#include #include #include #include #include #include #include #include #include #include #include #include "dive.h" #include "membuffer.h" #include "strndup.h" #include "qthelperfromc.h" #include "git-access.h" #include "gettext.h" bool is_subsurface_cloud = false; int (*update_progress_cb)(int) = NULL; void set_git_update_cb(int(*cb)(int)) { update_progress_cb = cb; } static int update_progress(int percent) { static int last_percent = -10; int ret = 0; if (update_progress_cb) ret = (*update_progress_cb)(percent); if (verbose && percent - 10 >= last_percent) { last_percent = percent; fprintf(stderr, "git progress %d%%\n", percent); } return ret; } // the checkout_progress_cb doesn't allow canceling of the operation static void progress_cb(const char *path, size_t completed_steps, size_t total_steps, void *payload) { int percent = 0; if (total_steps) percent = 100 * completed_steps / total_steps; (void)update_progress(percent); } // this randomly assumes that 80% of the time is spent on the objects and 20% on the deltas // if the user cancels the dialog this is passed back to libgit2 static int transfer_progress_cb(const git_transfer_progress *stats, void *payload) { int percent = 0; if (stats->total_objects) percent = 80 * stats->received_objects / stats->total_objects; if (stats->total_deltas) percent += 20 * stats->indexed_deltas / stats->total_deltas; return update_progress(percent); } static int push_transfer_progress_cb(unsigned int current, unsigned int total, size_t bytes, void *payload) { int percent = 0; if (total != 0) percent = 100 * current / total; return update_progress(percent); } char *get_local_dir(const char *remote, const char *branch) { SHA_CTX ctx; unsigned char hash[20]; // That zero-byte update is so that we don't get hash // collisions for "repo1 branch" vs "repo 1branch". SHA1_Init(&ctx); SHA1_Update(&ctx, remote, strlen(remote)); SHA1_Update(&ctx, "", 1); SHA1_Update(&ctx, branch, strlen(branch)); SHA1_Final(hash, &ctx); return format_string("%s/cloudstorage/%02x%02x%02x%02x%02x%02x%02x%02x", system_default_directory(), hash[0], hash[1], hash[2], hash[3], hash[4], hash[5], hash[6], hash[7]); } static char *move_local_cache(const char *remote, const char *branch) { char *old_path = get_local_dir(remote, branch); return move_away(old_path); } static int check_clean(const char *path, unsigned int status, void *payload) { status &= ~GIT_STATUS_CURRENT | GIT_STATUS_IGNORED; if (!status) return 0; if (is_subsurface_cloud) report_error(translate("gettextFromC", "Local cache directory %s corrupted - can't sync with Subsurface cloud storage"), path); else report_error("WARNING: Git cache directory modified (path %s) status %0x", path, status); return 1; } /* * The remote is strictly newer than the local branch. */ static int reset_to_remote(git_repository *repo, git_reference *local, const git_oid *new_id) { git_checkout_options opts = GIT_CHECKOUT_OPTIONS_INIT; opts.progress_cb = &progress_cb; git_object *target; if (verbose) fprintf(stderr, "git storage: reset to remote\n"); // If it's not checked out (bare or not HEAD), just update the reference */ if (git_repository_is_bare(repo) || git_branch_is_head(local) != 1) { git_reference *out; if (git_reference_set_target(&out, local, new_id, "Update to remote")) return report_error(translate("gettextFromC", "Could not update local cache to newer remote data")); git_reference_free(out); #ifdef DEBUG // Not really an error, just informational report_error("Updated local branch from remote"); #endif return 0; } if (git_object_lookup(&target, repo, new_id, GIT_OBJ_COMMIT)) { if (is_subsurface_cloud) return report_error(translate("gettextFromC", "Subsurface cloud storage corrupted")); else return report_error("Could not look up remote commit"); } opts.checkout_strategy = GIT_CHECKOUT_SAFE; if (git_reset(repo, target, GIT_RESET_HARD, &opts)) { if (is_subsurface_cloud) return report_error(translate("gettextFromC", "Could not update local cache to newer remote data")); else return report_error("Local head checkout failed after update"); } // Not really an error, just informational #ifdef DEBUG report_error("Updated local information from remote"); #endif return 0; } int credential_ssh_cb(git_cred **out, const char *url, const char *username_from_url, unsigned int allowed_types, void *payload) { const char *priv_key = format_string("%s/%s", system_default_directory(), "ssrf_remote.key"); const char *passphrase = prefs.cloud_storage_password ? strdup(prefs.cloud_storage_password) : strdup(""); return git_cred_ssh_key_new(out, username_from_url, NULL, priv_key, passphrase); } int credential_https_cb(git_cred **out, const char *url, const char *username_from_url, unsigned int allowed_types, void *payload) { const char *username = prefs.cloud_storage_email_encoded; const char *password = prefs.cloud_storage_password ? strdup(prefs.cloud_storage_password) : strdup(""); return git_cred_userpass_plaintext_new(out, username, password); } #define KNOWN_CERT "\xfd\xb8\xf7\x73\x76\xe2\x75\x53\x93\x37\xdc\xfe\x1e\x55\x43\x3d\xf2\x2c\x18\x2c" int certificate_check_cb(git_cert *cert, int valid, const char *host, void *payload) { if (same_string(host, "cloud.subsurface-divelog.org") && cert->cert_type == GIT_CERT_X509) { SHA_CTX ctx; unsigned char hash[21]; git_cert_x509 *cert509 = (git_cert_x509 *)cert; SHA1_Init(&ctx); SHA1_Update(&ctx, cert509->data, cert509->len); SHA1_Final(hash, &ctx); hash[20] = 0; if (verbose > 1) if (same_string((char *)hash, KNOWN_CERT)) { fprintf(stderr, "cloud certificate considered %s, forcing it valid\n", valid ? "valid" : "not valid"); return 1; } } return valid; } static int update_remote(git_repository *repo, git_remote *origin, git_reference *local, git_reference *remote, enum remote_transport rt) { git_push_options opts = GIT_PUSH_OPTIONS_INIT; git_strarray refspec; const char *name = git_reference_name(local); if (verbose) fprintf(stderr, "git storage: update remote\n"); refspec.count = 1; refspec.strings = (char **)&name; opts.callbacks.push_transfer_progress = &push_transfer_progress_cb; if (rt == RT_SSH) opts.callbacks.credentials = credential_ssh_cb; else if (rt == RT_HTTPS) opts.callbacks.credentials = credential_https_cb; opts.callbacks.certificate_check = certificate_check_cb; if (git_remote_push(origin, &refspec, &opts)) { if (is_subsurface_cloud) return report_error(translate("gettextFromC", "Could not update Subsurface cloud storage, try again later")); else return report_error("Unable to update remote with current local cache state (%s)", giterr_last()->message); } return 0; } extern int update_git_checkout(git_repository *repo, git_object *parent, git_tree *tree); static int try_to_git_merge(git_repository *repo, git_reference *local, git_reference *remote, git_oid *base, const git_oid *local_id, const git_oid *remote_id) { git_tree *local_tree, *remote_tree, *base_tree; git_commit *local_commit, *remote_commit, *base_commit; git_index *merged_index; git_merge_options merge_options; if (verbose) { char outlocal[41], outremote[41]; outlocal[40] = outremote[40] = 0; git_oid_fmt(outlocal, local_id); git_oid_fmt(outremote, remote_id); fprintf(stderr, "trying to merge local SHA %s remote SHA %s\n", outlocal, outremote); } git_merge_init_options(&merge_options, GIT_MERGE_OPTIONS_VERSION); merge_options.tree_flags = GIT_MERGE_TREE_FIND_RENAMES; merge_options.file_favor = GIT_MERGE_FILE_FAVOR_UNION; merge_options.rename_threshold = 100; if (git_commit_lookup(&local_commit, repo, local_id)) { fprintf(stderr, "Remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message); goto diverged_error; } if (git_commit_tree(&local_tree, local_commit)) { fprintf(stderr, "Remote storage and local data diverged. Error: failed local tree lookup (%s)", giterr_last()->message); goto diverged_error; } if (git_commit_lookup(&remote_commit, repo, remote_id)) { fprintf(stderr, "Remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message); goto diverged_error; } if (git_commit_tree(&remote_tree, remote_commit)) { fprintf(stderr, "Remote storage and local data diverged. Error: failed local tree lookup (%s)", giterr_last()->message); goto diverged_error; } if (git_commit_lookup(&base_commit, repo, base)) { fprintf(stderr, "Remote storage and local data diverged. Error: can't get commit (%s)", giterr_last()->message); goto diverged_error; } if (git_commit_tree(&base_tree, base_commit)) { fprintf(stderr, "Remote storage and local data diverged. Error: failed base tree lookup (%s)", giterr_last()->message); goto diverged_error; } if (git_merge_trees(&merged_index, repo, base_tree, local_tree, remote_tree, &merge_options)) { fprintf(stderr, "Remote storage and local data diverged. Error: merge failed (%s)", giterr_last()->message); // this is the one where I want to report more detail to the user - can't quite explain why return report_error(translate("gettextFromC", "Remote storage and local data diverged. Error: merge failed (%s)"), giterr_last()->message); } if (git_index_has_conflicts(merged_index)) { int error; const git_index_entry *ancestor = NULL, *ours = NULL, *theirs = NULL; git_index_conflict_iterator *iter = NULL; error = git_index_conflict_iterator_new(&iter, merged_index); while (git_index_conflict_next(&ancestor, &ours, &theirs, iter) != GIT_ITEROVER) { /* Mark this conflict as resolved */ fprintf(stderr, "conflict in %s / %s / %s -- ", ours ? ours->path : "-", theirs ? theirs->path : "-", ancestor ? ancestor->path : "-"); if ((!ours && theirs && ancestor) || (ours && !theirs && ancestor)) { // the file was removed on one side or the other - just remove it fprintf(stderr, "looks like a delete on one side; removing the file from the index\n"); error = git_index_remove(merged_index, ours ? ours->path : theirs->path, GIT_INDEX_STAGE_ANY); } else if (ancestor) { error = git_index_conflict_remove(merged_index, ours ? ours->path : theirs ? theirs->path : ancestor->path); } if (error) { fprintf(stderr, "error at conflict resplution (%s)", giterr_last()->message); } } git_index_conflict_cleanup(merged_index); git_index_conflict_iterator_free(iter); report_error(translate("gettextFromC", "Remote storage and local data diverged. Cannot combine local and remote changes")); } git_oid merge_oid, commit_oid; git_tree *merged_tree; git_signature *author; git_commit *commit; if (git_index_write_tree_to(&merge_oid, merged_index, repo)) goto write_error; if (git_tree_lookup(&merged_tree, repo, &merge_oid)) goto write_error; if (git_signature_default(&author, repo) < 0) if (git_signature_now(&author, "Subsurface", "noemail@given") < 0) goto write_error; if (git_commit_create_v(&commit_oid, repo, NULL, author, author, NULL, "automatic merge", merged_tree, 2, local_commit, remote_commit)) goto write_error; if (git_commit_lookup(&commit, repo, &commit_oid)) goto write_error; if (git_branch_is_head(local) && !git_repository_is_bare(repo)) { git_object *parent; git_reference_peel(&parent, local, GIT_OBJ_COMMIT); if (update_git_checkout(repo, parent, merged_tree)) { goto write_error; } } if (git_reference_set_target(&local, local, &commit_oid, "Subsurface merge event")) goto write_error; set_git_id(&commit_oid); git_signature_free(author); return 0; diverged_error: return report_error(translate("gettextFromC", "Remote storage and local data diverged")); write_error: return report_error(translate("gettextFromC", "Remote storage and local data diverged. Error: writing the data failed (%s)"), giterr_last()->message); } // if accessing the local cache of Subsurface cloud storage fails, we simplify things // for the user and simply move the cache away (in case they want to try and extract data) // and ask them to retry the operation (which will then refresh the data from the cloud server) static int cleanup_local_cache(const char *remote_url, const char *branch) { char *backup_path = move_local_cache(remote_url, branch); report_error(translate("gettextFromC", "Problems with local cache of Subsurface cloud data")); report_error(translate("gettextFromC", "Moved cache data to %s. Please try the operation again."), backup_path); free(backup_path); return -1; } static int try_to_update(git_repository *repo, git_remote *origin, git_reference *local, git_reference *remote, const char *remote_url, const char *branch, enum remote_transport rt) { git_oid base; const git_oid *local_id, *remote_id; if (verbose) fprintf(stderr, "git storage: try to update\n"); if (!git_reference_cmp(local, remote)) return 0; // Dirty modified state in the working tree? We're not going // to update either way if (git_status_foreach(repo, check_clean, NULL)) { if (is_subsurface_cloud) goto cloud_data_error; else return report_error("local cached copy is dirty, skipping update"); } local_id = git_reference_target(local); remote_id = git_reference_target(remote); if (!local_id || !remote_id) { if (is_subsurface_cloud) goto cloud_data_error; else return report_error("Unable to get local or remote SHA1"); } if (git_merge_base(&base, repo, local_id, remote_id)) { if (is_subsurface_cloud) goto cloud_data_error; else return report_error("Unable to find common commit of local and remote branches"); } /* Is the remote strictly newer? Use it */ if (git_oid_equal(&base, local_id)) return reset_to_remote(repo, local, remote_id); /* Is the local repo the more recent one? See if we can update upstream */ if (git_oid_equal(&base, remote_id)) return update_remote(repo, origin, local, remote, rt); /* Merging a bare repository always needs user action */ if (git_repository_is_bare(repo)) { if (is_subsurface_cloud) goto cloud_data_error; else return report_error("Local and remote have diverged, merge of bare branch needed"); } /* Merging will definitely need the head branch too */ if (git_branch_is_head(local) != 1) { if (is_subsurface_cloud) goto cloud_data_error; else return report_error("Local and remote do not match, local branch not HEAD - cannot update"); } /* Ok, let's try to merge these */ return try_to_git_merge(repo, local, remote, &base, local_id, remote_id); cloud_data_error: // since we are working with Subsurface cloud storage we want to make the user interaction // as painless as possible. So if something went wrong with the local cache, tell the user // about it an move it away return cleanup_local_cache(remote_url, branch); } static int check_remote_status(git_repository *repo, git_remote *origin, const char *remote, const char *branch, enum remote_transport rt) { int error = 0; git_reference *local_ref, *remote_ref; if (verbose) fprintf(stderr, "git storage: check remote status\n"); if (git_branch_lookup(&local_ref, repo, branch, GIT_BRANCH_LOCAL)) { if (is_subsurface_cloud) return cleanup_local_cache(remote, branch); else return report_error("Git cache branch %s no longer exists", branch); } if (git_branch_upstream(&remote_ref, local_ref)) { /* so there is no upstream branch for our branch; that's a problem. * let's push our branch */ git_strarray refspec; git_reference_list(&refspec, repo); git_push_options opts = GIT_PUSH_OPTIONS_INIT; opts.callbacks.transfer_progress = &transfer_progress_cb; if (rt == RT_SSH) opts.callbacks.credentials = credential_ssh_cb; else if (rt == RT_HTTPS) opts.callbacks.credentials = credential_https_cb; opts.callbacks.certificate_check = certificate_check_cb; error = git_remote_push(origin, &refspec, &opts); } else { error = try_to_update(repo, origin, local_ref, remote_ref, remote, branch, rt); git_reference_free(remote_ref); } git_reference_free(local_ref); return error; } int sync_with_remote(git_repository *repo, const char *remote, const char *branch, enum remote_transport rt) { int error; git_remote *origin; char *proxy_string; git_config *conf; if (verbose) fprintf(stderr, "sync with remote %s[%s]\n", remote, branch); git_repository_config(&conf, repo); if (rt == RT_HTTPS && getProxyString(&proxy_string)) { if (verbose) fprintf(stderr, "set proxy to \"%s\"\n", proxy_string); git_config_set_string(conf, "http.proxy", proxy_string); free(proxy_string); } else { if (verbose) fprintf(stderr, "delete proxy setting\n"); git_config_delete_entry(conf, "http.proxy"); } /* * NOTE! Remote errors are reported, but are nonfatal: * we still successfully return the local repository. */ error = git_remote_lookup(&origin, repo, "origin"); if (error) { if (!is_subsurface_cloud) report_error("Repository '%s' origin lookup failed (%s)", remote, giterr_last()->message); return 0; } if (rt == RT_HTTPS && !canReachCloudServer()) { // this is not an error, just a warning message, so return 0 report_error("Cannot connect to cloud server, working with local copy"); return 0; } if (verbose) fprintf(stderr, "git storage: fetch remote\n"); git_fetch_options opts = GIT_FETCH_OPTIONS_INIT; opts.callbacks.transfer_progress = &transfer_progress_cb; if (rt == RT_SSH) opts.callbacks.credentials = credential_ssh_cb; else if (rt == RT_HTTPS) opts.callbacks.credentials = credential_https_cb; opts.callbacks.certificate_check = certificate_check_cb; error = git_remote_fetch(origin, NULL, &opts, NULL); // NOTE! A fetch error is not fatal, we just report it if (error) { if (is_subsurface_cloud) report_error("Cannot sync with cloud server, working with offline copy"); else report_error("Unable to fetch remote '%s'", remote); if (verbose) fprintf(stderr, "remote fetch failed (%s)\n", giterr_last()->message); error = 0; } else { error = check_remote_status(repo, origin, remote, branch, rt); } git_remote_free(origin); return error; } static git_repository *update_local_repo(const char *localdir, const char *remote, const char *branch, enum remote_transport rt) { int error; git_repository *repo = NULL; if (verbose) fprintf(stderr, "git storage: update local repo\n"); error = git_repository_open(&repo, localdir); if (error) { if (is_subsurface_cloud) (void)cleanup_local_cache(remote, branch); else report_error("Unable to open git cache repository at %s: %s", localdir, giterr_last()->message); return NULL; } sync_with_remote(repo, remote, branch, rt); return repo; } static int repository_create_cb(git_repository **out, const char *path, int bare, void *payload) { char *proxy_string; git_config *conf; int ret = git_repository_init(out, path, bare); git_repository_config(&conf, *out); if (getProxyString(&proxy_string)) { if (verbose) fprintf(stderr, "set proxy to \"%s\"\n", proxy_string); git_config_set_string(conf, "http.proxy", proxy_string); free(proxy_string); } else { if (verbose) fprintf(stderr, "delete proxy setting\n"); git_config_delete_entry(conf, "http.proxy"); } return ret; } /* this should correctly initialize both the local and remote * repository for the Subsurface cloud storage */ static git_repository *create_and_push_remote(const char *localdir, const char *remote, const char *branch) { git_repository *repo; git_config *conf; int len; char *variable_name, *merge_head; if (verbose) fprintf(stderr, "git storage: create and push remote\n"); /* first make sure the directory for the local cache exists */ subsurface_mkdir(localdir); /* set up the origin to point to our remote */ git_repository_init_options init_opts = GIT_REPOSITORY_INIT_OPTIONS_INIT; init_opts.origin_url = remote; /* now initialize the repository with */ git_repository_init_ext(&repo, localdir, &init_opts); /* create a config so we can set the remote tracking branch */ git_repository_config(&conf, repo); len = sizeof("branch..remote") + strlen(branch); variable_name = malloc(len); snprintf(variable_name, len, "branch.%s.remote", branch); git_config_set_string(conf, variable_name, "origin"); /* we know this is shorter than the previous one, so we reuse the variable*/ snprintf(variable_name, len, "branch.%s.merge", branch); len = sizeof("refs/heads/") + strlen(branch); merge_head = malloc(len); snprintf(merge_head, len, "refs/heads/%s", branch); git_config_set_string(conf, variable_name, merge_head); /* finally create an empty commit and push it to the remote */ if (do_git_save(repo, branch, remote, false, true)) return NULL; return(repo); } static git_repository *create_local_repo(const char *localdir, const char *remote, const char *branch, enum remote_transport rt) { int error; git_repository *cloned_repo = NULL; git_clone_options opts = GIT_CLONE_OPTIONS_INIT; if (verbose) fprintf(stderr, "git storage: create_local_repo\n"); opts.fetch_opts.callbacks.transfer_progress = &transfer_progress_cb; if (rt == RT_SSH) opts.fetch_opts.callbacks.credentials = credential_ssh_cb; else if (rt == RT_HTTPS) opts.fetch_opts.callbacks.credentials = credential_https_cb; opts.repository_cb = repository_create_cb; opts.fetch_opts.callbacks.certificate_check = certificate_check_cb; opts.checkout_branch = branch; if (rt == RT_HTTPS && !canReachCloudServer()) return 0; if (verbose > 1) fprintf(stderr, "git storage: calling git_clone()\n"); error = git_clone(&cloned_repo, remote, localdir, &opts); if (verbose > 1) fprintf(stderr, "git storage: returned from git_clone() with error %d\n", error); if (error) { char *msg = giterr_last()->message; int len = sizeof("Reference 'refs/remotes/origin/' not found") + strlen(branch); char *pattern = malloc(len); snprintf(pattern, len, "Reference 'refs/remotes/origin/%s' not found", branch); if (strstr(remote, prefs.cloud_git_url) && strstr(msg, pattern)) { /* we're trying to open the remote branch that corresponds * to our cloud storage and the branch doesn't exist. * So we need to create the branch and push it to the remote */ cloned_repo = create_and_push_remote(localdir, remote, branch); #if !defined(DEBUG) } else if (is_subsurface_cloud) { report_error(translate("gettextFromC", "Error connecting to Subsurface cloud storage")); #endif } else { report_error(translate("gettextFromC", "git clone of %s failed (%s)"), remote, msg); } free(pattern); } return cloned_repo; } static struct git_repository *get_remote_repo(const char *localdir, const char *remote, const char *branch) { struct stat st; enum remote_transport rt; /* figure out the remote transport */ if (strncmp(remote, "ssh://", 6) == 0) rt = RT_SSH; else if (strncmp(remote, "https://", 8) == 0) rt = RT_HTTPS; else rt = RT_OTHER; if (verbose > 1) { fprintf(stderr, "git storage: accessing %s\n", remote); } /* Do we already have a local cache? */ if (!stat(localdir, &st)) { if (!S_ISDIR(st.st_mode)) { if (is_subsurface_cloud) (void)cleanup_local_cache(remote, branch); else report_error("local git cache at '%s' is corrupt"); return NULL; } return update_local_repo(localdir, remote, branch, rt); } return create_local_repo(localdir, remote, branch, rt); } /* * This turns a remote repository into a local one if possible. * * The recognized formats are * git://host/repo[branch] * ssh://host/repo[branch] * http://host/repo[branch] * https://host/repo[branch] * file://repo[branch] */ static struct git_repository *is_remote_git_repository(char *remote, const char *branch) { char c, *localdir; const char *p = remote; while ((c = *p++) >= 'a' && c <= 'z') /* nothing */; if (c != ':') return NULL; if (*p++ != '/' || *p++ != '/') return NULL; /* Special-case "file://", since it's already local */ if (!strncmp(remote, "file://", 7)) remote += 7; /* * Ok, we found "[a-z]*://", we've simplified the * local repo case (because libgit2 is insanely slow * for that), and we think we have a real "remote * git" format. * * We now create the SHA1 hash of the whole thing, * including the branch name. That will be our unique * unique local repository name. * * NOTE! We will create a local repository per branch, * because * * (a) libgit2 remote tracking branch support seems to * be a bit lacking * (b) we'll actually check the branch out so that we * can do merges etc too. * * so even if you have a single remote git repo with * multiple branches for different people, the local * caches will sadly force that to split into multiple * individual repositories. */ /* * next we need to make sure that any encoded username * has been extracted from an https:// based URL */ if (!strncmp(remote, "https://", 8)) { char *at = strchr(remote, '@'); if (at) { /* was this the @ that denotes an account? that means it was before the * first '/' after the https:// - so let's find a '/' after that and compare */ char *slash = strchr(remote + 8, '/'); if (slash && slash > at) { /* grab the part between "https://" and "@" as encoded email address * (that's our username) and move the rest of the URL forward, remembering * to copy the closing NUL as well */ prefs.cloud_storage_email_encoded = strndup(remote + 8, at - remote - 8); memmove(remote + 8, at + 1, strlen(at + 1) + 1); } } } localdir = get_local_dir(remote, branch); if (!localdir) return NULL; /* remember if the current git storage we are working on is our cloud storage * this is used to create more user friendly error message and warnings */ is_subsurface_cloud = strstr(remote, prefs.cloud_git_url) != NULL; return get_remote_repo(localdir, remote, branch); } /* * If it's not a git repo, return NULL. Be very conservative. */ struct git_repository *is_git_repository(const char *filename, const char **branchp, const char **remote, bool dry_run) { int flen, blen, ret; int offset = 1; struct stat st; git_repository *repo; char *loc, *branch; flen = strlen(filename); if (!flen || filename[--flen] != ']') return NULL; /* Find the matching '[' */ blen = 0; while (flen && filename[--flen] != '[') blen++; /* Ignore slashes at the end of the repo name */ while (flen && filename[flen-1] == '/') { flen--; offset++; } if (!flen) return NULL; /* * This is the "point of no return": the name matches * the git repository name rules, and we will no longer * return NULL. * * We will either return "dummy_git_repository" and the * branch pointer will have the _whole_ filename in it, * or we will return a real git repository with the * branch pointer being filled in with just the branch * name. * * The actual git reading/writing routines can use this * to generate proper error messages. */ *branchp = filename; loc = format_string("%.*s", flen, filename); if (!loc) return dummy_git_repository; branch = format_string("%.*s", blen, filename + flen + offset); if (!branch) { free(loc); return dummy_git_repository; } if (dry_run) { *branchp = branch; *remote = loc; return dummy_git_repository; } repo = is_remote_git_repository(loc, branch); if (repo) { if (remote) *remote = loc; else free(loc); *branchp = branch; return repo; } if (stat(loc, &st) < 0 || !S_ISDIR(st.st_mode)) { free(loc); free(branch); return dummy_git_repository; } ret = git_repository_open(&repo, loc); free(loc); if (ret < 0) { free(branch); return dummy_git_repository; } if (remote) *remote = NULL; *branchp = branch; return repo; }