/* * Copyright (c) 2005, 2006 Rene Scharfe */ #include #include "cache.h" #include "tree-walk.h" #include "commit.h" #include "strbuf.h" #include "tar.h" #include "builtin.h" #include "pkt-line.h" #define RECORDSIZE (512) #define BLOCKSIZE (RECORDSIZE * 20) static const char tar_tree_usage[] = "git-tar-tree [--remote=] [basedir]"; static char block[BLOCKSIZE]; static unsigned long offset; static time_t archive_time; static int tar_umask; /* tries hard to write, either succeeds or dies in the attempt */ static void reliable_write(const void *data, unsigned long size) { const char *buf = data; while (size > 0) { long ret = xwrite(1, buf, size); if (ret < 0) { if (errno == EPIPE) exit(0); die("git-tar-tree: %s", strerror(errno)); } else if (!ret) { die("git-tar-tree: disk full?"); } size -= ret; buf += ret; } } /* writes out the whole block, but only if it is full */ static void write_if_needed(void) { if (offset == BLOCKSIZE) { reliable_write(block, BLOCKSIZE); offset = 0; } } /* * queues up writes, so that all our write(2) calls write exactly one * full block; pads writes to RECORDSIZE */ static void write_blocked(const void *data, unsigned long size) { const char *buf = data; unsigned long tail; if (offset) { unsigned long chunk = BLOCKSIZE - offset; if (size < chunk) chunk = size; memcpy(block + offset, buf, chunk); size -= chunk; offset += chunk; buf += chunk; write_if_needed(); } while (size >= BLOCKSIZE) { reliable_write(buf, BLOCKSIZE); size -= BLOCKSIZE; buf += BLOCKSIZE; } if (size) { memcpy(block + offset, buf, size); offset += size; } tail = offset % RECORDSIZE; if (tail) { memset(block + offset, 0, RECORDSIZE - tail); offset += RECORDSIZE - tail; } write_if_needed(); } /* * The end of tar archives is marked by 2*512 nul bytes and after that * follows the rest of the block (if any). */ static void write_trailer(void) { int tail = BLOCKSIZE - offset; memset(block + offset, 0, tail); reliable_write(block, BLOCKSIZE); if (tail < 2 * RECORDSIZE) { memset(block, 0, offset); reliable_write(block, BLOCKSIZE); } } static void strbuf_append_string(struct strbuf *sb, const char *s) { int slen = strlen(s); int total = sb->len + slen; if (total > sb->alloc) { sb->buf = xrealloc(sb->buf, total); sb->alloc = total; } memcpy(sb->buf + sb->len, s, slen); sb->len = total; } /* * pax extended header records have the format "%u %s=%s\n". %u contains * the size of the whole string (including the %u), the first %s is the * keyword, the second one is the value. This function constructs such a * string and appends it to a struct strbuf. */ static void strbuf_append_ext_header(struct strbuf *sb, const char *keyword, const char *value, unsigned int valuelen) { char *p; int len, total, tmp; /* "%u %s=%s\n" */ len = 1 + 1 + strlen(keyword) + 1 + valuelen + 1; for (tmp = len; tmp > 9; tmp /= 10) len++; total = sb->len + len; if (total > sb->alloc) { sb->buf = xrealloc(sb->buf, total); sb->alloc = total; } p = sb->buf; p += sprintf(p, "%u %s=", len, keyword); memcpy(p, value, valuelen); p += valuelen; *p = '\n'; sb->len = total; } static unsigned int ustar_header_chksum(const struct ustar_header *header) { char *p = (char *)header; unsigned int chksum = 0; while (p < header->chksum) chksum += *p++; chksum += sizeof(header->chksum) * ' '; p += sizeof(header->chksum); while (p < (char *)header + sizeof(struct ustar_header)) chksum += *p++; return chksum; } static int get_path_prefix(const struct strbuf *path, int maxlen) { int i = path->len; if (i > maxlen) i = maxlen; do { i--; } while (i > 0 && path->buf[i] != '/'); return i; } static void write_entry(const unsigned char *sha1, struct strbuf *path, unsigned int mode, void *buffer, unsigned long size) { struct ustar_header header; struct strbuf ext_header; memset(&header, 0, sizeof(header)); ext_header.buf = NULL; ext_header.len = ext_header.alloc = 0; if (!sha1) { *header.typeflag = TYPEFLAG_GLOBAL_HEADER; mode = 0100666; strcpy(header.name, "pax_global_header"); } else if (!path) { *header.typeflag = TYPEFLAG_EXT_HEADER; mode = 0100666; sprintf(header.name, "%s.paxheader", sha1_to_hex(sha1)); } else { if (S_ISDIR(mode)) { *header.typeflag = TYPEFLAG_DIR; mode = (mode | 0777) & ~tar_umask; } else if (S_ISLNK(mode)) { *header.typeflag = TYPEFLAG_LNK; mode |= 0777; } else if (S_ISREG(mode)) { *header.typeflag = TYPEFLAG_REG; mode = (mode | ((mode & 0100) ? 0777 : 0666)) & ~tar_umask; } else { error("unsupported file mode: 0%o (SHA1: %s)", mode, sha1_to_hex(sha1)); return; } if (path->len > sizeof(header.name)) { int plen = get_path_prefix(path, sizeof(header.prefix)); int rest = path->len - plen - 1; if (plen > 0 && rest <= sizeof(header.name)) { memcpy(header.prefix, path->buf, plen); memcpy(header.name, path->buf + plen + 1, rest); } else { sprintf(header.name, "%s.data", sha1_to_hex(sha1)); strbuf_append_ext_header(&ext_header, "path", path->buf, path->len); } } else memcpy(header.name, path->buf, path->len); } if (S_ISLNK(mode) && buffer) { if (size > sizeof(header.linkname)) { sprintf(header.linkname, "see %s.paxheader", sha1_to_hex(sha1)); strbuf_append_ext_header(&ext_header, "linkpath", buffer, size); } else memcpy(header.linkname, buffer, size); } sprintf(header.mode, "%07o", mode & 07777); sprintf(header.size, "%011lo", S_ISREG(mode) ? size : 0); sprintf(header.mtime, "%011lo", archive_time); /* XXX: should we provide more meaningful info here? */ sprintf(header.uid, "%07o", 0); sprintf(header.gid, "%07o", 0); strlcpy(header.uname, "git", sizeof(header.uname)); strlcpy(header.gname, "git", sizeof(header.gname)); sprintf(header.devmajor, "%07o", 0); sprintf(header.devminor, "%07o", 0); memcpy(header.magic, "ustar", 6); memcpy(header.version, "00", 2); sprintf(header.chksum, "%07o", ustar_header_chksum(&header)); if (ext_header.len > 0) { write_entry(sha1, NULL, 0, ext_header.buf, ext_header.len); free(ext_header.buf); } write_blocked(&header, sizeof(header)); if (S_ISREG(mode) && buffer && size > 0) write_blocked(buffer, size); } static void write_global_extended_header(const unsigned char *sha1) { struct strbuf ext_header; ext_header.buf = NULL; ext_header.len = ext_header.alloc = 0; strbuf_append_ext_header(&ext_header, "comment", sha1_to_hex(sha1), 40); write_entry(NULL, NULL, 0, ext_header.buf, ext_header.len); free(ext_header.buf); } static void traverse_tree(struct tree_desc *tree, struct strbuf *path) { int pathlen = path->len; struct name_entry entry; while (tree_entry(tree, &entry)) { void *eltbuf; char elttype[20]; unsigned long eltsize; eltbuf = read_sha1_file(entry.sha1, elttype, &eltsize); if (!eltbuf) die("cannot read %s", sha1_to_hex(entry.sha1)); path->len = pathlen; strbuf_append_string(path, entry.path); if (S_ISDIR(entry.mode)) strbuf_append_string(path, "/"); write_entry(entry.sha1, path, entry.mode, eltbuf, eltsize); if (S_ISDIR(entry.mode)) { struct tree_desc subtree; subtree.buf = eltbuf; subtree.size = eltsize; traverse_tree(&subtree, path); } free(eltbuf); } } int git_tar_config(const char *var, const char *value) { if (!strcmp(var, "tar.umask")) { if (!strcmp(value, "user")) { tar_umask = umask(0); umask(tar_umask); } else { tar_umask = git_config_int(var, value); } return 0; } return git_default_config(var, value); } static int generate_tar(int argc, const char **argv, const char *prefix) { unsigned char sha1[20], tree_sha1[20]; struct commit *commit; struct tree_desc tree; struct strbuf current_path; void *buffer; current_path.buf = xmalloc(PATH_MAX); current_path.alloc = PATH_MAX; current_path.len = current_path.eof = 0; git_config(git_tar_config); switch (argc) { case 3: strbuf_append_string(¤t_path, argv[2]); strbuf_append_string(¤t_path, "/"); /* FALLTHROUGH */ case 2: if (get_sha1(argv[1], sha1)) die("Not a valid object name %s", argv[1]); break; default: usage(tar_tree_usage); } commit = lookup_commit_reference_gently(sha1, 1); if (commit) { write_global_extended_header(commit->object.sha1); archive_time = commit->date; } else archive_time = time(NULL); tree.buf = buffer = read_object_with_reference(sha1, tree_type, &tree.size, tree_sha1); if (!tree.buf) die("not a reference to a tag, commit or tree object: %s", sha1_to_hex(sha1)); if (current_path.len > 0) write_entry(tree_sha1, ¤t_path, 040777, NULL, 0); traverse_tree(&tree, ¤t_path); write_trailer(); free(buffer); free(current_path.buf); return 0; } static const char *exec = "git-upload-tar"; static int remote_tar(int argc, const char **argv) { int fd[2], ret, len; pid_t pid; char buf[1024]; char *url; if (argc < 3 || 4 < argc) usage(tar_tree_usage); /* --remote= */ url = strdup(argv[1]+9); pid = git_connect(fd, url, exec); if (pid < 0) return 1; packet_write(fd[1], "want %s\n", argv[2]); if (argv[3]) packet_write(fd[1], "base %s\n", argv[3]); packet_flush(fd[1]); len = packet_read_line(fd[0], buf, sizeof(buf)); if (!len) die("git-tar-tree: expected ACK/NAK, got EOF"); if (buf[len-1] == '\n') buf[--len] = 0; if (strcmp(buf, "ACK")) { if (5 < len && !strncmp(buf, "NACK ", 5)) die("git-tar-tree: NACK %s", buf + 5); die("git-tar-tree: protocol error"); } /* expect a flush */ len = packet_read_line(fd[0], buf, sizeof(buf)); if (len) die("git-tar-tree: expected a flush"); /* Now, start reading from fd[0] and spit it out to stdout */ ret = copy_fd(fd[0], 1); close(fd[0]); ret |= finish_connect(pid); return !!ret; } int cmd_tar_tree(int argc, const char **argv, const char *prefix) { if (argc < 2) usage(tar_tree_usage); if (!strncmp("--remote=", argv[1], 9)) return remote_tar(argc, argv); return generate_tar(argc, argv, prefix); } /* ustar header + extended global header content */ #define HEADERSIZE (2 * RECORDSIZE) int cmd_get_tar_commit_id(int argc, const char **argv, const char *prefix) { char buffer[HEADERSIZE]; struct ustar_header *header = (struct ustar_header *)buffer; char *content = buffer + RECORDSIZE; ssize_t n; n = xread(0, buffer, HEADERSIZE); if (n < HEADERSIZE) die("git-get-tar-commit-id: read error"); if (header->typeflag[0] != 'g') return 1; if (memcmp(content, "52 comment=", 11)) return 1; n = xwrite(1, content + 11, 41); if (n < 41) die("git-get-tar-commit-id: write error"); return 0; }