#include "cache.h" #include "lockfile.h" #include "sequencer.h" #include "dir.h" #include "object.h" #include "commit.h" #include "tag.h" #include "run-command.h" #include "exec_cmd.h" #include "utf8.h" #include "cache-tree.h" #include "diff.h" #include "revision.h" #include "rerere.h" #include "merge-recursive.h" #include "refs.h" #include "argv-array.h" #include "quote.h" #include "trailer.h" #include "log-tree.h" #include "wt-status.h" #define GIT_REFLOG_ACTION "GIT_REFLOG_ACTION" const char sign_off_header[] = "Signed-off-by: "; static const char cherry_picked_prefix[] = "(cherry picked from commit "; GIT_PATH_FUNC(git_path_seq_dir, "sequencer") static GIT_PATH_FUNC(git_path_todo_file, "sequencer/todo") static GIT_PATH_FUNC(git_path_opts_file, "sequencer/opts") static GIT_PATH_FUNC(git_path_head_file, "sequencer/head") static GIT_PATH_FUNC(git_path_abort_safety_file, "sequencer/abort-safety") static GIT_PATH_FUNC(rebase_path, "rebase-merge") /* * The file containing rebase commands, comments, and empty lines. * This file is created by "git rebase -i" then edited by the user. As * the lines are processed, they are removed from the front of this * file and written to the tail of 'done'. */ static GIT_PATH_FUNC(rebase_path_todo, "rebase-merge/git-rebase-todo") /* * The rebase command lines that have already been processed. A line * is moved here when it is first handled, before any associated user * actions. */ static GIT_PATH_FUNC(rebase_path_done, "rebase-merge/done") /* * The commit message that is planned to be used for any changes that * need to be committed following a user interaction. */ static GIT_PATH_FUNC(rebase_path_message, "rebase-merge/message") /* * The file into which is accumulated the suggested commit message for * squash/fixup commands. When the first of a series of squash/fixups * is seen, the file is created and the commit message from the * previous commit and from the first squash/fixup commit are written * to it. The commit message for each subsequent squash/fixup commit * is appended to the file as it is processed. * * The first line of the file is of the form * # This is a combination of $count commits. * where $count is the number of commits whose messages have been * written to the file so far (including the initial "pick" commit). * Each time that a commit message is processed, this line is read and * updated. It is deleted just before the combined commit is made. */ static GIT_PATH_FUNC(rebase_path_squash_msg, "rebase-merge/message-squash") /* * If the current series of squash/fixups has not yet included a squash * command, then this file exists and holds the commit message of the * original "pick" commit. (If the series ends without a "squash" * command, then this can be used as the commit message of the combined * commit without opening the editor.) */ static GIT_PATH_FUNC(rebase_path_fixup_msg, "rebase-merge/message-fixup") /* * A script to set the GIT_AUTHOR_NAME, GIT_AUTHOR_EMAIL, and * GIT_AUTHOR_DATE that will be used for the commit that is currently * being rebased. */ static GIT_PATH_FUNC(rebase_path_author_script, "rebase-merge/author-script") /* * When an "edit" rebase command is being processed, the SHA1 of the * commit to be edited is recorded in this file. When "git rebase * --continue" is executed, if there are any staged changes then they * will be amended to the HEAD commit, but only provided the HEAD * commit is still the commit to be edited. When any other rebase * command is processed, this file is deleted. */ static GIT_PATH_FUNC(rebase_path_amend, "rebase-merge/amend") /* * When we stop at a given patch via the "edit" command, this file contains * the abbreviated commit name of the corresponding patch. */ static GIT_PATH_FUNC(rebase_path_stopped_sha, "rebase-merge/stopped-sha") /* * For the post-rewrite hook, we make a list of rewritten commits and * their new sha1s. The rewritten-pending list keeps the sha1s of * commits that have been processed, but not committed yet, * e.g. because they are waiting for a 'squash' command. */ static GIT_PATH_FUNC(rebase_path_rewritten_list, "rebase-merge/rewritten-list") static GIT_PATH_FUNC(rebase_path_rewritten_pending, "rebase-merge/rewritten-pending") /* * The following files are written by git-rebase just after parsing the * command-line (and are only consumed, not modified, by the sequencer). */ static GIT_PATH_FUNC(rebase_path_gpg_sign_opt, "rebase-merge/gpg_sign_opt") static GIT_PATH_FUNC(rebase_path_orig_head, "rebase-merge/orig-head") static GIT_PATH_FUNC(rebase_path_verbose, "rebase-merge/verbose") static GIT_PATH_FUNC(rebase_path_head_name, "rebase-merge/head-name") static GIT_PATH_FUNC(rebase_path_onto, "rebase-merge/onto") static GIT_PATH_FUNC(rebase_path_autostash, "rebase-merge/autostash") static GIT_PATH_FUNC(rebase_path_strategy, "rebase-merge/strategy") static GIT_PATH_FUNC(rebase_path_strategy_opts, "rebase-merge/strategy_opts") static inline int is_rebase_i(const struct replay_opts *opts) { return opts->action == REPLAY_INTERACTIVE_REBASE; } static const char *get_dir(const struct replay_opts *opts) { if (is_rebase_i(opts)) return rebase_path(); return git_path_seq_dir(); } static const char *get_todo_path(const struct replay_opts *opts) { if (is_rebase_i(opts)) return rebase_path_todo(); return git_path_todo_file(); } /* * Returns 0 for non-conforming footer * Returns 1 for conforming footer * Returns 2 when sob exists within conforming footer * Returns 3 when sob exists within conforming footer as last entry */ static int has_conforming_footer(struct strbuf *sb, struct strbuf *sob, int ignore_footer) { struct trailer_info info; int i; int found_sob = 0, found_sob_last = 0; trailer_info_get(&info, sb->buf); if (info.trailer_start == info.trailer_end) return 0; for (i = 0; i < info.trailer_nr; i++) if (sob && !strncmp(info.trailers[i], sob->buf, sob->len)) { found_sob = 1; if (i == info.trailer_nr - 1) found_sob_last = 1; } trailer_info_release(&info); if (found_sob_last) return 3; if (found_sob) return 2; return 1; } static const char *gpg_sign_opt_quoted(struct replay_opts *opts) { static struct strbuf buf = STRBUF_INIT; strbuf_reset(&buf); if (opts->gpg_sign) sq_quotef(&buf, "-S%s", opts->gpg_sign); return buf.buf; } int sequencer_remove_state(struct replay_opts *opts) { struct strbuf dir = STRBUF_INIT; int i; free(opts->gpg_sign); free(opts->strategy); for (i = 0; i < opts->xopts_nr; i++) free(opts->xopts[i]); free(opts->xopts); strbuf_addf(&dir, "%s", get_dir(opts)); remove_dir_recursively(&dir, 0); strbuf_release(&dir); return 0; } static const char *action_name(const struct replay_opts *opts) { switch (opts->action) { case REPLAY_REVERT: return N_("revert"); case REPLAY_PICK: return N_("cherry-pick"); case REPLAY_INTERACTIVE_REBASE: return N_("rebase -i"); } die(_("Unknown action: %d"), opts->action); } struct commit_message { char *parent_label; char *label; char *subject; const char *message; }; static const char *short_commit_name(struct commit *commit) { return find_unique_abbrev(commit->object.oid.hash, DEFAULT_ABBREV); } static int get_message(struct commit *commit, struct commit_message *out) { const char *abbrev, *subject; int subject_len; out->message = logmsg_reencode(commit, NULL, get_commit_output_encoding()); abbrev = short_commit_name(commit); subject_len = find_commit_subject(out->message, &subject); out->subject = xmemdupz(subject, subject_len); out->label = xstrfmt("%s... %s", abbrev, out->subject); out->parent_label = xstrfmt("parent of %s", out->label); return 0; } static void free_message(struct commit *commit, struct commit_message *msg) { free(msg->parent_label); free(msg->label); free(msg->subject); unuse_commit_buffer(commit, msg->message); } static void print_advice(int show_hint, struct replay_opts *opts) { char *msg = getenv("GIT_CHERRY_PICK_HELP"); if (msg) { fprintf(stderr, "%s\n", msg); /* * A conflict has occurred but the porcelain * (typically rebase --interactive) wants to take care * of the commit itself so remove CHERRY_PICK_HEAD */ unlink(git_path_cherry_pick_head()); return; } if (show_hint) { if (opts->no_commit) advise(_("after resolving the conflicts, mark the corrected paths\n" "with 'git add ' or 'git rm '")); else advise(_("after resolving the conflicts, mark the corrected paths\n" "with 'git add ' or 'git rm '\n" "and commit the result with 'git commit'")); } } static int write_message(const void *buf, size_t len, const char *filename, int append_eol) { static struct lock_file msg_file; int msg_fd = hold_lock_file_for_update(&msg_file, filename, 0); if (msg_fd < 0) return error_errno(_("could not lock '%s'"), filename); if (write_in_full(msg_fd, buf, len) < 0) { rollback_lock_file(&msg_file); return error_errno(_("could not write to '%s'"), filename); } if (append_eol && write(msg_fd, "\n", 1) < 0) { rollback_lock_file(&msg_file); return error_errno(_("could not write eol to '%s'"), filename); } if (commit_lock_file(&msg_file) < 0) { rollback_lock_file(&msg_file); return error(_("failed to finalize '%s'."), filename); } return 0; } /* * Reads a file that was presumably written by a shell script, i.e. with an * end-of-line marker that needs to be stripped. * * Note that only the last end-of-line marker is stripped, consistent with the * behavior of "$(cat path)" in a shell script. * * Returns 1 if the file was read, 0 if it could not be read or does not exist. */ static int read_oneliner(struct strbuf *buf, const char *path, int skip_if_empty) { int orig_len = buf->len; if (!file_exists(path)) return 0; if (strbuf_read_file(buf, path, 0) < 0) { warning_errno(_("could not read '%s'"), path); return 0; } if (buf->len > orig_len && buf->buf[buf->len - 1] == '\n') { if (--buf->len > orig_len && buf->buf[buf->len - 1] == '\r') --buf->len; buf->buf[buf->len] = '\0'; } if (skip_if_empty && buf->len == orig_len) return 0; return 1; } static struct tree *empty_tree(void) { return lookup_tree(EMPTY_TREE_SHA1_BIN); } static int error_dirty_index(struct replay_opts *opts) { if (read_cache_unmerged()) return error_resolve_conflict(_(action_name(opts))); error(_("your local changes would be overwritten by %s."), _(action_name(opts))); if (advice_commit_before_merge) advise(_("commit your changes or stash them to proceed.")); return -1; } static void update_abort_safety_file(void) { struct object_id head; /* Do nothing on a single-pick */ if (!file_exists(git_path_seq_dir())) return; if (!get_oid("HEAD", &head)) write_file(git_path_abort_safety_file(), "%s", oid_to_hex(&head)); else write_file(git_path_abort_safety_file(), "%s", ""); } static int fast_forward_to(const unsigned char *to, const unsigned char *from, int unborn, struct replay_opts *opts) { struct ref_transaction *transaction; struct strbuf sb = STRBUF_INIT; struct strbuf err = STRBUF_INIT; read_cache(); if (checkout_fast_forward(from, to, 1)) return -1; /* the callee should have complained already */ strbuf_addf(&sb, _("%s: fast-forward"), _(action_name(opts))); transaction = ref_transaction_begin(&err); if (!transaction || ref_transaction_update(transaction, "HEAD", to, unborn ? null_sha1 : from, 0, sb.buf, &err) || ref_transaction_commit(transaction, &err)) { ref_transaction_free(transaction); error("%s", err.buf); strbuf_release(&sb); strbuf_release(&err); return -1; } strbuf_release(&sb); strbuf_release(&err); ref_transaction_free(transaction); update_abort_safety_file(); return 0; } void append_conflicts_hint(struct strbuf *msgbuf) { int i; strbuf_addch(msgbuf, '\n'); strbuf_commented_addf(msgbuf, "Conflicts:\n"); for (i = 0; i < active_nr;) { const struct cache_entry *ce = active_cache[i++]; if (ce_stage(ce)) { strbuf_commented_addf(msgbuf, "\t%s\n", ce->name); while (i < active_nr && !strcmp(ce->name, active_cache[i]->name)) i++; } } } static int do_recursive_merge(struct commit *base, struct commit *next, const char *base_label, const char *next_label, unsigned char *head, struct strbuf *msgbuf, struct replay_opts *opts) { struct merge_options o; struct tree *result, *next_tree, *base_tree, *head_tree; int clean; char **xopt; static struct lock_file index_lock; hold_locked_index(&index_lock, LOCK_DIE_ON_ERROR); read_cache(); init_merge_options(&o); o.ancestor = base ? base_label : "(empty tree)"; o.branch1 = "HEAD"; o.branch2 = next ? next_label : "(empty tree)"; head_tree = parse_tree_indirect(head); next_tree = next ? next->tree : empty_tree(); base_tree = base ? base->tree : empty_tree(); for (xopt = opts->xopts; xopt != opts->xopts + opts->xopts_nr; xopt++) parse_merge_opt(&o, *xopt); clean = merge_trees(&o, head_tree, next_tree, base_tree, &result); strbuf_release(&o.obuf); if (clean < 0) return clean; if (active_cache_changed && write_locked_index(&the_index, &index_lock, COMMIT_LOCK)) /* TRANSLATORS: %s will be "revert", "cherry-pick" or * "rebase -i". */ return error(_("%s: Unable to write new index file"), _(action_name(opts))); rollback_lock_file(&index_lock); if (opts->signoff) append_signoff(msgbuf, 0, 0); if (!clean) append_conflicts_hint(msgbuf); return !clean; } static int is_index_unchanged(void) { unsigned char head_sha1[20]; struct commit *head_commit; if (!resolve_ref_unsafe("HEAD", RESOLVE_REF_READING, head_sha1, NULL)) return error(_("could not resolve HEAD commit\n")); head_commit = lookup_commit(head_sha1); /* * If head_commit is NULL, check_commit, called from * lookup_commit, would have indicated that head_commit is not * a commit object already. parse_commit() will return failure * without further complaints in such a case. Otherwise, if * the commit is invalid, parse_commit() will complain. So * there is nothing for us to say here. Just return failure. */ if (parse_commit(head_commit)) return -1; if (!active_cache_tree) active_cache_tree = cache_tree(); if (!cache_tree_fully_valid(active_cache_tree)) if (cache_tree_update(&the_index, 0)) return error(_("unable to update cache tree\n")); return !hashcmp(active_cache_tree->sha1, head_commit->tree->object.oid.hash); } static int write_author_script(const char *message) { struct strbuf buf = STRBUF_INIT; const char *eol; int res; for (;;) if (!*message || starts_with(message, "\n")) { missing_author: /* Missing 'author' line? */ unlink(rebase_path_author_script()); return 0; } else if (skip_prefix(message, "author ", &message)) break; else if ((eol = strchr(message, '\n'))) message = eol + 1; else goto missing_author; strbuf_addstr(&buf, "GIT_AUTHOR_NAME='"); while (*message && *message != '\n' && *message != '\r') if (skip_prefix(message, " <", &message)) break; else if (*message != '\'') strbuf_addch(&buf, *(message++)); else strbuf_addf(&buf, "'\\\\%c'", *(message++)); strbuf_addstr(&buf, "'\nGIT_AUTHOR_EMAIL='"); while (*message && *message != '\n' && *message != '\r') if (skip_prefix(message, "> ", &message)) break; else if (*message != '\'') strbuf_addch(&buf, *(message++)); else strbuf_addf(&buf, "'\\\\%c'", *(message++)); strbuf_addstr(&buf, "'\nGIT_AUTHOR_DATE='@"); while (*message && *message != '\n' && *message != '\r') if (*message != '\'') strbuf_addch(&buf, *(message++)); else strbuf_addf(&buf, "'\\\\%c'", *(message++)); res = write_message(buf.buf, buf.len, rebase_path_author_script(), 1); strbuf_release(&buf); return res; } /* * Read a list of environment variable assignments (such as the author-script * file) into an environment block. Returns -1 on error, 0 otherwise. */ static int read_env_script(struct argv_array *env) { struct strbuf script = STRBUF_INIT; int i, count = 0; char *p, *p2; if (strbuf_read_file(&script, rebase_path_author_script(), 256) <= 0) return -1; for (p = script.buf; *p; p++) if (skip_prefix(p, "'\\\\''", (const char **)&p2)) strbuf_splice(&script, p - script.buf, p2 - p, "'", 1); else if (*p == '\'') strbuf_splice(&script, p-- - script.buf, 1, "", 0); else if (*p == '\n') { *p = '\0'; count++; } for (i = 0, p = script.buf; i < count; i++) { argv_array_push(env, p); p += strlen(p) + 1; } return 0; } static const char staged_changes_advice[] = N_("you have staged changes in your working tree\n" "If these changes are meant to be squashed into the previous commit, run:\n" "\n" " git commit --amend %s\n" "\n" "If they are meant to go into a new commit, run:\n" "\n" " git commit %s\n" "\n" "In both cases, once you're done, continue with:\n" "\n" " git rebase --continue\n"); /* * If we are cherry-pick, and if the merge did not result in * hand-editing, we will hit this commit and inherit the original * author date and name. * * If we are revert, or if our cherry-pick results in a hand merge, * we had better say that the current user is responsible for that. * * An exception is when run_git_commit() is called during an * interactive rebase: in that case, we will want to retain the * author metadata. */ static int run_git_commit(const char *defmsg, struct replay_opts *opts, int allow_empty, int edit, int amend, int cleanup_commit_message) { struct argv_array env = ARGV_ARRAY_INIT, array; int rc; const char *value; if (is_rebase_i(opts)) { if (!read_env_script(&env)) { const char *gpg_opt = gpg_sign_opt_quoted(opts); return error(_(staged_changes_advice), gpg_opt, gpg_opt); } } argv_array_init(&array); argv_array_push(&array, "commit"); argv_array_push(&array, "-n"); if (amend) argv_array_push(&array, "--amend"); if (opts->gpg_sign) argv_array_pushf(&array, "-S%s", opts->gpg_sign); if (opts->signoff) argv_array_push(&array, "-s"); if (defmsg) argv_array_pushl(&array, "-F", defmsg, NULL); if (cleanup_commit_message) argv_array_push(&array, "--cleanup=strip"); if (edit) argv_array_push(&array, "-e"); else if (!cleanup_commit_message && !opts->signoff && !opts->record_origin && git_config_get_value("commit.cleanup", &value)) argv_array_push(&array, "--cleanup=verbatim"); if (allow_empty) argv_array_push(&array, "--allow-empty"); if (opts->allow_empty_message) argv_array_push(&array, "--allow-empty-message"); rc = run_command_v_opt_cd_env(array.argv, RUN_GIT_CMD, NULL, (const char *const *)env.argv); argv_array_clear(&array); argv_array_clear(&env); return rc; } static int is_original_commit_empty(struct commit *commit) { const unsigned char *ptree_sha1; if (parse_commit(commit)) return error(_("could not parse commit %s\n"), oid_to_hex(&commit->object.oid)); if (commit->parents) { struct commit *parent = commit->parents->item; if (parse_commit(parent)) return error(_("could not parse parent commit %s\n"), oid_to_hex(&parent->object.oid)); ptree_sha1 = parent->tree->object.oid.hash; } else { ptree_sha1 = EMPTY_TREE_SHA1_BIN; /* commit is root */ } return !hashcmp(ptree_sha1, commit->tree->object.oid.hash); } /* * Do we run "git commit" with "--allow-empty"? */ static int allow_empty(struct replay_opts *opts, struct commit *commit) { int index_unchanged, empty_commit; /* * Three cases: * * (1) we do not allow empty at all and error out. * * (2) we allow ones that were initially empty, but * forbid the ones that become empty; * * (3) we allow both. */ if (!opts->allow_empty) return 0; /* let "git commit" barf as necessary */ index_unchanged = is_index_unchanged(); if (index_unchanged < 0) return index_unchanged; if (!index_unchanged) return 0; /* we do not have to say --allow-empty */ if (opts->keep_redundant_commits) return 1; empty_commit = is_original_commit_empty(commit); if (empty_commit < 0) return empty_commit; if (!empty_commit) return 0; else return 1; } /* * Note that ordering matters in this enum. Not only must it match the mapping * below, it is also divided into several sections that matter. When adding * new commands, make sure you add it in the right section. */ enum todo_command { /* commands that handle commits */ TODO_PICK = 0, TODO_REVERT, TODO_EDIT, TODO_REWORD, TODO_FIXUP, TODO_SQUASH, /* commands that do something else than handling a single commit */ TODO_EXEC, /* commands that do nothing but are counted for reporting progress */ TODO_NOOP, TODO_DROP, /* comments (not counted for reporting progress) */ TODO_COMMENT }; static struct { char c; const char *str; } todo_command_info[] = { { 'p', "pick" }, { 0, "revert" }, { 'e', "edit" }, { 'r', "reword" }, { 'f', "fixup" }, { 's', "squash" }, { 'x', "exec" }, { 0, "noop" }, { 'd', "drop" }, { 0, NULL } }; static const char *command_to_string(const enum todo_command command) { if (command < TODO_COMMENT) return todo_command_info[command].str; die("Unknown command: %d", command); } static int is_noop(const enum todo_command command) { return TODO_NOOP <= command; } static int is_fixup(enum todo_command command) { return command == TODO_FIXUP || command == TODO_SQUASH; } static int update_squash_messages(enum todo_command command, struct commit *commit, struct replay_opts *opts) { struct strbuf buf = STRBUF_INIT; int count, res; const char *message, *body; if (file_exists(rebase_path_squash_msg())) { struct strbuf header = STRBUF_INIT; char *eol, *p; if (strbuf_read_file(&buf, rebase_path_squash_msg(), 2048) <= 0) return error(_("could not read '%s'"), rebase_path_squash_msg()); p = buf.buf + 1; eol = strchrnul(buf.buf, '\n'); if (buf.buf[0] != comment_line_char || (p += strcspn(p, "0123456789\n")) == eol) return error(_("unexpected 1st line of squash message:" "\n\n\t%.*s"), (int)(eol - buf.buf), buf.buf); count = strtol(p, NULL, 10); if (count < 1) return error(_("invalid 1st line of squash message:\n" "\n\t%.*s"), (int)(eol - buf.buf), buf.buf); strbuf_addf(&header, "%c ", comment_line_char); strbuf_addf(&header, _("This is a combination of %d commits."), ++count); strbuf_splice(&buf, 0, eol - buf.buf, header.buf, header.len); strbuf_release(&header); } else { unsigned char head[20]; struct commit *head_commit; const char *head_message, *body; if (get_sha1("HEAD", head)) return error(_("need a HEAD to fixup")); if (!(head_commit = lookup_commit_reference(head))) return error(_("could not read HEAD")); if (!(head_message = get_commit_buffer(head_commit, NULL))) return error(_("could not read HEAD's commit message")); find_commit_subject(head_message, &body); if (write_message(body, strlen(body), rebase_path_fixup_msg(), 0)) { unuse_commit_buffer(head_commit, head_message); return error(_("cannot write '%s'"), rebase_path_fixup_msg()); } count = 2; strbuf_addf(&buf, "%c ", comment_line_char); strbuf_addf(&buf, _("This is a combination of %d commits."), count); strbuf_addf(&buf, "\n%c ", comment_line_char); strbuf_addstr(&buf, _("This is the 1st commit message:")); strbuf_addstr(&buf, "\n\n"); strbuf_addstr(&buf, body); unuse_commit_buffer(head_commit, head_message); } if (!(message = get_commit_buffer(commit, NULL))) return error(_("could not read commit message of %s"), oid_to_hex(&commit->object.oid)); find_commit_subject(message, &body); if (command == TODO_SQUASH) { unlink(rebase_path_fixup_msg()); strbuf_addf(&buf, "\n%c ", comment_line_char); strbuf_addf(&buf, _("This is the commit message #%d:"), count); strbuf_addstr(&buf, "\n\n"); strbuf_addstr(&buf, body); } else if (command == TODO_FIXUP) { strbuf_addf(&buf, "\n%c ", comment_line_char); strbuf_addf(&buf, _("The commit message #%d will be skipped:"), count); strbuf_addstr(&buf, "\n\n"); strbuf_add_commented_lines(&buf, body, strlen(body)); } else return error(_("unknown command: %d"), command); unuse_commit_buffer(commit, message); res = write_message(buf.buf, buf.len, rebase_path_squash_msg(), 0); strbuf_release(&buf); return res; } static void flush_rewritten_pending(void) { struct strbuf buf = STRBUF_INIT; unsigned char newsha1[20]; FILE *out; if (strbuf_read_file(&buf, rebase_path_rewritten_pending(), 82) > 0 && !get_sha1("HEAD", newsha1) && (out = fopen(rebase_path_rewritten_list(), "a"))) { char *bol = buf.buf, *eol; while (*bol) { eol = strchrnul(bol, '\n'); fprintf(out, "%.*s %s\n", (int)(eol - bol), bol, sha1_to_hex(newsha1)); if (!*eol) break; bol = eol + 1; } fclose(out); unlink(rebase_path_rewritten_pending()); } strbuf_release(&buf); } static void record_in_rewritten(struct object_id *oid, enum todo_command next_command) { FILE *out = fopen(rebase_path_rewritten_pending(), "a"); if (!out) return; fprintf(out, "%s\n", oid_to_hex(oid)); fclose(out); if (!is_fixup(next_command)) flush_rewritten_pending(); } static int do_pick_commit(enum todo_command command, struct commit *commit, struct replay_opts *opts, int final_fixup) { int edit = opts->edit, cleanup_commit_message = 0; const char *msg_file = edit ? NULL : git_path_merge_msg(); unsigned char head[20]; struct commit *base, *next, *parent; const char *base_label, *next_label; struct commit_message msg = { NULL, NULL, NULL, NULL }; struct strbuf msgbuf = STRBUF_INIT; int res, unborn = 0, amend = 0, allow = 0; if (opts->no_commit) { /* * We do not intend to commit immediately. We just want to * merge the differences in, so let's compute the tree * that represents the "current" state for merge-recursive * to work on. */ if (write_cache_as_tree(head, 0, NULL)) return error(_("your index file is unmerged.")); } else { unborn = get_sha1("HEAD", head); if (unborn) hashcpy(head, EMPTY_TREE_SHA1_BIN); if (index_differs_from(unborn ? EMPTY_TREE_SHA1_HEX : "HEAD", 0, 0)) return error_dirty_index(opts); } discard_cache(); if (!commit->parents) parent = NULL; else if (commit->parents->next) { /* Reverting or cherry-picking a merge commit */ int cnt; struct commit_list *p; if (!opts->mainline) return error(_("commit %s is a merge but no -m option was given."), oid_to_hex(&commit->object.oid)); for (cnt = 1, p = commit->parents; cnt != opts->mainline && p; cnt++) p = p->next; if (cnt != opts->mainline || !p) return error(_("commit %s does not have parent %d"), oid_to_hex(&commit->object.oid), opts->mainline); parent = p->item; } else if (0 < opts->mainline) return error(_("mainline was specified but commit %s is not a merge."), oid_to_hex(&commit->object.oid)); else parent = commit->parents->item; if (get_message(commit, &msg) != 0) return error(_("cannot get commit message for %s"), oid_to_hex(&commit->object.oid)); if (opts->allow_ff && !is_fixup(command) && ((parent && !hashcmp(parent->object.oid.hash, head)) || (!parent && unborn))) { if (is_rebase_i(opts)) write_author_script(msg.message); res = fast_forward_to(commit->object.oid.hash, head, unborn, opts); if (res || command != TODO_REWORD) goto leave; edit = amend = 1; msg_file = NULL; goto fast_forward_edit; } if (parent && parse_commit(parent) < 0) /* TRANSLATORS: The first %s will be a "todo" command like "revert" or "pick", the second %s a SHA1. */ return error(_("%s: cannot parse parent commit %s"), command_to_string(command), oid_to_hex(&parent->object.oid)); /* * "commit" is an existing commit. We would want to apply * the difference it introduces since its first parent "prev" * on top of the current HEAD if we are cherry-pick. Or the * reverse of it if we are revert. */ if (command == TODO_REVERT) { base = commit; base_label = msg.label; next = parent; next_label = msg.parent_label; strbuf_addstr(&msgbuf, "Revert \""); strbuf_addstr(&msgbuf, msg.subject); strbuf_addstr(&msgbuf, "\"\n\nThis reverts commit "); strbuf_addstr(&msgbuf, oid_to_hex(&commit->object.oid)); if (commit->parents && commit->parents->next) { strbuf_addstr(&msgbuf, ", reversing\nchanges made to "); strbuf_addstr(&msgbuf, oid_to_hex(&parent->object.oid)); } strbuf_addstr(&msgbuf, ".\n"); } else { const char *p; base = parent; base_label = msg.parent_label; next = commit; next_label = msg.label; /* Append the commit log message to msgbuf. */ if (find_commit_subject(msg.message, &p)) strbuf_addstr(&msgbuf, p); if (opts->record_origin) { if (!has_conforming_footer(&msgbuf, NULL, 0)) strbuf_addch(&msgbuf, '\n'); strbuf_addstr(&msgbuf, cherry_picked_prefix); strbuf_addstr(&msgbuf, oid_to_hex(&commit->object.oid)); strbuf_addstr(&msgbuf, ")\n"); } } if (command == TODO_REWORD) edit = 1; else if (is_fixup(command)) { if (update_squash_messages(command, commit, opts)) return -1; amend = 1; if (!final_fixup) msg_file = rebase_path_squash_msg(); else if (file_exists(rebase_path_fixup_msg())) { cleanup_commit_message = 1; msg_file = rebase_path_fixup_msg(); } else { const char *dest = git_path("SQUASH_MSG"); unlink(dest); if (copy_file(dest, rebase_path_squash_msg(), 0666)) return error(_("could not rename '%s' to '%s'"), rebase_path_squash_msg(), dest); unlink(git_path("MERGE_MSG")); msg_file = dest; edit = 1; } } if (is_rebase_i(opts) && write_author_script(msg.message) < 0) res = -1; else if (!opts->strategy || !strcmp(opts->strategy, "recursive") || command == TODO_REVERT) { res = do_recursive_merge(base, next, base_label, next_label, head, &msgbuf, opts); if (res < 0) return res; res |= write_message(msgbuf.buf, msgbuf.len, git_path_merge_msg(), 0); } else { struct commit_list *common = NULL; struct commit_list *remotes = NULL; res = write_message(msgbuf.buf, msgbuf.len, git_path_merge_msg(), 0); commit_list_insert(base, &common); commit_list_insert(next, &remotes); res |= try_merge_command(opts->strategy, opts->xopts_nr, (const char **)opts->xopts, common, sha1_to_hex(head), remotes); free_commit_list(common); free_commit_list(remotes); } strbuf_release(&msgbuf); /* * If the merge was clean or if it failed due to conflict, we write * CHERRY_PICK_HEAD for the subsequent invocation of commit to use. * However, if the merge did not even start, then we don't want to * write it at all. */ if (command == TODO_PICK && !opts->no_commit && (res == 0 || res == 1) && update_ref(NULL, "CHERRY_PICK_HEAD", commit->object.oid.hash, NULL, REF_NODEREF, UPDATE_REFS_MSG_ON_ERR)) res = -1; if (command == TODO_REVERT && ((opts->no_commit && res == 0) || res == 1) && update_ref(NULL, "REVERT_HEAD", commit->object.oid.hash, NULL, REF_NODEREF, UPDATE_REFS_MSG_ON_ERR)) res = -1; if (res) { error(command == TODO_REVERT ? _("could not revert %s... %s") : _("could not apply %s... %s"), short_commit_name(commit), msg.subject); print_advice(res == 1, opts); rerere(opts->allow_rerere_auto); goto leave; } allow = allow_empty(opts, commit); if (allow < 0) { res = allow; goto leave; } if (!opts->no_commit) fast_forward_edit: res = run_git_commit(msg_file, opts, allow, edit, amend, cleanup_commit_message); if (!res && final_fixup) { unlink(rebase_path_fixup_msg()); unlink(rebase_path_squash_msg()); } leave: free_message(commit, &msg); update_abort_safety_file(); return res; } static int prepare_revs(struct replay_opts *opts) { /* * picking (but not reverting) ranges (but not individual revisions) * should be done in reverse */ if (opts->action == REPLAY_PICK && !opts->revs->no_walk) opts->revs->reverse ^= 1; if (prepare_revision_walk(opts->revs)) return error(_("revision walk setup failed")); if (!opts->revs->commits) return error(_("empty commit set passed")); return 0; } static int read_and_refresh_cache(struct replay_opts *opts) { static struct lock_file index_lock; int index_fd = hold_locked_index(&index_lock, 0); if (read_index_preload(&the_index, NULL) < 0) { rollback_lock_file(&index_lock); return error(_("git %s: failed to read the index"), _(action_name(opts))); } refresh_index(&the_index, REFRESH_QUIET|REFRESH_UNMERGED, NULL, NULL, NULL); if (the_index.cache_changed && index_fd >= 0) { if (write_locked_index(&the_index, &index_lock, COMMIT_LOCK)) { rollback_lock_file(&index_lock); return error(_("git %s: failed to refresh the index"), _(action_name(opts))); } } rollback_lock_file(&index_lock); return 0; } struct todo_item { enum todo_command command; struct commit *commit; const char *arg; int arg_len; size_t offset_in_buf; }; struct todo_list { struct strbuf buf; struct todo_item *items; int nr, alloc, current; }; #define TODO_LIST_INIT { STRBUF_INIT } static void todo_list_release(struct todo_list *todo_list) { strbuf_release(&todo_list->buf); free(todo_list->items); todo_list->items = NULL; todo_list->nr = todo_list->alloc = 0; } static struct todo_item *append_new_todo(struct todo_list *todo_list) { ALLOC_GROW(todo_list->items, todo_list->nr + 1, todo_list->alloc); return todo_list->items + todo_list->nr++; } static int parse_insn_line(struct todo_item *item, const char *bol, char *eol) { unsigned char commit_sha1[20]; char *end_of_object_name; int i, saved, status, padding; /* left-trim */ bol += strspn(bol, " \t"); if (bol == eol || *bol == '\r' || *bol == comment_line_char) { item->command = TODO_COMMENT; item->commit = NULL; item->arg = bol; item->arg_len = eol - bol; return 0; } for (i = 0; i < TODO_COMMENT; i++) if (skip_prefix(bol, todo_command_info[i].str, &bol)) { item->command = i; break; } else if (bol[1] == ' ' && *bol == todo_command_info[i].c) { bol++; item->command = i; break; } if (i >= TODO_COMMENT) return -1; if (item->command == TODO_NOOP) { item->commit = NULL; item->arg = bol; item->arg_len = eol - bol; return 0; } /* Eat up extra spaces/ tabs before object name */ padding = strspn(bol, " \t"); if (!padding) return -1; bol += padding; if (item->command == TODO_EXEC) { item->arg = bol; item->arg_len = (int)(eol - bol); return 0; } end_of_object_name = (char *) bol + strcspn(bol, " \t\n"); saved = *end_of_object_name; *end_of_object_name = '\0'; status = get_sha1(bol, commit_sha1); *end_of_object_name = saved; item->arg = end_of_object_name + strspn(end_of_object_name, " \t"); item->arg_len = (int)(eol - item->arg); if (status < 0) return -1; item->commit = lookup_commit_reference(commit_sha1); return !item->commit; } static int parse_insn_buffer(char *buf, struct todo_list *todo_list) { struct todo_item *item; char *p = buf, *next_p; int i, res = 0, fixup_okay = file_exists(rebase_path_done()); for (i = 1; *p; i++, p = next_p) { char *eol = strchrnul(p, '\n'); next_p = *eol ? eol + 1 /* skip LF */ : eol; if (p != eol && eol[-1] == '\r') eol--; /* strip Carriage Return */ item = append_new_todo(todo_list); item->offset_in_buf = p - todo_list->buf.buf; if (parse_insn_line(item, p, eol)) { res = error(_("invalid line %d: %.*s"), i, (int)(eol - p), p); item->command = TODO_NOOP; } if (fixup_okay) ; /* do nothing */ else if (is_fixup(item->command)) return error(_("cannot '%s' without a previous commit"), command_to_string(item->command)); else if (!is_noop(item->command)) fixup_okay = 1; } return res; } static int read_populate_todo(struct todo_list *todo_list, struct replay_opts *opts) { const char *todo_file = get_todo_path(opts); int fd, res; strbuf_reset(&todo_list->buf); fd = open(todo_file, O_RDONLY); if (fd < 0) return error_errno(_("could not open '%s'"), todo_file); if (strbuf_read(&todo_list->buf, fd, 0) < 0) { close(fd); return error(_("could not read '%s'."), todo_file); } close(fd); res = parse_insn_buffer(todo_list->buf.buf, todo_list); if (res) return error(_("unusable instruction sheet: '%s'"), todo_file); if (!todo_list->nr && (!is_rebase_i(opts) || !file_exists(rebase_path_done()))) return error(_("no commits parsed.")); if (!is_rebase_i(opts)) { enum todo_command valid = opts->action == REPLAY_PICK ? TODO_PICK : TODO_REVERT; int i; for (i = 0; i < todo_list->nr; i++) if (valid == todo_list->items[i].command) continue; else if (valid == TODO_PICK) return error(_("cannot cherry-pick during a revert.")); else return error(_("cannot revert during a cherry-pick.")); } return 0; } static int git_config_string_dup(char **dest, const char *var, const char *value) { if (!value) return config_error_nonbool(var); free(*dest); *dest = xstrdup(value); return 0; } static int populate_opts_cb(const char *key, const char *value, void *data) { struct replay_opts *opts = data; int error_flag = 1; if (!value) error_flag = 0; else if (!strcmp(key, "options.no-commit")) opts->no_commit = git_config_bool_or_int(key, value, &error_flag); else if (!strcmp(key, "options.edit")) opts->edit = git_config_bool_or_int(key, value, &error_flag); else if (!strcmp(key, "options.signoff")) opts->signoff = git_config_bool_or_int(key, value, &error_flag); else if (!strcmp(key, "options.record-origin")) opts->record_origin = git_config_bool_or_int(key, value, &error_flag); else if (!strcmp(key, "options.allow-ff")) opts->allow_ff = git_config_bool_or_int(key, value, &error_flag); else if (!strcmp(key, "options.mainline")) opts->mainline = git_config_int(key, value); else if (!strcmp(key, "options.strategy")) git_config_string_dup(&opts->strategy, key, value); else if (!strcmp(key, "options.gpg-sign")) git_config_string_dup(&opts->gpg_sign, key, value); else if (!strcmp(key, "options.strategy-option")) { ALLOC_GROW(opts->xopts, opts->xopts_nr + 1, opts->xopts_alloc); opts->xopts[opts->xopts_nr++] = xstrdup(value); } else return error(_("invalid key: %s"), key); if (!error_flag) return error(_("invalid value for %s: %s"), key, value); return 0; } static void read_strategy_opts(struct replay_opts *opts, struct strbuf *buf) { int i; strbuf_reset(buf); if (!read_oneliner(buf, rebase_path_strategy(), 0)) return; opts->strategy = strbuf_detach(buf, NULL); if (!read_oneliner(buf, rebase_path_strategy_opts(), 0)) return; opts->xopts_nr = split_cmdline(buf->buf, (const char ***)&opts->xopts); for (i = 0; i < opts->xopts_nr; i++) { const char *arg = opts->xopts[i]; skip_prefix(arg, "--", &arg); opts->xopts[i] = xstrdup(arg); } } static int read_populate_opts(struct replay_opts *opts) { if (is_rebase_i(opts)) { struct strbuf buf = STRBUF_INIT; if (read_oneliner(&buf, rebase_path_gpg_sign_opt(), 1)) { if (!starts_with(buf.buf, "-S")) strbuf_reset(&buf); else { free(opts->gpg_sign); opts->gpg_sign = xstrdup(buf.buf + 2); } } if (file_exists(rebase_path_verbose())) opts->verbose = 1; read_strategy_opts(opts, &buf); strbuf_release(&buf); return 0; } if (!file_exists(git_path_opts_file())) return 0; /* * The function git_parse_source(), called from git_config_from_file(), * may die() in case of a syntactically incorrect file. We do not care * about this case, though, because we wrote that file ourselves, so we * are pretty certain that it is syntactically correct. */ if (git_config_from_file(populate_opts_cb, git_path_opts_file(), opts) < 0) return error(_("malformed options sheet: '%s'"), git_path_opts_file()); return 0; } static int walk_revs_populate_todo(struct todo_list *todo_list, struct replay_opts *opts) { enum todo_command command = opts->action == REPLAY_PICK ? TODO_PICK : TODO_REVERT; const char *command_string = todo_command_info[command].str; struct commit *commit; if (prepare_revs(opts)) return -1; while ((commit = get_revision(opts->revs))) { struct todo_item *item = append_new_todo(todo_list); const char *commit_buffer = get_commit_buffer(commit, NULL); const char *subject; int subject_len; item->command = command; item->commit = commit; item->arg = NULL; item->arg_len = 0; item->offset_in_buf = todo_list->buf.len; subject_len = find_commit_subject(commit_buffer, &subject); strbuf_addf(&todo_list->buf, "%s %s %.*s\n", command_string, short_commit_name(commit), subject_len, subject); unuse_commit_buffer(commit, commit_buffer); } return 0; } static int create_seq_dir(void) { if (file_exists(git_path_seq_dir())) { error(_("a cherry-pick or revert is already in progress")); advise(_("try \"git cherry-pick (--continue | --quit | --abort)\"")); return -1; } else if (mkdir(git_path_seq_dir(), 0777) < 0) return error_errno(_("could not create sequencer directory '%s'"), git_path_seq_dir()); return 0; } static int save_head(const char *head) { static struct lock_file head_lock; struct strbuf buf = STRBUF_INIT; int fd; fd = hold_lock_file_for_update(&head_lock, git_path_head_file(), 0); if (fd < 0) { rollback_lock_file(&head_lock); return error_errno(_("could not lock HEAD")); } strbuf_addf(&buf, "%s\n", head); if (write_in_full(fd, buf.buf, buf.len) < 0) { rollback_lock_file(&head_lock); return error_errno(_("could not write to '%s'"), git_path_head_file()); } if (commit_lock_file(&head_lock) < 0) { rollback_lock_file(&head_lock); return error(_("failed to finalize '%s'."), git_path_head_file()); } return 0; } static int rollback_is_safe(void) { struct strbuf sb = STRBUF_INIT; struct object_id expected_head, actual_head; if (strbuf_read_file(&sb, git_path_abort_safety_file(), 0) >= 0) { strbuf_trim(&sb); if (get_oid_hex(sb.buf, &expected_head)) { strbuf_release(&sb); die(_("could not parse %s"), git_path_abort_safety_file()); } strbuf_release(&sb); } else if (errno == ENOENT) oidclr(&expected_head); else die_errno(_("could not read '%s'"), git_path_abort_safety_file()); if (get_oid("HEAD", &actual_head)) oidclr(&actual_head); return !oidcmp(&actual_head, &expected_head); } static int reset_for_rollback(const unsigned char *sha1) { const char *argv[4]; /* reset --merge + NULL */ argv[0] = "reset"; argv[1] = "--merge"; argv[2] = sha1_to_hex(sha1); argv[3] = NULL; return run_command_v_opt(argv, RUN_GIT_CMD); } static int rollback_single_pick(void) { unsigned char head_sha1[20]; if (!file_exists(git_path_cherry_pick_head()) && !file_exists(git_path_revert_head())) return error(_("no cherry-pick or revert in progress")); if (read_ref_full("HEAD", 0, head_sha1, NULL)) return error(_("cannot resolve HEAD")); if (is_null_sha1(head_sha1)) return error(_("cannot abort from a branch yet to be born")); return reset_for_rollback(head_sha1); } int sequencer_rollback(struct replay_opts *opts) { FILE *f; unsigned char sha1[20]; struct strbuf buf = STRBUF_INIT; f = fopen(git_path_head_file(), "r"); if (!f && errno == ENOENT) { /* * There is no multiple-cherry-pick in progress. * If CHERRY_PICK_HEAD or REVERT_HEAD indicates * a single-cherry-pick in progress, abort that. */ return rollback_single_pick(); } if (!f) return error_errno(_("cannot open '%s'"), git_path_head_file()); if (strbuf_getline_lf(&buf, f)) { error(_("cannot read '%s': %s"), git_path_head_file(), ferror(f) ? strerror(errno) : _("unexpected end of file")); fclose(f); goto fail; } fclose(f); if (get_sha1_hex(buf.buf, sha1) || buf.buf[40] != '\0') { error(_("stored pre-cherry-pick HEAD file '%s' is corrupt"), git_path_head_file()); goto fail; } if (is_null_sha1(sha1)) { error(_("cannot abort from a branch yet to be born")); goto fail; } if (!rollback_is_safe()) { /* Do not error, just do not rollback */ warning(_("You seem to have moved HEAD. " "Not rewinding, check your HEAD!")); } else if (reset_for_rollback(sha1)) goto fail; strbuf_release(&buf); return sequencer_remove_state(opts); fail: strbuf_release(&buf); return -1; } static int save_todo(struct todo_list *todo_list, struct replay_opts *opts) { static struct lock_file todo_lock; const char *todo_path = get_todo_path(opts); int next = todo_list->current, offset, fd; /* * rebase -i writes "git-rebase-todo" without the currently executing * command, appending it to "done" instead. */ if (is_rebase_i(opts)) next++; fd = hold_lock_file_for_update(&todo_lock, todo_path, 0); if (fd < 0) return error_errno(_("could not lock '%s'"), todo_path); offset = next < todo_list->nr ? todo_list->items[next].offset_in_buf : todo_list->buf.len; if (write_in_full(fd, todo_list->buf.buf + offset, todo_list->buf.len - offset) < 0) return error_errno(_("could not write to '%s'"), todo_path); if (commit_lock_file(&todo_lock) < 0) return error(_("failed to finalize '%s'."), todo_path); if (is_rebase_i(opts)) { const char *done_path = rebase_path_done(); int fd = open(done_path, O_CREAT | O_WRONLY | O_APPEND, 0666); int prev_offset = !next ? 0 : todo_list->items[next - 1].offset_in_buf; if (fd >= 0 && offset > prev_offset && write_in_full(fd, todo_list->buf.buf + prev_offset, offset - prev_offset) < 0) { close(fd); return error_errno(_("could not write to '%s'"), done_path); } if (fd >= 0) close(fd); } return 0; } static int save_opts(struct replay_opts *opts) { const char *opts_file = git_path_opts_file(); int res = 0; if (opts->no_commit) res |= git_config_set_in_file_gently(opts_file, "options.no-commit", "true"); if (opts->edit) res |= git_config_set_in_file_gently(opts_file, "options.edit", "true"); if (opts->signoff) res |= git_config_set_in_file_gently(opts_file, "options.signoff", "true"); if (opts->record_origin) res |= git_config_set_in_file_gently(opts_file, "options.record-origin", "true"); if (opts->allow_ff) res |= git_config_set_in_file_gently(opts_file, "options.allow-ff", "true"); if (opts->mainline) { struct strbuf buf = STRBUF_INIT; strbuf_addf(&buf, "%d", opts->mainline); res |= git_config_set_in_file_gently(opts_file, "options.mainline", buf.buf); strbuf_release(&buf); } if (opts->strategy) res |= git_config_set_in_file_gently(opts_file, "options.strategy", opts->strategy); if (opts->gpg_sign) res |= git_config_set_in_file_gently(opts_file, "options.gpg-sign", opts->gpg_sign); if (opts->xopts) { int i; for (i = 0; i < opts->xopts_nr; i++) res |= git_config_set_multivar_in_file_gently(opts_file, "options.strategy-option", opts->xopts[i], "^$", 0); } return res; } static int make_patch(struct commit *commit, struct replay_opts *opts) { struct strbuf buf = STRBUF_INIT; struct rev_info log_tree_opt; const char *subject, *p; int res = 0; p = short_commit_name(commit); if (write_message(p, strlen(p), rebase_path_stopped_sha(), 1) < 0) return -1; strbuf_addf(&buf, "%s/patch", get_dir(opts)); memset(&log_tree_opt, 0, sizeof(log_tree_opt)); init_revisions(&log_tree_opt, NULL); log_tree_opt.abbrev = 0; log_tree_opt.diff = 1; log_tree_opt.diffopt.output_format = DIFF_FORMAT_PATCH; log_tree_opt.disable_stdin = 1; log_tree_opt.no_commit_id = 1; log_tree_opt.diffopt.file = fopen(buf.buf, "w"); log_tree_opt.diffopt.use_color = GIT_COLOR_NEVER; if (!log_tree_opt.diffopt.file) res |= error_errno(_("could not open '%s'"), buf.buf); else { res |= log_tree_commit(&log_tree_opt, commit); fclose(log_tree_opt.diffopt.file); } strbuf_reset(&buf); strbuf_addf(&buf, "%s/message", get_dir(opts)); if (!file_exists(buf.buf)) { const char *commit_buffer = get_commit_buffer(commit, NULL); find_commit_subject(commit_buffer, &subject); res |= write_message(subject, strlen(subject), buf.buf, 1); unuse_commit_buffer(commit, commit_buffer); } strbuf_release(&buf); return res; } static int intend_to_amend(void) { unsigned char head[20]; char *p; if (get_sha1("HEAD", head)) return error(_("cannot read HEAD")); p = sha1_to_hex(head); return write_message(p, strlen(p), rebase_path_amend(), 1); } static int error_with_patch(struct commit *commit, const char *subject, int subject_len, struct replay_opts *opts, int exit_code, int to_amend) { if (make_patch(commit, opts)) return -1; if (to_amend) { if (intend_to_amend()) return -1; fprintf(stderr, "You can amend the commit now, with\n" "\n" " git commit --amend %s\n" "\n" "Once you are satisfied with your changes, run\n" "\n" " git rebase --continue\n", gpg_sign_opt_quoted(opts)); } else if (exit_code) fprintf(stderr, "Could not apply %s... %.*s\n", short_commit_name(commit), subject_len, subject); return exit_code; } static int error_failed_squash(struct commit *commit, struct replay_opts *opts, int subject_len, const char *subject) { if (rename(rebase_path_squash_msg(), rebase_path_message())) return error(_("could not rename '%s' to '%s'"), rebase_path_squash_msg(), rebase_path_message()); unlink(rebase_path_fixup_msg()); unlink(git_path("MERGE_MSG")); if (copy_file(git_path("MERGE_MSG"), rebase_path_message(), 0666)) return error(_("could not copy '%s' to '%s'"), rebase_path_message(), git_path("MERGE_MSG")); return error_with_patch(commit, subject, subject_len, opts, 1, 0); } static int do_exec(const char *command_line) { const char *child_argv[] = { NULL, NULL }; int dirty, status; fprintf(stderr, "Executing: %s\n", command_line); child_argv[0] = command_line; status = run_command_v_opt(child_argv, RUN_USING_SHELL); /* force re-reading of the cache */ if (discard_cache() < 0 || read_cache() < 0) return error(_("could not read index")); dirty = require_clean_work_tree("rebase", NULL, 1, 1); if (status) { warning(_("execution failed: %s\n%s" "You can fix the problem, and then run\n" "\n" " git rebase --continue\n" "\n"), command_line, dirty ? N_("and made changes to the index and/or the " "working tree\n") : ""); if (status == 127) /* command not found */ status = 1; } else if (dirty) { warning(_("execution succeeded: %s\nbut " "left changes to the index and/or the working tree\n" "Commit or stash your changes, and then run\n" "\n" " git rebase --continue\n" "\n"), command_line); status = 1; } return status; } static int is_final_fixup(struct todo_list *todo_list) { int i = todo_list->current; if (!is_fixup(todo_list->items[i].command)) return 0; while (++i < todo_list->nr) if (is_fixup(todo_list->items[i].command)) return 0; else if (!is_noop(todo_list->items[i].command)) break; return 1; } static enum todo_command peek_command(struct todo_list *todo_list, int offset) { int i; for (i = todo_list->current + offset; i < todo_list->nr; i++) if (!is_noop(todo_list->items[i].command)) return todo_list->items[i].command; return -1; } static int apply_autostash(struct replay_opts *opts) { struct strbuf stash_sha1 = STRBUF_INIT; struct child_process child = CHILD_PROCESS_INIT; int ret = 0; if (!read_oneliner(&stash_sha1, rebase_path_autostash(), 1)) { strbuf_release(&stash_sha1); return 0; } strbuf_trim(&stash_sha1); child.git_cmd = 1; argv_array_push(&child.args, "stash"); argv_array_push(&child.args, "apply"); argv_array_push(&child.args, stash_sha1.buf); if (!run_command(&child)) printf(_("Applied autostash.")); else { struct child_process store = CHILD_PROCESS_INIT; store.git_cmd = 1; argv_array_push(&store.args, "stash"); argv_array_push(&store.args, "store"); argv_array_push(&store.args, "-m"); argv_array_push(&store.args, "autostash"); argv_array_push(&store.args, "-q"); argv_array_push(&store.args, stash_sha1.buf); if (run_command(&store)) ret = error(_("cannot store %s"), stash_sha1.buf); else printf(_("Applying autostash resulted in conflicts.\n" "Your changes are safe in the stash.\n" "You can run \"git stash pop\" or" " \"git stash drop\" at any time.\n")); } strbuf_release(&stash_sha1); return ret; } static const char *reflog_message(struct replay_opts *opts, const char *sub_action, const char *fmt, ...) { va_list ap; static struct strbuf buf = STRBUF_INIT; va_start(ap, fmt); strbuf_reset(&buf); strbuf_addstr(&buf, action_name(opts)); if (sub_action) strbuf_addf(&buf, " (%s)", sub_action); if (fmt) { strbuf_addstr(&buf, ": "); strbuf_vaddf(&buf, fmt, ap); } va_end(ap); return buf.buf; } static int pick_commits(struct todo_list *todo_list, struct replay_opts *opts) { int res = 0; setenv(GIT_REFLOG_ACTION, action_name(opts), 0); if (opts->allow_ff) assert(!(opts->signoff || opts->no_commit || opts->record_origin || opts->edit)); if (read_and_refresh_cache(opts)) return -1; while (todo_list->current < todo_list->nr) { struct todo_item *item = todo_list->items + todo_list->current; if (save_todo(todo_list, opts)) return -1; if (is_rebase_i(opts)) { unlink(rebase_path_message()); unlink(rebase_path_author_script()); unlink(rebase_path_stopped_sha()); unlink(rebase_path_amend()); } if (item->command <= TODO_SQUASH) { if (is_rebase_i(opts)) setenv("GIT_REFLOG_ACTION", reflog_message(opts, command_to_string(item->command), NULL), 1); res = do_pick_commit(item->command, item->commit, opts, is_final_fixup(todo_list)); if (is_rebase_i(opts) && res < 0) { /* Reschedule */ todo_list->current--; if (save_todo(todo_list, opts)) return -1; } if (item->command == TODO_EDIT) { struct commit *commit = item->commit; if (!res) warning(_("stopped at %s... %.*s"), short_commit_name(commit), item->arg_len, item->arg); return error_with_patch(commit, item->arg, item->arg_len, opts, res, !res); } if (is_rebase_i(opts) && !res) record_in_rewritten(&item->commit->object.oid, peek_command(todo_list, 1)); if (res && is_fixup(item->command)) { if (res == 1) intend_to_amend(); return error_failed_squash(item->commit, opts, item->arg_len, item->arg); } else if (res && is_rebase_i(opts)) return res | error_with_patch(item->commit, item->arg, item->arg_len, opts, res, item->command == TODO_REWORD); } else if (item->command == TODO_EXEC) { char *end_of_arg = (char *)(item->arg + item->arg_len); int saved = *end_of_arg; *end_of_arg = '\0'; res = do_exec(item->arg); *end_of_arg = saved; } else if (!is_noop(item->command)) return error(_("unknown command %d"), item->command); todo_list->current++; if (res) return res; } if (is_rebase_i(opts)) { struct strbuf head_ref = STRBUF_INIT, buf = STRBUF_INIT; struct stat st; /* Stopped in the middle, as planned? */ if (todo_list->current < todo_list->nr) return 0; if (read_oneliner(&head_ref, rebase_path_head_name(), 0) && starts_with(head_ref.buf, "refs/")) { const char *msg; unsigned char head[20], orig[20]; int res; if (get_sha1("HEAD", head)) { res = error(_("cannot read HEAD")); cleanup_head_ref: strbuf_release(&head_ref); strbuf_release(&buf); return res; } if (!read_oneliner(&buf, rebase_path_orig_head(), 0) || get_sha1_hex(buf.buf, orig)) { res = error(_("could not read orig-head")); goto cleanup_head_ref; } if (!read_oneliner(&buf, rebase_path_onto(), 0)) { res = error(_("could not read 'onto'")); goto cleanup_head_ref; } msg = reflog_message(opts, "finish", "%s onto %s", head_ref.buf, buf.buf); if (update_ref(msg, head_ref.buf, head, orig, REF_NODEREF, UPDATE_REFS_MSG_ON_ERR)) { res = error(_("could not update %s"), head_ref.buf); goto cleanup_head_ref; } msg = reflog_message(opts, "finish", "returning to %s", head_ref.buf); if (create_symref("HEAD", head_ref.buf, msg)) { res = error(_("could not update HEAD to %s"), head_ref.buf); goto cleanup_head_ref; } strbuf_reset(&buf); } if (opts->verbose) { struct rev_info log_tree_opt; struct object_id orig, head; memset(&log_tree_opt, 0, sizeof(log_tree_opt)); init_revisions(&log_tree_opt, NULL); log_tree_opt.diff = 1; log_tree_opt.diffopt.output_format = DIFF_FORMAT_DIFFSTAT; log_tree_opt.disable_stdin = 1; if (read_oneliner(&buf, rebase_path_orig_head(), 0) && !get_sha1(buf.buf, orig.hash) && !get_sha1("HEAD", head.hash)) { diff_tree_sha1(orig.hash, head.hash, "", &log_tree_opt.diffopt); log_tree_diff_flush(&log_tree_opt); } } flush_rewritten_pending(); if (!stat(rebase_path_rewritten_list(), &st) && st.st_size > 0) { struct child_process child = CHILD_PROCESS_INIT; const char *post_rewrite_hook = find_hook("post-rewrite"); child.in = open(rebase_path_rewritten_list(), O_RDONLY); child.git_cmd = 1; argv_array_push(&child.args, "notes"); argv_array_push(&child.args, "copy"); argv_array_push(&child.args, "--for-rewrite=rebase"); /* we don't care if this copying failed */ run_command(&child); if (post_rewrite_hook) { struct child_process hook = CHILD_PROCESS_INIT; hook.in = open(rebase_path_rewritten_list(), O_RDONLY); hook.stdout_to_stderr = 1; argv_array_push(&hook.args, post_rewrite_hook); argv_array_push(&hook.args, "rebase"); /* we don't care if this hook failed */ run_command(&hook); } } apply_autostash(opts); strbuf_release(&buf); strbuf_release(&head_ref); } /* * Sequence of picks finished successfully; cleanup by * removing the .git/sequencer directory */ return sequencer_remove_state(opts); } static int continue_single_pick(void) { const char *argv[] = { "commit", NULL }; if (!file_exists(git_path_cherry_pick_head()) && !file_exists(git_path_revert_head())) return error(_("no cherry-pick or revert in progress")); return run_command_v_opt(argv, RUN_GIT_CMD); } static int commit_staged_changes(struct replay_opts *opts) { int amend = 0; if (has_unstaged_changes(1)) return error(_("cannot rebase: You have unstaged changes.")); if (!has_uncommitted_changes(0)) { const char *cherry_pick_head = git_path("CHERRY_PICK_HEAD"); if (file_exists(cherry_pick_head) && unlink(cherry_pick_head)) return error(_("could not remove CHERRY_PICK_HEAD")); return 0; } if (file_exists(rebase_path_amend())) { struct strbuf rev = STRBUF_INIT; unsigned char head[20], to_amend[20]; if (get_sha1("HEAD", head)) return error(_("cannot amend non-existing commit")); if (!read_oneliner(&rev, rebase_path_amend(), 0)) return error(_("invalid file: '%s'"), rebase_path_amend()); if (get_sha1_hex(rev.buf, to_amend)) return error(_("invalid contents: '%s'"), rebase_path_amend()); if (hashcmp(head, to_amend)) return error(_("\nYou have uncommitted changes in your " "working tree. Please, commit them\n" "first and then run 'git rebase " "--continue' again.")); strbuf_release(&rev); amend = 1; } if (run_git_commit(rebase_path_message(), opts, 1, 1, amend, 0)) return error(_("could not commit staged changes.")); unlink(rebase_path_amend()); return 0; } int sequencer_continue(struct replay_opts *opts) { struct todo_list todo_list = TODO_LIST_INIT; int res; if (read_and_refresh_cache(opts)) return -1; if (is_rebase_i(opts)) { if (commit_staged_changes(opts)) return -1; } else if (!file_exists(get_todo_path(opts))) return continue_single_pick(); if (read_populate_opts(opts)) return -1; if ((res = read_populate_todo(&todo_list, opts))) goto release_todo_list; if (!is_rebase_i(opts)) { /* Verify that the conflict has been resolved */ if (file_exists(git_path_cherry_pick_head()) || file_exists(git_path_revert_head())) { res = continue_single_pick(); if (res) goto release_todo_list; } if (index_differs_from("HEAD", 0, 0)) { res = error_dirty_index(opts); goto release_todo_list; } todo_list.current++; } else if (file_exists(rebase_path_stopped_sha())) { struct strbuf buf = STRBUF_INIT; struct object_id oid; if (read_oneliner(&buf, rebase_path_stopped_sha(), 1) && !get_sha1_committish(buf.buf, oid.hash)) record_in_rewritten(&oid, peek_command(&todo_list, 0)); strbuf_release(&buf); } res = pick_commits(&todo_list, opts); release_todo_list: todo_list_release(&todo_list); return res; } static int single_pick(struct commit *cmit, struct replay_opts *opts) { setenv(GIT_REFLOG_ACTION, action_name(opts), 0); return do_pick_commit(opts->action == REPLAY_PICK ? TODO_PICK : TODO_REVERT, cmit, opts, 0); } int sequencer_pick_revisions(struct replay_opts *opts) { struct todo_list todo_list = TODO_LIST_INIT; unsigned char sha1[20]; int i, res; assert(opts->revs); if (read_and_refresh_cache(opts)) return -1; for (i = 0; i < opts->revs->pending.nr; i++) { unsigned char sha1[20]; const char *name = opts->revs->pending.objects[i].name; /* This happens when using --stdin. */ if (!strlen(name)) continue; if (!get_sha1(name, sha1)) { if (!lookup_commit_reference_gently(sha1, 1)) { enum object_type type = sha1_object_info(sha1, NULL); return error(_("%s: can't cherry-pick a %s"), name, typename(type)); } } else return error(_("%s: bad revision"), name); } /* * If we were called as "git cherry-pick ", just * cherry-pick/revert it, set CHERRY_PICK_HEAD / * REVERT_HEAD, and don't touch the sequencer state. * This means it is possible to cherry-pick in the middle * of a cherry-pick sequence. */ if (opts->revs->cmdline.nr == 1 && opts->revs->cmdline.rev->whence == REV_CMD_REV && opts->revs->no_walk && !opts->revs->cmdline.rev->flags) { struct commit *cmit; if (prepare_revision_walk(opts->revs)) return error(_("revision walk setup failed")); cmit = get_revision(opts->revs); if (!cmit || get_revision(opts->revs)) return error("BUG: expected exactly one commit from walk"); return single_pick(cmit, opts); } /* * Start a new cherry-pick/ revert sequence; but * first, make sure that an existing one isn't in * progress */ if (walk_revs_populate_todo(&todo_list, opts) || create_seq_dir() < 0) return -1; if (get_sha1("HEAD", sha1) && (opts->action == REPLAY_REVERT)) return error(_("can't revert as initial commit")); if (save_head(sha1_to_hex(sha1))) return -1; if (save_opts(opts)) return -1; update_abort_safety_file(); res = pick_commits(&todo_list, opts); todo_list_release(&todo_list); return res; } void append_signoff(struct strbuf *msgbuf, int ignore_footer, unsigned flag) { unsigned no_dup_sob = flag & APPEND_SIGNOFF_DEDUP; struct strbuf sob = STRBUF_INIT; int has_footer; strbuf_addstr(&sob, sign_off_header); strbuf_addstr(&sob, fmt_name(getenv("GIT_COMMITTER_NAME"), getenv("GIT_COMMITTER_EMAIL"))); strbuf_addch(&sob, '\n'); /* * If the whole message buffer is equal to the sob, pretend that we * found a conforming footer with a matching sob */ if (msgbuf->len - ignore_footer == sob.len && !strncmp(msgbuf->buf, sob.buf, sob.len)) has_footer = 3; else has_footer = has_conforming_footer(msgbuf, &sob, ignore_footer); if (!has_footer) { const char *append_newlines = NULL; size_t len = msgbuf->len - ignore_footer; if (!len) { /* * The buffer is completely empty. Leave foom for * the title and body to be filled in by the user. */ append_newlines = "\n\n"; } else if (msgbuf->buf[len - 1] != '\n') { /* * Incomplete line. Complete the line and add a * blank one so that there is an empty line between * the message body and the sob. */ append_newlines = "\n\n"; } else if (len == 1) { /* * Buffer contains a single newline. Add another * so that we leave room for the title and body. */ append_newlines = "\n"; } else if (msgbuf->buf[len - 2] != '\n') { /* * Buffer ends with a single newline. Add another * so that there is an empty line between the message * body and the sob. */ append_newlines = "\n"; } /* else, the buffer already ends with two newlines. */ if (append_newlines) strbuf_splice(msgbuf, msgbuf->len - ignore_footer, 0, append_newlines, strlen(append_newlines)); } if (has_footer != 3 && (!no_dup_sob || has_footer != 2)) strbuf_splice(msgbuf, msgbuf->len - ignore_footer, 0, sob.buf, sob.len); strbuf_release(&sob); }