen(name)+1); if (hlInfo) { hlInfo->next = *hlInfoHeadPtr; *hlInfoHeadPtr = hlInfo; hlInfo->dev = dev; hlInfo->ino = ino; hlInfo->linkCount = linkCount; strcpy(hlInfo->name, name); } return; } static void freeHardLinkInfo (HardLinkInfo **hlInfoHeadPtr) { HardLinkInfo *hlInfo = NULL; HardLinkInfo *hlInfoNext = NULL; if (hlInfoHeadPtr) { hlInfo = *hlInfoHeadPtr; while (hlInfo) { hlInfoNext = hlInfo->next; free(hlInfo); hlInfo = hlInfoNext; } *hlInfoHeadPtr = NULL; } return; } /* Might be faster (and bigger) if the dev/ino were stored in numeric order;) */ static HardLinkInfo * findHardLinkInfo (HardLinkInfo *hlInfo, dev_t dev, ino_t ino) { while(hlInfo) { if ((ino == hlInfo->ino) && (dev == hlInfo->dev)) break; hlInfo = hlInfo->next; } return(hlInfo); } /* Put an octal string into the specified buffer. * The number is zero and space padded and possibly null padded. * Returns TRUE if successful. */ static int putOctal (char *cp, int len, long value) { int tempLength; char tempBuffer[32]; char *tempString = tempBuffer; /* Create a string of the specified length with an initial space, * leading zeroes and the octal number, and a trailing null. */ sprintf (tempString, "%0*lo", len - 1, value); /* If the string is too large, suppress the leading space. */ tempLength = strlen (tempString) + 1; if (tempLength > len) { tempLength--; tempString++; } /* If the string is still too large, suppress the trailing null. */ if (tempLength > len) tempLength--; /* If the string is still too large, fail. */ if (tempLength > len) return FALSE; /* Copy the string to the field. */ memcpy (cp, tempString, len); return TRUE; } /* Write out a tar header for the specified file/directory/whatever */ static int writeTarHeader(struct TarBallInfo *tbInfo, const char *header_name, const char *real_name, struct stat *statbuf) { long chksum=0; struct TarHeader header; const unsigned char *cp = (const unsigned char *) &header; ssize_t size = sizeof(struct TarHeader); memset( &header, 0, size); strncpy(header.name, header_name, sizeof(header.name)); putOctal(header.mode, sizeof(header.mode), statbuf->st_mode); putOctal(header.uid, sizeof(header.uid), statbuf->st_uid); putOctal(header.gid, sizeof(header.gid), statbuf->st_gid); putOctal(header.size, sizeof(header.size), 0); /* Regular file size is handled later */ putOctal(header.mtime, sizeof(header.mtime), statbuf->st_mtime); strncpy(header.magic, TAR_MAGIC TAR_VERSION, TAR_MAGIC_LEN + TAR_VERSION_LEN ); /* Enter the user and group names (default to root if it fails) */ my_getpwuid(header.uname, statbuf->st_uid); if (! *header.uname) strcpy(header.uname, "root"); my_getgrgid(header.gname, statbuf->st_gid); if (! *header.uname) strcpy(header.uname, "root"); if (tbInfo->hlInfo) { /* This is a hard link */ header.typeflag = LNKTYPE; strncpy(header.linkname, tbInfo->hlInfo->name, sizeof(header.linkname)); } else if (S_ISLNK(statbuf->st_mode)) { char *lpath = xreadlink(real_name); if (!lpath) /* Already printed err msg inside xreadlink() */ return ( FALSE); header.typeflag = SYMTYPE; strncpy(header.linkname, lpath, sizeof(header.linkname)); free(lpath); } else if (S_ISDIR(statbuf->st_mode)) { header.typeflag = DIRTYPE; strncat(header.name, "/", sizeof(header.name)); } else if (S_ISCHR(statbuf->st_mode)) { header.typeflag = CHRTYPE; putOctal(header.devmajor, sizeof(header.devmajor), MAJOR(statbuf->st_rdev)); putOctal(header.devminor, sizeof(header.devminor), MINOR(statbuf->st_rdev)); } else if (S_ISBLK(statbuf->st_mode)) { header.typeflag = BLKTYPE; putOctal(header.devmajor, sizeof(header.devmajor), MAJOR(statbuf->st_rdev)); putOctal(header.devminor, sizeof(header.devminor), MINOR(statbuf->st_rdev)); } else if (S_ISFIFO(statbuf->st_mode)) { header.typeflag = FIFOTYPE; } else if (S_ISREG(statbuf->st_mode)) { header.typeflag = REGTYPE; putOctal(header.size, sizeof(header.size), statbuf->st_size); } else { error_msg("%s: Unknown file type", real_name); return ( FALSE); } /* Calculate and store the checksum (i.e., the sum of all of the bytes of * the header). The checksum field must be filled with blanks for the * calculation. The checksum field is formatted differently from the * other fields: it has [6] digits, a null, then a space -- rather than * digits, followed by a null like the other fields... */ memset(header.chksum, ' ', sizeof(header.chksum)); cp = (const unsigned char *) &header; while (size-- > 0) chksum += *cp++; putOctal(header.chksum, 7, chksum); /* Now write the header out to disk */ if ((size=full_write(tbInfo->tarFd, (char*)&header, sizeof(struct TarHeader))) < 0) { error_msg(io_error, real_name, strerror(errno)); return ( FALSE); } /* Pad the header up to the tar block size */ for (; sizetarFd, "\0", 1); } /* Now do the verbose thing (or not) */ if (tbInfo->verboseFlag==TRUE) { FILE *vbFd = stdout; if (tbInfo->tarFd == fileno(stdout)) // If the archive goes to stdout, verbose to stderr vbFd = stderr; fprintf(vbFd, "%s\n", header.name); } return ( TRUE); } # if defined CONFIG_FEATURE_TAR_EXCLUDE static int exclude_file(char **excluded_files, const char *file) { int i; if (excluded_files == NULL) return 0; for (i = 0; excluded_files[i] != NULL; i++) { if (excluded_files[i][0] == '/') { if (fnmatch(excluded_files[i], file, FNM_PATHNAME | FNM_LEADING_DIR) == 0) return 1; } else { const char *p; for (p = file; p[0] != '\0'; p++) { if ((p == file || p[-1] == '/') && p[0] != '/' && fnmatch(excluded_files[i], p, FNM_PATHNAME | FNM_LEADING_DIR) == 0) return 1; } } } return 0; } #endif static int writeFileToTarball(const char *fileName, struct stat *statbuf, void* userData) { struct TarBallInfo *tbInfo = (struct TarBallInfo *)userData; const char *header_name; /* ** Check to see if we are dealing with a hard link. ** If so - ** Treat the first occurance of a given dev/inode as a file while ** treating any additional occurances as hard links. This is done ** by adding the file information to the HardLinkInfo linked list. */ tbInfo->hlInfo = NULL; if (statbuf->st_nlink > 1) { tbInfo->hlInfo = findHardLinkInfo(tbInfo->hlInfoHead, statbuf->st_dev, statbuf->st_ino); if (tbInfo->hlInfo == NULL) addHardLinkInfo (&tbInfo->hlInfoHead, statbuf->st_dev, statbuf->st_ino, statbuf->st_nlink, fileName); } /* It is against the rules to archive a socket */ if (S_ISSOCK(statbuf->st_mode)) { error_msg("%s: socket ignored", fileName); return( TRUE); } /* It is a bad idea to store the archive we are in the process of creating, * so check the device and inode to be sure that this particular file isn't * the new tarball */ if (tbInfo->statBuf.st_dev == statbuf->st_dev && tbInfo->statBuf.st_ino == statbuf->st_ino) { error_msg("%s: file is the archive; skipping", fileName); return( TRUE); } header_name = fileName; while (header_name[0] == '/') { static int alreadyWarned=FALSE; if (alreadyWarned==FALSE) { error_msg("Removing leading '/' from member names"); alreadyWarned=TRUE; } header_name++; } if (strlen(fileName) >= NAME_SIZE) { error_msg(name_longer_than_foo, NAME_SIZE); return ( TRUE); } if (header_name[0] == '\0') return TRUE; # if defined CONFIG_FEATURE_TAR_EXCLUDE if (exclude_file(tbInfo->excludeList, header_name)) { return SKIP; } # endif //CONFIG_FEATURE_TAR_EXCLUDE if (writeTarHeader(tbInfo, header_name, fileName, statbuf)==FALSE) { return( FALSE); } /* Now, if the file is a regular file, copy it out to the tarball */ if ((tbInfo->hlInfo == NULL) && (S_ISREG(statbuf->st_mode))) { int inputFileFd; char buffer[BUFSIZ]; ssize_t size=0, readSize=0; /* open the file we want to archive, and make sure all is well */ if ((inputFileFd = open(fileName, O_RDONLY)) < 0) { error_msg("%s: Cannot open: %s", fileName, strerror(errno)); return( FALSE); } /* write the file to the archive */ while ( (size = full_read(inputFileFd, buffer, sizeof(buffer))) > 0 ) { if (full_write(tbInfo->tarFd, buffer, size) != size ) { /* Output file seems to have a problem */ error_msg(io_error, fileName, strerror(errno)); return( FALSE); } readSize+=size; } if (size == -1) { error_msg(io_error, fileName, strerror(errno)); return( FALSE); } /* Pad the file up to the tar block size */ for (; (readSize%TAR_BLOCK_SIZE) != 0; readSize++) { write(tbInfo->tarFd, "\0", 1); } close( inputFileFd); } return( TRUE); } static int writeTarFile(const char* tarName, int verboseFlag, char **argv, char** excludeList) { int tarFd=-1; int errorFlag=FALSE; ssize_t size; struct TarBallInfo tbInfo; tbInfo.verboseFlag = verboseFlag; tbInfo.hlInfoHead = NULL; /* Make sure there is at least one file to tar up. */ if (*argv == NULL) error_msg_and_die("Cowardly refusing to create an empty archive"); /* Open the tar file for writing. */ if (tarName == NULL) tbInfo.tarFd = fileno(stdout); else tbInfo.tarFd = open (tarName, O_WRONLY | O_CREAT | O_TRUNC, 0644); if (tbInfo.tarFd < 0) { perror_msg( "Error opening '%s'", tarName); freeHardLinkInfo(&tbInfo.hlInfoHead); return ( FALSE); } tbInfo.excludeList=excludeList; /* Store the stat info for the tarball's file, so * can avoid including the tarball into itself.... */ if (fstat(tbInfo.tarFd, &tbInfo.statBuf) < 0) error_msg_and_die(io_error, tarName, strerror(errno)); /* Read the directory/files and iterate over them one at a time */ while (*argv != NULL) { if (! recursive_action(*argv++, TRUE, FALSE, FALSE, writeFileToTarball, writeFileToTarball, (void*) &tbInfo)) { errorFlag = TRUE; } } /* Write two empty blocks to the end of the archive */ for (size=0; size<(2*TAR_BLOCK_SIZE); size++) { write(tbInfo.tarFd, "\0", 1); } /* To be pedantically correct, we would check if the tarball * is smaller than 20 tar blocks, and pad it if it was smaller, * but that isn't necessary for GNU tar interoperability, and * so is considered a waste of space */ /* Hang up the tools, close up shop, head home */ close(tarFd); if (errorFlag) { error_msg("Error exit delayed from previous errors"); freeHardLinkInfo(&tbInfo.hlInfoHead); return(FALSE); } freeHardLinkInfo(&tbInfo.hlInfoHead); return( TRUE); } #endif //tar_create void append_file_to_list(const char *new_name, char ***list, int *list_count) { *list = realloc(*list, sizeof(char *) * (*list_count + 2)); (*list)[*list_count] = xstrdup(new_name); (*list_count)++; (*list)[*list_count] = NULL; } void append_file_list_to_list(char *filename, char ***name_list, int *num_of_entries) { FILE *src_stream; char *line; src_stream = xfopen(filename, "r"); while ((line = get_line_from_file(src_stream)) != NULL) { chomp (line); append_file_to_list(line, name_list, num_of_entries); free(line); } fclose(src_stream); } #ifdef CONFIG_FEATURE_TAR_EXCLUDE /* * Create a list of names that are in the include list AND NOT in the exclude lists */ char **list_and_not_list(char **include_list, char **exclude_list) { char **new_include_list = NULL; int new_include_count = 0; int include_count = 0; int exclude_count; if (include_list == NULL) { return(NULL); } while (include_list[include_count] != NULL) { int found = FALSE; exclude_count = 0; while (exclude_list[exclude_count] != NULL) { if (strcmp(include_list[include_count], exclude_list[exclude_count]) == 0) { found = TRUE; break; } exclude_count++; } if (! found) { new_include_list = realloc(new_include_list, sizeof(char *) * (include_count + 2)); new_include_list[new_include_count] = include_list[include_count]; new_include_count++; } else { free(include_list[include_count]); } include_count++; } new_include_list[new_include_count] = NULL; return(new_include_list); } #endif int tar_main(int argc, char **argv) { enum untar_funct_e { /* This is optional */ untar_unzip = 1, /* Require one and only one of these */ untar_list = 2, untar_create = 4, untar_extract = 8 }; FILE *src_stream = NULL; FILE *uncompressed_stream = NULL; char **include_list = NULL; char **exclude_list = NULL; char *src_filename = NULL; char *dst_prefix = NULL; int opt; unsigned short untar_funct = 0; unsigned short untar_funct_required = 0; unsigned short extract_function = 0; int include_list_count = 0; #ifdef CONFIG_FEATURE_TAR_EXCLUDE int exclude_list_count = 0; #endif #ifdef CONFIG_FEATURE_TAR_GZIP int gunzip_pid; int gz_fd = 0; #endif if (argc < 2) { show_usage(); } /* Prepend '-' to the first argument if required */ if (argv[1][0] != '-') { char *tmp = xmalloc(strlen(argv[1]) + 2); tmp[0] = '-'; strcpy(tmp + 1, argv[1]); argv[1] = tmp; } while ((opt = getopt(argc, argv, "ctxT:X:C:f:Opvz")) != -1) { switch (opt) { /* One and only one of these is required */ case 'c': untar_funct_required |= untar_create; break; case 't': untar_funct_required |= untar_list; extract_function |= extract_list |extract_unconditional; break; case 'x': untar_funct_required |= untar_extract; extract_function |= (extract_all_to_fs | extract_unconditional | extract_create_leading_dirs); break; /* These are optional */ /* Exclude or Include files listed in */ #ifdef CONFIG_FEATURE_TAR_EXCLUDE case 'X': append_file_list_to_list(optarg, &exclude_list, &exclude_list_count); break; #endif case 'T': // by default a list is an include list append_file_list_to_list(optarg, &include_list, &include_list_count); break; case 'C': // Change to dir /* Make sure dst_prefix ends in a '/' */ dst_prefix = concat_path_file(optarg, "/"); break; case 'f': // archive filename if (strcmp(optarg, "-") == 0) { src_filename = NULL; } else { src_filename = xstrdup(optarg); } break; case 'O': extract_function |= extract_to_stdout; break; case 'p': break; case 'v': if (extract_function & extract_list) { extract_function |= extract_verbose_list; } extract_function |= extract_list; break; #ifdef CONFIG_FEATURE_TAR_GZIP case 'z': untar_funct |= untar_unzip; break; #endif default: show_usage(); } } /* Make sure the valid arguments were passed */ if (untar_funct_required == 0) { error_msg_and_die("You must specify one of the `-ctx' options"); } if ((untar_funct_required != untar_create) && (untar_funct_required != untar_extract) && (untar_funct_required != untar_list)) { error_msg_and_die("You may not specify more than one `ctx' option."); } untar_funct |= untar_funct_required; /* Setup an array of filenames to work with */ while (optind < argc) { append_file_to_list(argv[optind], &include_list, &include_list_count); optind++; } if (extract_function & (extract_list | extract_all_to_fs)) { if (dst_prefix == NULL) { dst_prefix = xstrdup("./"); } /* Setup the source of the tar data */ if (src_filename != NULL) { src_stream = xfopen(src_filename, "r"); } else { src_stream = stdin; } #ifdef CONFIG_FEATURE_TAR_GZIP /* Get a binary tree of all the tar file headers */ if (untar_funct & untar_unzip) { uncompressed_stream = gz_open(src_stream, &gunzip_pid); } else #endif // CONFIG_FEATURE_TAR_GZIP uncompressed_stream = src_stream; /* extract or list archive */ unarchive(uncompressed_stream, stdout, &get_header_tar, extract_function, dst_prefix, include_list, exclude_list); fclose(uncompressed_stream); } #ifdef CONFIG_FEATURE_TAR_CREATE /* create an archive */ else if (untar_funct & untar_create) { int verboseFlag = FALSE; #ifdef CONFIG_FEATURE_TAR_GZIP if (untar_funct & untar_unzip) { error_msg_and_die("Creation of compressed tarfile not internally support by tar, pipe to busybox gunzip"); } #endif // CONFIG_FEATURE_TAR_GZIP if (extract_function & extract_verbose_list) { verboseFlag = TRUE; } writeTarFile(src_filename, verboseFlag, &argv[argc - 1], include_list); } #endif // CONFIG_FEATURE_TAR_CREATE /* Cleanups */ #ifdef CONFIG_FEATURE_TAR_GZIP if (untar_funct & untar_unzip) { fclose(src_stream); close(gz_fd); gz_close(gunzip_pid); } #endif // CONFIG_FEATURE_TAR_GZIP #ifdef CONFIG_FEATURE_CLEAN_UP if (src_filename) { free(src_filename); } #endif return(EXIT_SUCCESS); }