int mu_registrar_record (mu_record_t record) { int status; mu_list_t list; mu_list_comparator_t comp; if (!record) return 0; _registrar_get_list (&list); comp = mu_list_set_comparator (list, _compare_prio); status = mu_list_insert (list, record, record, 1); if (status == MU_ERR_NOENT) status = mu_list_append (list, record); mu_list_set_comparator (list, comp); return status; }
void imap4d_capability_add (const char *str) { if (!capa_list) { mu_list_create (&capa_list); mu_list_set_comparator (capa_list, comp); } mu_list_append (capa_list, (void*)str); }
char * alias_expand (const char *name) { alias_t al; mu_list_t list; if (mailvar_get (NULL, "recursivealiases", mailvar_type_boolean, 0) == 0) { char *s; mu_list_t origlist; int status = mu_list_create (&list); if (status) { mu_diag_funcall (MU_DIAG_ERROR, "mu_list_create", NULL, status); return NULL; } status = mu_list_create (&origlist); if (status) { mu_list_destroy (&origlist); mu_diag_funcall (MU_DIAG_ERROR, "mu_list_create", NULL, status); return NULL; } mu_list_set_comparator (list, string_comp); mu_list_set_comparator (origlist, string_comp); recursive_alias_expand (name, list, origlist); s = util_slist_to_string (list, ","); mu_list_destroy (&origlist); mu_list_destroy (&list); return s; } if ((al = alias_lookup (name)) == NULL) return NULL; return util_slist_to_string (al->list, ","); }
/* Computes an intersection of two lists and returns it in PDEST. The resulting list contains elements from A that are also encountered in B (as per comparison function of the latter). If DUP_ITEM is not NULL, it is used to create copies of items to be stored in PDEST. In this case, the destroy_item function of B is also attached to PDEST. Otherwise, if DUP_ITEM is NULL, pointers to elements are stored and no destroy_item function is assigned. */ int mu_list_intersect_dup (mu_list_t *pdest, mu_list_t a, mu_list_t b, int (*dup_item) (void **, void *, void *), void *dup_closure) { mu_list_t dest; int rc; mu_iterator_t itr; rc = mu_list_create (&dest); if (rc) return rc; mu_list_set_comparator (dest, b->comp); if (dup_item) mu_list_set_destroy_item (dest, b->destroy_item); rc = mu_list_get_iterator (a, &itr); if (rc) { mu_list_destroy (&dest); return rc; } rc = 0; for (mu_iterator_first (itr); !mu_iterator_is_done (itr); mu_iterator_next (itr)) { void *data; mu_iterator_current (itr, &data); if (mu_list_locate (b, data, NULL) == 0) { void *new_data; if (dup_item && data) { rc = dup_item (&new_data, data, dup_closure); if (rc) break; } else new_data = data; mu_list_append (dest, new_data); /* FIXME: Check return, and? */ } } mu_iterator_destroy (&itr); *pdest = dest; return rc; }
void auth_add (char *name, imap4d_auth_handler_fp handler) { struct imap_auth *p = mu_alloc (sizeof (*p)); p->name = name; p->handler = handler; if (!imap_auth_list) { mu_list_create (&imap_auth_list); mu_list_set_comparator (imap_auth_list, comp); mu_list_set_destroy_item (imap_auth_list, mu_list_free_item); } mu_list_append (imap_auth_list, (void*)p); }
int main (int argc, char **argv) { int i; char *host = NULL; char *infile = NULL; char *port = NULL; int tls = 0; int raw = 1; int flags = 0; mu_stream_t stream; mu_smtp_t smtp; mu_stream_t instr; char *from = NULL; mu_list_t rcpt_list = NULL; mu_list_t meth_list = NULL; mu_list_t skiphdr_list = NULL; struct mu_sockaddr *sa; struct mu_sockaddr_hints hints; mu_set_program_name (argv[0]); mu_stdstream_setup (MU_STDSTREAM_RESET_NONE); if (argc < 2) usage (); memset (&hints, 0, sizeof (hints)); hints.flags = MU_AH_DETECT_FAMILY; hints.port = 25; hints.protocol = IPPROTO_TCP; hints.socktype = SOCK_STREAM; MU_ASSERT (mu_smtp_create (&smtp)); for (i = 1; i < argc; i++) { if (strncmp (argv[i], "port=", 5) == 0) port = argv[i] + 5; else if (strncmp (argv[i], "family=", 7) == 0) { hints.flags &= ~MU_AH_DETECT_FAMILY; switch (argv[i][7]) { case '4': hints.family = AF_INET; break; case '6': hints.family = AF_INET6; break; default: mu_error ("invalid family name: %s", argv[i]+7); exit (1); } } else if (strncmp (argv[i], "trace=", 6) == 0) { char *arg = argv[i] + 6; if (mu_isdigit (arg[0])) mu_smtp_trace (smtp, atoi (argv[i] + 6) ? MU_SMTP_TRACE_SET : MU_SMTP_TRACE_CLR); else { mu_smtp_trace (smtp, MU_SMTP_TRACE_SET); if (strcmp (arg, "secure") == 0) mu_smtp_trace_mask (smtp, MU_SMTP_TRACE_SET, MU_XSCRIPT_SECURE); else if (strcmp (arg, "payload") == 0) mu_smtp_trace_mask (smtp, MU_SMTP_TRACE_SET, MU_XSCRIPT_PAYLOAD); } } else if (strncmp (argv[i], "tls=", 4) == 0) tls = atoi (argv[i] + 4); else if (strncmp (argv[i], "domain=", 7) == 0) MU_ASSERT (mu_smtp_set_param (smtp, MU_SMTP_PARAM_DOMAIN, argv[i] + 7)); else if (strncmp (argv[i], "user="******"pass="******"service=", 8) == 0) MU_ASSERT (mu_smtp_set_param (smtp, MU_SMTP_PARAM_SERVICE, argv[i] + 8)); else if (strncmp (argv[i], "realm=", 6) == 0) MU_ASSERT (mu_smtp_set_param (smtp, MU_SMTP_PARAM_REALM, argv[i] + 6)); else if (strncmp (argv[i], "host=", 5) == 0) MU_ASSERT (mu_smtp_set_param (smtp, MU_SMTP_PARAM_HOST, argv[i] + 5)); else if (strncmp (argv[i], "url=", 4) == 0) MU_ASSERT (mu_smtp_set_param (smtp, MU_SMTP_PARAM_URL, argv[i] + 4)); else if (strncmp (argv[i], "input=", 6) == 0) infile = argv[i] + 6; else if (strncmp (argv[i], "raw=", 4) == 0) raw = atoi (argv[i] + 4); else if (strncmp (argv[i], "rcpt=", 5) == 0) { if (!rcpt_list) MU_ASSERT (mu_list_create (&rcpt_list)); MU_ASSERT (mu_list_append (rcpt_list, argv[i] + 5)); } else if (strncmp (argv[i], "from=", 5) == 0) from = argv[i] + 5; else if (strncmp (argv[i], "auth=", 5) == 0) update_list (&meth_list, argv[i] + 5); else if (strncmp (argv[i], "skiphdr=", 8) == 0) { update_list (&skiphdr_list, argv[i] + 8); raw = 0; } else if (host) { mu_error ("server name already given: %s, new name %s?", host, argv[i]); exit (1); } else host = argv[i]; } if (!host) usage (); if (!raw) flags = MU_STREAM_SEEK; if (infile) MU_ASSERT (mu_file_stream_create (&instr, infile, MU_STREAM_READ|flags)); else MU_ASSERT (mu_stdio_stream_create (&instr, MU_STDIN_FD, flags)); host = argv[1]; MU_ASSERT (mu_sockaddr_from_node (&sa, host, port, &hints)); MU_ASSERT (mu_tcp_stream_create_from_sa (&stream, sa, NULL, MU_STREAM_RDWR)); mu_smtp_set_carrier (smtp, stream); mu_stream_unref (stream); if (!from) { from = getenv ("USER"); if (!from) { mu_error ("cannot determine sender name"); exit (1); } } if (raw && !rcpt_list) { mu_error ("no recipients"); exit (1); } MU_ASSERT (mu_smtp_open (smtp)); MU_ASSERT (mu_smtp_ehlo (smtp)); if (tls && mu_smtp_capa_test (smtp, "STARTTLS", NULL) == 0) { MU_ASSERT (mu_smtp_starttls (smtp)); MU_ASSERT (mu_smtp_ehlo (smtp)); } if (meth_list) { int status; MU_ASSERT (mu_smtp_add_auth_mech_list (smtp, meth_list)); status = mu_smtp_auth (smtp); switch (status) { case 0: MU_ASSERT (mu_smtp_ehlo (smtp)); break; case ENOSYS: case MU_ERR_NOENT: /* Ok, skip it */ break; default: mu_error ("authentication failed: %s", mu_strerror (status)); exit (1); } } MU_ASSERT (mu_smtp_mail_basic (smtp, from, NULL)); mu_list_foreach (rcpt_list, send_rcpt_command, smtp); if (raw) { /* Raw sending mode: send from the stream directly */ MU_ASSERT (mu_smtp_send_stream (smtp, instr)); } else { /* Message (standard) sending mode: send a MU message. */ mu_message_t msg; mu_stream_t ostr, bstr; mu_header_t hdr; mu_iterator_t itr; mu_body_t body; if (skiphdr_list) mu_list_set_comparator (skiphdr_list, headercmp); MU_ASSERT (mu_stream_to_message (instr, &msg)); mu_stream_unref (instr); MU_ASSERT (mu_smtp_data (smtp, &ostr)); MU_ASSERT (mu_message_get_header (msg, &hdr)); MU_ASSERT (mu_header_get_iterator (hdr, &itr)); for (mu_iterator_first (itr); !mu_iterator_is_done (itr); mu_iterator_next (itr)) { const char *name; void *value; mu_iterator_current_kv (itr, (void*) &name, &value); if (mu_list_locate (skiphdr_list, (void*) name, NULL) == 0) continue; mu_stream_printf (ostr, "%s: %s\n", name, (char*)value); } mu_iterator_destroy (&itr); MU_ASSERT (mu_stream_write (ostr, "\n", 1, NULL)); MU_ASSERT (mu_message_get_body (msg, &body)); MU_ASSERT (mu_body_get_streamref (body, &bstr)); MU_ASSERT (mu_stream_copy (ostr, bstr, 0, NULL)); mu_stream_destroy (&bstr); mu_stream_close (ostr); mu_stream_destroy (&ostr); } MU_ASSERT (mu_smtp_dot (smtp)); MU_ASSERT (mu_smtp_quit (smtp)); mu_smtp_destroy (&smtp); mu_stream_close (instr); mu_stream_destroy (&instr); return 0; }