/* Copyright (C) 2010-2012 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 "rhizome.h" #include "overlay_address.h" #include "overlay_buffer.h" #include "overlay_packet.h" #include "mdp_client.h" #include "log.h" #include "conf.h" #define MSG_TYPE_BARS 0 #define MSG_TYPE_REQ 1 #define CACHE_BARS 60 #define MAX_OLD_BARS 40 #define BARS_PER_RESPONSE ((int)400/RHIZOME_BAR_BYTES) #define HEAD_FLAG INT64_MAX struct bar_entry { unsigned char bar[RHIZOME_BAR_BYTES]; time_ms_t next_request; }; struct rhizome_sync { // window of BAR's we have synced uint64_t sync_start; uint64_t sync_end; uint64_t highest_seen; unsigned char sync_complete; uint64_t bars_seen; time_ms_t start_time; time_ms_t completed; time_ms_t next_request; time_ms_t last_extended; time_ms_t last_response; time_ms_t last_new_bundle; // a short list of BAR's we are interested in from the last parsed message struct bar_entry bars[CACHE_BARS]; // how many bars are we interested in? int bar_count; }; void rhizome_sync_status_html(struct strbuf *b, struct subscriber *subscriber) { if (!subscriber->sync_state) return; struct rhizome_sync *state=subscriber->sync_state; strbuf_sprintf(b, "Seen %"PRId64" BARs [%"PRId64" to %"PRId64" of %"PRId64"], %d interesting
", state->bars_seen, state->sync_start, state->sync_end, state->highest_seen, state->bar_count); } static void rhizome_sync_request(struct subscriber *subscriber, uint64_t token, unsigned char forwards) { struct internal_mdp_header header; bzero(&header, sizeof header); header.source = my_subscriber; header.source_port = MDP_PORT_RHIZOME_SYNC; header.destination = subscriber; header.destination_port = MDP_PORT_RHIZOME_SYNC; header.qos = OQ_OPPORTUNISTIC; struct overlay_buffer *b = ob_new(); ob_append_byte(b, MSG_TYPE_REQ); ob_append_byte(b, forwards); ob_append_packed_ui64(b, token); if (config.debug.rhizome) DEBUGF("Sending request to %s for BARs from %"PRIu64" %s", alloca_tohex_sid_t(subscriber->sid), token, forwards?"forwards":"backwards"); ob_flip(b); overlay_send_frame(&header, b); ob_free(b); } static void rhizome_sync_send_requests(struct subscriber *subscriber, struct rhizome_sync *state) { int i, requests=0; time_ms_t now = gettime_ms(); // send requests for manifests that we have room to fetch struct internal_mdp_header header; bzero(&header, sizeof header); struct overlay_buffer *payload = NULL; for (i=0;i < state->bar_count;i++){ if (state->bars[i].next_request > now) continue; unsigned char *prefix = &state->bars[i].bar[RHIZOME_BAR_PREFIX_OFFSET]; if (rhizome_ignore_manifest_check(prefix, RHIZOME_BAR_PREFIX_BYTES)) continue; // do we have free space now in the appropriate fetch queue? unsigned char log2_size = state->bars[i].bar[RHIZOME_BAR_FILESIZE_OFFSET]; if (log2_size!=0xFF && rhizome_fetch_has_queue_space(log2_size)!=1) continue; uint64_t version = rhizome_bar_version(state->bars[i].bar); // are we already fetching this bundle [or later]? rhizome_manifest *m=rhizome_fetch_search(prefix, RHIZOME_BAR_PREFIX_BYTES); if (m && m->version >= version) continue; if (!payload){ header.source = my_subscriber; header.source_port = MDP_PORT_RHIZOME_RESPONSE; header.destination = subscriber; header.destination_port = MDP_PORT_RHIZOME_MANIFEST_REQUEST; header.qos = OQ_OPPORTUNISTIC; payload = ob_new(); ob_limitsize(payload, MDP_MTU); } if (ob_remaining(payload)bars[i].bar, RHIZOME_BAR_BYTES)); ob_append_bytes(payload, state->bars[i].bar, RHIZOME_BAR_BYTES); state->bars[i].next_request = now+1000; requests++; if (requests>=BARS_PER_RESPONSE) break; } if (payload){ ob_flip(payload); overlay_send_frame(&header, payload); ob_free(payload); } // send request for more bars if we have room to cache them if (state->bar_count >= CACHE_BARS) return; if (state->next_request<=now){ if (state->sync_end < state->highest_seen){ rhizome_sync_request(subscriber, state->sync_end, 1); }else if(state->sync_start >0){ if (state->bar_count < MAX_OLD_BARS) rhizome_sync_request(subscriber, state->sync_start, 0); }else if(!state->sync_complete){ state->sync_complete = 1; state->completed = gettime_ms(); if (config.debug.rhizome) DEBUGF("BAR sync with %s complete", alloca_tohex_sid_t(subscriber->sid)); } state->next_request = now+5000; } } static int sync_bundle_inserted(struct subscriber *subscriber, void *context) { const unsigned char *bar = context; if (!subscriber->sync_state) return 0; const unsigned char *id = &bar[RHIZOME_BAR_PREFIX_OFFSET]; uint64_t version = rhizome_bar_version(bar); struct rhizome_sync *state = subscriber->sync_state; int i; for (i=state->bar_count -1;i>=0;i--){ unsigned char *this_bar = state->bars[i].bar; unsigned char *this_id = &this_bar[RHIZOME_BAR_PREFIX_OFFSET]; uint64_t this_version = rhizome_bar_version(this_bar); if (memcmp(this_id, id, RHIZOME_BAR_PREFIX_BYTES)==0 && version >= this_version){ // remove this BAR and shift the last BAR down to this position if required. if (config.debug.rhizome) DEBUGF("Removing BAR %s from queue", alloca_tohex(this_bar, RHIZOME_BAR_BYTES)); state->bar_count --; if (ibar_count){ state->bars[i] = state->bars[state->bar_count]; } } } return 0; } int rhizome_sync_bundle_inserted(const unsigned char *bar) { enum_subscribers(NULL, sync_bundle_inserted, (void *)bar); return 0; } static int sync_cache_bar(struct rhizome_sync *state, unsigned char *bar, uint64_t token) { int ret=0; if (state->bar_count>=CACHE_BARS) return 0; // check the database before adding the BAR to the list if (token!=0 && rhizome_is_bar_interesting(bar)!=0){ bcopy(bar, state->bars[state->bar_count].bar, RHIZOME_BAR_BYTES); state->bars[state->bar_count].next_request = gettime_ms(); state->bar_count++; ret=1; } if (state->sync_end < token){ state->sync_end = token; state->last_extended = gettime_ms(); if (token!=0) state->bars_seen++; ret=1; } if (state->sync_start > token){ state->sync_start = token; state->last_extended = gettime_ms(); if (token!=0) state->bars_seen++; ret=1; } return ret; } static void sync_process_bar_list(struct subscriber *subscriber, struct rhizome_sync *state, struct overlay_buffer *b) { // find all interesting BARs in the payload and extend our sync range unsigned char *bars[BARS_PER_RESPONSE]; uint64_t bar_tokens[BARS_PER_RESPONSE]; int bar_count = 0; int has_before=0, has_after=0; int mid_point = -1; time_ms_t now = gettime_ms(); if (now - state->start_time > (60*60*1000)){ // restart rhizome sync every hour, no matter what state it is in bzero(state, sizeof(struct rhizome_sync)); state->start_time = now; } state->last_response = now; while(ob_remaining(b)>0 && bar_count < BARS_PER_RESPONSE){ bar_tokens[bar_count]=ob_get_packed_ui64(b); bars[bar_count]=ob_get_bytes_ptr(b, RHIZOME_BAR_BYTES); if (!bars[bar_count]) break; // allow the sender to identify the edge of the range this packet represents // even if there is no manifest that falls exactly on the boundary (eg deleted manifest or zero lower bound) if (is_all_matching(bars[bar_count], RHIZOME_BAR_BYTES, 0)) bars[bar_count]=NULL; // track the highest BAR we've seen, even if we can't sync it yet, so we know what BARs to request. if (state->highest_seen < bar_tokens[bar_count]){ state->highest_seen = bar_tokens[bar_count]; state->last_new_bundle = gettime_ms(); state->sync_complete = 0; } if (state->sync_end!=0){ if (bar_tokens[bar_count]<=state->sync_end) has_before = 1; if (bar_tokens[bar_count]>=state->sync_start) has_after = 1; // we can completely ignore BARSs we have already synced if (state->sync_end>0 && bar_tokens[bar_count] <= state->sync_end && bar_tokens[bar_count] >= state->sync_start) continue; if (has_before && has_after && mid_point == -1) mid_point = bar_count; } bar_count++; } if (bar_count>0 && has_before && has_after && mid_point == -1) mid_point = bar_count -1; if (bar_count>0 && state->sync_end == 0 && bar_tokens[0]>=bar_tokens[bar_count -1]){ // make sure we start syncing from the end if (config.debug.rhizome) DEBUGF("Starting BAR sync with %s", alloca_tohex_sid_t(subscriber->sid)); state->sync_start = state->sync_end = state->highest_seen; mid_point=0; } // ignore the BARs in this packet if it doesn't include something we already know if (bar_count>0 && mid_point>=0){ int i; // extend the set of BARs we have synced from this peer // we require the list of BARs to be either ASC or DESC and include BARs for *all* manifests in that range // TODO stop if we are taking too much CPU time. int added=0; for (i=mid_point; i=0; i--){ if (state->bar_count >= MAX_OLD_BARS) break; if (sync_cache_bar(state, bars[i], bar_tokens[i])) added=1; } if (config.debug.rhizome) DEBUGF("Synced %"PRIu64" - %"PRIu64" with %s", state->sync_start, state->sync_end, alloca_tohex_sid_t(subscriber->sid)); if (added) state->next_request = gettime_ms(); } } static void append_response(struct overlay_buffer *b, uint64_t token, const unsigned char *bar) { ob_append_packed_ui64(b, token); if (bar) ob_append_bytes(b, bar, RHIZOME_BAR_BYTES); else{ unsigned char *ptr = ob_append_space(b, RHIZOME_BAR_BYTES); if (ptr) bzero(ptr, RHIZOME_BAR_BYTES); } } static uint64_t max_token=0; static void sync_send_response(struct subscriber *dest, int forwards, uint64_t token, int max_count) { IN(); if (max_count == 0 || max_count > BARS_PER_RESPONSE) max_count = BARS_PER_RESPONSE; struct internal_mdp_header header; bzero(&header, sizeof header); header.source = my_subscriber; header.source_port = MDP_PORT_RHIZOME_SYNC; header.destination = dest; header.destination_port = MDP_PORT_RHIZOME_SYNC; header.qos = OQ_OPPORTUNISTIC; if (!dest){ header.crypt_flags = (MDP_FLAG_NO_CRYPT|MDP_FLAG_NO_SIGN); header.ttl = 1; } sqlite_retry_state retry = SQLITE_RETRY_STATE_DEFAULT; sqlite3_stmt *statement; if (forwards){ statement = sqlite_prepare(&retry, "SELECT rowid, bar FROM manifests WHERE rowid >= ? ORDER BY rowid ASC"); }else{ statement = sqlite_prepare(&retry, "SELECT rowid, bar FROM manifests WHERE rowid <= ? ORDER BY rowid DESC"); } if (!statement) return; sqlite3_bind_int64(statement, 1, token); int count=0; uint64_t last=0; struct overlay_buffer *b = ob_new(); ob_limitsize(b, MDP_MTU); ob_append_byte(b, MSG_TYPE_BARS); ob_checkpoint(b); while(sqlite_step_retry(&retry, statement)==SQLITE_ROW){ uint64_t rowid = sqlite3_column_int64(statement, 0); const unsigned char *bar = sqlite3_column_blob(statement, 1); size_t bar_size = sqlite3_column_bytes(statement, 1); if (bar_size != RHIZOME_BAR_BYTES) continue; if (rowid>max_token){ // a new bundle has been imported rhizome_sync_bundle_inserted(bar); } if (count < max_count){ // make sure we include the exact rowid that was requested, even if we just deleted / replaced the manifest if (count==0 && rowid!=token){ if (token!=HEAD_FLAG){ ob_checkpoint(b); append_response(b, token, NULL); if (ob_overrun(b)) ob_rewind(b); else { count++; last = token; } }else token = rowid; } ob_checkpoint(b); append_response(b, rowid, bar); if (ob_overrun(b)) ob_rewind(b); else { last = rowid; count++; } } if (count >= max_count && rowid <= max_token) break; } if (token != HEAD_FLAG && token > max_token) max_token = token; // send a zero lower bound if we reached the end of our manifest list if (count && count < max_count && !forwards){ ob_checkpoint(b); append_response(b, 0, NULL); if (ob_overrun(b)) ob_rewind(b); else { last = 0; count++; } } sqlite3_finalize(statement); if (count){ if (config.debug.rhizome_ads) DEBUGF("Sending %d BARs from %"PRIu64" to %"PRIu64, count, token, last); ob_flip(b); overlay_send_frame(&header, b); } ob_free(b); OUT(); } int rhizome_sync_announce() { int (*oldfunc)() = sqlite_set_tracefunc(is_debug_rhizome_ads); sync_send_response(NULL, 0, HEAD_FLAG, 5); sqlite_set_tracefunc(oldfunc); return 0; } int overlay_mdp_service_rhizome_sync(struct internal_mdp_header *header, struct overlay_buffer *payload) { struct rhizome_sync *state = header->source->sync_state; if (!state){ state = header->source->sync_state = emalloc_zero(sizeof(struct rhizome_sync)); state->start_time=gettime_ms(); } int type = ob_get(payload); switch (type){ case MSG_TYPE_BARS: sync_process_bar_list(header->source, state, payload); break; case MSG_TYPE_REQ: { int forwards = ob_get(payload); uint64_t token = ob_get_packed_ui64(payload); sync_send_response(header->source, forwards, token, 0); } break; } rhizome_sync_send_requests(header->source, state); return 0; }