/* Serval DNA MeshMS HTTP RESTful interface Copyright (C) 2013,2014 Serval Project Inc. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "serval.h" #include "conf.h" #include "httpd.h" #include "strbuf_helpers.h" DECLARE_HANDLER("/restful/meshms/", restful_meshms_); static void on_rhizome_bundle_added(httpd_request *r, rhizome_manifest *m); static void finalise_union_meshms_conversationlist(httpd_request *r) { meshms_free_conversations(r->u.mclist.conv); r->u.mclist.conv = NULL; } static void finalise_union_meshms_messagelist(httpd_request *r) { meshms_message_iterator_close(&r->u.msglist.iter); } static void finalise_union_meshms_sendmessage(httpd_request *r) { form_buf_malloc_release(&r->u.sendmsg.message); } #define MESHMS_TOKEN_STRLEN (BASE64_ENCODED_LEN(sizeof(rhizome_bid_t) + sizeof(uint64_t))) #define alloca_meshms_token(bid, offset) meshms_token_to_str(alloca(MESHMS_TOKEN_STRLEN + 1), (bid), (offset)) static char *meshms_token_to_str(char *buf, const rhizome_bid_t *bid, uint64_t offset) { struct iovec iov[2]; iov[0].iov_base = (void *) bid->binary; iov[0].iov_len = sizeof bid->binary; iov[1].iov_base = &offset; iov[1].iov_len = sizeof offset; size_t n = base64url_encodev(buf, iov, 2); assert(n == MESHMS_TOKEN_STRLEN); buf[n] = '\0'; return buf; } static int strn_to_meshms_token(const char *str, rhizome_bid_t *bidp, uint64_t *offsetp, const char **afterp) { unsigned char token[sizeof bidp->binary + sizeof *offsetp]; if (base64url_decode(token, sizeof token, str, 0, afterp, 0, NULL) != sizeof token) return 0; memcpy(bidp->binary, token, sizeof bidp->binary); memcpy(offsetp, token + sizeof bidp->binary, sizeof *offsetp); return 1; } static int http_request_meshms_response(struct httpd_request *r, uint16_t result, const char *message, enum meshms_status status) { uint16_t meshms_result = 0; switch (status) { case MESHMS_STATUS_OK: meshms_result = 200; break; case MESHMS_STATUS_UPDATED: meshms_result = 201; break; case MESHMS_STATUS_SID_LOCKED: case MESHMS_STATUS_PROTOCOL_FAULT: meshms_result = 403; break; case MESHMS_STATUS_ERROR: meshms_result = 500; break; } if (meshms_result == 0) { WHYF("Invalid MeshMS status code %d", status); meshms_result = 500; } r->http.response.result_extra[0].label = "meshms_status_code"; r->http.response.result_extra[0].value.type = JSON_INTEGER; r->http.response.result_extra[0].value.u.integer = status; const char *status_message = meshms_status_message(status); if (status_message) { r->http.response.result_extra[1].label = "meshms_status_message"; r->http.response.result_extra[1].value.type = JSON_STRING_NULTERM; r->http.response.result_extra[1].value.u.string.content = status_message; } if (meshms_result > result) { result = meshms_result; message = NULL; } assert(result != 0); http_request_simple_response(&r->http, result, message ? message : result == 403 ? "MeshMS operation failed" : NULL); return result; } static HTTP_HANDLER restful_meshms_conversationlist_json; static HTTP_HANDLER restful_meshms_messagelist_json; static HTTP_HANDLER restful_meshms_newsince_messagelist_json; static HTTP_HANDLER restful_meshms_sendmessage; static HTTP_HANDLER restful_meshms_read_all_conversations; static HTTP_HANDLER restful_meshms_read_all_messages; static HTTP_HANDLER restful_meshms_read_to_offset; static int restful_meshms_(httpd_request *r, const char *remainder) { r->http.response.header.content_type = CONTENT_TYPE_JSON; if (!is_rhizome_http_enabled()) return 403; int ret = authorize_restful(&r->http); if (ret) return ret; const char *verb = HTTP_VERB_GET; http_size_t content_length = CONTENT_LENGTH_UNKNOWN; HTTP_HANDLER *handler = NULL; const char *end; if (parse_sid_t(&r->sid1, remainder, -1, &end) != -1) { remainder = end; if (strcmp(remainder, "/conversationlist.json") == 0) { handler = restful_meshms_conversationlist_json; remainder = ""; } else if (strcmp(remainder, "/readall") == 0) { handler = restful_meshms_read_all_conversations; verb = HTTP_VERB_POST; content_length = 0; remainder = ""; } else if (*remainder == '/' && parse_sid_t(&r->sid2, remainder + 1, -1, &end) != -1) { remainder = end; if (strcmp(remainder, "/messagelist.json") == 0) { handler = restful_meshms_messagelist_json; remainder = ""; } else if ( str_startswith(remainder, "/newsince/", &end) && strn_to_meshms_token(end, &r->bid, &r->ui64, &end) && strcmp(end, "/messagelist.json") == 0 ) { handler = restful_meshms_newsince_messagelist_json; remainder = ""; } else if (strcmp(remainder, "/sendmessage") == 0) { handler = restful_meshms_sendmessage; verb = HTTP_VERB_POST; remainder = ""; } else if (strcmp(remainder, "/readall") == 0) { handler = restful_meshms_read_all_messages; verb = HTTP_VERB_POST; content_length = 0; remainder = ""; } else if (str_startswith(remainder, "/recv/", &end)) { remainder = end; if (str_to_uint64(remainder, 10, &r->ui64, &end)) { remainder = end; if (strcmp(remainder, "/read") == 0) { handler = restful_meshms_read_to_offset; verb = HTTP_VERB_POST; content_length = 0; remainder = ""; } } } } } if (handler == NULL) return 404; if ( content_length != CONTENT_LENGTH_UNKNOWN && r->http.request_header.content_length != CONTENT_LENGTH_UNKNOWN && r->http.request_header.content_length != content_length) { http_request_simple_response(&r->http, 400, "Bad content length"); return 400; } if (r->http.verb != verb) return 405; return handler(r, remainder); } static HTTP_CONTENT_GENERATOR restful_meshms_conversationlist_json_content; static int restful_meshms_conversationlist_json(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = finalise_union_meshms_conversationlist; r->u.mclist.phase = LIST_HEADER; r->u.mclist.rowcount = 0; r->u.mclist.conv = NULL; enum meshms_status status; if (meshms_failed(status = meshms_conversations_list(&r->sid1, NULL, &r->u.mclist.conv))) return http_request_meshms_response(r, 0, NULL, status); if (r->u.mclist.conv != NULL) meshms_conversation_iterator_start(&r->u.mclist.iter, r->u.mclist.conv); http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshms_conversationlist_json_content); return 1; } static HTTP_CONTENT_GENERATOR_STRBUF_CHUNKER restful_meshms_conversationlist_json_content_chunk; static int restful_meshms_conversationlist_json_content(struct http_request *hr, unsigned char *buf, size_t bufsz, struct http_content_generator_result *result) { return generate_http_content_from_strbuf_chunks(hr, (char *)buf, bufsz, result, restful_meshms_conversationlist_json_content_chunk); } static int restful_meshms_conversationlist_json_content_chunk(struct http_request *hr, strbuf b) { httpd_request *r = (httpd_request *) hr; // The "my_sid" and "their_sid" per-conversation fields allow the same JSON structure to be used // in a future, non-SID-specific request, eg, to list all conversations for all currently open // identities. const char *headers[] = { "_id", "my_sid", "their_sid", "read", "last_message", "read_offset" }; switch (r->u.mclist.phase) { case LIST_HEADER: strbuf_puts(b, "{\n\"header\":["); unsigned i; for (i = 0; i != NELS(headers); ++i) { if (i) strbuf_putc(b, ','); strbuf_json_string(b, headers[i]); } strbuf_puts(b, "],\n\"rows\":["); if (!strbuf_overrun(b)) r->u.mclist.phase = LIST_FIRST; return 1; case LIST_ROWS: case LIST_FIRST: if (r->u.mclist.conv == NULL || r->u.mclist.iter.current == NULL) { r->u.mclist.phase = LIST_END; // fall through... } else { if (r->u.mclist.phase==LIST_ROWS) strbuf_putc(b, ','); else r->u.mclist.phase=LIST_ROWS; strbuf_puts(b, "\n["); strbuf_sprintf(b, "%zu", r->u.mclist.rowcount); strbuf_putc(b, ','); strbuf_json_hex(b, r->sid1.binary, sizeof r->sid1.binary); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.mclist.iter.current->them.binary, sizeof r->u.mclist.iter.current->them.binary); strbuf_putc(b, ','); strbuf_json_boolean(b, r->u.mclist.iter.current->read_offset >= r->u.mclist.iter.current->their_last_message); strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.mclist.iter.current->their_last_message); strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.mclist.iter.current->read_offset); strbuf_puts(b, "]"); if (!strbuf_overrun(b)) { meshms_conversation_iterator_advance(&r->u.mclist.iter); ++r->u.mclist.rowcount; } return 1; } // fall through... case LIST_END: strbuf_puts(b, "\n]\n}\n"); if (!strbuf_overrun(b)) r->u.mclist.phase = LIST_DONE; // fall through... case LIST_DONE: return 0; } abort(); return 0; } static HTTP_CONTENT_GENERATOR restful_meshms_messagelist_json_content; static enum meshms_status reopen_meshms_message_iterator(httpd_request *r) { if (r->u.msglist.dirty) { meshms_message_iterator_close(&r->u.msglist.iter); r->u.msglist.dirty = 0; } if (!meshms_message_iterator_is_open(&r->u.msglist.iter)) { enum meshms_status status; if ( meshms_failed(status = meshms_message_iterator_open(&r->u.msglist.iter, &r->sid1, &r->sid2)) || meshms_failed(status = meshms_message_iterator_prev(&r->u.msglist.iter)) ) return status; r->u.msglist.finished = status != MESHMS_STATUS_UPDATED; if (!r->u.msglist.finished) { r->u.msglist.latest.which_ply = r->u.msglist.iter.which_ply; r->u.msglist.latest.offset = r->u.msglist.iter.offset; } } return MESHMS_STATUS_OK; } static int restful_meshms_messagelist_json(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = finalise_union_meshms_messagelist; r->u.msglist.rowcount = 0; r->u.msglist.phase = LIST_HEADER; r->u.msglist.token.which_ply = NEITHER_PLY; r->u.msglist.token.offset = 0; r->u.msglist.end_time = 0; enum meshms_status status; if (meshms_failed(status = reopen_meshms_message_iterator(r))) return http_request_meshms_response(r, 0, NULL, status); http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshms_messagelist_json_content); return 1; } static int restful_meshms_newsince_messagelist_json(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = finalise_union_meshms_messagelist; r->trigger_rhizome_bundle_added = on_rhizome_bundle_added; r->u.msglist.rowcount = 0; r->u.msglist.phase = LIST_HEADER; enum meshms_status status; if (meshms_failed(status = reopen_meshms_message_iterator(r))) return http_request_meshms_response(r, 0, NULL, status); if (cmp_rhizome_bid_t(&r->bid, r->u.msglist.iter.my_ply_bid) == 0) r->u.msglist.token.which_ply = MY_PLY; else if (cmp_rhizome_bid_t(&r->bid, r->u.msglist.iter.their_ply_bid) == 0) r->u.msglist.token.which_ply = THEIR_PLY; else { http_request_simple_response(&r->http, 404, "Unmatched token"); return 404; } r->u.msglist.token.offset = r->ui64; r->u.msglist.end_time = gettime_ms() + config.api.restful.newsince_timeout * 1000; r->u.msglist.current = r->u.msglist.token; http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshms_messagelist_json_content); return 1; } static void on_rhizome_bundle_added(httpd_request *r, rhizome_manifest *m) { if (strcmp(m->service, RHIZOME_SERVICE_MESHMS2) == 0) { if ( (cmp_sid_t(&m->sender, &r->sid1) == 0 && cmp_sid_t(&m->recipient, &r->sid2) == 0) || (cmp_sid_t(&m->sender, &r->sid2) == 0 && cmp_sid_t(&m->recipient, &r->sid1) == 0) ) { r->u.msglist.dirty = 1; http_request_resume_response(&r->http); } } } static HTTP_CONTENT_GENERATOR_STRBUF_CHUNKER restful_meshms_messagelist_json_content_chunk; static int restful_meshms_messagelist_json_content(struct http_request *hr, unsigned char *buf, size_t bufsz, struct http_content_generator_result *result) { httpd_request *r = (httpd_request *) hr; if (meshms_failed(reopen_meshms_message_iterator(r))) return -1; return generate_http_content_from_strbuf_chunks(hr, (char *)buf, bufsz, result, restful_meshms_messagelist_json_content_chunk); } static int _messagelist_json_ack(struct httpd_request *r, strbuf b, struct newsince_position pos); static int restful_meshms_messagelist_json_content_chunk(struct http_request *hr, strbuf b) { httpd_request *r = (httpd_request *) hr; // Include "my_sid" and "their_sid" per-message, so that the same JSON structure can be used by a // future, non-SID-specific request (eg, to get all messages for all currently open identities). const char *headers[] = { "type", "my_sid", "their_sid", "offset", "token", "text", "delivered", "read", "timestamp", "ack_offset" }; switch (r->u.msglist.phase) { case LIST_HEADER: strbuf_puts(b, "{\n"); if (!r->u.msglist.end_time) { strbuf_sprintf(b, "\"read_offset\":%"PRIu64",\n\"latest_ack_offset\":%"PRIu64",\n", r->u.msglist.iter.read_offset, r->u.msglist.iter.latest_ack_my_offset ); } strbuf_puts(b, "\"header\":["); unsigned i; for (i = 0; i != NELS(headers); ++i) { if (i) strbuf_putc(b, ','); strbuf_json_string(b, headers[i]); } strbuf_puts(b, "],\n\"rows\":["); if (!strbuf_overrun(b)) r->u.msglist.phase = LIST_ROWS; return 1; case LIST_FIRST: case LIST_ROWS: { if ( r->u.msglist.finished || (r->u.msglist.token.which_ply == r->u.msglist.iter.which_ply && r->u.msglist.iter.offset <= r->u.msglist.token.offset) ) { time_ms_t now; if (r->u.msglist.end_time && (now = gettime_ms()) < r->u.msglist.end_time) { int appended_row = _messagelist_json_ack(r, b, r->u.msglist.current); if (strbuf_overrun(b)) return 1; if (appended_row) ++r->u.msglist.rowcount; r->u.msglist.token = r->u.msglist.latest; meshms_message_iterator_close(&r->u.msglist.iter); http_request_pause_response(&r->http, r->u.msglist.end_time); return 0; } r->u.msglist.phase = LIST_END; } else { r->u.msglist.current.which_ply = r->u.msglist.iter.which_ply; r->u.msglist.current.offset = r->u.msglist.iter.offset; switch (r->u.msglist.iter.type) { case MESSAGE_SENT: if (r->u.msglist.rowcount != 0) strbuf_putc(b, ','); strbuf_puts(b, "\n["); strbuf_json_string(b, ">"); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.my_sid->binary, sizeof r->u.msglist.iter.my_sid->binary); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.their_sid->binary, sizeof r->u.msglist.iter.their_sid->binary); strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.msglist.iter.offset); strbuf_putc(b, ','); strbuf_json_string(b, alloca_meshms_token(&r->u.msglist.iter._conv->my_ply.bundle_id, r->u.msglist.iter.offset)); strbuf_putc(b, ','); strbuf_json_string(b, r->u.msglist.iter.text); strbuf_putc(b, ','); strbuf_json_boolean(b, r->u.msglist.iter.delivered); strbuf_putc(b, ','); strbuf_json_boolean(b, 0); strbuf_putc(b, ','); strbuf_sprintf(b, "%d", r->u.msglist.iter.timestamp); strbuf_putc(b, ','); strbuf_json_null(b); strbuf_puts(b, "]"); break; case MESSAGE_RECEIVED: if (r->u.msglist.rowcount != 0) strbuf_putc(b, ','); strbuf_puts(b, "\n["); strbuf_json_string(b, "<"); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.my_sid->binary, sizeof r->u.msglist.iter.my_sid->binary); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.their_sid->binary, sizeof r->u.msglist.iter.their_sid->binary); strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.msglist.iter.offset); strbuf_putc(b, ','); strbuf_json_string(b, alloca_meshms_token(&r->u.msglist.iter._conv->their_ply.bundle_id, r->u.msglist.iter.offset)); strbuf_putc(b, ','); strbuf_json_string(b, r->u.msglist.iter.text); strbuf_putc(b, ','); strbuf_json_boolean(b, 1); strbuf_putc(b, ','); strbuf_json_boolean(b, r->u.msglist.iter.read); strbuf_putc(b, ','); strbuf_sprintf(b, "%d", r->u.msglist.iter.timestamp); strbuf_putc(b, ','); strbuf_json_null(b); strbuf_puts(b, "]"); break; case ACK_RECEIVED: _messagelist_json_ack(r, b, r->u.msglist.current); break; } if (!strbuf_overrun(b)) { ++r->u.msglist.rowcount; enum meshms_status status; if (meshms_failed(status = meshms_message_iterator_prev(&r->u.msglist.iter))) return http_request_meshms_response(r, 0, NULL, status); r->u.msglist.finished = status != MESHMS_STATUS_UPDATED; } return 1; } r->u.msglist.phase = LIST_END; } // fall through... case LIST_END: strbuf_puts(b, "\n]\n}\n"); if (!strbuf_overrun(b)) r->u.msglist.phase = LIST_DONE; // fall through... case LIST_DONE: return 0; } abort(); return 0; } static int _messagelist_json_ack(struct httpd_request *r, strbuf b, struct newsince_position pos) { // Don't send old (irrelevant) ACKs. if (r->u.msglist.iter.latest_ack_my_offset <= r->u.msglist.highest_ack_offset) return 0; if (r->u.msglist.rowcount != 0) strbuf_putc(b, ','); strbuf_puts(b, "\n["); strbuf_json_string(b, "ACK"); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.my_sid->binary, sizeof r->u.msglist.iter.my_sid->binary); strbuf_putc(b, ','); strbuf_json_hex(b, r->u.msglist.iter.their_sid->binary, sizeof r->u.msglist.iter.their_sid->binary); strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.msglist.iter.latest_ack_offset); strbuf_putc(b, ','); // Same token as the message row just sent. strbuf_json_string(b, alloca_meshms_token( pos.which_ply == MY_PLY ? r->u.msglist.iter.my_ply_bid : r->u.msglist.iter.their_ply_bid, pos.offset)); strbuf_putc(b, ','); strbuf_json_null(b); strbuf_putc(b, ','); strbuf_json_boolean(b, 1); strbuf_putc(b, ','); strbuf_json_boolean(b, 0); strbuf_putc(b, ','); strbuf_json_null(b); // no timestamp on ACKs strbuf_putc(b, ','); strbuf_sprintf(b, "%"PRIu64, r->u.msglist.iter.latest_ack_my_offset); strbuf_puts(b, "]"); r->u.msglist.highest_ack_offset = r->u.msglist.iter.latest_ack_my_offset; return 1; } static HTTP_REQUEST_PARSER restful_meshms_sendmessage_end; static int send_mime_part_start(struct http_request *); static int send_mime_part_end(struct http_request *); static int send_mime_part_header(struct http_request *, const struct mime_part_headers *); static int send_mime_part_body(struct http_request *, char *, size_t); static int restful_meshms_sendmessage(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = finalise_union_meshms_sendmessage; // Parse the request body as multipart/form-data. assert(r->u.sendmsg.current_part == NULL); assert(!r->u.sendmsg.received_message); r->http.form_data.handle_mime_part_start = send_mime_part_start; r->http.form_data.handle_mime_part_end = send_mime_part_end; r->http.form_data.handle_mime_part_header = send_mime_part_header; r->http.form_data.handle_mime_body = send_mime_part_body; // Send the message once the body has arrived. r->http.handle_content_end = restful_meshms_sendmessage_end; return 1; } static char PART_MESSAGE[] = "message"; static int send_mime_part_start(struct http_request *hr) { httpd_request *r = (httpd_request *) hr; assert(r->u.sendmsg.current_part == NULL); return 0; } static int send_mime_part_end(struct http_request *hr) { httpd_request *r = (httpd_request *) hr; if (r->u.sendmsg.current_part == PART_MESSAGE) { if (r->u.sendmsg.message.length == 0) return http_response_form_part(r, "Invalid (empty)", PART_MESSAGE, NULL, 0); r->u.sendmsg.received_message = 1; DEBUGF(httpd, "received %s = %s", PART_MESSAGE, alloca_toprint(-1, r->u.sendmsg.message.buffer, r->u.sendmsg.message.length)); } else FATALF("current_part = %s", alloca_str_toprint(r->u.sendmsg.current_part)); r->u.sendmsg.current_part = NULL; return 0; } static int send_mime_part_header(struct http_request *hr, const struct mime_part_headers *h) { httpd_request *r = (httpd_request *) hr; if (strcmp(h->content_disposition.type, "form-data") != 0) return http_response_content_disposition(r, "Unsupported", h->content_disposition.type); if (strcmp(h->content_disposition.name, PART_MESSAGE) == 0) { if (r->u.sendmsg.received_message) return http_response_form_part(r, "Duplicate", PART_MESSAGE, NULL, 0); r->u.sendmsg.current_part = PART_MESSAGE; form_buf_malloc_init(&r->u.sendmsg.message, MESHMS_MESSAGE_MAX_LEN); } else return http_response_form_part(r, "Unsupported", h->content_disposition.name, NULL, 0); if (!h->content_type.type[0] || !h->content_type.subtype[0]) return http_response_content_type(r, "Missing", &h->content_type); if (strcmp(h->content_type.type, "text") != 0 || strcmp(h->content_type.subtype, "plain") != 0) return http_response_content_type(r, "Unsupported", &h->content_type); if (!h->content_type.charset[0]) return http_response_content_type(r, "Missing charset", &h->content_type); if (strcmp(h->content_type.charset, "utf-8") != 0) return http_response_content_type(r, "Unsupported charset", &h->content_type); return 0; } static int send_mime_part_body(struct http_request *hr, char *buf, size_t len) { httpd_request *r = (httpd_request *) hr; if (r->u.sendmsg.current_part == PART_MESSAGE) { form_buf_malloc_accumulate(r, PART_MESSAGE, &r->u.sendmsg.message, buf, len); } else FATALF("current_part = %s", alloca_str_toprint(r->u.sendmsg.current_part)); return 0; } static int restful_meshms_sendmessage_end(struct http_request *hr) { httpd_request *r = (httpd_request *) hr; if (!r->u.sendmsg.received_message) return http_response_form_part(r, "Missing", PART_MESSAGE, NULL, 0); assert(r->u.sendmsg.message.length > 0); assert(r->u.sendmsg.message.length <= MESHMS_MESSAGE_MAX_LEN); enum meshms_status status; if (meshms_failed(status = meshms_send_message(&r->sid1, &r->sid2, r->u.sendmsg.message.buffer, r->u.sendmsg.message.length))) return http_request_meshms_response(r, 0, NULL, status); return http_request_meshms_response(r, 201, "Message sent", status); } static int restful_meshms_read_all_conversations(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); enum meshms_status status; if (meshms_failed(status = meshms_mark_read(&r->sid1, NULL, UINT64_MAX))) return http_request_meshms_response(r, 0, NULL, status); if (status == MESHMS_STATUS_UPDATED) return http_request_meshms_response(r, 201, "Read offsets updated", status); return http_request_meshms_response(r, 200, "Read offsets unchanged", status); } static int restful_meshms_read_all_messages(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); enum meshms_status status; if (meshms_failed(status = meshms_mark_read(&r->sid1, &r->sid2, UINT64_MAX))) return http_request_meshms_response(r, 0, NULL, status); if (status == MESHMS_STATUS_UPDATED) return http_request_meshms_response(r, 201, "Read offset updated", status); return http_request_meshms_response(r, 200, "Read offset unchanged", status); } static int restful_meshms_read_to_offset(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); enum meshms_status status; if (meshms_failed(status = meshms_mark_read(&r->sid1, &r->sid2, r->ui64))) return http_request_meshms_response(r, 0, NULL, status); if (status == MESHMS_STATUS_UPDATED) return http_request_meshms_response(r, 201, "Read offset updated", status); return http_request_meshms_response(r, 200, "Read offset unchanged", status); }