#include "serval.h" #include "dataformats.h" #include "conf.h" #include "httpd.h" #include "str.h" #include "numeric_str.h" #include "base64.h" #include "strbuf_helpers.h" #include "keyring.h" #include "meshmb.h" DEFINE_FEATURE(http_rest_meshmb); static char *PART_MESSAGE = "message"; static int send_part_start(struct http_request *hr) { httpd_request *r = (httpd_request *) hr; assert(r->u.sendmsg.current_part == NULL); return 0; } static int send_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, 400, "Invalid (empty)", PART_MESSAGE, NULL, 0); r->u.sendmsg.received_message = 1; DEBUGF(meshmb, "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_part_header(struct http_request *hr, const struct mime_part_headers *h) { httpd_request *r = (httpd_request *) hr; if (!h->content_disposition.type[0]) return http_response_content_disposition(r, 415, "Missing", h->content_disposition.type); if (strcmp(h->content_disposition.type, "form-data") != 0) return http_response_content_disposition(r, 415, "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, 400, "Duplicate", PART_MESSAGE, NULL, 0); r->u.sendmsg.current_part = PART_MESSAGE; form_buf_malloc_init(&r->u.sendmsg.message, MESSAGE_PLY_MAX_LEN); } else return http_response_form_part(r, 415, "Unsupported", h->content_disposition.name, NULL, 0); if (!h->content_type.type[0] || !h->content_type.subtype[0]) return http_response_content_type(r, 400, "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, 415, "Unsupported", &h->content_type); if (!h->content_type.charset[0]) return http_response_content_type(r, 400, "Missing charset", &h->content_type); if (strcmp(h->content_type.charset, "utf-8") != 0) return http_response_content_type(r, 415, "Unsupported charset", &h->content_type); return 0; } static int send_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 send_content_end(struct http_request *hr) { httpd_request *r = (httpd_request *) hr; if (!r->u.sendmsg.received_message) return http_response_form_part(r, 400, "Missing", PART_MESSAGE, NULL, 0); assert(r->u.sendmsg.message.length > 0); assert(r->u.sendmsg.message.length <= MESSAGE_PLY_MAX_LEN); assert(keyring != NULL); keyring_identity *id = keyring_find_identity(keyring, &r->bid); if (!id){ http_request_simple_response(&r->http, 500, "TODO, detailed errors"); return 500; } if (meshmb_send(id, r->u.sendmsg.message.buffer, r->u.sendmsg.message.length, 0, NULL)==-1){ http_request_simple_response(&r->http, 500, "TODO, detailed errors"); return 500; } http_request_simple_response(&r->http, 201, "TODO, detailed response"); return 201; } static void send_finalise(httpd_request *r) { form_buf_malloc_release(&r->u.sendmsg.message); } static int restful_meshmb_send(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = send_finalise; // 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_part_start; r->http.form_data.handle_mime_part_end = send_part_end; r->http.form_data.handle_mime_part_header = send_part_header; r->http.form_data.handle_mime_body = send_part_body; // Send the message once the body has arrived. r->http.handle_content_end = send_content_end; return 1; } static strbuf position_token_to_str(strbuf b, uint64_t position) { uint8_t tmp[12]; char tmp_str[BASE64_ENCODED_LEN(12)+1]; int len = pack_uint(tmp, position); assert(len <= (int)sizeof tmp); size_t n = base64url_encode(tmp_str, tmp, len); tmp_str[n] = '\0'; return strbuf_puts(b, tmp_str); } static int strn_to_position_token(const char *str, uint64_t *position, const char **afterp) { uint8_t token[12]; size_t token_len = base64url_decode(token, sizeof token, str, 0, afterp, 0, NULL); int unpacked; if ((unpacked = unpack_uint(token, token_len, position))!=-1 && **afterp=='/'){ (*afterp)++; } else { *position = 0; *afterp=str; } return 1; } static strbuf activity_token_to_str(strbuf b, const httpd_request *r) { uint8_t tmp[12]; char tmp_str[BASE64_ENCODED_LEN(12)+1]; unsigned len = 0; len += pack_uint(&tmp[len], r->u.meshmb_feeds.current_ack_offset); len += pack_uint(&tmp[len], r->u.meshmb_feeds.current_msg_offset); assert(len <= sizeof tmp); size_t n = base64url_encode(tmp_str, tmp, len); tmp_str[n] = '\0'; return strbuf_puts(b, tmp_str); } static int strn_to_activity_token(const char *str, httpd_request *r, const char **afterp) { uint8_t token[12]; size_t token_len = base64url_decode(token, sizeof token, str, 0, afterp, 0, NULL); int unpacked; if ((unpacked = unpack_uint(token, token_len, &r->u.meshmb_feeds.end_ack_offset))!=-1 && (unpacked = unpack_uint(token + unpacked, token_len - unpacked, &r->u.meshmb_feeds.end_msg_offset))!=-1 && **afterp=='/'){ (*afterp)++; } else { r->u.meshmb_feeds.end_ack_offset=0; r->u.meshmb_feeds.end_msg_offset=0; *afterp=str; } return 1; } static int next_ply_message(httpd_request *r){ if (!message_ply_is_open(&r->u.plylist.ply_reader)){ if (message_ply_read_open(&r->u.plylist.ply_reader, &r->bid, NULL)==-1){ r->u.plylist.eof = 1; return -1; } // skip back to where we were if (r->u.plylist.current_offset) r->u.plylist.ply_reader.read.offset = r->u.plylist.current_offset; DEBUGF(meshmb, "Opened ply @%"PRIu64, r->u.plylist.ply_reader.read.offset); } if (r->u.plylist.current_offset==0){ // enumerate everything from the top DEBUGF(meshmb, "Started reading @%"PRIu64, r->u.plylist.ply_reader.read.length); r->u.plylist.current_offset = r->u.plylist.start_offset = r->u.plylist.ply_reader.read.offset = r->u.plylist.ply_reader.read.length; } while(message_ply_read_prev(&r->u.plylist.ply_reader) == 0){ r->u.plylist.current_offset = r->u.plylist.ply_reader.record_end_offset; if (r->u.plylist.current_offset <= r->u.plylist.end_offset){ DEBUGF(meshmb, "Hit end %"PRIu64" @%"PRIu64, r->u.plylist.end_offset, r->u.plylist.current_offset); break; } switch(r->u.plylist.ply_reader.type){ case MESSAGE_BLOCK_TYPE_TIME: if (message_ply_parse_timestamp(&r->u.plylist.ply_reader, &r->u.plylist.timestamp)!=0){ WARN("Malformed ply, expected timestamp"); continue; } break; case MESSAGE_BLOCK_TYPE_MESSAGE: r->u.plylist.eof = 0; return 1; case MESSAGE_BLOCK_TYPE_ACK: // TODO, link to some other ply? break; default: //ignore unknown types break; } } r->u.plylist.eof = 1; return 0; } static int restful_meshmb_list_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[] = { "offset", "token", "text", "timestamp" }; DEBUGF(meshmb, "Phase %d", r->u.plylist.phase); switch (r->u.plylist.phase) { case LIST_HEADER: strbuf_puts(b, "{\n"); // open the ply now in order to read the manifest name if (!message_ply_is_open(&r->u.plylist.ply_reader)) next_ply_message(r); if (r->u.plylist.ply_reader.name) strbuf_sprintf(b, "\"name\":\"%s\",\n", r->u.plylist.ply_reader.name); 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.plylist.phase = LIST_ROWS; return 1; ROWS: case LIST_ROWS: case LIST_FIRST: if (!message_ply_is_open(&r->u.plylist.ply_reader)){ // re-load the current message text if (next_ply_message(r)!=1) goto END; } else if (r->u.plylist.eof) goto END; if (r->u.plylist.rowcount!=0) strbuf_putc(b, ','); strbuf_puts(b, "\n["); strbuf_sprintf(b, "%"PRIu64, r->u.plylist.current_offset); strbuf_puts(b, ",\""); position_token_to_str(b, r->u.plylist.current_offset); strbuf_puts(b, "\","); strbuf_json_string(b, (const char *)r->u.plylist.ply_reader.record); strbuf_putc(b, ','); strbuf_sprintf(b, "%d", r->u.plylist.timestamp); strbuf_puts(b, "]"); if (!strbuf_overrun(b)) { ++r->u.plylist.rowcount; if (next_ply_message(r)!=1) r->u.plylist.phase = LIST_END; } return 1; END: r->u.plylist.phase = LIST_END; case LIST_END: { time_ms_t now; // during a new-since request, we don't really want to end until the time limit has elapsed if (r->u.plylist.end_time && (now = gettime_ms()) < r->u.plylist.end_time) { // where we started this time, will become where we end on the next pass; r->u.plylist.end_offset = r->u.plylist.start_offset; r->u.plylist.current_offset = 0; r->u.plylist.phase = LIST_ROWS; if (r->u.plylist.ply_reader.read.length > r->u.plylist.start_offset && next_ply_message(r)==1) // new content arrived while we were iterating, we can resume immediately goto ROWS; message_ply_read_close(&r->u.plylist.ply_reader); http_request_pause_response(&r->http, r->u.plylist.end_time); return 0; } } strbuf_puts(b, "\n]\n}\n"); if (!strbuf_overrun(b)) r->u.plylist.phase = LIST_DONE; // fall through... case LIST_DONE: return 0; } abort(); return 0; } static int restful_meshmb_list_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_meshmb_list_json_content_chunk); } static void list_on_rhizome_add(httpd_request *r, rhizome_manifest *m) { if (strcmp(m->service, RHIZOME_SERVICE_MESHMB) == 0 && cmp_rhizome_bid_t(&m->keypair.public_key, &r->bid)==0) { message_ply_read_close(&r->u.plylist.ply_reader); http_request_resume_response(&r->http); } } static void list_finalise(httpd_request *r) { message_ply_read_close(&r->u.plylist.ply_reader); } static int restful_meshmb_list(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); r->finalise_union = list_finalise; r->trigger_rhizome_bundle_added = list_on_rhizome_add; r->u.plylist.phase = LIST_HEADER; r->u.plylist.rowcount = 0; r->u.plylist.end_offset = r->ui64; http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshmb_list_json_content); return 1; } static int restful_meshmb_newsince_list(httpd_request *r, const char *remainder) { int ret; if ((ret = restful_meshmb_list(r, remainder))==1){ r->u.plylist.end_time = gettime_ms() + config.api.restful.newsince_timeout * 1000; } return ret; } /* static char *find_token_to_str(char *buf, uint64_t rowid) { struct iovec iov[2]; iov[0].iov_base = rhizome_db_uuid.u.binary; iov[0].iov_len = sizeof rhizome_db_uuid.u.binary; iov[1].iov_base = &rowid; iov[1].iov_len = sizeof rowid; size_t n = base64url_encodev(buf, iov, 2); assert(n == LIST_TOKEN_STRLEN); buf[n] = '\0'; return buf; } static int strn_to_find_token(const char *str, uint64_t *rowidp, const char **afterp) { unsigned char token[sizeof rhizome_db_uuid.u.binary + sizeof *rowidp]; if (base64url_decode(token, sizeof token, str, 0, afterp, 0, NULL) == sizeof token && cmp_uuid_t(&rhizome_db_uuid, (serval_uuid_t *) &token) == 0 && **afterp=='/'){ memcpy(rowidp, token + sizeof rhizome_db_uuid.u.binary, sizeof *rowidp); (*afterp)++; }else{ // don't skip the token *afterp=str; *rowidp=1; } return 1; } static int restful_meshmb_find(httpd_request *r, const char *remainder) { return -1; } static int restful_meshmb_newsince_find(httpd_request *r, const char *remainder) { return -1; } */ // allow multiple requests to re-use the same struct meshmb_feeds *, keeping it up to date as bundles arrive struct meshmb_session{ struct meshmb_session *next; struct meshmb_session *prev; unsigned ref_count; keyring_identity *id; struct meshmb_feeds *feeds; }; static struct meshmb_session *sessions = NULL; static struct meshmb_session *open_session(const identity_t *identity){ keyring_identity *id = keyring_find_identity(keyring, identity); if (!id) return NULL; struct meshmb_session *session = sessions; while(session){ if (session->id == id){ session->ref_count++; return session; } session = session->next; } struct meshmb_feeds *feeds = NULL; if (meshmb_open(id, &feeds)==-1) return NULL; meshmb_update(feeds); session = emalloc(sizeof (struct meshmb_session)); if (!session){ meshmb_close(feeds); return NULL; } session->next = sessions; session->prev = NULL; if (sessions) sessions->prev = session; sessions = session; session->ref_count = 1; session->id = id; session->feeds = feeds; return session; } static void close_session(struct meshmb_session *session){ if (--session->ref_count == 0){ if (session->next) session->next->prev = session->prev; if (session->prev) session->prev->next = session->next; else sessions = session->next; meshmb_close(session->feeds); free(session); } } static int restful_meshmb_follow(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); struct meshmb_session *session = open_session(&r->bid); int ret; if (session && meshmb_follow(session->feeds, &r->u.meshmb_feeds.bundle_id)!=-1 && meshmb_flush(session->feeds)!=-1){ http_request_simple_response(&r->http, 201, "TODO, detailed response"); ret = 201; }else{ http_request_simple_response(&r->http, 500, "TODO, detailed response"); ret = 500; } if (session) close_session(session); return ret; } static int restful_meshmb_ignore(httpd_request *r, const char *remainder) { if (*remainder) return 404; assert(r->finalise_union == NULL); struct meshmb_session *session = open_session(&r->bid); int ret; if (session && meshmb_ignore(session->feeds, &r->u.meshmb_feeds.bundle_id)!=-1 && meshmb_flush(session->feeds)!=-1){ http_request_simple_response(&r->http, 201, "TODO, detailed response"); ret = 201; }else{ http_request_simple_response(&r->http, 500, "TODO, detailed response"); ret = 500; } if (session) close_session(session); return ret; } struct enum_state{ httpd_request *request; strbuf buffer; }; static int restful_feedlist_enum(struct meshmb_feed_details *details, void *context){ struct enum_state *state = context; size_t checkpoint = strbuf_len(state->buffer); if (state->request->u.meshmb_feeds.rowcount!=0) strbuf_putc(state->buffer, ','); strbuf_puts(state->buffer, "\n["); strbuf_json_hex(state->buffer, details->ply.bundle_id.binary, sizeof details->ply.bundle_id.binary); strbuf_puts(state->buffer, ","); strbuf_json_hex(state->buffer, details->ply.author.binary, sizeof details->ply.author.binary); strbuf_puts(state->buffer, ","); strbuf_json_string(state->buffer, details->name); strbuf_puts(state->buffer, ","); strbuf_sprintf(state->buffer, "%d", details->timestamp); strbuf_puts(state->buffer, ","); strbuf_json_string(state->buffer, details->last_message); strbuf_puts(state->buffer, "]"); if (strbuf_overrun(state->buffer)){ strbuf_trunc(state->buffer, checkpoint); return 1; }else{ ++state->request->u.meshmb_feeds.rowcount; state->request->u.meshmb_feeds.bundle_id = details->ply.bundle_id; return 0; } } static int restful_meshmb_feedlist_json_content_chunk(struct http_request *hr, strbuf b) { httpd_request *r = (httpd_request *) hr; const char *headers[] = { "id", "author", "name", "timestamp", "last_message" }; DEBUGF(meshmb, "Phase %d", r->u.meshmb_feeds.phase); switch (r->u.meshmb_feeds.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.meshmb_feeds.phase = LIST_ROWS; return 1; case LIST_ROWS: case LIST_FIRST: { struct enum_state state={ .request = r, .buffer = b }; int gen = meshmb_flush(r->u.meshmb_feeds.session->feeds); if (gen>=0 && gen != r->u.meshmb_feeds.generation) r->u.meshmb_feeds.generation = gen; if (meshmb_enum(r->u.meshmb_feeds.session->feeds, &r->u.meshmb_feeds.bundle_id, restful_feedlist_enum, &state)!=0) return 0; } // fallthrough r->u.meshmb_feeds.phase = LIST_END; case LIST_END: strbuf_puts(b, "\n]\n}\n"); if (!strbuf_overrun(b)) r->u.plylist.phase = LIST_DONE; // fall through... case LIST_DONE: return 0; } } static int restful_meshmb_feedlist_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_meshmb_feedlist_json_content_chunk); } static void feedlist_on_rhizome_add(httpd_request *r, rhizome_manifest *m) { struct message_ply_read reader; bzero(&reader, sizeof(reader)); int ret = meshmb_bundle_update(r->u.meshmb_feeds.session->feeds, m, &reader); message_ply_read_close(&reader); if (ret!=1) return; http_request_resume_response(&r->http); } static void feedlist_finalise(httpd_request *r) { if (r->u.meshmb_feeds.iterator){ meshmb_activity_close(r->u.meshmb_feeds.iterator); r->u.meshmb_feeds.iterator = NULL; } close_session(r->u.meshmb_feeds.session); } static int restful_meshmb_feedlist(httpd_request *r, const char *remainder) { if (*remainder) return 404; struct meshmb_session *session = open_session(&r->bid); if (!session){ http_request_simple_response(&r->http, 500, "TODO, detailed response"); return 500; } assert(r->finalise_union == NULL); r->finalise_union = feedlist_finalise; r->trigger_rhizome_bundle_added = feedlist_on_rhizome_add; r->u.meshmb_feeds.phase = LIST_HEADER; r->u.meshmb_feeds.session = session; r->u.meshmb_feeds.generation = meshmb_flush(session->feeds); bzero(&r->u.meshmb_feeds.bundle_id, sizeof r->u.meshmb_feeds.bundle_id); http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshmb_feedlist_json_content); return 1; } static void activity_test_end(httpd_request *r){ struct meshmb_activity_iterator *iterator = r->u.meshmb_feeds.iterator; if (iterator){ if (iterator->ack_reader.record_end_offset > r->u.meshmb_feeds.end_ack_offset || (iterator->ack_reader.record_end_offset == r->u.meshmb_feeds.end_ack_offset && iterator->msg_reader.record_end_offset > r->u.meshmb_feeds.end_msg_offset)){ r->u.meshmb_feeds.phase = LIST_ROWS; DEBUGF(meshmb,"Iterator @ack %"PRIu64", @msg %"PRIu64, r->u.meshmb_feeds.current_ack_offset, r->u.meshmb_feeds.current_msg_offset); return; } } r->u.meshmb_feeds.phase = LIST_END; } static void activity_next(httpd_request *r){ struct meshmb_activity_iterator *iterator = r->u.meshmb_feeds.iterator; while(iterator && meshmb_activity_next(iterator)==1){ switch(iterator->msg_reader.type){ case MESSAGE_BLOCK_TYPE_MESSAGE: r->u.meshmb_feeds.current_ack_offset = iterator->ack_reader.record_end_offset; r->u.meshmb_feeds.current_msg_offset = iterator->msg_reader.record_end_offset; activity_test_end(r); return; } } r->u.meshmb_feeds.phase = LIST_END; } static void activity_iterator_open(httpd_request *r){ int gen = meshmb_flush(r->u.meshmb_feeds.session->feeds); if (gen>=0 && gen != r->u.meshmb_feeds.generation){ if (r->u.meshmb_feeds.iterator){ meshmb_activity_close(r->u.meshmb_feeds.iterator); r->u.meshmb_feeds.iterator = NULL; } r->u.meshmb_feeds.generation = gen; } if (r->u.meshmb_feeds.iterator) return; struct meshmb_activity_iterator *iterator = meshmb_activity_open(r->u.meshmb_feeds.session->feeds); if (iterator){ r->u.meshmb_feeds.iterator = iterator; meshmb_activity_seek(iterator, r->u.meshmb_feeds.current_ack_offset, r->u.meshmb_feeds.current_msg_offset); if (r->u.meshmb_feeds.start_ack_offset == 0) r->u.meshmb_feeds.start_ack_offset = iterator->ack_reader.read.length; r->u.meshmb_feeds.current_ack_offset = iterator->ack_reader.record_end_offset; r->u.meshmb_feeds.current_msg_offset = iterator->msg_reader.record_end_offset; if (iterator->msg_reader.type != MESSAGE_BLOCK_TYPE_MESSAGE){ activity_next(r); return; } } activity_test_end(r); } static int restful_meshmb_activity_json_content_chunk(struct http_request *hr, strbuf b) { httpd_request *r = (httpd_request *) hr; const char *headers[] = { ".token", "ack_offset", "id", "author", "name", "timestamp", "offset", "message" }; DEBUGF(meshmb, "Phase %d", r->u.meshmb_feeds.phase); switch (r->u.meshmb_feeds.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)) activity_iterator_open(r); return 1; case LIST_ROWS: case LIST_FIRST: { activity_iterator_open(r); if (r->u.meshmb_feeds.phase == LIST_END) return 1; struct meshmb_activity_iterator *iterator = r->u.meshmb_feeds.iterator; if (r->u.meshmb_feeds.rowcount!=0) strbuf_putc(b, ','); strbuf_puts(b, "\n[\""); activity_token_to_str(b, r); strbuf_puts(b, "\","); strbuf_sprintf(b, "%"PRIu64, iterator->ack_reader.record_end_offset); strbuf_puts(b, ","); strbuf_json_hex(b, iterator->msg_reader.bundle_id.binary, sizeof iterator->msg_reader.bundle_id.binary); strbuf_puts(b, ","); strbuf_json_hex(b, iterator->msg_reader.author.binary, sizeof iterator->msg_reader.author.binary); strbuf_puts(b, ","); strbuf_json_string(b, iterator->msg_reader.name); strbuf_puts(b, ","); strbuf_sprintf(b, "%d", iterator->ack_timestamp); strbuf_puts(b, ","); strbuf_sprintf(b, "%"PRIu64, iterator->msg_reader.record_end_offset); strbuf_puts(b, ","); strbuf_json_string(b, (const char *)iterator->msg_reader.record); strbuf_puts(b, "]"); if (!strbuf_overrun(b)){ r->u.meshmb_feeds.rowcount++; DEBUGF(meshmb, "Wrote record %u (%s)", r->u.meshmb_feeds.rowcount, (const char *)iterator->msg_reader.record); activity_next(r); } return 1; } case LIST_END: { time_ms_t now; // during a new-since request, we don't really want to end until the time limit has elapsed if (r->u.meshmb_feeds.end_time && (now = gettime_ms()) < r->u.meshmb_feeds.end_time) { // where we started this time, will become where we end on the next pass; r->u.meshmb_feeds.end_ack_offset = r->u.meshmb_feeds.start_ack_offset; r->u.meshmb_feeds.end_msg_offset = 0; r->u.meshmb_feeds.phase = LIST_ROWS; struct meshmb_activity_iterator *iterator = r->u.meshmb_feeds.iterator; if (iterator && iterator->ack_reader.read.length > r->u.meshmb_feeds.start_ack_offset){ DEBUGF(meshmb, "Seeking back to ack %"PRIu64", msg (0) to resume now", iterator->ack_reader.read.length); r->u.meshmb_feeds.start_ack_offset = iterator->ack_reader.read.length; meshmb_activity_seek(iterator, r->u.meshmb_feeds.start_ack_offset, 0); r->u.meshmb_feeds.current_ack_offset = iterator->ack_reader.record_end_offset; r->u.meshmb_feeds.current_msg_offset = iterator->msg_reader.record_end_offset; if (iterator->msg_reader.type != MESSAGE_BLOCK_TYPE_MESSAGE) activity_next(r); return 1; } r->u.meshmb_feeds.start_ack_offset = 0; r->u.meshmb_feeds.current_ack_offset = 0; r->u.meshmb_feeds.current_msg_offset = 0; if (iterator) meshmb_activity_close(iterator); r->u.meshmb_feeds.iterator = NULL; http_request_pause_response(&r->http, r->u.meshmb_feeds.end_time); return 0; } } strbuf_puts(b, "\n]\n}\n"); if (!strbuf_overrun(b)) r->u.plylist.phase = LIST_DONE; // fall through... case LIST_DONE: return 0; } } static int restful_meshmb_activity_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_meshmb_activity_json_content_chunk); } static int restful_meshmb_activity(httpd_request *r, const char *remainder) { if (*remainder) return 404; struct meshmb_session *session = open_session(&r->bid); if (!session){ http_request_simple_response(&r->http, 500, "TODO, detailed response"); return 500; } assert(r->finalise_union == NULL); r->finalise_union = feedlist_finalise; r->trigger_rhizome_bundle_added = feedlist_on_rhizome_add; r->u.meshmb_feeds.phase = LIST_HEADER; r->u.meshmb_feeds.session = session; r->u.meshmb_feeds.iterator = NULL; r->u.meshmb_feeds.generation = meshmb_flush(session->feeds); r->u.meshmb_feeds.current_ack_offset = 0; r->u.meshmb_feeds.current_msg_offset = 0; bzero(&r->u.meshmb_feeds.bundle_id, sizeof r->u.meshmb_feeds.bundle_id); http_request_response_generated(&r->http, 200, CONTENT_TYPE_JSON, restful_meshmb_activity_json_content); return 1; } DECLARE_HANDLER("/restful/meshmb/", restful_meshmb_); static int restful_meshmb_(httpd_request *r, const char *remainder) { r->http.response.header.content_type = CONTENT_TYPE_JSON; if (!is_rhizome_http_enabled()) return 404; int ret = authorize_restful(&r->http); if (ret) return ret; const char *verb = HTTP_VERB_GET; HTTP_HANDLER *handler = NULL; const char *end; if (strn_to_identity_t(&r->bid, remainder, &end) != -1) { remainder = end; if (strcmp(remainder, "/sendmessage") == 0) { handler = restful_meshmb_send; verb = HTTP_VERB_POST; remainder = ""; } else if (strcmp(remainder, "/messagelist.json") == 0) { handler = restful_meshmb_list; remainder = ""; r->ui64 = 0; } else if (strcmp(remainder, "/feedlist.json") == 0) { handler = restful_meshmb_feedlist; remainder = ""; r->ui64 = 0; } else if (strcmp(remainder, "/activity.json") == 0) { handler = restful_meshmb_activity; remainder = ""; r->u.meshmb_feeds.end_ack_offset = 0; r->u.meshmb_feeds.end_msg_offset = 0; r->u.meshmb_feeds.end_time = 0; } else if ( str_startswith(remainder, "/activity/", &end) && strn_to_activity_token(end, r, &end) && strcmp(end, "activity.json") == 0) { r->u.meshmb_feeds.end_time = gettime_ms() + config.api.restful.newsince_timeout * 1000; handler = restful_meshmb_activity; remainder = ""; } else if ( str_startswith(remainder, "/newsince/", &end) && strn_to_position_token(end, &r->ui64, &end) && strcmp(end, "messagelist.json") == 0) { handler = restful_meshmb_newsince_list; remainder = ""; } else if(str_startswith(remainder, "/follow/", &end) && strn_to_identity_t(&r->u.meshmb_feeds.bundle_id, end, &end) != -1) { handler = restful_meshmb_follow; verb = HTTP_VERB_POST; remainder = ""; } else if(str_startswith(remainder, "/ignore/", &end) && strn_to_identity_t(&r->u.meshmb_feeds.bundle_id, end, &end) != -1) { handler = restful_meshmb_ignore; verb = HTTP_VERB_POST; remainder = ""; } /* } else if(strcmp(remainder, "/find.json") == 0) { handler = restful_meshmb_find; remainder = ""; } else if ( str_startswith(remainder, "/newsince/", &end) { && strn_to_find_token(end, &r->ui64, &end) && strcmp(end, "find.json") == 0) { handler = restful_meshmb_newsince_find; remainder = ""; */ } if (handler == NULL) return 404; if (r->http.verb != verb) return 405; return handler(r, remainder); }