/* * util.c * * Copyright (c) 2006-2014 Pacman Development Team <pacman-dev@archlinux.org> * Copyright (c) 2002-2006 by Judd Vinet <jvinet@zeroflux.org> * Copyright (c) 2005 by Aurelien Foret <orelien@chez.com> * Copyright (c) 2005 by Christian Hamar <krics@linuxforum.hu> * Copyright (c) 2006 by David Kimpe <dnaku@frugalware.org> * Copyright (c) 2005, 2006 by Miklos Vajna <vmiklos@frugalware.org> * * 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, see <http://www.gnu.org/licenses/>. */ #include <stdlib.h> #include <unistd.h> #include <ctype.h> #include <dirent.h> #include <time.h> #include <syslog.h> #include <errno.h> #include <limits.h> #include <sys/wait.h> #include <fnmatch.h> /* libarchive */ #include <archive.h> #include <archive_entry.h> #ifdef HAVE_LIBSSL #include <openssl/md5.h> #include <openssl/sha.h> #else #include "md5.h" #include "sha2.h" #endif /* libalpm */ #include "util.h" #include "log.h" #include "libarchive-compat.h" #include "alpm.h" #include "alpm_list.h" #include "handle.h" #include "trans.h" #ifndef HAVE_STRSEP /** Extracts tokens from a string. * Replaces strset which is not portable (missing on Solaris). * Copyright (c) 2001 by François Gouget <fgouget_at_codeweavers.com> * Modifies str to point to the first character after the token if one is * found, or NULL if one is not. * @param str string containing delimited tokens to parse * @param delim character delimiting tokens in str * @return pointer to the first token in str if str is not NULL, NULL if * str is NULL */ char *strsep(char **str, const char *delims) { char *token; if(*str == NULL) { /* No more tokens */ return NULL; } token = *str; while(**str != '\0') { if(strchr(delims, **str) != NULL) { **str = '\0'; (*str)++; return token; } (*str)++; } /* There is no other token */ *str = NULL; return token; } #endif int _alpm_makepath(const char *path) { return _alpm_makepath_mode(path, 0755); } /** Creates a directory, including parents if needed, similar to 'mkdir -p'. * @param path directory path to create * @param mode permission mode for created directories * @return 0 on success, 1 on error */ int _alpm_makepath_mode(const char *path, mode_t mode) { char *ptr, *str; mode_t oldmask; int ret = 0; STRDUP(str, path, return 1); oldmask = umask(0000); for(ptr = str; *ptr; ptr++) { /* detect mid-path condition and zero length paths */ if(*ptr != '/' || ptr == str || ptr[-1] == '/') { continue; } /* temporarily mask the end of the path */ *ptr = '\0'; if(mkdir(str, mode) < 0 && errno != EEXIST) { ret = 1; goto done; } /* restore path separator */ *ptr = '/'; } /* end of the string. add the full path. It will already exist when the path * passed in has a trailing slash. */ if(mkdir(str, mode) < 0 && errno != EEXIST) { ret = 1; } done: umask(oldmask); free(str); return ret; } /** Copies a file. * @param src file path to copy from * @param dest file path to copy to * @return 0 on success, 1 on error */ int _alpm_copyfile(const char *src, const char *dest) { char *buf; int in, out, ret = 1; ssize_t nread; struct stat st; MALLOC(buf, (size_t)ALPM_BUFFER_SIZE, return 1); OPEN(in, src, O_RDONLY | O_CLOEXEC); do { out = open(dest, O_WRONLY | O_CREAT | O_BINARY | O_CLOEXEC, 0000); } while(out == -1 && errno == EINTR); if(in < 0 || out < 0) { goto cleanup; } if(fstat(in, &st) || fchmod(out, st.st_mode)) { goto cleanup; } /* do the actual file copy */ while((nread = read(in, buf, ALPM_BUFFER_SIZE)) > 0 || errno == EINTR) { ssize_t nwrite = 0; if(nread < 0) { continue; } do { nwrite = write(out, buf + nwrite, nread); if(nwrite >= 0) { nread -= nwrite; } else if(errno != EINTR) { goto cleanup; } } while(nread > 0); } ret = 0; cleanup: free(buf); if(in >= 0) { close(in); } if(out >= 0) { close(out); } return ret; } /** Trim trailing newlines from a string (if any exist). * @param str a single line of text * @param len size of str, if known, else 0 * @return the length of the trimmed string */ size_t _alpm_strip_newline(char *str, size_t len) { if(*str == '\0') { return 0; } if(len == 0) { len = strlen(str); } while(len > 0 && str[len - 1] == '\n') { len--; } str[len] = '\0'; return len; } /* Compression functions */ /** Open an archive for reading and perform the necessary boilerplate. * This takes care of creating the libarchive 'archive' struct, setting up * compression and format options, opening a file descriptor, setting up the * buffer size, and performing a stat on the path once opened. * On error, no file descriptor is opened, and the archive pointer returned * will be set to NULL. * @param handle the context handle * @param path the path of the archive to open * @param buf space for a stat buffer for the given path * @param archive pointer to place the created archive object * @param error error code to set on failure to open archive * @return -1 on failure, >=0 file descriptor on success */ int _alpm_open_archive(alpm_handle_t *handle, const char *path, struct stat *buf, struct archive **archive, alpm_errno_t error) { int fd; size_t bufsize = ALPM_BUFFER_SIZE; errno = 0; if((*archive = archive_read_new()) == NULL) { RET_ERR(handle, ALPM_ERR_LIBARCHIVE, -1); } _alpm_archive_read_support_filter_all(*archive); archive_read_support_format_all(*archive); _alpm_log(handle, ALPM_LOG_DEBUG, "opening archive %s\n", path); OPEN(fd, path, O_RDONLY | O_CLOEXEC); if(fd < 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not open file %s: %s\n"), path, strerror(errno)); goto error; } if(fstat(fd, buf) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not stat file %s: %s\n"), path, strerror(errno)); goto error; } #ifdef HAVE_STRUCT_STAT_ST_BLKSIZE if(buf->st_blksize > ALPM_BUFFER_SIZE) { bufsize = buf->st_blksize; } #endif if(archive_read_open_fd(*archive, fd, bufsize) != ARCHIVE_OK) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not open file %s: %s\n"), path, archive_error_string(*archive)); goto error; } return fd; error: _alpm_archive_read_free(*archive); *archive = NULL; if(fd >= 0) { close(fd); } RET_ERR(handle, error, -1); } /** Unpack a specific file in an archive. * @param handle the context handle * @param archive the archive to unpack * @param prefix where to extract the files * @param filename a file within the archive to unpack * @return 0 on success, 1 on failure */ int _alpm_unpack_single(alpm_handle_t *handle, const char *archive, const char *prefix, const char *filename) { alpm_list_t *list = NULL; int ret = 0; if(filename == NULL) { return 1; } list = alpm_list_add(list, (void *)filename); ret = _alpm_unpack(handle, archive, prefix, list, 1); alpm_list_free(list); return ret; } /** Unpack a list of files in an archive. * @param handle the context handle * @param path the archive to unpack * @param prefix where to extract the files * @param list a list of files within the archive to unpack or NULL for all * @param breakfirst break after the first entry found * @return 0 on success, 1 on failure */ int _alpm_unpack(alpm_handle_t *handle, const char *path, const char *prefix, alpm_list_t *list, int breakfirst) { int ret = 0; mode_t oldmask; struct archive *archive; struct archive_entry *entry; struct stat buf; int fd, cwdfd; fd = _alpm_open_archive(handle, path, &buf, &archive, ALPM_ERR_PKG_OPEN); if(fd < 0) { return 1; } oldmask = umask(0022); /* save the cwd so we can restore it later */ OPEN(cwdfd, ".", O_RDONLY | O_CLOEXEC); if(cwdfd < 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not get current working directory\n")); } /* just in case our cwd was removed in the upgrade operation */ if(chdir(prefix) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not change directory to %s (%s)\n"), prefix, strerror(errno)); ret = 1; goto cleanup; } while(archive_read_next_header(archive, &entry) == ARCHIVE_OK) { const char *entryname; mode_t mode; entryname = archive_entry_pathname(entry); /* If specific files were requested, skip entries that don't match. */ if(list) { char *entry_prefix = strdup(entryname); char *p = strstr(entry_prefix,"/"); if(p) { *(p + 1) = '\0'; } char *found = alpm_list_find_str(list, entry_prefix); free(entry_prefix); if(!found) { if(archive_read_data_skip(archive) != ARCHIVE_OK) { ret = 1; goto cleanup; } continue; } else { _alpm_log(handle, ALPM_LOG_DEBUG, "extracting: %s\n", entryname); } } mode = archive_entry_mode(entry); if(S_ISREG(mode)) { archive_entry_set_perm(entry, 0644); } else if(S_ISDIR(mode)) { archive_entry_set_perm(entry, 0755); } /* Extract the archive entry. */ int readret = archive_read_extract(archive, entry, 0); if(readret == ARCHIVE_WARN) { /* operation succeeded but a non-critical error was encountered */ _alpm_log(handle, ALPM_LOG_WARNING, _("warning given when extracting %s (%s)\n"), entryname, archive_error_string(archive)); } else if(readret != ARCHIVE_OK) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not extract %s (%s)\n"), entryname, archive_error_string(archive)); ret = 1; goto cleanup; } if(breakfirst) { break; } } cleanup: umask(oldmask); _alpm_archive_read_free(archive); close(fd); if(cwdfd >= 0) { if(fchdir(cwdfd) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not restore working directory (%s)\n"), strerror(errno)); } close(cwdfd); } return ret; } /** Determine if there are files in a directory. * @param handle the context handle * @param path the full absolute directory path * @param full_count whether to return an exact count of files * @return a file count if full_count is != 0, else >0 if directory has * contents, 0 if no contents, and -1 on error */ ssize_t _alpm_files_in_directory(alpm_handle_t *handle, const char *path, int full_count) { ssize_t files = 0; struct dirent *ent; DIR *dir = opendir(path); if(!dir) { if(errno == ENOTDIR) { _alpm_log(handle, ALPM_LOG_DEBUG, "%s was not a directory\n", path); } else { _alpm_log(handle, ALPM_LOG_DEBUG, "could not read directory %s\n", path); } return -1; } while((ent = readdir(dir)) != NULL) { const char *name = ent->d_name; if(strcmp(name, ".") == 0 || strcmp(name, "..") == 0) { continue; } files++; if(!full_count) { break; } } closedir(dir); return files; } /** Write formatted message to log. * @param handle the context handle * @param format formatted string to write out * @param args formatting arguments * @return 0 or number of characters written on success, vfprintf return value * on error */ int _alpm_logaction(alpm_handle_t *handle, const char *prefix, const char *fmt, va_list args) { int ret = 0; if(!(prefix && *prefix)) { prefix = "UNKNOWN"; } if(handle->usesyslog) { /* we can't use a va_list more than once, so we need to copy it * so we can use the original when calling vfprintf below. */ va_list args_syslog; va_copy(args_syslog, args); vsyslog(LOG_WARNING, fmt, args_syslog); va_end(args_syslog); } if(handle->logstream) { time_t t; struct tm *tm; t = time(NULL); tm = localtime(&t); /* Use ISO-8601 date format */ fprintf(handle->logstream, "[%04d-%02d-%02d %02d:%02d] [%s] ", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, prefix); ret = vfprintf(handle->logstream, fmt, args); fflush(handle->logstream); } return ret; } /** Execute a command with arguments in a chroot. * @param handle the context handle * @param cmd command to execute * @param argv arguments to pass to cmd * @return 0 on success, 1 on error */ int _alpm_run_chroot(alpm_handle_t *handle, const char *cmd, char *const argv[]) { pid_t pid; int pipefd[2], cwdfd; int retval = 0; /* save the cwd so we can restore it later */ OPEN(cwdfd, ".", O_RDONLY | O_CLOEXEC); if(cwdfd < 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not get current working directory\n")); } /* just in case our cwd was removed in the upgrade operation */ if(chdir(handle->root) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not change directory to %s (%s)\n"), handle->root, strerror(errno)); goto cleanup; } _alpm_log(handle, ALPM_LOG_DEBUG, "executing \"%s\" under chroot \"%s\"\n", cmd, handle->root); /* Flush open fds before fork() to avoid cloning buffers */ fflush(NULL); if(pipe(pipefd) == -1) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not create pipe (%s)\n"), strerror(errno)); retval = 1; goto cleanup; } /* fork- parent and child each have separate code blocks below */ pid = fork(); if(pid == -1) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not fork a new process (%s)\n"), strerror(errno)); retval = 1; goto cleanup; } if(pid == 0) { /* this code runs for the child only (the actual chroot/exec) */ close(1); close(2); while(dup2(pipefd[1], 1) == -1 && errno == EINTR); while(dup2(pipefd[1], 2) == -1 && errno == EINTR); close(pipefd[0]); close(pipefd[1]); close(cwdfd); /* use fprintf instead of _alpm_log to send output through the parent */ if(chroot(handle->root) != 0) { fprintf(stderr, _("could not change the root directory (%s)\n"), strerror(errno)); exit(1); } if(chdir("/") != 0) { fprintf(stderr, _("could not change directory to %s (%s)\n"), "/", strerror(errno)); exit(1); } umask(0022); execv(cmd, argv); /* execv only returns if there was an error */ fprintf(stderr, _("call to execv failed (%s)\n"), strerror(errno)); exit(1); } else { /* this code runs for the parent only (wait on the child) */ int status; FILE *pipe_file; close(pipefd[1]); pipe_file = fdopen(pipefd[0], "r"); if(pipe_file == NULL) { close(pipefd[0]); retval = 1; } else { while(!feof(pipe_file)) { char line[PATH_MAX]; alpm_event_scriptlet_info_t event = { .type = ALPM_EVENT_SCRIPTLET_INFO, .line = line }; if(fgets(line, PATH_MAX, pipe_file) == NULL) break; alpm_logaction(handle, "ALPM-SCRIPTLET", "%s", line); EVENT(handle, &event); } fclose(pipe_file); } while(waitpid(pid, &status, 0) == -1) { if(errno != EINTR) { _alpm_log(handle, ALPM_LOG_ERROR, _("call to waitpid failed (%s)\n"), strerror(errno)); retval = 1; goto cleanup; } } /* report error from above after the child has exited */ if(retval != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not open pipe (%s)\n"), strerror(errno)); goto cleanup; } /* check the return status, make sure it is 0 (success) */ if(WIFEXITED(status)) { _alpm_log(handle, ALPM_LOG_DEBUG, "call to waitpid succeeded\n"); if(WEXITSTATUS(status) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("command failed to execute correctly\n")); retval = 1; } } else if(WIFSIGNALED(status) != 0) { char *signal_description = strsignal(WTERMSIG(status)); /* strsignal can return NULL on some (non-Linux) platforms */ if(signal_description == NULL) { signal_description = _("Unknown signal"); } _alpm_log(handle, ALPM_LOG_ERROR, _("command terminated by signal %d: %s\n"), WTERMSIG(status), signal_description); retval = 1; } } cleanup: if(cwdfd >= 0) { if(fchdir(cwdfd) != 0) { _alpm_log(handle, ALPM_LOG_ERROR, _("could not restore working directory (%s)\n"), strerror(errno)); } close(cwdfd); } return retval; } /** Run ldconfig in a chroot. * @param handle the context handle * @return 0 on success, 1 on error */ int _alpm_ldconfig(alpm_handle_t *handle) { char line[PATH_MAX]; _alpm_log(handle, ALPM_LOG_DEBUG, "running ldconfig\n"); snprintf(line, PATH_MAX, "%setc/ld.so.conf", handle->root); if(access(line, F_OK) == 0) { snprintf(line, PATH_MAX, "%s%s", handle->root, LDCONFIG); if(access(line, X_OK) == 0) { char arg0[32]; char *argv[] = { arg0, NULL }; strcpy(arg0, "ldconfig"); return _alpm_run_chroot(handle, LDCONFIG, argv); } } return 0; } /** Helper function for comparing strings using the alpm "compare func" * signature. * @param s1 first string to be compared * @param s2 second string to be compared * @return 0 if strings are equal, positive int if first unequal character * has a greater value in s1, negative if it has a greater value in s2 */ int _alpm_str_cmp(const void *s1, const void *s2) { return strcmp(s1, s2); } /** Find a filename in a registered alpm cachedir. * @param handle the context handle * @param filename name of file to find * @return malloced path of file, NULL if not found */ char *_alpm_filecache_find(alpm_handle_t *handle, const char *filename) { char path[PATH_MAX]; char *retpath; alpm_list_t *i; struct stat buf; /* Loop through the cache dirs until we find a matching file */ for(i = handle->cachedirs; i; i = i->next) { snprintf(path, PATH_MAX, "%s%s", (char *)i->data, filename); if(stat(path, &buf) == 0 && S_ISREG(buf.st_mode)) { retpath = strdup(path); _alpm_log(handle, ALPM_LOG_DEBUG, "found cached pkg: %s\n", retpath); return retpath; } } /* package wasn't found in any cachedir */ return NULL; } /** Check the alpm cachedirs for existence and find a writable one. * If no valid cache directory can be found, use /tmp. * @param handle the context handle * @return pointer to a writable cache directory. */ const char *_alpm_filecache_setup(alpm_handle_t *handle) { struct stat buf; alpm_list_t *i; char *cachedir; const char *tmpdir; /* Loop through the cache dirs until we find a usable directory */ for(i = handle->cachedirs; i; i = i->next) { cachedir = i->data; if(stat(cachedir, &buf) != 0) { /* cache directory does not exist.... try creating it */ _alpm_log(handle, ALPM_LOG_WARNING, _("no %s cache exists, creating...\n"), cachedir); if(_alpm_makepath(cachedir) == 0) { _alpm_log(handle, ALPM_LOG_DEBUG, "using cachedir: %s\n", cachedir); return cachedir; } } else if(!S_ISDIR(buf.st_mode)) { _alpm_log(handle, ALPM_LOG_DEBUG, "skipping cachedir, not a directory: %s\n", cachedir); } else if(_alpm_access(handle, NULL, cachedir, W_OK) != 0) { _alpm_log(handle, ALPM_LOG_DEBUG, "skipping cachedir, not writable: %s\n", cachedir); } else if(!(buf.st_mode & (S_IWUSR | S_IWGRP | S_IWOTH))) { _alpm_log(handle, ALPM_LOG_DEBUG, "skipping cachedir, no write bits set: %s\n", cachedir); } else { _alpm_log(handle, ALPM_LOG_DEBUG, "using cachedir: %s\n", cachedir); return cachedir; } } /* we didn't find a valid cache directory. use TMPDIR or /tmp. */ if((tmpdir = getenv("TMPDIR")) && stat(tmpdir, &buf) && S_ISDIR(buf.st_mode)) { /* TMPDIR was good, we can use it */ } else { tmpdir = "/tmp"; } alpm_option_add_cachedir(handle, tmpdir); cachedir = handle->cachedirs->prev->data; _alpm_log(handle, ALPM_LOG_DEBUG, "using cachedir: %s\n", cachedir); _alpm_log(handle, ALPM_LOG_WARNING, _("couldn't find or create package cache, using %s instead\n"), cachedir); return cachedir; } /** lstat wrapper that treats /path/dirsymlink/ the same as /path/dirsymlink. * Linux lstat follows POSIX semantics and still performs a dereference on * the first, and for uses of lstat in libalpm this is not what we want. * @param path path to file to lstat * @param buf structure to fill with stat information * @return the return code from lstat */ int _alpm_lstat(const char *path, struct stat *buf) { int ret; size_t len = strlen(path); /* strip the trailing slash if one exists */ if(len != 0 && path[len - 1] == '/') { char *newpath = strdup(path); newpath[len - 1] = '\0'; ret = lstat(newpath, buf); free(newpath); } else { ret = lstat(path, buf); } return ret; } #ifdef HAVE_LIBSSL /** Compute the MD5 message digest of a file. * @param path file path of file to compute MD5 digest of * @param output string to hold computed MD5 digest * @return 0 on success, 1 on file open error, 2 on file read error */ static int md5_file(const char *path, unsigned char output[16]) { MD5_CTX ctx; unsigned char *buf; ssize_t n; int fd; MALLOC(buf, (size_t)ALPM_BUFFER_SIZE, return 1); OPEN(fd, path, O_RDONLY | O_CLOEXEC); if(fd < 0) { free(buf); return 1; } MD5_Init(&ctx); while((n = read(fd, buf, ALPM_BUFFER_SIZE)) > 0 || errno == EINTR) { if(n < 0) { continue; } MD5_Update(&ctx, buf, n); } close(fd); free(buf); if(n < 0) { return 2; } MD5_Final(output, &ctx); return 0; } /* third param is so we match the PolarSSL definition */ /** Compute the SHA-224 or SHA-256 message digest of a file. * @param path file path of file to compute SHA2 digest of * @param output string to hold computed SHA2 digest * @param is224 use SHA-224 instead of SHA-256 * @return 0 on success, 1 on file open error, 2 on file read error */ static int sha2_file(const char *path, unsigned char output[32], int is224) { SHA256_CTX ctx; unsigned char *buf; ssize_t n; int fd; MALLOC(buf, (size_t)ALPM_BUFFER_SIZE, return 1); OPEN(fd, path, O_RDONLY | O_CLOEXEC); if(fd < 0) { free(buf); return 1; } if(is224) { SHA224_Init(&ctx); } else { SHA256_Init(&ctx); } while((n = read(fd, buf, ALPM_BUFFER_SIZE)) > 0 || errno == EINTR) { if(n < 0) { continue; } if(is224) { SHA224_Update(&ctx, buf, n); } else { SHA256_Update(&ctx, buf, n); } } close(fd); free(buf); if(n < 0) { return 2; } if(is224) { SHA224_Final(output, &ctx); } else { SHA256_Final(output, &ctx); } return 0; } #endif /** Create a string representing bytes in hexadecimal. * @param bytes the bytes to represent in hexadecimal * @param size number of bytes to consider * @return a NULL terminated string with the hexadecimal representation of * bytes or NULL on error. This string must be freed. */ static char *hex_representation(unsigned char *bytes, size_t size) { static const char *hex_digits = "0123456789abcdef"; char *str; size_t i; MALLOC(str, 2 * size + 1, return NULL); for(i = 0; i < size; i++) { str[2 * i] = hex_digits[bytes[i] >> 4]; str[2 * i + 1] = hex_digits[bytes[i] & 0x0f]; } str[2 * size] = '\0'; return str; } /** Get the md5 sum of file. * @param filename name of the file * @return the checksum on success, NULL on error * @addtogroup alpm_misc */ char SYMEXPORT *alpm_compute_md5sum(const char *filename) { unsigned char output[16]; ASSERT(filename != NULL, return NULL); /* defined above for OpenSSL, otherwise defined in md5.h */ if(md5_file(filename, output) > 0) { return NULL; } return hex_representation(output, 16); } /** Get the sha256 sum of file. * @param filename name of the file * @return the checksum on success, NULL on error * @addtogroup alpm_misc */ char SYMEXPORT *alpm_compute_sha256sum(const char *filename) { unsigned char output[32]; ASSERT(filename != NULL, return NULL); /* defined above for OpenSSL, otherwise defined in sha2.h */ if(sha2_file(filename, output, 0) > 0) { return NULL; } return hex_representation(output, 32); } /** Calculates a file's MD5 or SHA-2 digest and compares it to an expected value. * @param filepath path of the file to check * @param expected hash value to compare against * @param type digest type to use * @return 0 if file matches the expected hash, 1 if they do not match, -1 on * error */ int _alpm_test_checksum(const char *filepath, const char *expected, alpm_pkgvalidation_t type) { char *computed; int ret; if(type == ALPM_PKG_VALIDATION_MD5SUM) { computed = alpm_compute_md5sum(filepath); } else if(type == ALPM_PKG_VALIDATION_SHA256SUM) { computed = alpm_compute_sha256sum(filepath); } else { return -1; } if(expected == NULL || computed == NULL) { ret = -1; } else if(strcmp(expected, computed) != 0) { ret = 1; } else { ret = 0; } FREE(computed); return ret; } /* Note: does NOT handle sparse files on purpose for speed. */ /** TODO. * Does not handle sparse files on purpose for speed. * @param a * @param b * @return */ int _alpm_archive_fgets(struct archive *a, struct archive_read_buffer *b) { /* ensure we start populating our line buffer at the beginning */ b->line_offset = b->line; while(1) { size_t block_remaining; char *eol; /* have we processed this entire block? */ if(b->block + b->block_size == b->block_offset) { int64_t offset; if(b->ret == ARCHIVE_EOF) { /* reached end of archive on the last read, now we are out of data */ goto cleanup; } /* zero-copy - this is the entire next block of data. */ b->ret = archive_read_data_block(a, (void *)&b->block, &b->block_size, &offset); b->block_offset = b->block; block_remaining = b->block_size; /* error, cleanup */ if(b->ret < ARCHIVE_OK) { goto cleanup; } } else { block_remaining = b->block + b->block_size - b->block_offset; } /* look through the block looking for EOL characters */ eol = memchr(b->block_offset, '\n', block_remaining); if(!eol) { eol = memchr(b->block_offset, '\0', block_remaining); } /* allocate our buffer, or ensure our existing one is big enough */ if(!b->line) { /* set the initial buffer to the read block_size */ CALLOC(b->line, b->block_size + 1, sizeof(char), b->ret = -ENOMEM; goto cleanup); b->line_size = b->block_size + 1; b->line_offset = b->line; } else { /* note: we know eol > b->block_offset and b->line_offset > b->line, * so we know the result is unsigned and can fit in size_t */ size_t new = eol ? (size_t)(eol - b->block_offset) : block_remaining; size_t needed = (size_t)((b->line_offset - b->line) + new + 1); if(needed > b->max_line_size) { b->ret = -ERANGE; goto cleanup; } if(needed > b->line_size) { /* need to realloc + copy data to fit total length */ char *new_line; CALLOC(new_line, needed, sizeof(char), b->ret = -ENOMEM; goto cleanup); memcpy(new_line, b->line, b->line_size); b->line_size = needed; b->line_offset = new_line + (b->line_offset - b->line); free(b->line); b->line = new_line; } } if(eol) { size_t len = (size_t)(eol - b->block_offset); memcpy(b->line_offset, b->block_offset, len); b->line_offset[len] = '\0'; b->block_offset = eol + 1; b->real_line_size = b->line_offset + len - b->line; /* this is the main return point; from here you can read b->line */ return ARCHIVE_OK; } else { /* we've looked through the whole block but no newline, copy it */ size_t len = (size_t)(b->block + b->block_size - b->block_offset); memcpy(b->line_offset, b->block_offset, len); b->line_offset += len; b->block_offset = b->block + b->block_size; /* there was no new data, return what is left; saved ARCHIVE_EOF will be * returned on next call */ if(len == 0) { b->line_offset[0] = '\0'; b->real_line_size = b->line_offset - b->line; return ARCHIVE_OK; } } } cleanup: { int ret = b->ret; FREE(b->line); memset(b, 0, sizeof(struct archive_read_buffer)); return ret; } } /** Parse a full package specifier. * @param target package specifier to parse, such as: "pacman-4.0.1-2", * "pacman-4.01-2/", or "pacman-4.0.1-2/desc" * @param name to hold package name * @param version to hold package version * @param name_hash to hold package name hash * @return 0 on success, -1 on error */ int _alpm_splitname(const char *target, char **name, char **version, unsigned long *name_hash) { /* the format of a db entry is as follows: * package-version-rel/ * package-version-rel/desc (we ignore the filename portion) * package name can contain hyphens, so parse from the back- go back * two hyphens and we have split the version from the name. */ const char *pkgver, *end; if(target == NULL) { return -1; } /* remove anything trailing a '/' */ end = strchr(target, '/'); if(!end) { end = target + strlen(target); } /* do the magic parsing- find the beginning of the version string * by doing two iterations of same loop to lop off two hyphens */ for(pkgver = end - 1; *pkgver && *pkgver != '-'; pkgver--); for(pkgver = pkgver - 1; *pkgver && *pkgver != '-'; pkgver--); if(*pkgver != '-' || pkgver == target) { return -1; } /* copy into fields and return */ if(version) { if(*version) { FREE(*version); } /* version actually points to the dash, so need to increment 1 and account * for potential end character */ STRNDUP(*version, pkgver + 1, end - pkgver - 1, return -1); } if(name) { if(*name) { FREE(*name); } STRNDUP(*name, target, pkgver - target, return -1); if(name_hash) { *name_hash = _alpm_hash_sdbm(*name); } } return 0; } /** Hash the given string to an unsigned long value. * This is the standard sdbm hashing algorithm. * @param str string to hash * @return the hash value of the given string */ unsigned long _alpm_hash_sdbm(const char *str) { unsigned long hash = 0; int c; if(!str) { return hash; } while((c = *str++)) { hash = c + hash * 65599; } return hash; } /** Convert a string to a file offset. * This parses bare positive integers only. * @param line string to convert * @return off_t on success, -1 on error */ off_t _alpm_strtoofft(const char *line) { char *end; unsigned long long result; errno = 0; /* we are trying to parse bare numbers only, no leading anything */ if(!isdigit((unsigned char)line[0])) { return (off_t)-1; } result = strtoull(line, &end, 10); if(result == 0 && end == line) { /* line was not a number */ return (off_t)-1; } else if(result == ULLONG_MAX && errno == ERANGE) { /* line does not fit in unsigned long long */ return (off_t)-1; } else if(*end) { /* line began with a number but has junk left over at the end */ return (off_t)-1; } return (off_t)result; } /** Parses a date into an alpm_time_t struct. * @param line date to parse * @return time struct on success, 0 on error */ alpm_time_t _alpm_parsedate(const char *line) { char *end; long long result; errno = 0; result = strtoll(line, &end, 10); if(result == 0 && end == line) { /* line was not a number */ errno = EINVAL; return 0; } else if(errno == ERANGE) { /* line does not fit in long long */ return 0; } else if(*end) { /* line began with a number but has junk left over at the end */ errno = EINVAL; return 0; } return (alpm_time_t)result; } /** Wrapper around access() which takes a dir and file argument * separately and generates an appropriate error message. * If dir is NULL file will be treated as the whole path. * @param handle an alpm handle * @param dir directory path ending with and slash * @param file filename * @param amode access mode as described in access() * @return int value returned by access() */ int _alpm_access(alpm_handle_t *handle, const char *dir, const char *file, int amode) { size_t len = 0; int ret = 0; if(dir) { char *check_path; len = strlen(dir) + strlen(file) + 1; CALLOC(check_path, len, sizeof(char), RET_ERR(handle, ALPM_ERR_MEMORY, -1)); snprintf(check_path, len, "%s%s", dir, file); ret = access(check_path, amode); free(check_path); } else { dir = ""; ret = access(file, amode); } if(ret != 0) { if(amode & R_OK) { _alpm_log(handle, ALPM_LOG_DEBUG, "\"%s%s\" is not readable: %s\n", dir, file, strerror(errno)); } if(amode & W_OK) { _alpm_log(handle, ALPM_LOG_DEBUG, "\"%s%s\" is not writable: %s\n", dir, file, strerror(errno)); } if(amode & X_OK) { _alpm_log(handle, ALPM_LOG_DEBUG, "\"%s%s\" is not executable: %s\n", dir, file, strerror(errno)); } if(amode == F_OK) { _alpm_log(handle, ALPM_LOG_DEBUG, "\"%s%s\" does not exist: %s\n", dir, file, strerror(errno)); } } return ret; } /** Checks whether a string matches at least one shell wildcard pattern. * Checks for matches with fnmatch. Matches are inverted by prepending * patterns with an exclamation mark. Preceding exclamation marks may be * escaped. Subsequent matches override previous ones. * @param patterns patterns to match against * @param string string to check against pattern * @return 0 if string matches pattern, negative if they don't match and * positive if the last match was inverted */ int _alpm_fnmatch_patterns(alpm_list_t *patterns, const char *string) { alpm_list_t *i; char *pattern; short inverted; for(i = alpm_list_last(patterns); i; i = alpm_list_previous(i)) { pattern = i->data; inverted = pattern[0] == '!'; if(inverted || pattern[0] == '\\') { pattern++; } if(_alpm_fnmatch(pattern, string) == 0) { return inverted; } } return -1; } /** Checks whether a string matches a shell wildcard pattern. * Wrapper around fnmatch. * @param pattern pattern to match against * @param string string to check against pattern * @return 0 if string matches pattern, non-zero if they don't match and on * error */ int _alpm_fnmatch(const void *pattern, const void *string) { return fnmatch(pattern, string, 0); } /** Think of this as realloc with error handling. If realloc fails NULL will be * returned and data will not be changed. * * Newly created memory will be zeroed. * * @param data source memory space * @param current size of the space pointed to by data * @param required size you want * @return new memory; NULL on error */ void *_alpm_realloc(void **data, size_t *current, const size_t required) { char *newdata; newdata = realloc(*data, required); if(!newdata) { _alpm_alloc_fail(required); return NULL; } if (*current < required) { /* ensure all new memory is zeroed out, in both the initial * allocation and later reallocs */ memset(newdata + *current, 0, required - *current); } *current = required; *data = newdata; return newdata; } /** This automatically grows data based on current/required. * * The memory space will be initialised to required bytes and doubled in size when required. * * Newly created memory will be zeroed. * @param data source memory space * @param current size of the space pointed to by data * @param required size you want * @return new memory if grown; old memory otherwise; NULL on error */ void *_alpm_greedy_grow(void **data, size_t *current, const size_t required) { size_t newsize = 0; if(*current >= required) { return data; } if(*current == 0) { newsize = required; } else { newsize = *current * 2; } /* check for overflows */ if (newsize < required) { return NULL; } return _alpm_realloc(data, current, required); } void _alpm_alloc_fail(size_t size) { fprintf(stderr, "alloc failure: could not allocate %zd bytes\n", size); } /* vim: set noet: */