/* $OpenBSD: resp.c,v 1.70 2006/01/26 09:05:31 xsa Exp $ */ /* * Copyright (c) 2004 Jean-Francois Brousseau * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL * THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "includes.h" #include "buf.h" #include "cvs.h" #include "log.h" #include "proto.h" #define CVS_MTSTK_MAXDEPTH 16 static int cvs_resp_validreq (struct cvsroot *, int, char *); static int cvs_resp_cksum (struct cvsroot *, int, char *); static int cvs_resp_modtime (struct cvsroot *, int, char *); static int cvs_resp_m (struct cvsroot *, int, char *); static int cvs_resp_ok (struct cvsroot *, int, char *); static int cvs_resp_error (struct cvsroot *, int, char *); static int cvs_resp_statdir (struct cvsroot *, int, char *); static int cvs_resp_sticky (struct cvsroot *, int, char *); static int cvs_resp_newentry (struct cvsroot *, int, char *); static int cvs_resp_updated (struct cvsroot *, int, char *); static int cvs_resp_removed (struct cvsroot *, int, char *); static int cvs_resp_mode (struct cvsroot *, int, char *); static int cvs_resp_modxpand (struct cvsroot *, int, char *); static int cvs_resp_rcsdiff (struct cvsroot *, int, char *); static int cvs_resp_template (struct cvsroot *, int, char *); static int cvs_resp_copyfile (struct cvsroot *, int, char *); static int cvs_resp_createdir (char *); struct cvs_resphdlr { int (*hdlr)(struct cvsroot *, int, char *); } cvs_resp_swtab[CVS_RESP_MAX + 1] = { { NULL }, { cvs_resp_ok }, { cvs_resp_error }, { cvs_resp_validreq }, { cvs_resp_newentry }, { cvs_resp_newentry }, { cvs_resp_cksum }, { cvs_resp_copyfile }, { cvs_resp_updated }, { cvs_resp_updated }, { cvs_resp_updated }, /* 10 */ { cvs_resp_updated }, { cvs_resp_updated }, { cvs_resp_rcsdiff }, { cvs_resp_mode }, { cvs_resp_modtime }, { cvs_resp_removed }, { cvs_resp_removed }, { cvs_resp_statdir }, { cvs_resp_statdir }, { cvs_resp_sticky }, /* 20 */ { cvs_resp_sticky }, { cvs_resp_template }, { NULL }, { NULL }, { NULL }, { cvs_resp_modxpand }, { NULL }, { cvs_resp_m }, { cvs_resp_m }, { cvs_resp_m }, /* 30 */ { cvs_resp_m }, { cvs_resp_m }, }; /* * Instead of opening and closing the Entry file all the time, * which caused a huge CPU load and slowed down everything, * we keep the Entry file for the directory we are working in * open until we encounter a new directory. */ static char cvs_resp_lastdir[MAXPATHLEN] = ""; static CVSENTRIES *cvs_resp_lastent = NULL; static int resp_check_dir(struct cvsroot *, const char *); /* * The MT command uses scoping to tag the data. Whenever we encouter a '+', * we push the name of the tag on the stack, and we pop it when we encounter * a '-' with the same name. */ static char *cvs_mt_stack[CVS_MTSTK_MAXDEPTH]; static u_int cvs_mtstk_depth = 0; static time_t cvs_modtime = CVS_DATE_DMSEC; /* last checksum received */ char *cvs_fcksum = NULL; mode_t cvs_lastmode = 0; /* hack to receive the remote version without outputting it */ extern u_int cvs_version_sent; /* * cvs_resp_handle() * * Generic response handler dispatcher. The handler expects the first line * of the command as single argument. * Returns the return value of the command on success, or -1 on failure. */ int cvs_resp_handle(struct cvsroot *root, char *line) { int ret; char *cp, *cmd; struct cvs_resp *resp; cmd = line; cp = strchr(cmd, ' '); if (cp != NULL) *(cp++) = '\0'; resp = cvs_resp_getbyname(cmd); if (resp == NULL) { return (-1); } else if (cvs_resp_swtab[resp->resp_id].hdlr == NULL) { cvs_log(LP_ERR, "handler for `%s' not implemented", cmd); return (-1); } ret = (*cvs_resp_swtab[resp->resp_id].hdlr)(root, resp->resp_id, cp); if (ret == -1) cvs_log(LP_ERR, "error in handling of `%s' response", cmd); return (ret); } /* * cvs_resp_validreq() * * Handler for the `Valid-requests' response. The list of valid requests is * split on spaces and each request's entry in the valid request array is set * to 1 to indicate the validity. * Returns 0 on success, or -1 on failure. */ static int cvs_resp_validreq(struct cvsroot *root, int type, char *line) { char *sp, *ep; struct cvs_req *req; /* parse the requests */ sp = line; do { ep = strchr(sp, ' '); if (ep != NULL) *ep = '\0'; req = cvs_req_getbyname(sp); if (req != NULL) CVS_SETVR(root, req->req_id); if (ep != NULL) sp = ep + 1; } while (ep != NULL); return (0); } /* * cvs_resp_m() * * Handler for the `M', 'MT', `F' and `E' responses. */ static int cvs_resp_m(struct cvsroot *root, int type, char *line) { char *cp; FILE *stream; stream = NULL; switch (type) { case CVS_RESP_F: fflush(stderr); return (0); case CVS_RESP_M: if (cvs_version_sent) { /* * Instead of outputting the line, we save it as the * remote server's version string. */ cvs_version_sent = 0; root->cr_version = xstrdup(line); return (0); } stream = stdout; break; case CVS_RESP_E: stream = stderr; break; case CVS_RESP_MT: if (*line == '+') { if (cvs_mtstk_depth == CVS_MTSTK_MAXDEPTH) { cvs_log(LP_ERR, "MT scope stack has reached max depth"); return (-1); } cvs_mt_stack[cvs_mtstk_depth] = xstrdup(line + 1); cvs_mtstk_depth++; } else if (*line == '-') { if (cvs_mtstk_depth == 0) { cvs_log(LP_ERR, "MT scope stack underflow"); return (-1); } else if (strcmp(line + 1, cvs_mt_stack[cvs_mtstk_depth - 1]) != 0) { cvs_log(LP_ERR, "mismatch in MT scope stack"); return (-1); } xfree(cvs_mt_stack[--cvs_mtstk_depth]); } else { if (strcmp(line, "newline") == 0) putc('\n', stdout); else if (strncmp(line, "fname ", (size_t)6) == 0) printf("%s", line + 6); else { /* assume text */ cp = strchr(line, ' '); if (cp != NULL) printf("%s", cp + 1); } } return (0); case CVS_RESP_MBINARY: cvs_log(LP_WARN, "Mbinary not supported in client yet"); break; } fputs(line, stream); fputc('\n', stream); return (0); } /* * cvs_resp_ok() * * Handler for the `ok' response. This handler's job is to */ static int cvs_resp_ok(struct cvsroot *root, int type, char *line) { /* * If we still have an Entry file open, close it now. */ if (cvs_resp_lastent != NULL) cvs_ent_close(cvs_resp_lastent); return (1); } /* * cvs_resp_error() * * Handler for the `error' response. This handler's job is to * show the error message given by the server. */ static int cvs_resp_error(struct cvsroot *root, int type, char *line) { if (line == NULL) return (1); /* XXX - GNU cvs sends an empty error message * at the end of the diff command, even for successfull * diff. */ if ((strlen(line) == 1) && (*line == ' ')) return (1); fprintf(stderr, "%s\n", line); return (1); } /* * cvs_resp_statdir() * * Handler for the `Clear-static-directory' and `Set-static-directory' * responses. */ static int cvs_resp_statdir(struct cvsroot *root, int type, char *line) { int fd; char rpath[MAXPATHLEN], statpath[MAXPATHLEN]; /* remote directory line */ cvs_getln(root, rpath, sizeof(rpath)); STRIP_SLASH(line); /* * Create the directory if it does not exist. */ if (cvs_resp_createdir(line) < 0) return (-1); if (strlcpy(statpath, line, sizeof(statpath)) >= sizeof(statpath) || strlcat(statpath, "/", sizeof(statpath)) >= sizeof(statpath) || strlcat(statpath, CVS_PATH_STATICENTRIES, sizeof(statpath)) >= sizeof(statpath)) cvs_log(LP_ERR, "Entries.static path truncation"); return (-1); if (cvs_noexec == 0) { if ((type == CVS_RESP_CLRSTATDIR) && (cvs_unlink(statpath) == -1)) { return (-1); } else if (type == CVS_RESP_SETSTATDIR) { fd = open(statpath, O_CREAT|O_TRUNC|O_WRONLY, 0644); if (fd == -1) { cvs_log(LP_ERRNO, "failed to set static directory on %s", line); return (-1); } (void)close(fd); } } return (0); } /* * cvs_resp_sticky() * * Handler for the `Clear-sticky' and `Set-sticky' responses. If the * specified directory doesn't exist, we create it. */ static int cvs_resp_sticky(struct cvsroot *root, int type, char *line) { char buf[MAXPATHLEN]; /* get the remote path */ cvs_getln(root, buf, sizeof(buf)); STRIP_SLASH(line); if (cvs_resp_createdir(line) < 0) return (-1); return (0); } /* * Shared code for cvs_resp[static, sticky] * * Looks if the directory requested exists, if it doesn't it will * create it plus all administrative files as well. */ static int cvs_resp_createdir(char *line) { CVSFILE *base, *cf; CVSENTRIES *entf; struct stat st; struct cvs_ent *ent; char *file, subdir[MAXPATHLEN], buf[CVS_ENT_MAXLINELEN]; entf = NULL; cf = NULL; /* * we do not want to handle the '.' case, * so return early. */ if (!strcmp(line, ".")) return (0); cvs_splitpath(line, subdir, sizeof(subdir), &file); base = cvs_file_loadinfo(subdir, CF_NOFILES, NULL, NULL, 1); if (base == NULL) return (-1); /* * If doesn't exist, we create it. */ if (stat(line, &st) == -1) { if (errno != ENOENT) { cvs_log(LP_ERRNO, "failed to stat `%s'", line); return (-1); } cf = cvs_file_create(base, line, DT_DIR, 0755); } else { cf = cvs_file_loadinfo(line, CF_NOFILES, NULL, NULL, 1); } if (cf == NULL) { cvs_file_free(base); return (-1); } /* * If the Entries file for the parent is already * open, operate on that, instead of reopening it * and invalidating the opened list. */ if (!strcmp(subdir, cvs_resp_lastdir)) entf = cvs_resp_lastent; else entf = cvs_ent_open(subdir, O_WRONLY); /* * see if the entry is still present. If not, we add it again. */ if (entf != NULL) { if ((ent = cvs_ent_get(entf, cf->cf_name)) == NULL) { if (strlcpy(buf, "D/", sizeof(buf)) >= sizeof(buf) || strlcat(buf, cf->cf_name, sizeof(buf)) >= sizeof(buf) || strlcat(buf, "////", sizeof(buf)) >= sizeof(buf)) { cvs_file_free(cf); cvs_file_free(base); return (-1); } ent = cvs_ent_parse(buf); if (ent == NULL) cvs_log(LP_ERR, "failed to create directory entry"); else cvs_ent_add(entf, ent); } if (strcmp(subdir, cvs_resp_lastdir)) cvs_ent_close(entf); } cvs_file_free(cf); cvs_file_free(base); return (0); } /* * cvs_resp_newentry() * * Handler for the `New-entry' response and `Checked-in' responses. * In the case of `New-entry', we expect the entry line */ static int cvs_resp_newentry(struct cvsroot *root, int type, char *line) { char entbuf[CVS_ENT_MAXLINELEN]; struct cvs_ent *ent; /* get the remote path */ cvs_getln(root, entbuf, sizeof(entbuf)); /* get the new Entries line */ cvs_getln(root, entbuf, sizeof(entbuf)); if (resp_check_dir(root, line) < 0) return (-1); if (type == CVS_RESP_NEWENTRY) { cvs_ent_addln(cvs_resp_lastent, entbuf); } else if (type == CVS_RESP_CHECKEDIN) { ent = cvs_ent_parse(entbuf); if (ent == NULL) { cvs_log(LP_ERR, "failed to parse entry"); return (-1); } /* timestamp it to now */ ent->ce_mtime = time(&(ent->ce_mtime)); /* replace the current entry with the one we just received */ (void)cvs_ent_remove(cvs_resp_lastent, ent->ce_name, 0); cvs_ent_add(cvs_resp_lastent, ent); } return (0); } /* * cvs_resp_cksum() * * Handler for the `Checksum' response. We store the checksum received for * the next file in a dynamically-allocated buffer pointed to by . * Upon next file reception, the handler checks to see if there is a stored * checksum. * The file handler must make sure that the checksums match and free the * checksum buffer once it's done to indicate there is no further checksum. */ static int cvs_resp_cksum(struct cvsroot *root, int type, char *line) { if (cvs_fcksum != NULL) { cvs_log(LP_WARN, "unused checksum"); xfree(cvs_fcksum); } cvs_fcksum = xstrdup(line); return (0); } /* * cvs_resp_copyfile() * * Handler for the `Copy-file' response, which is used to copy the contents * of a file to another file for which the name is provided. The CVS protocol * documentation states that this response is only used prior to a `Merged' * response to create a backup of the file. */ static int cvs_resp_copyfile(struct cvsroot *root, int type, char *line) { char path[MAXPATHLEN], newpath[MAXPATHLEN]; char newname[MAXNAMLEN], *file; /* read the remote path of the file to copy and its new name */ cvs_getln(root, path, sizeof(path)); cvs_getln(root, newname, sizeof(newname)); if ((file = basename(path)) == NULL) fatal("no base file name in Copy-file path"); if (strlcpy(path, line, sizeof(path)) >= sizeof(path) || strlcat(path, file, sizeof(path)) >= sizeof(path)) fatal("source path overflow in Copy-file response"); if (strlcpy(newpath, line, sizeof(newpath)) >= sizeof(newpath) || strlcat(newpath, newname, sizeof(newpath)) >= sizeof(newpath)) fatal("destination path overflow in Copy-file response"); if (rename(path, newpath) == -1) { fatal("cvs_resp_copyfile: rename: `%s'->`%s': %s", path, newpath, strerror(errno)); } return (0); } /* * cvs_resp_modtime() * * Handler for the `Mod-time' file update modifying response. The timestamp * given is used to set the last modification time on the next file that * will be received. */ static int cvs_resp_modtime(struct cvsroot *root, int type, char *line) { cvs_modtime = cvs_date_parse(line); return (0); } /* * cvs_resp_updated() * * Handler for the `Updated', `Update-existing', `Created', `Merged' and * `Patched' responses, which all have a very similar format. */ static int cvs_resp_updated(struct cvsroot *root, int type, char *line) { int ret; mode_t fmode; char path[MAXPATHLEN], cksum_buf[CVS_CKSUM_LEN]; BUF *fbuf; struct cvs_ent *ent; struct timeval tv[2]; ret = 0; STRIP_SLASH(line); /* read the remote path of the file */ cvs_getln(root, path, sizeof(path)); /* read the new entry */ cvs_getln(root, path, sizeof(path)); if ((ent = cvs_ent_parse(path)) == NULL) return (-1); if (strlcpy(path, line, sizeof(path)) >= sizeof(path) || strlcat(path, "/", sizeof(path)) >= sizeof(path) || strlcat(path, ent->ce_name, sizeof(path)) >= sizeof(path)) fatal("Entries path overflow in response"); /* * Please be sure the directory does exist. */ if (cvs_resp_createdir(line) < 0) return (-1); if (resp_check_dir(root, line) < 0) return (-1); if (cvs_modtime != CVS_DATE_DMSEC) { ent->ce_mtime = cvs_modtime; } else ent->ce_mtime = time(&(ent->ce_mtime)); if ((type == CVS_RESP_UPDEXIST) || (type == CVS_RESP_UPDATED) || (type == CVS_RESP_MERGED) || (type == CVS_RESP_CREATED)) { if ((cvs_ent_remove(cvs_resp_lastent, ent->ce_name, 0) < 0) && (type != CVS_RESP_CREATED)) { cvs_log(LP_WARN, "failed to remove entry for '%s`", ent->ce_name); } } cvs_ent_add(cvs_resp_lastent, ent); fbuf = cvs_recvfile(root, &fmode); cvs_buf_write(fbuf, path, fmode); cvs_buf_free(fbuf); if (cvs_modtime != CVS_DATE_DMSEC) { tv[0].tv_sec = (long)cvs_modtime; tv[0].tv_usec = 0; tv[1].tv_sec = (long)cvs_modtime; tv[1].tv_usec = 0; if (utimes(path, tv) == -1) cvs_log(LP_ERRNO, "failed to set file timestamps"); } /* invalidate last received timestamp */ cvs_modtime = CVS_DATE_DMSEC; /* now see if there is a checksum */ if (cvs_fcksum != NULL) { if (cvs_cksum(path, cksum_buf, sizeof(cksum_buf)) < 0) ret = -1; else if (strcmp(cksum_buf, cvs_fcksum) != 0) { cvs_log(LP_ERR, "checksum error on received file"); (void)unlink(line); ret = -1; } xfree(cvs_fcksum); cvs_fcksum = NULL; } return (ret); } /* * cvs_resp_removed() * * Handler for the `Removed' and `Remove-entry' responses. The `Removed' * response is received when both a file and its entry need to be removed from * the local copy. The `Remove-entry' is received in cases where the file is * already gone but there is still an entry to remove in the Entries file. */ static int cvs_resp_removed(struct cvsroot *root, int type, char *line) { char buf[MAXPATHLEN], base[MAXPATHLEN]; char fpath[MAXPATHLEN], *file; cvs_getln(root, buf, sizeof(buf)); cvs_splitpath(buf, base, sizeof(base), &file); if (strlcpy(fpath, line, sizeof(fpath)) >= sizeof(fpath) || strlcat(fpath, "/", sizeof(fpath)) >= sizeof(fpath) || strlcat(fpath, file, sizeof(fpath)) >= sizeof(fpath)) fatal("cvs_resp_removed: overflow in path"); if (resp_check_dir(root, line) < 0) return (-1); (void)cvs_ent_remove(cvs_resp_lastent, file, 0); if ((type == CVS_RESP_REMOVED) && ((unlink(fpath) == -1) && errno != ENOENT)) { cvs_log(LP_ERRNO, "failed to unlink `%s'", file); return (-1); } return (0); } /* * cvs_resp_mode() * * Handler for the `Mode' response. */ static int cvs_resp_mode(struct cvsroot *root, int type, char *line) { cvs_strtomode(line, &cvs_lastmode); return (0); } /* * cvs_resp_modxpand() * * Handler for the `Module-expansion' response. */ static int cvs_resp_modxpand(struct cvsroot *root, int type, char *line) { return (0); } /* * cvs_resp_rcsdiff() * * Handler for the `Rcs-diff' response. */ static int cvs_resp_rcsdiff(struct cvsroot *root, int type, char *line) { char file[MAXPATHLEN]; char buf[CVS_ENT_MAXLINELEN], cksum_buf[CVS_CKSUM_LEN]; char *fname, *orig, *patch; mode_t fmode; BUF *res, *fcont, *patchbuf; CVSENTRIES *entf; struct cvs_ent *ent; /* get remote path and build local path of file to be patched */ cvs_getln(root, buf, sizeof(buf)); fname = strrchr(buf, '/'); if (fname == NULL) fname = buf; if (strlcpy(file, line, sizeof(file)) >= sizeof(file) || strlcat(file, fname, sizeof(file)) >= sizeof(file)) fatal("cvs_resp_rcsdiff: path truncation"); /* get updated entry fields */ cvs_getln(root, buf, sizeof(buf)); ent = cvs_ent_parse(buf); if (ent == NULL) return (-1); patchbuf = cvs_recvfile(root, &fmode); fcont = cvs_buf_load(file, BUF_AUTOEXT); if (fcont == NULL) return (-1); cvs_buf_putc(patchbuf, '\0'); cvs_buf_putc(fcont, '\0'); orig = cvs_buf_release(fcont); patch = cvs_buf_release(patchbuf); res = cvs_patchfile(orig, patch, rcs_patch_lines); if (res == NULL) return (-1); cvs_buf_write(res, file, fmode); /* now see if there is a checksum */ if (cvs_fcksum != NULL) { if (cvs_cksum(file, cksum_buf, sizeof(cksum_buf)) < 0) { } if (strcmp(cksum_buf, cvs_fcksum) != 0) { cvs_log(LP_ERR, "checksum error on received file"); (void)unlink(file); } xfree(cvs_fcksum); cvs_fcksum = NULL; } /* update revision in entries */ entf = cvs_ent_open(line, O_WRONLY); if (entf == NULL) return (-1); cvs_ent_close(entf); return (0); } /* * cvs_resp_template() * * Handler for the `Template' response. */ static int cvs_resp_template(struct cvsroot *root, int type, char *line) { mode_t mode; BUF *tmpl; tmpl = cvs_recvfile(root, &mode); cvs_buf_free(tmpl); return (0); } /* * Check if is the same as the last * received directory, if it's not, switch Entry files. */ static int resp_check_dir(struct cvsroot *root, const char *dir) { char cvspath[MAXPATHLEN], repo[MAXPATHLEN]; struct stat st; /* * Make sure the CVS directory exists. */ if (strlcpy(cvspath, dir, sizeof(cvspath)) >= sizeof(cvspath) || strlcat(cvspath, "/", sizeof(cvspath)) >= sizeof(cvspath) || strlcat(cvspath, CVS_PATH_CVSDIR, sizeof(cvspath)) >= sizeof(cvspath)) fatal("resp_check_dir: path overflow"); if (stat(cvspath, &st) == -1) { if (errno != ENOENT) return (-1); if (cvs_repo_base != NULL) { if (strlcpy(repo, cvs_repo_base, sizeof(repo)) >= sizeof(repo) || strlcat(repo, "/", sizeof(repo)) >= sizeof(repo) || strlcat(repo, dir, sizeof(repo)) >= sizeof(repo)) fatal("resp_check_dir: path overflow"); } else { if (strlcpy(repo, dir, sizeof(repo)) >= sizeof(repo)) fatal("resp_check_dir: path truncation"); } if (cvs_mkadmin(dir, root->cr_str, repo, NULL, NULL, 0) < 0) return (-1); } if (strcmp(dir, cvs_resp_lastdir)) { if (cvs_resp_lastent != NULL) cvs_ent_close(cvs_resp_lastent); cvs_resp_lastent = cvs_ent_open(dir, O_WRONLY); if (cvs_resp_lastent == NULL) return (-1); if (strlcpy(cvs_resp_lastdir, dir, sizeof(cvs_resp_lastdir)) >= sizeof(cvs_resp_lastdir)) fatal("resp_check_dir: path truncation"); } else { /* make sure the old one is still open */ if (cvs_resp_lastent == NULL) { cvs_resp_lastent = cvs_ent_open(cvs_resp_lastdir, O_WRONLY); if (cvs_resp_lastent == NULL) return (-1); } } return (0); }