void auth_client_connection_destroy(struct auth_client_connection **_conn) { struct auth_client_connection *conn = *_conn; *_conn = NULL; if (conn->fd == -1) return; DLLIST_REMOVE(&auth_client_connections, conn); i_stream_close(conn->input); o_stream_close(conn->output); if (conn->io != NULL) io_remove(&conn->io); net_disconnect(conn->fd); conn->fd = -1; if (conn->request_handler != NULL) { auth_request_handler_abort_requests(conn->request_handler); auth_request_handler_destroy(&conn->request_handler); } master_service_client_connection_destroyed(master_service); auth_client_connection_unref(&conn); }
void lmtp_client_close(struct lmtp_client *client) { if (client->dns_lookup != NULL) dns_lookup_abort(&client->dns_lookup); if (client->to != NULL) timeout_remove(&client->to); if (client->io != NULL) io_remove(&client->io); if (client->input != NULL) i_stream_close(client->input); if (client->output != NULL) o_stream_close(client->output); if (client->fd != -1) { net_disconnect(client->fd); client->fd = -1; } if (client->data_input != NULL) i_stream_unref(&client->data_input); client->output_finished = TRUE; if (!client->finish_called) { client->finish_called = TRUE; client->finish_callback(client->finish_context); } }
static void auth_postfix_connection_destroy(struct auth_postfix_connection **_conn) { struct auth_postfix_connection *conn = *_conn; *_conn = NULL; if (conn->destroyed) return; conn->destroyed = TRUE; DLLIST_REMOVE(&auth_postfix_connections, conn); if (conn->input != NULL) i_stream_close(conn->input); if (conn->output != NULL) o_stream_close(conn->output); if (conn->io != NULL) io_remove(&conn->io); if (conn->fd != -1) { if (close(conn->fd) < 0) i_error("close(%s): %m", conn->path); conn->fd = -1; } master_service_client_connection_destroyed(master_service); auth_postfix_connection_unref(&conn); }
static void client_destroy(struct client *client) { char **app; i_set_failure_prefix("imap-urlauth[%s](%s): ", my_pid, client->access_user); if (client->url != NULL) { /* deinitialize url */ i_stream_close(client->input); o_stream_close(client->output); (void)client_run_url(client); i_assert(client->url == NULL); } imap_urlauth_worker_client_count--; DLLIST_REMOVE(&imap_urlauth_worker_clients, client); if (client->urlauth_ctx != NULL) imap_urlauth_deinit(&client->urlauth_ctx); if (client->mail_user != NULL) mail_user_unref(&client->mail_user); if (client->io != NULL) io_remove(&client->io); if (client->ctrl_io != NULL) io_remove(&client->ctrl_io); if (client->to_idle != NULL) timeout_remove(&client->to_idle); if (client->input != NULL) i_stream_destroy(&client->input); if (client->output != NULL) o_stream_destroy(&client->output); if (client->ctrl_input != NULL) i_stream_destroy(&client->ctrl_input); if (client->ctrl_output != NULL) o_stream_destroy(&client->ctrl_output); if (client->fd_in >= 0) net_disconnect(client->fd_in); if (client->fd_out >= 0 && client->fd_in != client->fd_out) net_disconnect(client->fd_out); if (client->fd_ctrl >= 0) net_disconnect(client->fd_ctrl); if (client->service_user != NULL) mail_storage_service_user_free(&client->service_user); i_free(client->access_user); array_foreach_modifiable(&client->access_apps, app) i_free(*app); array_free(&client->access_apps); i_free(client); imap_urlauth_worker_refresh_proctitle(); master_service_client_connection_destroyed(master_service); }
static void o_stream_ssl_close(struct iostream_private *stream, bool close_parent) { struct ssl_ostream *sstream = (struct ssl_ostream *)stream; if (close_parent) o_stream_close(sstream->ssl_io->plain_output); }
static void o_stream_default_close(struct iostream_private *stream, bool close_parent) { struct ostream_private *_stream = (struct ostream_private *)stream; (void)o_stream_flush(&_stream->ostream); if (close_parent && _stream->parent != NULL) o_stream_close(_stream->parent); }
static void o_stream_lzma_close(struct iostream_private *stream, bool close_parent) { struct lzma_ostream *zstream = (struct lzma_ostream *)stream; lzma_end(&zstream->strm); if (close_parent) o_stream_close(zstream->ostream.parent); }
static int cmd_dsync_server_run(struct doveadm_mail_cmd_context *_ctx, struct mail_user *user) { struct dsync_cmd_context *ctx = (struct dsync_cmd_context *)_ctx; struct dsync_ibc *ibc; struct dsync_brain *brain; string_t *temp_prefix, *state_str = NULL; enum dsync_brain_sync_type sync_type; const char *name; if (_ctx->conn != NULL) { /* doveadm-server connection. start with a success reply. after that follows the regular dsync protocol. */ ctx->fd_in = ctx->fd_out = -1; ctx->input = _ctx->conn->input; ctx->output = _ctx->conn->output; o_stream_nsend(ctx->output, "\n+\n", 3); i_set_failure_prefix("dsync-server(%s): ", user->username); name = i_stream_get_name(ctx->input); } else { /* the log messages go via stderr to the remote dsync, so the names are reversed */ i_set_failure_prefix("dsync-remote(%s): ", user->username); name = "local"; } doveadm_user_init_dsync(user); temp_prefix = t_str_new(64); mail_user_set_get_temp_prefix(temp_prefix, user->set); ibc = cmd_dsync_icb_stream_init(ctx, name, str_c(temp_prefix)); brain = dsync_brain_slave_init(user, ibc, FALSE); io_loop_run(current_ioloop); if (ctx->replicator_notify) { state_str = t_str_new(128); dsync_brain_get_state(brain, state_str); } sync_type = dsync_brain_get_sync_type(brain); if (dsync_brain_deinit(&brain) < 0) _ctx->exit_code = EX_TEMPFAIL; dsync_ibc_deinit(&ibc); if (_ctx->conn != NULL) { /* make sure nothing more is written by the generic doveadm connection code */ o_stream_close(_ctx->conn->output); } if (ctx->replicator_notify && _ctx->exit_code == 0) dsync_replicator_notify(ctx, sync_type, str_c(state_str)); return _ctx->exit_code == 0 ? 0 : -1; }
static void o_stream_bzlib_close(struct iostream_private *stream, bool close_parent) { struct bzlib_ostream *zstream = (struct bzlib_ostream *)stream; (void)o_stream_flush(&zstream->ostream.ostream); (void)BZ2_bzCompressEnd(&zstream->zs); if (close_parent) o_stream_close(zstream->ostream.parent); }
static void o_stream_zlib_close(struct iostream_private *stream, bool close_parent) { struct zlib_ostream *zstream = (struct zlib_ostream *)stream; (void)o_stream_flush(&zstream->ostream.ostream); (void)deflateEnd(&zstream->zs); if (close_parent) o_stream_close(zstream->ostream.parent); }
void o_stream_copy_error_from_parent(struct ostream_private *_stream) { struct ostream *src = _stream->parent; struct ostream *dest = &_stream->ostream; dest->stream_errno = src->stream_errno; dest->last_failed_errno = src->last_failed_errno; dest->overflow = src->overflow; if (src->closed) o_stream_close(dest); }
static void o_stream_cmp_close(struct iostream_private *stream, bool close_parent) { struct cmp_ostream *cstream = (struct cmp_ostream *)stream; if (cstream->input == NULL) return; i_stream_unref(&cstream->input); if (close_parent) o_stream_close(cstream->ostream.parent); }
static void openssl_iostream_destroy(struct ssl_iostream *ssl_io) { (void)SSL_shutdown(ssl_io->ssl); (void)openssl_iostream_more(ssl_io); (void)o_stream_flush(ssl_io->plain_output); /* close the plain i/o streams, because their fd may be closed soon, but we may still keep this ssl-iostream referenced until later. */ i_stream_close(ssl_io->plain_input); o_stream_close(ssl_io->plain_output); ssl_iostream_unref(&ssl_io); }
static void o_stream_zlib_close(struct iostream_private *stream, bool close_parent) { struct zlib_ostream *zstream = (struct zlib_ostream *)stream; i_assert(zstream->ostream.finished || zstream->ostream.ostream.stream_errno != 0 || zstream->ostream.error_handling_disabled); (void)deflateEnd(&zstream->zs); if (close_parent) o_stream_close(zstream->ostream.parent); }
static void http_transfer_chunked_ostream_close(struct iostream_private *stream, bool close_parent) { struct http_transfer_chunked_ostream *tcstream = (struct http_transfer_chunked_ostream *)stream; (void)o_stream_send(tcstream->ostream.parent, "0\r\n\r\n", 5); (void)o_stream_flush(&tcstream->ostream.ostream); if (close_parent) o_stream_close(tcstream->ostream.parent); }
static void openssl_iostream_destroy(struct ssl_iostream *ssl_io) { if (SSL_shutdown(ssl_io->ssl) != 1) { /* if bidirectional shutdown fails we need to clear the error queue */ openssl_iostream_clear_errors(); } (void)openssl_iostream_more(ssl_io); (void)o_stream_flush(ssl_io->plain_output); /* close the plain i/o streams, because their fd may be closed soon, but we may still keep this ssl-iostream referenced until later. */ i_stream_close(ssl_io->plain_input); o_stream_close(ssl_io->plain_output); ssl_iostream_unref(&ssl_io); }
static void notify_connection_destroy(struct notify_connection *conn) { i_assert(conn->fd != -1); if (!CONNECTION_IS_FIFO(conn)) master_service_client_connection_destroyed(master_service); DLLIST_REMOVE(&conns, conn); io_remove(&conn->io); i_stream_close(conn->input); if (conn->output != NULL) o_stream_close(conn->output); net_disconnect(conn->fd); conn->fd = -1; notify_connection_unref(conn); }
static void o_stream_mail_filter_close(struct iostream_private *stream, bool close_parent) { struct mail_filter_ostream *mstream = (struct mail_filter_ostream *)stream; if (mstream->ext_in != NULL) i_stream_destroy(&mstream->ext_in); if (mstream->ext_out != NULL) o_stream_destroy(&mstream->ext_out); if (mstream->fd != -1) { if (close(mstream->fd) < 0) i_error("ext-filter: close() failed: %m"); mstream->fd = -1; } if (close_parent) o_stream_close(mstream->ostream.parent); }
static void notify_connection_destroy(struct notify_connection *conn) { if (conn->destroyed) return; conn->destroyed = TRUE; DLLIST_REMOVE(&connections, conn); io_remove(&conn->io); i_stream_close(conn->input); o_stream_close(conn->output); if (close(conn->fd) < 0) i_error("close(notify connection) failed: %m"); conn->fd = -1; notify_connection_unref(&conn); master_service_client_connection_destroyed(master_service); }
void client_disconnect(struct client *client, const char *reason) { i_assert(reason != NULL); if (client->disconnected) return; i_info("Disconnected: %s %s", reason, client_stats(client)); client->disconnected = TRUE; o_stream_nflush(client->output); o_stream_uncork(client->output); i_stream_close(client->input); o_stream_close(client->output); if (client->to_idle != NULL) timeout_remove(&client->to_idle); client->to_idle = timeout_add(0, client_destroy_timeout, client); }
static int openssl_iostream_handshake(struct ssl_iostream *ssl_io) { const char *error = NULL; int ret; i_assert(!ssl_io->handshaked); if (ssl_io->ctx->client_ctx) { while ((ret = SSL_connect(ssl_io->ssl)) <= 0) { ret = openssl_iostream_handle_error(ssl_io, ret, "SSL_connect()"); if (ret <= 0) return ret; } } else { while ((ret = SSL_accept(ssl_io->ssl)) <= 0) { ret = openssl_iostream_handle_error(ssl_io, ret, "SSL_accept()"); if (ret <= 0) return ret; } } /* handshake finished */ (void)openssl_iostream_bio_sync(ssl_io); if (ssl_io->handshake_callback != NULL) { if (ssl_io->handshake_callback(&error, ssl_io->handshake_context) < 0) { i_assert(error != NULL); i_stream_close(ssl_io->plain_input); o_stream_close(ssl_io->plain_output); openssl_iostream_set_error(ssl_io, error); ssl_io->handshake_failed = TRUE; errno = EINVAL; return -1; } } i_free_and_null(ssl_io->last_error); ssl_io->handshaked = TRUE; if (ssl_io->ssl_output != NULL) (void)o_stream_flush(ssl_io->ssl_output); return 1; }
void auth_worker_client_destroy(struct auth_worker_client **_client) { struct auth_worker_client *client = *_client; *_client = NULL; if (client->fd == -1) return; i_stream_close(client->input); o_stream_close(client->output); if (client->io != NULL) io_remove(&client->io); net_disconnect(client->fd); client->fd = -1; auth_worker_client_unref(&client); auth_worker_client = NULL; master_service_client_connection_destroyed(master_service); }
void connection_disconnect(struct connection *conn) { if (conn->to != NULL) timeout_remove(&conn->to); if (conn->io != NULL) io_remove(&conn->io); if (conn->input != NULL) { i_stream_close(conn->input); i_stream_destroy(&conn->input); } if (conn->output != NULL) { o_stream_close(conn->output); o_stream_destroy(&conn->output); } if (conn->fd_in != -1) { if (close(conn->fd_in) < 0) i_error("close(%s) failed: %m", conn->name); if (conn->fd_in != conn->fd_out && close(conn->fd_out) < 0) i_error("close(%s/out) failed: %m", conn->name); conn->fd_in = conn->fd_out = -1; } }
void client_destroy(struct client *client, const char *reason) { if (client->destroyed) return; client->destroyed = TRUE; if (!client->login_success && reason != NULL) { reason = t_strconcat(reason, " ", client_get_extra_disconnect_reason(client), NULL); } if (reason != NULL) client_log(client, reason); if (last_client == client) last_client = client->prev; DLLIST_REMOVE(&clients, client); if (client->input != NULL) i_stream_close(client->input); if (client->output != NULL) o_stream_close(client->output); if (client->master_tag != 0) { i_assert(client->auth_request == NULL); i_assert(client->authenticating); i_assert(client->refcount > 1); client->authenticating = FALSE; master_auth_request_abort(master_auth, client->master_tag); client->refcount--; } else if (client->auth_request != NULL) { i_assert(client->authenticating); sasl_server_auth_abort(client); } else { i_assert(!client->authenticating); } if (client->io != NULL) io_remove(&client->io); if (client->to_disconnect != NULL) timeout_remove(&client->to_disconnect); if (client->to_auth_waiting != NULL) timeout_remove(&client->to_auth_waiting); if (client->auth_response != NULL) str_free(&client->auth_response); if (client->fd != -1) { net_disconnect(client->fd); client->fd = -1; } if (client->proxy_password != NULL) { safe_memset(client->proxy_password, 0, strlen(client->proxy_password)); i_free_and_null(client->proxy_password); } if (client->proxy_sasl_client != NULL) dsasl_client_free(&client->proxy_sasl_client); if (client->login_proxy != NULL) login_proxy_free(&client->login_proxy); if (client->v.destroy != NULL) client->v.destroy(client); if (client_unref(&client) && initial_service_count == 1) { /* as soon as this connection is done with proxying (or whatever), the process will die. there's no need for authentication anymore, so close the connection. do this only with initial service_count=1, in case there are other clients with pending authentications */ auth_client_disconnect(auth_client, "unnecessary connection"); } login_client_destroyed(); login_refresh_proctitle(); }
static void client_default_destroy(struct client *client, const char *reason) { struct client_command_context *cmd; const char *cmd_status = ""; i_assert(!client->destroyed); client->destroyed = TRUE; if (!client->disconnected) { client->disconnected = TRUE; if (reason == NULL) { reason = io_stream_get_disconnect_reason(client->input, client->output); cmd_status = client_get_commands_status(client); } i_info("%s%s %s", reason, cmd_status, client_stats(client)); } i_stream_close(client->input); o_stream_close(client->output); /* finish off all the queued commands. */ if (client->output_cmd_lock != NULL) client_command_cancel(&client->output_cmd_lock); while (client->command_queue != NULL) { cmd = client->command_queue; client_command_cancel(&cmd); } /* handle the input_lock command last. it might have been waiting on other queued commands (although we probably should just drop the command at that point since it hasn't started running. but this may change in future). */ if (client->input_lock != NULL) client_command_cancel(&client->input_lock); if (client->mailbox != NULL) { client_search_updates_free(client); mailbox_free(&client->mailbox); } if (client->notify_ctx != NULL) imap_notify_deinit(&client->notify_ctx); if (client->urlauth_ctx != NULL) imap_urlauth_deinit(&client->urlauth_ctx); if (client->anvil_sent) { master_service_anvil_send(master_service, t_strconcat( "DISCONNECT\t", my_pid, "\timap/", mail_user_get_anvil_userip_ident(client->user), "\n", NULL)); } mail_user_unref(&client->user); if (client->free_parser != NULL) imap_parser_unref(&client->free_parser); if (client->io != NULL) io_remove(&client->io); if (client->to_idle_output != NULL) timeout_remove(&client->to_idle_output); if (client->to_delayed_input != NULL) timeout_remove(&client->to_delayed_input); timeout_remove(&client->to_idle); i_stream_destroy(&client->input); o_stream_destroy(&client->output); net_disconnect(client->fd_in); if (client->fd_in != client->fd_out) net_disconnect(client->fd_out); if (array_is_created(&client->search_saved_uidset)) array_free(&client->search_saved_uidset); if (array_is_created(&client->search_updates)) array_free(&client->search_updates); pool_unref(&client->command_pool); mail_storage_service_user_free(&client->service_user); imap_client_count--; DLLIST_REMOVE(&imap_clients, client); pool_unref(&client->pool); master_service_client_connection_destroyed(master_service); imap_refresh_proctitle(); }