/** * @file main.h * Definitions for main rspamd structures */ #ifndef RSPAMD_MAIN_H #define RSPAMD_MAIN_H #include "config.h" #include "fstring.h" #include "mem_pool.h" #include "statfile.h" #include "url.h" #include "memcached.h" #include "protocol.h" #include "filter.h" #include "buffer.h" #include "hash.h" #include "events.h" #include "util.h" #include "logger.h" /* Default values */ #define FIXED_CONFIG_FILE ETC_PREFIX "/rspamd.xml" /* Time in seconds to exit for old worker */ #define SOFT_SHUTDOWN_TIME 10 /* Default metric name */ #define DEFAULT_METRIC "default" /* 60 seconds for worker's IO */ #define WORKER_IO_TIMEOUT 60 #ifdef CRLF #undef CRLF #undef CR #undef LF #endif #define CRLF "\r\n" #define CR '\r' #define LF '\n' /** * Worker process structure */ struct rspamd_worker { pid_t pid; /**< pid of worker */ gboolean is_initialized; /**< is initialized */ gboolean is_dying; /**< if worker is going to shutdown */ gboolean pending; /**< if worker is pending to run */ struct rspamd_main *srv; /**< pointer to server structure */ enum process_type type; /**< process type */ struct event sig_ev; /**< signals event */ struct event bind_ev; /**< socket events */ struct worker_conf *cf; /**< worker config data */ gpointer ctx; /**< worker's specific data */ }; struct pidfh; struct config_file; struct tokenizer; struct classifier; struct classifier_config; struct mime_part; struct rspamd_view; struct rspamd_dns_resolver; /** * Server statistics */ struct rspamd_stat { unsigned int messages_scanned; /**< total number of messages scanned */ unsigned int messages_spam; /**< messages treated as spam */ unsigned int messages_ham; /**< messages treated as ham */ unsigned int connections_count; /**< total connections count */ unsigned int control_connections_count; /**< connections count to control interface */ unsigned int messages_learned; /**< messages learned */ unsigned int fuzzy_hashes; /**< number of fuzzy hashes stored */ unsigned int fuzzy_hashes_expired; /**< number of fuzzy hashes expired */ }; /** * Struct that determine main server object (for logging purposes) */ struct rspamd_main { struct config_file *cfg; /**< pointer to config structure */ pid_t pid; /**< main pid */ /* Pid file structure */ struct pidfh *pfh; /**< struct pidfh for pidfile */ enum process_type type; /**< process type */ unsigned int ev_initialized; /**< is event system is initialized */ struct rspamd_stat *stat; /**< pointer to statistics */ memory_pool_t *server_pool; /**< server's memory pool */ statfile_pool_t *statfile_pool; /**< shared statfiles pool */ GHashTable *workers; /**< workers pool indexed by pid */ }; struct counter_data { uint64_t value; int number; }; /** * Save point object for delayed filters processing */ struct save_point { GList *entry; /**< pointer to saved metric */ void *item; /**< pointer to saved item */ unsigned int saved; /**< how much time we have delayed processing */ }; /** * Union that would be used for storing sockaddrs */ union sa_union { struct sockaddr_storage ss; struct sockaddr_in s4; struct sockaddr_in6 s6; }; /** * Control session object */ struct controller_session { struct rspamd_worker *worker; /**< pointer to worker structure (controller in fact) */ enum { STATE_COMMAND, STATE_LEARN, STATE_REPLY, STATE_QUIT, STATE_OTHER, STATE_WAIT, STATE_WEIGHTS } state; /**< current session state */ int sock; /**< socket descriptor */ /* Access to authorized commands */ int authorized; /**< whether this session is authorized */ memory_pool_t *session_pool; /**< memory pool for session */ struct config_file *cfg; /**< pointer to config file */ char *learn_rcpt; /**< recipient for learning */ char *learn_from; /**< from address for learning */ struct classifier_config *learn_classifier; char *learn_symbol; /**< symbol to train */ double learn_multiplier; /**< multiplier for learning */ rspamd_io_dispatcher_t *dispatcher; /**< IO dispatcher object */ f_str_t *learn_buf; /**< learn input */ GList *parts; /**< extracted mime parts */ int in_class; /**< positive or negative learn */ void (*other_handler)(struct controller_session *session, f_str_t *in); /**< other command handler to execute at the end of processing */ void *other_data; /**< and its data */ struct rspamd_async_session* s; /**< async session object */ }; typedef void (*controller_func_t)(char **args, struct controller_session *session); /** * Worker task structure */ struct worker_task { struct rspamd_worker *worker; /**< pointer to worker object */ enum { READ_COMMAND, READ_HEADER, READ_MESSAGE, WRITE_REPLY, WRITE_ERROR, WAIT_FILTER, CLOSING_CONNECTION } state; /**< current session state */ size_t content_length; /**< length of user's input */ enum rspamd_protocol proto; /**< protocol (rspamc or spamc) */ const char *proto_ver; /**< protocol version */ enum rspamd_command cmd; /**< command */ struct custom_command *custom_cmd; /**< custom command if any */ int sock; /**< socket descriptor */ gboolean is_mime; /**< if this task is mime task */ gboolean is_skipped; /**< whether message was skipped by configuration */ char *helo; /**< helo header value */ char *from; /**< from header value */ char *queue_id; /**< queue id if specified */ const char *message_id; /**< message id */ GList *rcpt; /**< recipients list */ unsigned int nrcpt; /**< number of recipients */ struct in_addr from_addr; /**< client addr in numeric form */ struct in_addr client_addr; /**< client addr in numeric form */ char *deliver_to; /**< address to deliver */ char *user; /**< user to deliver */ char *subject; /**< subject (for non-mime) */ f_str_t *msg; /**< message buffer */ rspamd_io_dispatcher_t *dispatcher; /**< IO dispatcher object */ struct rspamd_async_session* s; /**< async session object */ int parts_count; /**< mime parts count */ GMimeMessage *message; /**< message, parsed with GMime */ GMimeObject *parser_parent_part; /**< current parent part */ InternetAddressList *rcpts; /**< list of all recipients */ GList *parts; /**< list of parsed parts */ GList *text_parts; /**< list of text parts */ char *raw_headers; /**< list of raw headers */ GList *received; /**< list of received headers */ GList *urls; /**< list of parsed urls */ GHashTable *results; /**< hash table of metric_result indexed by * metric's name */ GList *messages; /**< list of messages that would be reported */ GHashTable *re_cache; /**< cache for matched or not matched regexps */ struct config_file *cfg; /**< pointer to config object */ struct save_point save; /**< save point for delayed processing */ char *last_error; /**< last error */ int error_code; /**< code of last error */ memory_pool_t *task_pool; /**< memory pool for task */ #ifdef HAVE_CLOCK_GETTIME struct timespec ts; /**< time of connection */ #endif struct timeval tv; /**< time of connection */ struct rspamd_view *view; /**< matching view */ gboolean view_checked; gboolean pass_all_filters; /**< pass task throught every rule */ uint32_t parser_recursion; /**< for avoiding recursion stack overflow */ gboolean (*fin_callback)(void *arg); /**< calback for filters finalizing */ void *fin_arg; /**< argument for fin callback */ struct rspamd_dns_resolver *resolver; /**< DNS resolver */ }; /** * Common structure representing C module context */ struct module_ctx { int (*filter)(struct worker_task *task); /**< pointer to headers process function */ }; /** * Common structure for C module */ struct c_module { const char *name; /**< name */ struct module_ctx *ctx; /**< pointer to context */ }; void start_worker (struct rspamd_worker *worker); void start_controller (struct rspamd_worker *worker); void start_greylist_storage (struct rspamd_worker *worker); /** * Register custom controller function */ void register_custom_controller_command (const char *name, controller_func_t handler, gboolean privilleged, gboolean require_message); /** * Construct new task for worker */ struct worker_task* construct_task (struct rspamd_worker *worker); /** * Destroy task object and remove its IO dispatcher if it exists */ void free_task (struct worker_task *task, gboolean is_soft); /** * If set, reopen log file on next write */ extern sig_atomic_t do_reopen_log; #endif /* * vi:ts=4 */