serval-dna/rhizome_sync.c

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/*
Copyright (C) 2010-2012 Serval Project Inc.
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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 "debug.h"
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#include "conf.h"
#include "route_link.h"
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#define MSG_TYPE_BARS 0
#define MSG_TYPE_REQ 1
#define MAX_TRIES 10
#define CACHE_BARS 60
#define MAX_OLD_BARS 40
#define BARS_PER_RESPONSE ((int)400/RHIZOME_BAR_BYTES)
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#define HEAD_FLAG INT64_MAX
struct bar_entry
{
rhizome_bar_t bar;
unsigned tries;
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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;
uint32_t bars_seen;
uint32_t bars_skipped;
time_ms_t start_time;
time_ms_t completed;
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time_ms_t next_request;
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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;
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// how many bars are we interested in?
int bar_count;
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};
static uint64_t max_token=0;
DEFINE_ALARM(rhizome_sync_announce);
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 %u BARs [%"PRId64" to %"PRId64" of %"PRId64"], %d interesting, %d skipped<br>",
state->bars_seen,
state->sync_start,
state->sync_end,
state->highest_seen,
state->bar_count,
state->bars_skipped);
}
static int sync_status(void **record, void *UNUSED(context))
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{
struct subscriber *subscriber = *record;
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if (!subscriber->sync_state)
return 0;
struct rhizome_sync *state=subscriber->sync_state;
DEBUGF(rhizome_sync, "%s seen %u BARs [%"PRId64" to %"PRId64" of %"PRId64"], %d interesting, %d skipped",
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alloca_tohex_sid_t(subscriber->sid),
state->bars_seen,
state->sync_start,
state->sync_end,
state->highest_seen,
state->bar_count,
state->bars_skipped);
return 0;
}
void rhizome_sync_status()
{
enum_subscribers(NULL, sync_status, NULL);
}
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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 = get_my_subscriber(1);
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();
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ob_append_byte(b, MSG_TYPE_REQ);
ob_append_byte(b, forwards);
ob_append_packed_ui64(b, token);
DEBUGF(rhizome_sync, "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);
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ob_free(b);
}
static void rhizome_sync_send_requests(struct subscriber *subscriber, struct rhizome_sync *state)
{
int i, requests=0;
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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=state->bar_count -1;i>=0;i--){
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if (state->bars[i].next_request > now)
continue;
unsigned char *prefix = rhizome_bar_prefix(&state->bars[i].bar);
if (rhizome_ignore_manifest_check(prefix, RHIZOME_BAR_PREFIX_BYTES))
continue;
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// do we have free space now in the appropriate fetch queue?
unsigned char log2_size = rhizome_bar_log_size(&state->bars[i].bar);
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if (log2_size!=0xFF && rhizome_fetch_has_queue_space(log2_size)!=1)
continue;
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if (rhizome_fetch_bar_queued(&state->bars[i].bar)){
state->bars[i].next_request = now+2000;
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continue;
}
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if (!payload){
header.source = get_my_subscriber(1);
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);
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}
if (ob_remaining(payload)<RHIZOME_BAR_BYTES)
break;
DEBUGF(rhizome_sync, "Requesting manifest for BAR %s", alloca_tohex_rhizome_bar_t(&state->bars[i].bar));
ob_append_bytes(payload, state->bars[i].bar.binary, RHIZOME_BAR_BYTES);
state->bars[i].tries--;
state->bars[i].next_request = now+5000;
if (!state->bars[i].tries){
// remove this BAR and shift the last BAR down to this position if required.
DEBUGF(rhizome_sync, "Giving up on fetching BAR %s", alloca_tohex_rhizome_bar_t(&state->bars[i].bar));
state->bar_count --;
if (i<state->bar_count)
state->bars[i] = state->bars[state->bar_count];
state->bars_skipped++;
if (state->bar_count==0){
free(state->bars);
state->bars=NULL;
}
}
requests++;
if (requests>=BARS_PER_RESPONSE)
break;
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}
if (payload){
ob_flip(payload);
overlay_send_frame(&header, payload);
ob_free(payload);
}
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// send request for more bars if we have room to cache them
if (state->bar_count >= CACHE_BARS)
return;
if (state->next_request<=now){
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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);
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}else if(!state->sync_complete){
state->sync_complete = 1;
state->completed = gettime_ms();
DEBUGF(rhizome_sync, "BAR sync with %s complete", alloca_tohex_sid_t(subscriber->sid));
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}
state->next_request = now+5000;
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}
}
static int sync_bundle_inserted(void **record, void *context)
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{
struct subscriber *subscriber = *record;
const rhizome_bar_t *bar = context;
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if (!subscriber->sync_state)
return 0;
const unsigned char *id = rhizome_bar_prefix(bar);
uint64_t version = rhizome_bar_version(bar);
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struct rhizome_sync *state = subscriber->sync_state;
int i;
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for (i=state->bar_count -1;i>=0;i--){
rhizome_bar_t *this_bar = &state->bars[i].bar;
unsigned char *this_id = rhizome_bar_prefix(this_bar);
uint64_t this_version = rhizome_bar_version(this_bar);
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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.
DEBUGF(rhizome_sync, "Removing BAR %s from queue", alloca_tohex_rhizome_bar_t(this_bar));
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state->bar_count --;
if (i<state->bar_count)
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state->bars[i] = state->bars[state->bar_count];
if (state->bar_count==0){
free(state->bars);
state->bars=NULL;
}
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}
}
return 0;
}
static void annouce_cli_bundle_add(uint64_t row_id)
{
if (row_id<=max_token)
return;
if (max_token!=0){
sqlite_retry_state retry = SQLITE_RETRY_STATE_DEFAULT;
sqlite3_stmt *statement = sqlite_prepare_bind(&retry,
"SELECT manifest FROM manifests WHERE rowid > ? AND rowid <= ? ORDER BY rowid ASC;",
INT64, max_token, INT64, row_id, END);
while (sqlite_step_retry(&retry, statement) == SQLITE_ROW) {
const void *blob = sqlite3_column_blob(statement, 0);
size_t blob_length = sqlite3_column_bytes(statement, 0);
rhizome_manifest *m = rhizome_new_manifest();
if (m) {
memcpy(m->manifestdata, blob, blob_length);
m->manifest_all_bytes = blob_length;
if ( rhizome_manifest_parse(m) != -1
&& rhizome_manifest_validate(m)
&& rhizome_manifest_verify(m)
) {
assert(m->finalised);
CALL_TRIGGER(bundle_add, m);
}
rhizome_manifest_free(m);
}
}
sqlite3_finalize(statement);
}
max_token = row_id;
}
static void rhizome_sync_bundle_inserted(rhizome_manifest *m)
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{
annouce_cli_bundle_add(m->rowid - 1);
if (m->rowid > max_token)
max_token = m->rowid;
rhizome_bar_t bar;
rhizome_manifest_to_bar(m, &bar);
enum_subscribers(NULL, sync_bundle_inserted, (void *)&bar);
if (link_has_neighbours()){
struct sched_ent *alarm = &ALARM_STRUCT(rhizome_sync_announce);
time_ms_t now = gettime_ms();
if (alarm->alarm > now+50)
RESCHEDULE(alarm, now+50, now+50, TIME_MS_NEVER_WILL);
}
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}
DEFINE_TRIGGER(bundle_add, rhizome_sync_bundle_inserted);
static int sync_cache_bar(struct rhizome_sync *state, const rhizome_bar_t *bar, uint64_t token)
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{
int ret=0;
if (state->bar_count>=CACHE_BARS)
return 0;
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// check the database before adding the BAR to the list
if (token!=0 && rhizome_is_bar_interesting(bar)!=0){
if (!state->bars){
state->bars = emalloc(sizeof(struct bar_entry) * CACHE_BARS);
if (!state->bars)
return -1;
}
DEBUGF(rhizome_sync, "Remembering BAR %s", alloca_tohex_rhizome_bar_t(bar));
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state->bars[state->bar_count].bar = *bar;
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state->bars[state->bar_count].next_request = gettime_ms();
state->bars[state->bar_count].tries = MAX_TRIES;
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state->bar_count++;
ret=1;
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}
if (state->sync_end < token){
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state->sync_end = token;
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state->last_extended = gettime_ms();
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if (token!=0)
state->bars_seen++;
ret=1;
}
if (state->sync_start > token){
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state->sync_start = token;
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state->last_extended = gettime_ms();
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if (token!=0)
state->bars_seen++;
ret=1;
}
return ret;
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}
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
const rhizome_bar_t *bars[BARS_PER_RESPONSE];
uint64_t bar_tokens[BARS_PER_RESPONSE];
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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){
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bar_tokens[bar_count]=ob_get_packed_ui64(b);
bars[bar_count]=(const rhizome_bar_t *)ob_get_bytes_ptr(b, RHIZOME_BAR_BYTES);
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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 (rhizome_is_bar_none(bars[bar_count]))
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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];
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state->last_new_bundle = gettime_ms();
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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
DEBUGF(rhizome_sync, "Starting BAR sync with %s", alloca_tohex_sid_t(subscriber->sid));
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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<bar_count; i++){
int r=sync_cache_bar(state, bars[i], bar_tokens[i]);
if (r==-1)
return;
if (r==1)
added=1;
}
for (i=mid_point -1; i>=0; i--){
if (state->bar_count >= MAX_OLD_BARS)
break;
int r=sync_cache_bar(state, bars[i], bar_tokens[i]);
if (r==-1)
return;
if (r==1)
added=1;
}
DEBUGF(rhizome_sync, "Synced %"PRIu64" - %"PRIu64" with %s", state->sync_start, state->sync_end, alloca_tohex_sid_t(subscriber->sid));
if (added)
state->next_request = gettime_ms();
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}
}
static void append_response(struct overlay_buffer *b, uint64_t token, const unsigned char *bar)
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{
ob_append_packed_ui64(b, token);
if (bar)
ob_append_bytes(b, bar, RHIZOME_BAR_BYTES);
else{
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unsigned char *ptr = ob_append_space(b, RHIZOME_BAR_BYTES);
if (ptr)
bzero(ptr, RHIZOME_BAR_BYTES);
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}
}
static void sync_send_response(struct subscriber *dest, int forwards, uint64_t token, int max_count)
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{
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 = get_my_subscriber(1);
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;
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}
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) {
OUT();
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return;
}
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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);
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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 (count < max_count){
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// 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;
}
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}else
token = rowid;
}
ob_checkpoint(b);
append_response(b, rowid, bar);
if (ob_overrun(b))
ob_rewind(b);
else {
last = rowid;
count++;
}
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}
if (count >= max_count && rowid <= max_token)
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break;
}
sqlite3_finalize(statement);
if (token != HEAD_FLAG && token > max_token){
// report bundles added by cli
annouce_cli_bundle_add(token);
}
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// 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++;
}
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}
if (count){
DEBUGF(rhizome_sync, "Sending %d BARs from %"PRIu64" to %"PRIu64, count, token, last);
ob_flip(b);
overlay_send_frame(&header, b);
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}
ob_free(b);
OUT();
}
void rhizome_sync_announce(struct sched_ent *alarm)
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{
if (!is_rhizome_advertise_enabled())
return;
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int (*oldfunc)() = sqlite_set_tracefunc(is_debug_rhizome_ads);
sync_send_response(NULL, 0, HEAD_FLAG, 5);
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sqlite_set_tracefunc(oldfunc);
alarm->alarm = gettime_ms()+config.rhizome.advertise.interval;
alarm->deadline = alarm->alarm+10000;
schedule(alarm);
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}
static void neighbour_changed(struct subscriber *UNUSED(neighbour), uint8_t UNUSED(found), unsigned count)
{
struct sched_ent *alarm = &ALARM_STRUCT(rhizome_sync_announce);
if (count>0){
time_ms_t now = gettime_ms();
if (alarm->alarm == TIME_MS_NEVER_WILL)
RESCHEDULE(alarm, now+50, now+50, TIME_MS_NEVER_WILL);
}else{
RESCHEDULE(alarm, TIME_MS_NEVER_WILL, TIME_MS_NEVER_WILL, TIME_MS_NEVER_WILL);
}
}
DEFINE_TRIGGER(nbr_change, neighbour_changed);
DEFINE_BINDING(MDP_PORT_RHIZOME_SYNC, overlay_mdp_service_rhizome_sync);
static int overlay_mdp_service_rhizome_sync(struct internal_mdp_header *header, struct overlay_buffer *payload)
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{
if (!config.rhizome.enable || !rhizome_db)
return 0;
struct rhizome_sync *state = header->source->sync_state;
if (header->source->sync_version>0){
if (state){
if (state->bars)
free(state->bars);
free(state);
header->source->sync_state=NULL;
}
return 0;
}
if (!state){
state = header->source->sync_state = emalloc_zero(sizeof(struct rhizome_sync));
state->start_time=gettime_ms();
}
int type = ob_get(payload);
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switch (type){
case MSG_TYPE_BARS:
if (config.rhizome.fetch)
sync_process_bar_list(header->source, state, payload);
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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);
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}
break;
}
if (config.rhizome.fetch)
rhizome_sync_send_requests(header->source, state);
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return 0;
}