/* * Copyright (C) 1996-8 Michael R. Elkins * Copyright (C) 1996-9 Brandon Long * Copyright (C) 1999-2002 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., 59 Temple Place - Suite 330, Boston, MA 02111, USA. */ /* command.c: routines for sending commands to an IMAP server and parsing * responses */ #include "mutt.h" #include "imap_private.h" #include "message.h" #include "mx.h" #include #include #define IMAP_CMD_BUFSIZE 512 /* forward declarations */ static void cmd_handle_fatal (IMAP_DATA* idata); static int cmd_handle_untagged (IMAP_DATA* idata); static void cmd_make_sequence (IMAP_DATA* idata); static void cmd_parse_capabilities (IMAP_DATA* idata, char* s); static void cmd_parse_expunge (IMAP_DATA* idata, const char* s); static void cmd_parse_fetch (IMAP_DATA* idata, char* s); static void cmd_parse_myrights (IMAP_DATA* idata, char* s); static char *Capabilities[] = { "IMAP4", "IMAP4rev1", "STATUS", "ACL", "NAMESPACE", "AUTH=CRAM-MD5", "AUTH=GSSAPI", "AUTH=ANONYMOUS", "STARTTLS", "LOGINDISABLED", NULL }; /* imap_cmd_start: Given an IMAP command, send it to the server. * Currently a minor convenience, but helps to route all IMAP commands * through a single interface. */ int imap_cmd_start (IMAP_DATA* idata, const char* cmd) { char* out; int outlen; int rc; if (idata->status == IMAP_FATAL) { cmd_handle_fatal (idata); return IMAP_CMD_BAD; } cmd_make_sequence (idata); /* seq, space, cmd, \r\n\0 */ outlen = strlen (idata->cmd.seq) + strlen (cmd) + 4; out = (char*) safe_malloc (outlen); snprintf (out, outlen, "%s %s\r\n", idata->cmd.seq, cmd); rc = mutt_socket_write (idata->conn, out); FREE (&out); return (rc < 0) ? IMAP_CMD_BAD : 0; } /* imap_cmd_step: Reads server responses from an IMAP command, detects * tagged completion response, handles untagged messages, can read * arbitrarily large strings (using malloc, so don't make it _too_ * large!). */ int imap_cmd_step (IMAP_DATA* idata) { IMAP_COMMAND* cmd = &idata->cmd; unsigned int len = 0; int c; if (idata->status == IMAP_FATAL) { cmd_handle_fatal (idata); return IMAP_CMD_BAD; } /* read into buffer, expanding buffer as necessary until we have a full * line */ do { if (len == cmd->blen) { safe_realloc ((void**) &cmd->buf, cmd->blen + IMAP_CMD_BUFSIZE); cmd->blen = cmd->blen + IMAP_CMD_BUFSIZE; dprint (3, (debugfile, "imap_cmd_step: grew buffer to %u bytes\n", cmd->blen)); } c = mutt_socket_readln (cmd->buf + len, cmd->blen - len, idata->conn); if (c <= 0) { dprint (1, (debugfile, "imap_cmd_step: Error reading server response.\n")); cmd_handle_fatal (idata); return IMAP_CMD_BAD; } len += c; } /* if we've read all the way to the end of the buffer, we haven't read a * full line (mutt_socket_readln strips the \r, so we always have at least * one character free when we've read a full line) */ while (len == cmd->blen); /* don't let one large string make cmd->buf hog memory forever */ if ((cmd->blen > IMAP_CMD_BUFSIZE) && (len <= IMAP_CMD_BUFSIZE)) { safe_realloc ((void**) &cmd->buf, IMAP_CMD_BUFSIZE); cmd->blen = IMAP_CMD_BUFSIZE; dprint (3, (debugfile, "imap_cmd_step: shrank buffer to %u bytes\n", cmd->blen)); } /* handle untagged messages. The caller still gets its shot afterwards. */ if (!ascii_strncmp (cmd->buf, "* ", 2) && cmd_handle_untagged (idata)) return IMAP_CMD_BAD; /* server demands a continuation response from us */ if (!ascii_strncmp (cmd->buf, "+ ", 2)) { return IMAP_CMD_RESPOND; } /* tagged completion code */ if (!ascii_strncmp (cmd->buf, cmd->seq, SEQLEN)) { imap_cmd_finish (idata); return imap_code (cmd->buf) ? IMAP_CMD_OK : IMAP_CMD_NO; } return IMAP_CMD_CONTINUE; } /* imap_code: returns 1 if the command result was OK, or 0 if NO or BAD */ int imap_code (const char *s) { s += SEQLEN; SKIPWS (s); return (ascii_strncasecmp ("OK", s, 2) == 0); } /* imap_exec: execute a command, and wait for the response from the server. * Also, handle untagged responses. * Flags: * IMAP_CMD_FAIL_OK: the calling procedure can handle failure. This is used * for checking for a mailbox on append and login * IMAP_CMD_PASS: command contains a password. Suppress logging. * Return 0 on success, -1 on Failure, -2 on OK Failure */ int imap_exec (IMAP_DATA* idata, const char* cmd, int flags) { char* out; int outlen; int rc; if (idata->status == IMAP_FATAL) { cmd_handle_fatal (idata); return -1; } /* create sequence for command */ cmd_make_sequence (idata); /* seq, space, cmd, \r\n\0 */ outlen = strlen (idata->cmd.seq) + strlen (cmd) + 4; out = (char*) safe_malloc (outlen); snprintf (out, outlen, "%s %s\r\n", idata->cmd.seq, cmd); rc = mutt_socket_write_d (idata->conn, out, flags & IMAP_CMD_PASS ? IMAP_LOG_PASS : IMAP_LOG_CMD); safe_free ((void**) &out); if (rc < 0) { cmd_handle_fatal (idata); return -1; } do rc = imap_cmd_step (idata); while (rc == IMAP_CMD_CONTINUE); if (rc == IMAP_CMD_NO && (flags & IMAP_CMD_FAIL_OK)) return -2; if (rc != IMAP_CMD_OK) { if (flags & IMAP_CMD_FAIL_OK) return -2; dprint (1, (debugfile, "imap_exec: command failed: %s\n", idata->cmd.buf)); return -1; } return 0; } /* imap_cmd_running: Returns whether an IMAP command is in progress. */ int imap_cmd_running (IMAP_DATA* idata) { if (idata->cmd.state == IMAP_CMD_CONTINUE || idata->cmd.state == IMAP_CMD_RESPOND) return 1; return 0; } /* imap_cmd_finish: Attempts to perform cleanup (eg fetch new mail if * detected, do expunge). Called automatically by imap_cmd_step, but * may be called at any time. Called by imap_check_mailbox just before * the index is refreshed, for instance. */ void imap_cmd_finish (IMAP_DATA* idata) { if (idata->status == IMAP_FATAL) { cmd_handle_fatal (idata); return; } if (!(idata->state == IMAP_SELECTED) || idata->ctx->closing) return; if (idata->reopen & IMAP_REOPEN_ALLOW) { int count = idata->newMailCount; if (!(idata->reopen & IMAP_EXPUNGE_PENDING) && (idata->reopen & IMAP_NEWMAIL_PENDING) && count > idata->ctx->msgcount) { /* read new mail messages */ dprint (2, (debugfile, "imap_cmd_finish: Fetching new mail\n")); /* check_status: curs_main uses imap_check_mailbox to detect * whether the index needs updating */ idata->check_status = IMAP_NEWMAIL_PENDING; imap_read_headers (idata, idata->ctx->msgcount, count-1); } else if (idata->reopen & IMAP_EXPUNGE_PENDING) { dprint (2, (debugfile, "imap_cmd_finish: Expunging mailbox\n")); imap_expunge_mailbox (idata); /* Detect whether we've gotten unexpected EXPUNGE messages */ if (idata->reopen & IMAP_EXPUNGE_PENDING && !(idata->reopen & IMAP_EXPUNGE_EXPECTED)) idata->check_status = IMAP_EXPUNGE_PENDING; idata->reopen &= ~(IMAP_EXPUNGE_PENDING | IMAP_NEWMAIL_PENDING | IMAP_EXPUNGE_EXPECTED); } } idata->status = 0; } /* cmd_handle_fatal: when IMAP_DATA is in fatal state, do what we can */ static void cmd_handle_fatal (IMAP_DATA* idata) { idata->status = IMAP_FATAL; if ((idata->state == IMAP_SELECTED) && (idata->reopen & IMAP_REOPEN_ALLOW) && !idata->ctx->closing) { mx_fastclose_mailbox (idata->ctx); mutt_error (_("Mailbox closed")); mutt_sleep (1); idata->state = IMAP_DISCONNECTED; idata->status = 0; } } /* cmd_handle_untagged: fallback parser for otherwise unhandled messages. */ static int cmd_handle_untagged (IMAP_DATA* idata) { char* s; char* pn; int count; s = imap_next_word (idata->cmd.buf); if ((idata->state == IMAP_SELECTED) && isdigit (*s)) { pn = s; s = imap_next_word (s); /* EXISTS and EXPUNGE are always related to the SELECTED mailbox for the * connection, so update that one. */ if (ascii_strncasecmp ("EXISTS", s, 6) == 0) { dprint (2, (debugfile, "Handling EXISTS\n")); /* new mail arrived */ count = atoi (pn); if ( !(idata->reopen & IMAP_EXPUNGE_PENDING) && count < idata->ctx->msgcount) { /* something is wrong because the server reported fewer messages * than we previously saw */ mutt_error _("Fatal error. Message count is out of sync!"); idata->status = IMAP_FATAL; return -1; } /* at least the InterChange server sends EXISTS messages freely, * even when there is no new mail */ else if (count == idata->ctx->msgcount) dprint (3, (debugfile, "cmd_handle_untagged: superfluous EXISTS message.\n")); else { if (!(idata->reopen & IMAP_EXPUNGE_PENDING)) { dprint (2, (debugfile, "cmd_handle_untagged: New mail in %s - %d messages total.\n", idata->mailbox, count)); idata->reopen |= IMAP_NEWMAIL_PENDING; } idata->newMailCount = count; } } /* pn vs. s: need initial seqno */ else if (ascii_strncasecmp ("EXPUNGE", s, 7) == 0) cmd_parse_expunge (idata, pn); else if (ascii_strncasecmp ("FETCH", s, 5) == 0) cmd_parse_fetch (idata, pn); } else if (ascii_strncasecmp ("CAPABILITY", s, 10) == 0) cmd_parse_capabilities (idata, s); else if (ascii_strncasecmp ("MYRIGHTS", s, 8) == 0) cmd_parse_myrights (idata, s); else if (ascii_strncasecmp ("BYE", s, 3) == 0) { dprint (2, (debugfile, "Handling BYE\n")); /* check if we're logging out */ if (idata->status == IMAP_BYE) return 0; /* server shut down our connection */ s += 3; SKIPWS (s); mutt_error ("%s", s); idata->status = IMAP_BYE; if (idata->state == IMAP_SELECTED) mx_fastclose_mailbox (idata->ctx); mutt_socket_close (idata->conn); idata->state = IMAP_DISCONNECTED; return -1; } else if (option (OPTIMAPSERVERNOISE) && (ascii_strncasecmp ("NO", s, 2) == 0)) { dprint (2, (debugfile, "Handling untagged NO\n")); /* Display the warning message from the server */ mutt_error ("%s", s+3); mutt_sleep (2); } return 0; } /* cmd_make_sequence: make a tag suitable for starting an IMAP command */ static void cmd_make_sequence (IMAP_DATA* idata) { snprintf (idata->cmd.seq, sizeof (idata->cmd.seq), "a%04d", idata->seqno++); if (idata->seqno > 9999) idata->seqno = 0; } /* cmd_parse_capabilities: set capability bits according to CAPABILITY * response */ static void cmd_parse_capabilities (IMAP_DATA* idata, char* s) { int x; dprint (2, (debugfile, "Handling CAPABILITY\n")); s = imap_next_word (s); FREE(&idata->capstr); idata->capstr = safe_strdup (s); memset (idata->capabilities, 0, sizeof (idata->capabilities)); while (*s) { for (x = 0; x < CAPMAX; x++) if (imap_wordcasecmp(Capabilities[x], s) == 0) { mutt_bit_set (idata->capabilities, x); break; } s = imap_next_word (s); } } /* cmd_parse_expunge: mark headers with new sequence ID and mark idata to * be reopened at our earliest convenience */ static void cmd_parse_expunge (IMAP_DATA* idata, const char* s) { int expno, cur; HEADER* h; dprint (2, (debugfile, "Handling EXPUNGE\n")); expno = atoi (s); /* walk headers, zero seqno of expunged message, decrement seqno of those * above. Possibly we could avoid walking the whole list by resorting * and guessing a good starting point, but I'm guessing the resort would * nullify the gains */ for (cur = 0; cur < idata->ctx->msgcount; cur++) { h = idata->ctx->hdrs[cur]; if (h->index+1 == expno) h->index = -1; else if (h->index+1 > expno) h->index--; } idata->reopen |= IMAP_EXPUNGE_PENDING; } /* cmd_parse_fetch: Load fetch response into IMAP_DATA. Currently only * handles unanticipated FETCH responses, and only FLAGS data. We get * these if another client has changed flags for a mailbox we've selected. * Of course, a lot of code here duplicates code in message.c. */ static void cmd_parse_fetch (IMAP_DATA* idata, char* s) { int msgno, cur; HEADER* h = NULL; dprint (2, (debugfile, "Handling FETCH\n")); msgno = atoi (s); /* see cmd_parse_expunge */ for (cur = 0; cur < idata->ctx->msgcount; cur++) { h = idata->ctx->hdrs[cur]; if (h->active && h->index+1 == msgno) { dprint (2, (debugfile, "Message UID %d updated\n", HEADER_DATA(h)->uid)); break; } h = NULL; } if (!h) { dprint (1, (debugfile, "FETCH response ignored for this message\n")); return; } /* skip FETCH */ s = imap_next_word (s); s = imap_next_word (s); if (*s != '(') { dprint (1, (debugfile, "Malformed FETCH response")); return; } s++; if (ascii_strncasecmp ("FLAGS", s, 5) != 0) { dprint (2, (debugfile, "Only handle FLAGS updates\n")); return; } /* If server flags could conflict with mutt's flags, reopen the mailbox. */ if (h->changed) idata->reopen |= IMAP_EXPUNGE_PENDING; else { imap_set_flags (idata, h, s); idata->check_status = IMAP_FLAGS_PENDING; } } /* cmd_parse_myrights: set rights bits according to MYRIGHTS response */ static void cmd_parse_myrights (IMAP_DATA* idata, char* s) { dprint (2, (debugfile, "Handling MYRIGHTS\n")); s = imap_next_word (s); s = imap_next_word (s); /* zero out current rights set */ memset (idata->rights, 0, sizeof (idata->rights)); while (*s && !isspace(*s)) { switch (*s) { case 'l': mutt_bit_set (idata->rights, IMAP_ACL_LOOKUP); break; case 'r': mutt_bit_set (idata->rights, IMAP_ACL_READ); break; case 's': mutt_bit_set (idata->rights, IMAP_ACL_SEEN); break; case 'w': mutt_bit_set (idata->rights, IMAP_ACL_WRITE); break; case 'i': mutt_bit_set (idata->rights, IMAP_ACL_INSERT); break; case 'p': mutt_bit_set (idata->rights, IMAP_ACL_POST); break; case 'c': mutt_bit_set (idata->rights, IMAP_ACL_CREATE); break; case 'd': mutt_bit_set (idata->rights, IMAP_ACL_DELETE); break; case 'a': mutt_bit_set (idata->rights, IMAP_ACL_ADMIN); break; } s++; } }