#define USE_THE_REPOSITORY_VARIABLE #include "git-compat-util.h" #include "environment.h" #include "string-list.h" #include "mailmap.h" #include "object-name.h" #include "object-store-ll.h" #include "setup.h" char *git_mailmap_file; char *git_mailmap_blob; struct mailmap_info { char *name; char *email; }; struct mailmap_entry { /* name and email for the simple mail-only case */ char *name; char *email; /* name and email for the complex mail and name matching case */ struct string_list namemap; }; static void free_mailmap_info(void *p, const char *s UNUSED) { struct mailmap_info *mi = (struct mailmap_info *)p; free(mi->name); free(mi->email); free(mi); } static void free_mailmap_entry(void *p, const char *s UNUSED) { struct mailmap_entry *me = (struct mailmap_entry *)p; free(me->name); free(me->email); me->namemap.strdup_strings = 1; string_list_clear_func(&me->namemap, free_mailmap_info); free(me); } /* * On some systems (e.g. MinGW 4.0), string.h has _only_ inline * definition of strcasecmp and no non-inline implementation is * supplied anywhere, which is, eh, "unusual"; we cannot take an * address of such a function to store it in namemap.cmp. This is * here as a workaround---do not assign strcasecmp directly to * namemap.cmp until we know no systems that matter have such an * "unusual" string.h. */ static int namemap_cmp(const char *a, const char *b) { return strcasecmp(a, b); } static void add_mapping(struct string_list *map, char *new_name, char *new_email, char *old_name, char *old_email) { struct mailmap_entry *me; struct string_list_item *item; if (!old_email) { old_email = new_email; new_email = NULL; } item = string_list_insert(map, old_email); if (item->util) { me = (struct mailmap_entry *)item->util; } else { CALLOC_ARRAY(me, 1); me->namemap.strdup_strings = 1; me->namemap.cmp = namemap_cmp; item->util = me; } if (!old_name) { /* Replace current name and new email for simple entry */ if (new_name) { free(me->name); me->name = xstrdup(new_name); } if (new_email) { free(me->email); me->email = xstrdup(new_email); } } else { struct mailmap_info *mi = xcalloc(1, sizeof(struct mailmap_info)); mi->name = xstrdup_or_null(new_name); mi->email = xstrdup_or_null(new_email); string_list_insert(&me->namemap, old_name)->util = mi; } } static char *parse_name_and_email(char *buffer, char **name, char **email, int allow_empty_email) { char *left, *right, *nstart, *nend; *name = *email = NULL; if (!(left = strchr(buffer, '<'))) return NULL; if (!(right = strchr(left + 1, '>'))) return NULL; if (!allow_empty_email && (left+1 == right)) return NULL; /* remove whitespace from beginning and end of name */ nstart = buffer; while (isspace(*nstart) && nstart < left) ++nstart; nend = left-1; while (nend > nstart && isspace(*nend)) --nend; *name = (nstart <= nend ? nstart : NULL); *email = left+1; *(nend+1) = '\0'; *right++ = '\0'; return (*right == '\0' ? NULL : right); } static void read_mailmap_line(struct string_list *map, char *buffer) { char *name1 = NULL, *email1 = NULL, *name2 = NULL, *email2 = NULL; if (buffer[0] == '#') return; if ((name2 = parse_name_and_email(buffer, &name1, &email1, 0))) parse_name_and_email(name2, &name2, &email2, 1); if (email1) add_mapping(map, name1, email1, name2, email2); } /* Flags for read_mailmap_file() */ #define MAILMAP_NOFOLLOW (1<<0) static int read_mailmap_file(struct string_list *map, const char *filename, unsigned flags) { char buffer[1024]; FILE *f; int fd; if (!filename) return 0; if (flags & MAILMAP_NOFOLLOW) fd = open_nofollow(filename, O_RDONLY); else fd = open(filename, O_RDONLY); if (fd < 0) { if (errno == ENOENT) return 0; return error_errno("unable to open mailmap at %s", filename); } f = xfdopen(fd, "r"); while (fgets(buffer, sizeof(buffer), f) != NULL) read_mailmap_line(map, buffer); fclose(f); return 0; } static void read_mailmap_string(struct string_list *map, char *buf) { while (*buf) { char *end = strchrnul(buf, '\n'); if (*end) *end++ = '\0'; read_mailmap_line(map, buf); buf = end; } } static int read_mailmap_blob(struct string_list *map, const char *name) { struct object_id oid; char *buf; unsigned long size; enum object_type type; if (!name) return 0; if (repo_get_oid(the_repository, name, &oid) < 0) return 0; buf = repo_read_object_file(the_repository, &oid, &type, &size); if (!buf) return error("unable to read mailmap object at %s", name); if (type != OBJ_BLOB) return error("mailmap is not a blob: %s", name); read_mailmap_string(map, buf); free(buf); return 0; } int read_mailmap(struct string_list *map) { int err = 0; map->strdup_strings = 1; map->cmp = namemap_cmp; if (!git_mailmap_blob && is_bare_repository()) git_mailmap_blob = xstrdup("HEAD:.mailmap"); if (!startup_info->have_repository || !is_bare_repository()) err |= read_mailmap_file(map, ".mailmap", startup_info->have_repository ? MAILMAP_NOFOLLOW : 0); if (startup_info->have_repository) err |= read_mailmap_blob(map, git_mailmap_blob); err |= read_mailmap_file(map, git_mailmap_file, 0); return err; } void clear_mailmap(struct string_list *map) { map->strdup_strings = 1; string_list_clear_func(map, free_mailmap_entry); } /* * Look for an entry in map that match string[0:len]; string[len] * does not have to be NUL (but it could be). */ static struct string_list_item *lookup_prefix(struct string_list *map, const char *string, size_t len) { int i = string_list_find_insert_index(map, string, 1); if (i < 0) { /* exact match */ i = -1 - i; if (!string[len]) return &map->items[i]; /* * that map entry matches exactly to the string, including * the cruft at the end beyond "len". That is not a match * with string[0:len] that we are looking for. */ } else if (!string[len]) { /* * asked with the whole string, and got nothing. No * matching entry can exist in the map. */ return NULL; } /* * i is at the exact match to an overlong key, or location the * overlong key would be inserted, which must come after the * real location of the key if one exists. */ while (0 <= --i && i < map->nr) { int cmp = strncasecmp(map->items[i].string, string, len); if (cmp < 0) /* * "i" points at a key definitely below the prefix; * the map does not have string[0:len] in it. */ break; else if (!cmp && !map->items[i].string[len]) /* found it */ return &map->items[i]; /* * otherwise, the string at "i" may be string[0:len] * followed by a string that sorts later than string[len:]; * keep trying. */ } return NULL; } int map_user(struct string_list *map, const char **email, size_t *emaillen, const char **name, size_t *namelen) { struct string_list_item *item; struct mailmap_entry *me; item = lookup_prefix(map, *email, *emaillen); if (item) { me = (struct mailmap_entry *)item->util; if (me->namemap.nr) { /* * The item has multiple items, so we'll look up on * name too. If the name is not found, we choose the * simple entry. */ struct string_list_item *subitem; subitem = lookup_prefix(&me->namemap, *name, *namelen); if (subitem) item = subitem; } } if (item) { struct mailmap_info *mi = (struct mailmap_info *)item->util; if (mi->name == NULL && mi->email == NULL) return 0; if (mi->email) { *email = mi->email; *emaillen = strlen(*email); } if (mi->name) { *name = mi->name; *namelen = strlen(*name); } return 1; } return 0; }