/* * libgit2 "merge" example - shows how to perform merges * * Written by the libgit2 contributors * * To the extent possible under law, the author(s) have dedicated all copyright * and related and neighboring rights to this software to the public domain * worldwide. This software is distributed without any warranty. * * You should have received a copy of the CC0 Public Domain Dedication along * with this software. If not, see * . */ #include "common.h" /** The following example demonstrates how to do merges with libgit2. * * It will merge whatever commit-ish you pass in into the current branch. * * Recognized options are : * --no-commit: don't actually commit the merge. * */ struct merge_options { const char **heads; size_t heads_count; git_annotated_commit **annotated; size_t annotated_count; unsigned int no_commit : 1; }; static void print_usage(void) { fprintf(stderr, "usage: merge [--no-commit] \n"); exit(1); } static void merge_options_init(struct merge_options *opts) { memset(opts, 0, sizeof(*opts)); opts->heads = NULL; opts->heads_count = 0; opts->annotated = NULL; opts->annotated_count = 0; } static void opts_add_refish(struct merge_options *opts, const char *refish) { size_t sz; assert(opts != NULL); sz = ++opts->heads_count * sizeof(opts->heads[0]); opts->heads = xrealloc((void *) opts->heads, sz); opts->heads[opts->heads_count - 1] = refish; } static void parse_options(const char **repo_path, struct merge_options *opts, int argc, char **argv) { struct args_info args = ARGS_INFO_INIT; if (argc <= 1) print_usage(); for (args.pos = 1; args.pos < argc; ++args.pos) { const char *curr = argv[args.pos]; if (curr[0] != '-') { opts_add_refish(opts, curr); } else if (!strcmp(curr, "--no-commit")) { opts->no_commit = 1; } else if (match_str_arg(repo_path, &args, "--git-dir")) { continue; } else { print_usage(); } } } static int resolve_heads(git_repository *repo, struct merge_options *opts) { git_annotated_commit **annotated = calloc(opts->heads_count, sizeof(git_annotated_commit *)); size_t annotated_count = 0, i; int err = 0; for (i = 0; i < opts->heads_count; i++) { err = resolve_refish(&annotated[annotated_count++], repo, opts->heads[i]); if (err != 0) { fprintf(stderr, "failed to resolve refish %s: %s\n", opts->heads[i], git_error_last()->message); annotated_count--; continue; } } if (annotated_count != opts->heads_count) { fprintf(stderr, "unable to parse some refish\n"); free(annotated); return -1; } opts->annotated = annotated; opts->annotated_count = annotated_count; return 0; } static int perform_fastforward(git_repository *repo, const git_oid *target_oid, int is_unborn) { git_checkout_options ff_checkout_options = GIT_CHECKOUT_OPTIONS_INIT; git_reference *target_ref; git_reference *new_target_ref; git_object *target = NULL; int err = 0; if (is_unborn) { const char *symbolic_ref; git_reference *head_ref; /* HEAD reference is unborn, lookup manually so we don't try to resolve it */ err = git_reference_lookup(&head_ref, repo, "HEAD"); if (err != 0) { fprintf(stderr, "failed to lookup HEAD ref\n"); return -1; } /* Grab the reference HEAD should be pointing to */ symbolic_ref = git_reference_symbolic_target(head_ref); /* Create our master reference on the target OID */ err = git_reference_create(&target_ref, repo, symbolic_ref, target_oid, 0, NULL); if (err != 0) { fprintf(stderr, "failed to create master reference\n"); return -1; } git_reference_free(head_ref); } else { /* HEAD exists, just lookup and resolve */ err = git_repository_head(&target_ref, repo); if (err != 0) { fprintf(stderr, "failed to get HEAD reference\n"); return -1; } } /* Lookup the target object */ err = git_object_lookup(&target, repo, target_oid, GIT_OBJECT_COMMIT); if (err != 0) { fprintf(stderr, "failed to lookup OID %s\n", git_oid_tostr_s(target_oid)); return -1; } /* Checkout the result so the workdir is in the expected state */ ff_checkout_options.checkout_strategy = GIT_CHECKOUT_SAFE; err = git_checkout_tree(repo, target, &ff_checkout_options); if (err != 0) { fprintf(stderr, "failed to checkout HEAD reference\n"); return -1; } /* Move the target reference to the target OID */ err = git_reference_set_target(&new_target_ref, target_ref, target_oid, NULL); if (err != 0) { fprintf(stderr, "failed to move HEAD reference\n"); return -1; } git_reference_free(target_ref); git_reference_free(new_target_ref); git_object_free(target); return 0; } static void output_conflicts(git_index *index) { git_index_conflict_iterator *conflicts; const git_index_entry *ancestor; const git_index_entry *our; const git_index_entry *their; int err = 0; check_lg2(git_index_conflict_iterator_new(&conflicts, index), "failed to create conflict iterator", NULL); while ((err = git_index_conflict_next(&ancestor, &our, &their, conflicts)) == 0) { fprintf(stderr, "conflict: a:%s o:%s t:%s\n", ancestor ? ancestor->path : "NULL", our->path ? our->path : "NULL", their->path ? their->path : "NULL"); } if (err != GIT_ITEROVER) { fprintf(stderr, "error iterating conflicts\n"); } git_index_conflict_iterator_free(conflicts); } static int create_merge_commit(git_repository *repo, git_index *index, struct merge_options *opts) { git_oid tree_oid, commit_oid; git_tree *tree; git_signature *sign; git_reference *merge_ref = NULL; git_annotated_commit *merge_commit; git_reference *head_ref; git_commit **parents = calloc(opts->annotated_count + 1, sizeof(git_commit *)); const char *msg_target = NULL; size_t msglen = 0; char *msg; size_t i; int err; /* Grab our needed references */ check_lg2(git_repository_head(&head_ref, repo), "failed to get repo HEAD", NULL); if (resolve_refish(&merge_commit, repo, opts->heads[0])) { fprintf(stderr, "failed to resolve refish %s", opts->heads[0]); free(parents); return -1; } /* Maybe that's a ref, so DWIM it */ err = git_reference_dwim(&merge_ref, repo, opts->heads[0]); check_lg2(err, "failed to DWIM reference", git_error_last()->message); /* Grab a signature */ check_lg2(git_signature_now(&sign, "Me", "me@example.com"), "failed to create signature", NULL); #define MERGE_COMMIT_MSG "Merge %s '%s'" /* Prepare a standard merge commit message */ if (merge_ref != NULL) { check_lg2(git_branch_name(&msg_target, merge_ref), "failed to get branch name of merged ref", NULL); } else { msg_target = git_oid_tostr_s(git_annotated_commit_id(merge_commit)); } msglen = snprintf(NULL, 0, MERGE_COMMIT_MSG, (merge_ref ? "branch" : "commit"), msg_target); if (msglen > 0) msglen++; msg = malloc(msglen); err = snprintf(msg, msglen, MERGE_COMMIT_MSG, (merge_ref ? "branch" : "commit"), msg_target); /* This is only to silence the compiler */ if (err < 0) goto cleanup; /* Setup our parent commits */ err = git_reference_peel((git_object **)&parents[0], head_ref, GIT_OBJECT_COMMIT); check_lg2(err, "failed to peel head reference", NULL); for (i = 0; i < opts->annotated_count; i++) { git_commit_lookup(&parents[i + 1], repo, git_annotated_commit_id(opts->annotated[i])); } /* Prepare our commit tree */ check_lg2(git_index_write_tree(&tree_oid, index), "failed to write merged tree", NULL); check_lg2(git_tree_lookup(&tree, repo, &tree_oid), "failed to lookup tree", NULL); /* Commit time ! */ err = git_commit_create(&commit_oid, repo, git_reference_name(head_ref), sign, sign, NULL, msg, tree, opts->annotated_count + 1, parents); check_lg2(err, "failed to create commit", NULL); /* We're done merging, cleanup the repository state */ git_repository_state_cleanup(repo); cleanup: free(parents); return err; } int lg2_merge(git_repository *repo, int argc, char **argv) { struct merge_options opts; git_index *index; git_repository_state_t state; git_merge_analysis_t analysis; git_merge_preference_t preference; const char *path = "."; int err = 0; merge_options_init(&opts); parse_options(&path, &opts, argc, argv); state = git_repository_state(repo); if (state != GIT_REPOSITORY_STATE_NONE) { fprintf(stderr, "repository is in unexpected state %d\n", state); goto cleanup; } err = resolve_heads(repo, &opts); if (err != 0) goto cleanup; err = git_merge_analysis(&analysis, &preference, repo, (const git_annotated_commit **)opts.annotated, opts.annotated_count); check_lg2(err, "merge analysis failed", NULL); if (analysis & GIT_MERGE_ANALYSIS_UP_TO_DATE) { printf("Already up-to-date\n"); return 0; } else if (analysis & GIT_MERGE_ANALYSIS_UNBORN || (analysis & GIT_MERGE_ANALYSIS_FASTFORWARD && !(preference & GIT_MERGE_PREFERENCE_NO_FASTFORWARD))) { const git_oid *target_oid; if (analysis & GIT_MERGE_ANALYSIS_UNBORN) { printf("Unborn\n"); } else { printf("Fast-forward\n"); } /* Since this is a fast-forward, there can be only one merge head */ target_oid = git_annotated_commit_id(opts.annotated[0]); assert(opts.annotated_count == 1); return perform_fastforward(repo, target_oid, (analysis & GIT_MERGE_ANALYSIS_UNBORN)); } else if (analysis & GIT_MERGE_ANALYSIS_NORMAL) { git_merge_options merge_opts = GIT_MERGE_OPTIONS_INIT; git_checkout_options checkout_opts = GIT_CHECKOUT_OPTIONS_INIT; merge_opts.flags = 0; merge_opts.file_flags = GIT_MERGE_FILE_STYLE_DIFF3; checkout_opts.checkout_strategy = GIT_CHECKOUT_FORCE|GIT_CHECKOUT_ALLOW_CONFLICTS; if (preference & GIT_MERGE_PREFERENCE_FASTFORWARD_ONLY) { printf("Fast-forward is preferred, but only a merge is possible\n"); return -1; } err = git_merge(repo, (const git_annotated_commit **)opts.annotated, opts.annotated_count, &merge_opts, &checkout_opts); check_lg2(err, "merge failed", NULL); } /* If we get here, we actually performed the merge above */ check_lg2(git_repository_index(&index, repo), "failed to get repository index", NULL); if (git_index_has_conflicts(index)) { /* Handle conflicts */ output_conflicts(index); } else if (!opts.no_commit) { create_merge_commit(repo, index, &opts); printf("Merge made\n"); } cleanup: free((char **)opts.heads); free(opts.annotated); return 0; }