/* * Copyright (C) 1996-1998,2010,2012-2013 Michael R. Elkins * Copyright (C) 1996-1999 Brandon Long * Copyright (C) 1999-2009,2012 Brendan Cully * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* general IMAP utility functions */ #include "config.h" #include "mutt.h" #include "mx.h" /* for MUTT_IMAP */ #include "url.h" #include "imap_private.h" #ifdef USE_HCACHE #include "hcache.h" #endif #include #include #include #include #include #include #include #include /* -- public functions -- */ /* imap_expand_path: IMAP implementation of mutt_expand_path. Rewrite * an IMAP path in canonical and absolute form. * Inputs: a buffer containing an IMAP path, and the number of bytes in * that buffer. * Outputs: The buffer is rewritten in place with the canonical IMAP path. * Returns 0 on success, or -1 if imap_parse_path chokes or url_ciss_tostring * fails, which it might if there isn't enough room in the buffer. */ int imap_expand_path (char* path, size_t len) { IMAP_MBOX mx; IMAP_DATA* idata; ciss_url_t url; char fixedpath[LONG_STRING]; int rc; if (imap_parse_path (path, &mx) < 0) return -1; idata = imap_conn_find (&mx.account, MUTT_IMAP_CONN_NONEW); mutt_account_tourl (&mx.account, &url); imap_fix_path (idata, mx.mbox, fixedpath, sizeof (fixedpath)); url.path = fixedpath; rc = url_ciss_tostring (&url, path, len, U_DECODE_PASSWD); FREE (&mx.mbox); return rc; } #ifdef USE_HCACHE /* Generates a seqseq of the UIDs in msn_index to persist in the header cache. * * Empty spots are stored as 0. */ static void imap_msn_index_to_uid_seqset (BUFFER *b, IMAP_DATA *idata) { int first = 1, state = 0, match = 0; HEADER *cur_header; unsigned int msn, cur_uid = 0, last_uid = 0; unsigned int range_begin = 0, range_end = 0; for (msn = 1; msn <= idata->max_msn + 1; msn++) { match = 0; if (msn <= idata->max_msn) { cur_header = idata->msn_index[msn - 1]; cur_uid = cur_header ? HEADER_DATA(cur_header)->uid : 0; if (!state || (cur_uid && (cur_uid - 1 == last_uid))) match = 1; last_uid = cur_uid; } if (match) { switch (state) { case 1: /* single: convert to a range */ state = 2; /* fall through */ case 2: /* extend range ending */ range_end = cur_uid; break; default: state = 1; range_begin = cur_uid; break; } } else if (state) { if (first) first = 0; else mutt_buffer_addch (b, ','); if (state == 1) mutt_buffer_add_printf (b, "%u", range_begin); else if (state == 2) mutt_buffer_add_printf (b, "%u:%u", range_begin, range_end); state = 1; range_begin = cur_uid; } } } static int imap_hcache_namer (const char* path, char* dest, size_t dlen) { return snprintf (dest, dlen, "%s.hcache", path); } header_cache_t* imap_hcache_open (IMAP_DATA* idata, const char* path) { IMAP_MBOX mx; ciss_url_t url; char cachepath[LONG_STRING]; char mbox[LONG_STRING]; size_t len; if (path) imap_cachepath (idata, path, mbox, sizeof (mbox)); else { if (!idata->ctx || imap_parse_path (idata->ctx->path, &mx) < 0) return NULL; imap_cachepath (idata, mx.mbox, mbox, sizeof (mbox)); FREE (&mx.mbox); } if (strstr(mbox, "/../") || (strcmp(mbox, "..") == 0) || (strncmp(mbox, "../", 3) == 0)) return NULL; len = strlen(mbox); if ((len > 3) && (strcmp(mbox + len - 3, "/..") == 0)) return NULL; mutt_account_tourl (&idata->conn->account, &url); url.path = mbox; url_ciss_tostring (&url, cachepath, sizeof (cachepath), U_PATH); return mutt_hcache_open (HeaderCache, cachepath, imap_hcache_namer); } void imap_hcache_close (IMAP_DATA* idata) { if (!idata->hcache) return; mutt_hcache_close (idata->hcache); idata->hcache = NULL; } HEADER* imap_hcache_get (IMAP_DATA* idata, unsigned int uid) { char key[16]; unsigned int* uv; HEADER* h = NULL; if (!idata->hcache) return NULL; sprintf (key, "/%u", uid); uv = (unsigned int*)mutt_hcache_fetch (idata->hcache, key, imap_hcache_keylen); if (uv) { if (*uv == idata->uid_validity) h = mutt_hcache_restore ((unsigned char*)uv, NULL); else dprint (3, (debugfile, "hcache uidvalidity mismatch: %u", *uv)); mutt_hcache_free ((void **)&uv); } return h; } int imap_hcache_put (IMAP_DATA* idata, HEADER* h) { char key[16]; if (!idata->hcache) return -1; sprintf (key, "/%u", HEADER_DATA (h)->uid); return mutt_hcache_store (idata->hcache, key, h, idata->uid_validity, imap_hcache_keylen, 0); } int imap_hcache_del (IMAP_DATA* idata, unsigned int uid) { char key[16]; if (!idata->hcache) return -1; sprintf (key, "/%u", uid); return mutt_hcache_delete (idata->hcache, key, imap_hcache_keylen); } int imap_hcache_store_uid_seqset (IMAP_DATA *idata) { BUFFER *b; size_t seqset_size; int rc; if (!idata->hcache) return -1; b = mutt_buffer_new (); /* The seqset is likely large. Preallocate to reduce reallocs */ mutt_buffer_increase_size (b, HUGE_STRING); imap_msn_index_to_uid_seqset (b, idata); seqset_size = b->dptr - b->data; if (seqset_size == 0) b->data[0] = '\0'; rc = mutt_hcache_store_raw (idata->hcache, "/UIDSEQSET", b->data, seqset_size + 1, imap_hcache_keylen); dprint (5, (debugfile, "Stored /UIDSEQSET %s\n", b->data)); mutt_buffer_free (&b); return rc; } int imap_hcache_clear_uid_seqset (IMAP_DATA *idata) { if (!idata->hcache) return -1; return mutt_hcache_delete (idata->hcache, "/UIDSEQSET", imap_hcache_keylen); } char *imap_hcache_get_uid_seqset (IMAP_DATA *idata) { char *hc_seqset, *seqset; if (!idata->hcache) return NULL; hc_seqset = mutt_hcache_fetch_raw (idata->hcache, "/UIDSEQSET", imap_hcache_keylen); seqset = safe_strdup (hc_seqset); mutt_hcache_free ((void **)&hc_seqset); dprint (5, (debugfile, "Retrieved /UIDSEQSET %s\n", NONULL (seqset))); return seqset; } #endif /* imap_parse_path: given an IMAP mailbox name, return host, port * and a path IMAP servers will recognize. * mx.mbox is malloc'd, caller must free it */ int imap_parse_path (const char* path, IMAP_MBOX* mx) { static unsigned short ImapPort = 0; static unsigned short ImapsPort = 0; struct servent* service; char tmp[128]; ciss_url_t url; char *c; int n; if (!ImapPort) { service = getservbyname ("imap", "tcp"); if (service) ImapPort = ntohs (service->s_port); else ImapPort = IMAP_PORT; dprint (3, (debugfile, "Using default IMAP port %d\n", ImapPort)); } if (!ImapsPort) { service = getservbyname ("imaps", "tcp"); if (service) ImapsPort = ntohs (service->s_port); else ImapsPort = IMAP_SSL_PORT; dprint (3, (debugfile, "Using default IMAPS port %d\n", ImapsPort)); } /* Defaults */ memset(&mx->account, 0, sizeof(mx->account)); mx->account.port = ImapPort; mx->account.type = MUTT_ACCT_TYPE_IMAP; c = safe_strdup (path); url_parse_ciss (&url, c); if (url.scheme == U_IMAP || url.scheme == U_IMAPS) { if (mutt_account_fromurl (&mx->account, &url) < 0 || !*mx->account.host) { FREE (&c); return -1; } mx->mbox = safe_strdup (url.path); if (url.scheme == U_IMAPS) mx->account.flags |= MUTT_ACCT_SSL; FREE (&c); } /* old PINE-compatibility code */ else { FREE (&c); if (sscanf (path, "{%127[^}]}", tmp) != 1) return -1; c = strchr (path, '}'); if (!c) return -1; else /* walk past closing '}' */ mx->mbox = safe_strdup (c+1); if ((c = strrchr (tmp, '@'))) { *c = '\0'; strfcpy (mx->account.user, tmp, sizeof (mx->account.user)); strfcpy (tmp, c+1, sizeof (tmp)); mx->account.flags |= MUTT_ACCT_USER; } if ((n = sscanf (tmp, "%127[^:/]%127s", mx->account.host, tmp)) < 1) { dprint (1, (debugfile, "imap_parse_path: NULL host in %s\n", path)); FREE (&mx->mbox); return -1; } if (n > 1) { if (sscanf (tmp, ":%hu%127s", &(mx->account.port), tmp) >= 1) mx->account.flags |= MUTT_ACCT_PORT; if (sscanf (tmp, "/%s", tmp) == 1) { if (!ascii_strncmp (tmp, "ssl", 3)) mx->account.flags |= MUTT_ACCT_SSL; else { dprint (1, (debugfile, "imap_parse_path: Unknown connection type in %s\n", path)); FREE (&mx->mbox); return -1; } } } } if ((mx->account.flags & MUTT_ACCT_SSL) && !(mx->account.flags & MUTT_ACCT_PORT)) mx->account.port = ImapsPort; return 0; } /* silly helper for mailbox name string comparisons, because of INBOX */ int imap_mxcmp (const char* mx1, const char* mx2) { char* b1; char* b2; int rc; if (!mx1 || !*mx1) mx1 = "INBOX"; if (!mx2 || !*mx2) mx2 = "INBOX"; if (!ascii_strcasecmp (mx1, "INBOX") && !ascii_strcasecmp (mx2, "INBOX")) return 0; b1 = safe_malloc (strlen (mx1) + 1); b2 = safe_malloc (strlen (mx2) + 1); imap_fix_path (NULL, mx1, b1, strlen (mx1) + 1); imap_fix_path (NULL, mx2, b2, strlen (mx2) + 1); rc = mutt_strcmp (b1, b2); FREE (&b1); FREE (&b2); return rc; } /* imap_pretty_mailbox: called by mutt_pretty_mailbox to make IMAP paths * look nice. */ void imap_pretty_mailbox (char* path) { IMAP_MBOX home, target; ciss_url_t url; char* delim; int tlen; int hlen = 0; char home_match = 0; if (imap_parse_path (path, &target) < 0) return; tlen = mutt_strlen (target.mbox); /* check whether we can do '=' substitution */ if (mx_is_imap(Maildir) && !imap_parse_path (Maildir, &home)) { hlen = mutt_strlen (home.mbox); if (tlen && mutt_account_match (&home.account, &target.account) && !mutt_strncmp (home.mbox, target.mbox, hlen)) { if (! hlen) home_match = 1; else if (ImapDelimChars) for (delim = ImapDelimChars; *delim != '\0'; delim++) if (target.mbox[hlen] == *delim) home_match = 1; } FREE (&home.mbox); } /* do the '=' substitution */ if (home_match) { *path++ = '='; /* copy remaining path, skipping delimiter */ if (! hlen) hlen = -1; memcpy (path, target.mbox + hlen + 1, tlen - hlen - 1); path[tlen - hlen - 1] = '\0'; } else { mutt_account_tourl (&target.account, &url); url.path = target.mbox; /* FIXME: That hard-coded constant is bogus. But we need the actual * size of the buffer from mutt_pretty_mailbox. And these pretty * operations usually shrink the result. Still... */ url_ciss_tostring (&url, path, 1024, 0); } FREE (&target.mbox); } /* -- library functions -- */ /* imap_continue: display a message and ask the user if she wants to * go on. */ int imap_continue (const char* msg, const char* resp) { imap_error (msg, resp); return mutt_yesorno (_("Continue?"), 0); } /* imap_error: show an error and abort */ void imap_error (const char *where, const char *msg) { mutt_error ("%s [%s]\n", where, msg); mutt_sleep (2); } /* imap_new_idata: Allocate and initialise a new IMAP_DATA structure. */ IMAP_DATA* imap_new_idata (void) { IMAP_DATA* idata = safe_calloc (1, sizeof (IMAP_DATA)); idata->cmdbuf = mutt_buffer_new (); idata->cmdslots = ImapPipelineDepth + 2; idata->cmds = safe_calloc (idata->cmdslots, sizeof(*idata->cmds)); return idata; } /* imap_free_idata: Release and clear storage in an IMAP_DATA structure. */ void imap_free_idata (IMAP_DATA** idata) { if (!idata) return; FREE (&(*idata)->capstr); mutt_free_list (&(*idata)->flags); imap_mboxcache_free (*idata); mutt_buffer_free(&(*idata)->cmdbuf); FREE (&(*idata)->buf); mutt_bcache_close (&(*idata)->bcache); FREE (&(*idata)->cmds); FREE (idata); /* __FREE_CHECKED__ */ } /* * Fix up the imap path. This is necessary because the rest of mutt * assumes a hierarchy delimiter of '/', which is not necessarily true * in IMAP. Additionally, the filesystem converts multiple hierarchy * delimiters into a single one, ie "///" is equal to "/". IMAP servers * are not required to do this. * Moreover, IMAP servers may dislike the path ending with the delimiter. */ char *imap_fix_path (IMAP_DATA *idata, const char *mailbox, char *path, size_t plen) { int i = 0; char delim = '\0'; if (idata) delim = idata->delim; while (mailbox && *mailbox && i < plen - 1) { if ((ImapDelimChars && strchr(ImapDelimChars, *mailbox)) || (delim && *mailbox == delim)) { /* use connection delimiter if known. Otherwise use user delimiter */ if (!idata) delim = *mailbox; while (*mailbox && ((ImapDelimChars && strchr(ImapDelimChars, *mailbox)) || (delim && *mailbox == delim))) mailbox++; path[i] = delim; } else { path[i] = *mailbox; mailbox++; } i++; } if (i && path[--i] != delim) i++; path[i] = '\0'; return path; } void imap_cachepath(IMAP_DATA* idata, const char* mailbox, char* dest, size_t dlen) { char* s; const char* p = mailbox; for (s = dest; p && *p && dlen; dlen--) { if (*p == idata->delim) { *s = '/'; /* simple way to avoid collisions with UIDs */ if (*(p + 1) >= '0' && *(p + 1) <= '9') { if (--dlen) *++s = '_'; } } else *s = *p; p++; s++; } *s = '\0'; } /* imap_get_literal_count: write number of bytes in an IMAP literal into * bytes, return 0 on success, -1 on failure. */ int imap_get_literal_count(const char *buf, unsigned int *bytes) { char *pc; char *pn; if (!buf || !(pc = strchr (buf, '{'))) return -1; pc++; pn = pc; while (isdigit ((unsigned char) *pc)) pc++; *pc = 0; if (mutt_atoui (pn, bytes) < 0) return -1; return 0; } /* imap_get_qualifier: in a tagged response, skip tag and status for * the qualifier message. Used by imap_copy_message for TRYCREATE */ char* imap_get_qualifier (char* buf) { char *s = buf; /* skip tag */ s = imap_next_word (s); /* skip OK/NO/BAD response */ s = imap_next_word (s); return s; } /* imap_next_word: return index into string where next IMAP word begins */ char *imap_next_word (char *s) { int quoted = 0; while (*s) { if (*s == '\\') { s++; if (*s) s++; continue; } if (*s == '\"') quoted = quoted ? 0 : 1; if (!quoted && ISSPACE (*s)) break; s++; } SKIPWS (s); return s; } /* imap_parse_date: date is of the form: DD-MMM-YYYY HH:MM:SS +ZZzz */ time_t imap_parse_date (char *s) { struct tm t; time_t tz; t.tm_mday = (s[0] == ' '? s[1] - '0' : (s[0] - '0') * 10 + (s[1] - '0')); s += 2; if (*s != '-') return 0; s++; t.tm_mon = mutt_check_month (s); s += 3; if (*s != '-') return 0; s++; t.tm_year = (s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0') - 1900; s += 4; if (*s != ' ') return 0; s++; /* time */ t.tm_hour = (s[0] - '0') * 10 + (s[1] - '0'); s += 2; if (*s != ':') return 0; s++; t.tm_min = (s[0] - '0') * 10 + (s[1] - '0'); s += 2; if (*s != ':') return 0; s++; t.tm_sec = (s[0] - '0') * 10 + (s[1] - '0'); s += 2; if (*s != ' ') return 0; s++; /* timezone */ tz = ((s[1] - '0') * 10 + (s[2] - '0')) * 3600 + ((s[3] - '0') * 10 + (s[4] - '0')) * 60; if (s[0] == '+') tz = -tz; return (mutt_mktime (&t, 0) + tz); } /* format date in IMAP style: DD-MMM-YYYY HH:MM:SS +ZZzz. * Caller should provide a buffer of IMAP_DATELEN bytes */ void imap_make_date (char *buf, time_t timestamp) { struct tm* tm = localtime (×tamp); time_t tz = mutt_local_tz (timestamp); tz /= 60; snprintf (buf, IMAP_DATELEN, "%02d-%s-%d %02d:%02d:%02d %+03d%02d", tm->tm_mday, Months[tm->tm_mon], tm->tm_year + 1900, tm->tm_hour, tm->tm_min, tm->tm_sec, (int) tz / 60, (int) abs ((int) tz) % 60); } /* imap_qualify_path: make an absolute IMAP folder target, given IMAP_MBOX * and relative path. */ void imap_qualify_path (char *dest, size_t len, IMAP_MBOX *mx, char* path) { ciss_url_t url; mutt_account_tourl (&mx->account, &url); url.path = path; url_ciss_tostring (&url, dest, len, 0); } static void _imap_quote_string (char *dest, size_t dlen, const char *src, const char *to_quote) { char *pt; const char *s; if (!(dest && dlen && src && to_quote)) return; if (dlen < 3) { *dest = 0; return; } pt = dest; s = src; /* save room for pre/post quote-char and trailing null */ dlen -= 3; *pt++ = '"'; for (; *s && dlen; s++) { if (strchr (to_quote, *s)) { if (dlen < 2) break; dlen -= 2; *pt++ = '\\'; *pt++ = *s; } else { *pt++ = *s; dlen--; } } *pt++ = '"'; *pt = 0; } /* imap_quote_string: quote string according to IMAP rules: * surround string with quotes, escape " and \ with \ */ void imap_quote_string (char *dest, size_t dlen, const char *src) { _imap_quote_string (dest, dlen, src, "\"\\"); } /* imap_quote_string_and_backquotes: quote string according to IMAP rules: * surround string with quotes, escape " and \ with \. * Additionally, escape backquotes with \ to protect against code injection * when using the resulting string in mutt_parse_rc_line(). */ void imap_quote_string_and_backquotes (char *dest, size_t dlen, const char *src) { _imap_quote_string (dest, dlen, src, "\"\\`"); } /* imap_unquote_string: equally stupid unquoting routine */ void imap_unquote_string (char *s) { char *d = s; if (*s == '\"') s++; else return; while (*s) { if (*s == '\"') { *d = '\0'; return; } if (*s == '\\') { s++; } if (*s) { *d = *s; d++; s++; } } *d = '\0'; } /* * Quoting and UTF-7 conversion */ void imap_munge_mbox_name (IMAP_DATA *idata, char *dest, size_t dlen, const char *src) { char *buf; buf = safe_strdup (src); imap_utf_encode (idata, &buf); imap_quote_string (dest, dlen, buf); FREE (&buf); } void imap_unmunge_mbox_name (IMAP_DATA *idata, char *s) { char *buf; imap_unquote_string(s); buf = safe_strdup (s); if (buf) { imap_utf_decode (idata, &buf); strncpy (s, buf, strlen (s)); } FREE (&buf); } /* imap_wordcasecmp: find word a in word list b */ int imap_wordcasecmp(const char *a, const char *b) { char tmp[SHORT_STRING]; char *s = (char *)b; int i; tmp[SHORT_STRING-1] = 0; for (i=0;i < SHORT_STRING-2;i++,s++) { if (!*s || ISSPACE(*s)) { tmp[i] = 0; break; } tmp[i] = *s; } tmp[i+1] = 0; return ascii_strcasecmp(a, tmp); } /* * Imap keepalive: poll the current folder to keep the * connection alive. * */ static void alrm_handler (int sig) { /* empty */ } void imap_keepalive (void) { CONNECTION *conn; CONTEXT *ctx = NULL; IMAP_DATA *idata; conn = mutt_socket_head (); while (conn) { if (conn->account.type == MUTT_ACCT_TYPE_IMAP) { int need_free = 0; idata = (IMAP_DATA*) conn->data; if (idata->state >= IMAP_AUTHENTICATED && time(NULL) >= idata->lastread + ImapKeepalive) { if (idata->ctx) ctx = idata->ctx; else { ctx = safe_calloc (1, sizeof (CONTEXT)); ctx->data = idata; /* imap_close_mailbox will set ctx->iadata->ctx to NULL, so we can't * rely on the value of iadata->ctx to determine if this placeholder * context needs to be freed. */ need_free = 1; } /* if the imap connection closes during this call, ctx may be invalid * after this point, and thus should not be read. */ imap_check_mailbox (ctx, NULL, 1); if (need_free) FREE (&ctx); } } conn = conn->next; } } int imap_wait_keepalive (pid_t pid) { struct sigaction oldalrm; struct sigaction act; sigset_t oldmask; int rc; short imap_passive = option (OPTIMAPPASSIVE); set_option (OPTIMAPPASSIVE); set_option (OPTKEEPQUIET); sigprocmask (SIG_SETMASK, NULL, &oldmask); sigemptyset (&act.sa_mask); act.sa_handler = alrm_handler; #ifdef SA_INTERRUPT act.sa_flags = SA_INTERRUPT; #else act.sa_flags = 0; #endif sigaction (SIGALRM, &act, &oldalrm); alarm (ImapKeepalive); while (waitpid (pid, &rc, 0) < 0 && errno == EINTR) { alarm (0); /* cancel a possibly pending alarm */ imap_keepalive (); alarm (ImapKeepalive); } alarm (0); /* cancel a possibly pending alarm */ sigaction (SIGALRM, &oldalrm, NULL); sigprocmask (SIG_SETMASK, &oldmask, NULL); unset_option (OPTKEEPQUIET); if (!imap_passive) unset_option (OPTIMAPPASSIVE); return rc; } /* Allow/disallow re-opening a folder upon expunge. */ void imap_allow_reopen (CONTEXT *ctx) { if (ctx && ctx->magic == MUTT_IMAP && CTX_DATA->ctx == ctx) CTX_DATA->reopen |= IMAP_REOPEN_ALLOW; } void imap_disallow_reopen (CONTEXT *ctx) { if (ctx && ctx->magic == MUTT_IMAP && CTX_DATA->ctx == ctx) CTX_DATA->reopen &= ~IMAP_REOPEN_ALLOW; } int imap_account_match (const ACCOUNT* a1, const ACCOUNT* a2) { IMAP_DATA* a1_idata = imap_conn_find (a1, MUTT_IMAP_CONN_NONEW); IMAP_DATA* a2_idata = imap_conn_find (a2, MUTT_IMAP_CONN_NONEW); const ACCOUNT* a1_canon = a1_idata == NULL ? a1 : &a1_idata->conn->account; const ACCOUNT* a2_canon = a2_idata == NULL ? a2 : &a2_idata->conn->account; return mutt_account_match (a1_canon, a2_canon); } /* Sequence set iteration */ SEQSET_ITERATOR *mutt_seqset_iterator_new (const char *seqset) { SEQSET_ITERATOR *iter; if (!seqset || !*seqset) return NULL; iter = safe_calloc (1, sizeof(SEQSET_ITERATOR)); iter->full_seqset = safe_strdup (seqset); iter->eostr = strchr (iter->full_seqset, '\0'); iter->substr_cur = iter->substr_end = iter->full_seqset; return iter; } /* Returns: 0 when the next sequence is generated * 1 when the iterator is finished * -1 on error */ int mutt_seqset_iterator_next (SEQSET_ITERATOR *iter, unsigned int *next) { char *range_sep; if (!iter || !next) return -1; if (iter->in_range) { if ((iter->down && iter->range_cur == (iter->range_end - 1)) || (!iter->down && iter->range_cur == (iter->range_end + 1))) iter->in_range = 0; } if (!iter->in_range) { iter->substr_cur = iter->substr_end; if (iter->substr_cur == iter->eostr) return 1; while (!*(iter->substr_cur)) iter->substr_cur++; iter->substr_end = strchr (iter->substr_cur, ','); if (!iter->substr_end) iter->substr_end = iter->eostr; else *(iter->substr_end) = '\0'; range_sep = strchr (iter->substr_cur, ':'); if (range_sep) *range_sep++ = '\0'; if (mutt_atoui (iter->substr_cur, &iter->range_cur)) return -1; if (range_sep) { if (mutt_atoui (range_sep, &iter->range_end)) return -1; } else iter->range_end = iter->range_cur; iter->down = (iter->range_end < iter->range_cur); iter->in_range = 1; } *next = iter->range_cur; if (iter->down) iter->range_cur--; else iter->range_cur++; return 0; } void mutt_seqset_iterator_free (SEQSET_ITERATOR **p_iter) { SEQSET_ITERATOR *iter; if (!p_iter || !*p_iter) return; iter = *p_iter; FREE (&iter->full_seqset); FREE (p_iter); /* __FREE_CHECKED__ */ }