/* $OpenBSD: smtpd-api.h,v 1.12 2013/11/20 09:22:42 eric Exp $ */ /* * Copyright (c) 2013 Eric Faurot * Copyright (c) 2011 Gilles Chehade * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef _SMTPD_API_H_ #define _SMTPD_API_H_ #include #include #include #include #include #define FILTER_API_VERSION 50 struct mailaddr { char user[SMTPD_MAXLOCALPARTSIZE]; char domain[SMTPD_MAXDOMAINPARTSIZE]; }; SPLAY_HEAD(_dict, dictentry); SPLAY_HEAD(_tree, treeentry); struct tree { struct _tree tree; size_t count; }; struct dict { struct _dict dict; size_t count; }; enum filter_status { FILTER_OK, FILTER_FAIL, FILTER_CLOSE, }; enum filter_imsg { IMSG_FILTER_REGISTER, IMSG_FILTER_EVENT, IMSG_FILTER_QUERY, IMSG_FILTER_PIPE_SETUP, IMSG_FILTER_PIPE_ABORT, IMSG_FILTER_NOTIFY, IMSG_FILTER_RESPONSE }; /* XXX - server side requires mfa_session.c update on filter_hook changes */ enum filter_hook { HOOK_CONNECT = 1 << 0, /* req */ HOOK_HELO = 1 << 1, /* req */ HOOK_MAIL = 1 << 2, /* req */ HOOK_RCPT = 1 << 3, /* req */ HOOK_DATA = 1 << 4, /* req */ HOOK_EOM = 1 << 5, /* req */ HOOK_RESET = 1 << 6, /* evt */ HOOK_DISCONNECT = 1 << 7, /* evt */ HOOK_COMMIT = 1 << 8, /* evt */ HOOK_ROLLBACK = 1 << 9, /* evt */ HOOK_DATALINE = 1 << 10, /* data */ }; struct filter_connect { struct sockaddr_storage local; struct sockaddr_storage remote; const char *hostname; }; #define PROC_QUEUE_API_VERSION 1 enum { PROC_QUEUE_OK, PROC_QUEUE_FAIL, PROC_QUEUE_INIT, PROC_QUEUE_MESSAGE_CREATE, PROC_QUEUE_MESSAGE_DELETE, PROC_QUEUE_MESSAGE_COMMIT, PROC_QUEUE_MESSAGE_FD_R, PROC_QUEUE_MESSAGE_CORRUPT, PROC_QUEUE_ENVELOPE_CREATE, PROC_QUEUE_ENVELOPE_DELETE, PROC_QUEUE_ENVELOPE_LOAD, PROC_QUEUE_ENVELOPE_UPDATE, PROC_QUEUE_ENVELOPE_WALK, }; #define PROC_SCHEDULER_API_VERSION 1 struct scheduler_info; struct scheduler_batch; enum { PROC_SCHEDULER_OK, PROC_SCHEDULER_FAIL, PROC_SCHEDULER_INIT, PROC_SCHEDULER_INSERT, PROC_SCHEDULER_COMMIT, PROC_SCHEDULER_ROLLBACK, PROC_SCHEDULER_UPDATE, PROC_SCHEDULER_DELETE, PROC_SCHEDULER_HOLD, PROC_SCHEDULER_RELEASE, PROC_SCHEDULER_BATCH, PROC_SCHEDULER_MESSAGES, PROC_SCHEDULER_ENVELOPES, PROC_SCHEDULER_SCHEDULE, PROC_SCHEDULER_REMOVE, PROC_SCHEDULER_SUSPEND, PROC_SCHEDULER_RESUME, }; enum envelope_flags { EF_AUTHENTICATED = 0x01, EF_BOUNCE = 0x02, EF_INTERNAL = 0x04, /* Internal expansion forward */ /* runstate, not saved on disk */ EF_PENDING = 0x10, EF_INFLIGHT = 0x20, EF_SUSPEND = 0x40, EF_HOLD = 0x80, }; struct evpstate { uint64_t evpid; uint16_t flags; uint16_t retry; time_t time; }; enum delivery_type { D_MDA, D_MTA, D_BOUNCE, }; struct scheduler_info { uint64_t evpid; enum delivery_type type; uint16_t retry; time_t creation; time_t expire; time_t lasttry; time_t lastbounce; time_t nexttry; uint8_t penalty; }; #define SCHED_NONE 0x00 #define SCHED_DELAY 0x01 #define SCHED_REMOVE 0x02 #define SCHED_EXPIRE 0x04 #define SCHED_BOUNCE 0x08 #define SCHED_MDA 0x10 #define SCHED_MTA 0x20 struct scheduler_batch { int type; time_t delay; size_t evpcount; uint64_t *evpids; }; #define PROC_TABLE_API_VERSION 1 enum table_service { K_NONE = 0x00, K_ALIAS = 0x01, /* returns struct expand */ K_DOMAIN = 0x02, /* returns struct destination */ K_CREDENTIALS = 0x04, /* returns struct credentials */ K_NETADDR = 0x08, /* returns struct netaddr */ K_USERINFO = 0x10, /* returns struct userinfo */ K_SOURCE = 0x20, /* returns struct source */ K_MAILADDR = 0x40, /* returns struct mailaddr */ K_ADDRNAME = 0x80, /* returns struct addrname */ }; #define K_ANY 0xff enum { PROC_TABLE_OK, PROC_TABLE_FAIL, PROC_TABLE_OPEN, PROC_TABLE_CLOSE, PROC_TABLE_UPDATE, PROC_TABLE_CHECK, PROC_TABLE_LOOKUP, PROC_TABLE_FETCH, }; static inline uint32_t evpid_to_msgid(uint64_t evpid) { return (evpid >> 32); } static inline uint64_t msgid_to_evpid(uint32_t msgid) { return ((uint64_t)msgid << 32); } /* dict.c */ #define dict_init(d) do { SPLAY_INIT(&((d)->dict)); (d)->count = 0; } while(0) #define dict_empty(d) SPLAY_EMPTY(&((d)->dict)) #define dict_count(d) ((d)->count) int dict_check(struct dict *, const char *); void *dict_set(struct dict *, const char *, void *); void dict_xset(struct dict *, const char *, void *); void *dict_get(struct dict *, const char *); void *dict_xget(struct dict *, const char *); void *dict_pop(struct dict *, const char *); void *dict_xpop(struct dict *, const char *); int dict_poproot(struct dict *, void **); int dict_root(struct dict *, const char **, void **); int dict_iter(struct dict *, void **, const char **, void **); int dict_iterfrom(struct dict *, void **, const char *, const char **, void **); void dict_merge(struct dict *, struct dict *); /* filter_api.c */ void filter_api_setugid(uid_t, gid_t); void filter_api_set_chroot(const char *); void filter_api_no_chroot(void); void filter_api_loop(void); void filter_api_accept(uint64_t); void filter_api_accept_notify(uint64_t, uint64_t *); void filter_api_reject(uint64_t, enum filter_status); void filter_api_reject_code(uint64_t, enum filter_status, uint32_t, const char *); void filter_api_writeln(uint64_t, const char *); void filter_api_on_notify(void(*)(uint64_t, enum filter_status)); void filter_api_on_connect(void(*)(uint64_t, struct filter_connect *)); void filter_api_on_helo(void(*)(uint64_t, const char *)); void filter_api_on_mail(void(*)(uint64_t, struct mailaddr *)); void filter_api_on_rcpt(void(*)(uint64_t, struct mailaddr *)); void filter_api_on_data(void(*)(uint64_t)); void filter_api_on_dataline(void(*)(uint64_t, const char *)); void filter_api_on_eom(void(*)(uint64_t)); void filter_api_on_event(void(*)(uint64_t, enum filter_hook)); /* queue */ void queue_api_on_message_create(int(*)(uint32_t *)); void queue_api_on_message_commit(int(*)(uint32_t, const char*)); void queue_api_on_message_delete(int(*)(uint32_t)); void queue_api_on_message_fd_r(int(*)(uint32_t)); void queue_api_on_message_corrupt(int(*)(uint32_t)); void queue_api_on_envelope_create(int(*)(uint32_t, const char *, size_t, uint64_t *)); void queue_api_on_envelope_delete(int(*)(uint64_t)); void queue_api_on_envelope_update(int(*)(uint64_t, const char *, size_t)); void queue_api_on_envelope_load(int(*)(uint64_t, char *, size_t)); void queue_api_on_envelope_walk(int(*)(uint64_t *, char *, size_t)); int queue_api_dispatch(void); /* scheduler */ void scheduler_api_on_init(int(*)(void)); void scheduler_api_on_insert(int(*)(struct scheduler_info *)); void scheduler_api_on_commit(size_t(*)(uint32_t)); void scheduler_api_on_rollback(size_t(*)(uint32_t)); void scheduler_api_on_update(int(*)(struct scheduler_info *)); void scheduler_api_on_delete(int(*)(uint64_t)); void scheduler_api_on_hold(int(*)(uint64_t, uint64_t)); void scheduler_api_on_release(int(*)(int, uint64_t, int)); void scheduler_api_on_batch(int(*)(int, struct scheduler_batch *)); void scheduler_api_on_messages(size_t(*)(uint32_t, uint32_t *, size_t)); void scheduler_api_on_envelopes(size_t(*)(uint64_t, struct evpstate *, size_t)); void scheduler_api_on_schedule(int(*)(uint64_t)); void scheduler_api_on_remove(int(*)(uint64_t)); void scheduler_api_on_suspend(int(*)(uint64_t)); void scheduler_api_on_resume(int(*)(uint64_t)); int scheduler_api_dispatch(void); /* table */ void table_api_on_update(int(*)(void)); void table_api_on_check(int(*)(int, const char *)); void table_api_on_lookup(int(*)(int, const char *, char *, size_t)); void table_api_on_fetch(int(*)(int, char *, size_t)); int table_api_dispatch(void); /* tree.c */ #define tree_init(t) do { SPLAY_INIT(&((t)->tree)); (t)->count = 0; } while(0) #define tree_empty(t) SPLAY_EMPTY(&((t)->tree)) #define tree_count(t) ((t)->count) int tree_check(struct tree *, uint64_t); void *tree_set(struct tree *, uint64_t, void *); void tree_xset(struct tree *, uint64_t, void *); void *tree_get(struct tree *, uint64_t); void *tree_xget(struct tree *, uint64_t); void *tree_pop(struct tree *, uint64_t); void *tree_xpop(struct tree *, uint64_t); int tree_poproot(struct tree *, uint64_t *, void **); int tree_root(struct tree *, uint64_t *, void **); int tree_iter(struct tree *, void **, uint64_t *, void **); int tree_iterfrom(struct tree *, void **, uint64_t, uint64_t *, void **); void tree_merge(struct tree *, struct tree *); #endif