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/*
* ZeroTier One - Network Virtualization Everywhere
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* Copyright ( C ) 2011 - 2019 ZeroTier , Inc . https : //www.zerotier.com/
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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 3 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
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* along with this program . If not , see < http : //www.gnu.org/licenses/>.
*
* - -
*
* You can be released from the requirements of the license by purchasing
* a commercial license . Buying such a license is mandatory as soon as you
* develop commercial closed - source software that incorporates or links
* directly against ZeroTier software without disclosing the source code
* of your own application .
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*/
# ifdef ZT_CONTROLLER_USE_LIBPQ
# include "PostgreSQL.hpp"
# include "EmbeddedNetworkController.hpp"
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# include "RabbitMQ.hpp"
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# include "../version.h"
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# include <libpq-fe.h>
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# include <sstream>
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# include <amqp.h>
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# include <amqp_tcp_socket.h>
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using json = nlohmann : : json ;
namespace {
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static const int DB_MINIMUM_VERSION = 5 ;
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static const char * _timestr ( )
{
time_t t = time ( 0 ) ;
char * ts = ctime ( & t ) ;
char * p = ts ;
if ( ! p )
return " " ;
while ( * p ) {
if ( * p = = ' \n ' ) {
* p = ( char ) 0 ;
break ;
}
+ + p ;
}
return ts ;
}
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std : : string join ( const std : : vector < std : : string > & elements , const char * const separator )
{
switch ( elements . size ( ) ) {
case 0 :
return " " ;
case 1 :
return elements [ 0 ] ;
default :
std : : ostringstream os ;
std : : copy ( elements . begin ( ) , elements . end ( ) - 1 , std : : ostream_iterator < std : : string > ( os , separator ) ) ;
os < < * elements . rbegin ( ) ;
return os . str ( ) ;
}
}
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}
using namespace ZeroTier ;
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PostgreSQL : : PostgreSQL ( EmbeddedNetworkController * const nc , const Identity & myId , const char * path , int listenPort , MQConfig * mqc )
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: DB ( nc , myId , path )
, _ready ( 0 )
, _connected ( 1 )
, _run ( 1 )
, _waitNoticePrinted ( false )
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, _listenPort ( listenPort )
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, _mqc ( mqc )
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{
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_connString = std : : string ( path ) + " application_name=controller_ " + _myAddressStr ;
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// Database Schema Version Check
PGconn * conn = getPgConn ( ) ;
if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " Bad Database Connection: %s " , PQerrorMessage ( conn ) ) ;
exit ( 1 ) ;
}
PGresult * res = PQexec ( conn , " SELECT version FROM ztc_database " ) ;
if ( PQresultStatus ( res ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Error determining database version " ) ;
exit ( 1 ) ;
}
if ( PQntuples ( res ) ! = 1 ) {
fprintf ( stderr , " Invalid number of db version tuples returned. " ) ;
exit ( 1 ) ;
}
int dbVersion = std : : stoi ( PQgetvalue ( res , 0 , 0 ) ) ;
if ( dbVersion < DB_MINIMUM_VERSION ) {
fprintf ( stderr , " Central database schema version too low. This controller version requires a minimum schema version of %d. Please upgrade your Central instance " , DB_MINIMUM_VERSION ) ;
exit ( 1 ) ;
}
PQclear ( res ) ;
res = NULL ;
PQfinish ( conn ) ;
conn = NULL ;
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_readyLock . lock ( ) ;
_heartbeatThread = std : : thread ( & PostgreSQL : : heartbeat , this ) ;
_membersDbWatcher = std : : thread ( & PostgreSQL : : membersDbWatcher , this ) ;
_networksDbWatcher = std : : thread ( & PostgreSQL : : networksDbWatcher , this ) ;
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for ( int i = 0 ; i < ZT_CENTRAL_CONTROLLER_COMMIT_THREADS ; + + i ) {
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_commitThread [ i ] = std : : thread ( & PostgreSQL : : commitThread , this ) ;
}
_onlineNotificationThread = std : : thread ( & PostgreSQL : : onlineNotificationThread , this ) ;
}
PostgreSQL : : ~ PostgreSQL ( )
{
_run = 0 ;
std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 100 ) ) ;
_heartbeatThread . join ( ) ;
_membersDbWatcher . join ( ) ;
_networksDbWatcher . join ( ) ;
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for ( int i = 0 ; i < ZT_CENTRAL_CONTROLLER_COMMIT_THREADS ; + + i ) {
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_commitThread [ i ] . join ( ) ;
}
_onlineNotificationThread . join ( ) ;
}
bool PostgreSQL : : waitForReady ( )
{
while ( _ready < 2 ) {
if ( ! _waitNoticePrinted ) {
_waitNoticePrinted = true ;
fprintf ( stderr , " [%s] NOTICE: %.10llx controller PostgreSQL waiting for initial data download... " ZT_EOL_S , : : _timestr ( ) , ( unsigned long long ) _myAddress . toInt ( ) ) ;
}
_readyLock . lock ( ) ;
_readyLock . unlock ( ) ;
}
return true ;
}
bool PostgreSQL : : isReady ( )
{
return ( ( _ready = = 2 ) & & ( _connected ) ) ;
}
void PostgreSQL : : save ( nlohmann : : json * orig , nlohmann : : json & record )
{
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try {
if ( ! record . is_object ( ) ) {
return ;
}
waitForReady ( ) ;
if ( orig ) {
if ( * orig ! = record ) {
record [ " revision " ] = OSUtils : : jsonInt ( record [ " revision " ] , 0ULL ) + 1 ;
_commitQueue . post ( new nlohmann : : json ( record ) ) ;
}
} else {
record [ " revision " ] = 1 ;
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_commitQueue . post ( new nlohmann : : json ( record ) ) ;
}
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} catch ( std : : exception & e ) {
fprintf ( stderr , " Error on PostgreSQL::save: %s \n " , e . what ( ) ) ;
} catch ( . . . ) {
fprintf ( stderr , " Unknown error on PostgreSQL::save \n " ) ;
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}
}
void PostgreSQL : : eraseNetwork ( const uint64_t networkId )
{
char tmp2 [ 24 ] ;
waitForReady ( ) ;
Utils : : hex ( networkId , tmp2 ) ;
json * tmp = new json ( ) ;
( * tmp ) [ " id " ] = tmp2 ;
( * tmp ) [ " objtype " ] = " _delete_network " ;
_commitQueue . post ( tmp ) ;
}
void PostgreSQL : : eraseMember ( const uint64_t networkId , const uint64_t memberId )
{
char tmp2 [ 24 ] ;
json * tmp = new json ( ) ;
Utils : : hex ( networkId , tmp2 ) ;
( * tmp ) [ " nwid " ] = tmp2 ;
Utils : : hex ( memberId , tmp2 ) ;
( * tmp ) [ " id " ] = tmp2 ;
( * tmp ) [ " objtype " ] = " _delete_member " ;
_commitQueue . post ( tmp ) ;
}
void PostgreSQL : : nodeIsOnline ( const uint64_t networkId , const uint64_t memberId , const InetAddress & physicalAddress )
{
std : : lock_guard < std : : mutex > l ( _lastOnline_l ) ;
std : : pair < int64_t , InetAddress > & i = _lastOnline [ std : : pair < uint64_t , uint64_t > ( networkId , memberId ) ] ;
i . first = OSUtils : : now ( ) ;
if ( physicalAddress ) {
i . second = physicalAddress ;
}
}
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void PostgreSQL : : initializeNetworks ( PGconn * conn )
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{
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try {
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if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " Bad Database Connection: %s " , PQerrorMessage ( conn ) ) ;
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exit ( 1 ) ;
}
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const char * params [ 1 ] = {
_myAddressStr . c_str ( )
} ;
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PGresult * res = PQexecParams ( conn , " SELECT id, EXTRACT(EPOCH FROM creation_time AT TIME ZONE 'UTC')*1000, capabilities, "
" enable_broadcast, EXTRACT(EPOCH FROM last_modified AT TIME ZONE 'UTC')*1000, mtu, multicast_limit, name, private, remote_trace_level, "
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" remote_trace_target, revision, rules, tags, v4_assign_mode, v6_assign_mode FROM ztc_network "
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" WHERE deleted = false AND controller_id = $1 " ,
1 ,
NULL ,
params ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Networks Initialization Failed: %s " , PQerrorMessage ( conn ) ) ;
PQclear ( res ) ;
exit ( 1 ) ;
}
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int numRows = PQntuples ( res ) ;
for ( int i = 0 ; i < numRows ; + + i ) {
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json empty ;
json config ;
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const char * nwidparam [ 1 ] = {
PQgetvalue ( res , i , 0 )
} ;
config [ " id " ] = PQgetvalue ( res , i , 0 ) ;
config [ " nwid " ] = PQgetvalue ( res , i , 0 ) ;
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try {
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config [ " creationTime " ] = std : : stoull ( PQgetvalue ( res , i , 1 ) ) ;
} catch ( std : : exception & e ) {
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config [ " creationTime " ] = 0ULL ;
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//fprintf(stderr, "Error converting creation time: %s\n", PQgetvalue(res, i, 1));
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}
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config [ " capabilities " ] = json : : parse ( PQgetvalue ( res , i , 2 ) ) ;
config [ " enableBroadcast " ] = ( strcmp ( PQgetvalue ( res , i , 3 ) , " t " ) = = 0 ) ;
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try {
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config [ " lastModified " ] = std : : stoull ( PQgetvalue ( res , i , 4 ) ) ;
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} catch ( std : : exception & e ) {
config [ " lastModified " ] = 0ULL ;
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//fprintf(stderr, "Error converting last modified: %s\n", PQgetvalue(res, i, 4));
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}
try {
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config [ " mtu " ] = std : : stoi ( PQgetvalue ( res , i , 5 ) ) ;
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} catch ( std : : exception & e ) {
config [ " mtu " ] = 2800 ;
}
try {
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config [ " multicastLimit " ] = std : : stoi ( PQgetvalue ( res , i , 6 ) ) ;
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} catch ( std : : exception & e ) {
config [ " multicastLimit " ] = 64 ;
}
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config [ " name " ] = PQgetvalue ( res , i , 7 ) ;
config [ " private " ] = ( strcmp ( PQgetvalue ( res , i , 8 ) , " t " ) = = 0 ) ;
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try {
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config [ " remoteTraceLevel " ] = std : : stoi ( PQgetvalue ( res , i , 9 ) ) ;
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} catch ( std : : exception & e ) {
config [ " remoteTraceLevel " ] = 0 ;
}
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config [ " remoteTraceTarget " ] = PQgetvalue ( res , i , 10 ) ;
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try {
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config [ " revision " ] = std : : stoull ( PQgetvalue ( res , i , 11 ) ) ;
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} catch ( std : : exception & e ) {
config [ " revision " ] = 0ULL ;
//fprintf(stderr, "Error converting revision: %s\n", PQgetvalue(res, i, 11));
}
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config [ " rules " ] = json : : parse ( PQgetvalue ( res , i , 12 ) ) ;
config [ " tags " ] = json : : parse ( PQgetvalue ( res , i , 13 ) ) ;
config [ " v4AssignMode " ] = json : : parse ( PQgetvalue ( res , i , 14 ) ) ;
config [ " v6AssignMode " ] = json : : parse ( PQgetvalue ( res , i , 15 ) ) ;
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config [ " objtype " ] = " network " ;
config [ " ipAssignmentPools " ] = json : : array ( ) ;
config [ " routes " ] = json : : array ( ) ;
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PGresult * r2 = PQexecParams ( conn ,
" SELECT host(ip_range_start), host(ip_range_end) FROM ztc_network_assignment_pool WHERE network_id = $1 " ,
1 ,
NULL ,
nwidparam ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( r2 ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " ERROR: Error retreiving IP pools for network: %s \n " , PQresultErrorMessage ( r2 ) ) ;
PQclear ( r2 ) ;
PQclear ( res ) ;
exit ( 1 ) ;
}
int n = PQntuples ( r2 ) ;
for ( int j = 0 ; j < n ; + + j ) {
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json ip ;
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ip [ " ipRangeStart " ] = PQgetvalue ( r2 , j , 0 ) ;
ip [ " ipRangeEnd " ] = PQgetvalue ( r2 , j , 1 ) ;
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config [ " ipAssignmentPools " ] . push_back ( ip ) ;
}
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PQclear ( r2 ) ;
r2 = PQexecParams ( conn ,
" SELECT host(address), bits, host(via) FROM ztc_network_route WHERE network_id = $1 " ,
1 ,
NULL ,
nwidparam ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( r2 ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " ERROR: Error retreiving routes for network: %s \n " , PQresultErrorMessage ( r2 ) ) ;
PQclear ( r2 ) ;
PQclear ( res ) ;
exit ( 1 ) ;
}
n = PQntuples ( r2 ) ;
for ( int j = 0 ; j < n ; + + j ) {
std : : string addr = PQgetvalue ( r2 , j , 0 ) ;
std : : string bits = PQgetvalue ( r2 , j , 1 ) ;
std : : string via = PQgetvalue ( r2 , j , 2 ) ;
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json route ;
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route [ " target " ] = addr + " / " + bits ;
if ( via = = " NULL " ) {
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route [ " via " ] = nullptr ;
} else {
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route [ " via " ] = via ;
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}
config [ " routes " ] . push_back ( route ) ;
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}
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PQclear ( r2 ) ;
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_networkChanged ( empty , config , false ) ;
}
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PQclear ( res ) ;
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if ( + + this - > _ready = = 2 ) {
if ( _waitNoticePrinted ) {
fprintf ( stderr , " [%s] NOTICE: %.10llx controller PostgreSQL data download complete. " ZT_EOL_S , _timestr ( ) , ( unsigned long long ) _myAddress . toInt ( ) ) ;
}
_readyLock . unlock ( ) ;
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}
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} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error initializing networks: %s " , e . what ( ) ) ;
exit ( - 1 ) ;
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}
}
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void PostgreSQL : : initializeMembers ( PGconn * conn )
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{
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try {
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if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " Bad Database Connection: %s " , PQerrorMessage ( conn ) ) ;
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exit ( 1 ) ;
}
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const char * params [ 1 ] = {
_myAddressStr . c_str ( )
} ;
PGresult * res = PQexecParams ( conn ,
" SELECT m.id, m.network_id, m.active_bridge, m.authorized, m.capabilities, EXTRACT(EPOCH FROM m.creation_time AT TIME ZONE 'UTC')*1000, m.identity, "
" EXTRACT(EPOCH FROM m.last_authorized_time AT TIME ZONE 'UTC')*1000, "
" EXTRACT(EPOCH FROM m.last_deauthorized_time AT TIME ZONE 'UTC')*1000, "
" m.remote_trace_level, m.remote_trace_target, m.tags, m.v_major, m.v_minor, m.v_rev, m.v_proto, "
" m.no_auto_assign_ips, m.revision "
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" FROM ztc_member m "
" INNER JOIN ztc_network n "
" ON n.id = m.network_id "
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" WHERE n.controller_id = $1 AND m.deleted = false " ,
1 ,
NULL ,
params ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Member Initialization Failed: %s " , PQerrorMessage ( conn ) ) ;
PQclear ( res ) ;
exit ( 1 ) ;
}
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int numRows = PQntuples ( res ) ;
for ( int i = 0 ; i < numRows ; + + i ) {
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json empty ;
json config ;
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std : : string memberId ( PQgetvalue ( res , i , 0 ) ) ;
std : : string networkId ( PQgetvalue ( res , i , 1 ) ) ;
std : : string ctime = PQgetvalue ( res , i , 5 ) ;
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config [ " id " ] = memberId ;
config [ " nwid " ] = networkId ;
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config [ " activeBridge " ] = ( strcmp ( PQgetvalue ( res , i , 2 ) , " t " ) = = 0 ) ;
config [ " authorized " ] = ( strcmp ( PQgetvalue ( res , i , 3 ) , " t " ) = = 0 ) ;
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try {
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config [ " capabilities " ] = json : : parse ( PQgetvalue ( res , i , 4 ) ) ;
} catch ( std : : exception & e ) {
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config [ " capabilities " ] = json : : array ( ) ;
}
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try {
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config [ " creationTime " ] = std : : stoull ( PQgetvalue ( res , i , 5 ) ) ;
} catch ( std : : exception & e ) {
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config [ " creationTime " ] = 0ULL ;
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//fprintf(stderr, "Error upding creation time (member): %s\n", PQgetvalue(res, i, 5));
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}
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config [ " identity " ] = PQgetvalue ( res , i , 6 ) ;
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try {
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config [ " lastAuthorizedTime " ] = std : : stoull ( PQgetvalue ( res , i , 7 ) ) ;
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} catch ( std : : exception & e ) {
config [ " lastAuthorizedTime " ] = 0ULL ;
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//fprintf(stderr, "Error updating last auth time (member): %s\n", PQgetvalue(res, i, 7));
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}
try {
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config [ " lastDeauthorizedTime " ] = std : : stoull ( PQgetvalue ( res , i , 8 ) ) ;
} catch ( std : : exception & e ) {
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config [ " lastDeauthorizedTime " ] = 0ULL ;
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//fprintf(stderr, "Error updating last deauth time (member): %s\n", PQgetvalue(res, i, 8));
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}
try {
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config [ " remoteTraceLevel " ] = std : : stoi ( PQgetvalue ( res , i , 9 ) ) ;
} catch ( std : : exception & e ) {
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config [ " remoteTraceLevel " ] = 0 ;
}
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config [ " remoteTraceTarget " ] = PQgetvalue ( res , i , 10 ) ;
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try {
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config [ " tags " ] = json : : parse ( PQgetvalue ( res , i , 11 ) ) ;
} catch ( std : : exception & e ) {
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config [ " tags " ] = json : : array ( ) ;
}
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try {
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config [ " vMajor " ] = std : : stoi ( PQgetvalue ( res , i , 12 ) ) ;
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} catch ( std : : exception & e ) {
config [ " vMajor " ] = - 1 ;
}
try {
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config [ " vMinor " ] = std : : stoi ( PQgetvalue ( res , i , 13 ) ) ;
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} catch ( std : : exception & e ) {
config [ " vMinor " ] = - 1 ;
}
try {
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config [ " vRev " ] = std : : stoi ( PQgetvalue ( res , i , 14 ) ) ;
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} catch ( std : : exception & e ) {
config [ " vRev " ] = - 1 ;
}
try {
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config [ " vProto " ] = std : : stoi ( PQgetvalue ( res , i , 15 ) ) ;
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} catch ( std : : exception & e ) {
config [ " vProto " ] = - 1 ;
}
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config [ " noAutoAssignIps " ] = ( strcmp ( PQgetvalue ( res , i , 16 ) , " t " ) = = 0 ) ;
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try {
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config [ " revision " ] = std : : stoull ( PQgetvalue ( res , i , 17 ) ) ;
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} catch ( std : : exception & e ) {
config [ " revision " ] = 0ULL ;
//fprintf(stderr, "Error updating revision (member): %s\n", PQgetvalue(res, i, 17));
}
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config [ " objtype " ] = " member " ;
config [ " ipAssignments " ] = json : : array ( ) ;
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const char * p2 [ 2 ] = {
memberId . c_str ( ) ,
networkId . c_str ( )
} ;
PGresult * r2 = PQexecParams ( conn ,
" SELECT DISTINCT address FROM ztc_member_ip_assignment WHERE member_id = $1 AND network_id = $2 " ,
2 ,
NULL ,
p2 ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( r2 ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Member Initialization Failed: %s " , PQerrorMessage ( conn ) ) ;
PQclear ( r2 ) ;
PQclear ( res ) ;
exit ( 1 ) ;
}
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int n = PQntuples ( r2 ) ;
for ( int j = 0 ; j < n ; + + j ) {
config [ " ipAssignments " ] . push_back ( PQgetvalue ( r2 , j , 0 ) ) ;
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}
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_memberChanged ( empty , config , false ) ;
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}
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PQclear ( res ) ;
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if ( + + this - > _ready = = 2 ) {
if ( _waitNoticePrinted ) {
fprintf ( stderr , " [%s] NOTICE: %.10llx controller PostgreSQL data download complete. " ZT_EOL_S , _timestr ( ) , ( unsigned long long ) _myAddress . toInt ( ) ) ;
}
_readyLock . unlock ( ) ;
}
} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error initializing members: %s \n " , e . what ( ) ) ;
exit ( - 1 ) ;
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}
}
void PostgreSQL : : heartbeat ( )
{
char publicId [ 1024 ] ;
char hostnameTmp [ 1024 ] ;
_myId . toString ( false , publicId ) ;
if ( gethostname ( hostnameTmp , sizeof ( hostnameTmp ) ) ! = 0 ) {
hostnameTmp [ 0 ] = ( char ) 0 ;
} else {
for ( int i = 0 ; i < sizeof ( hostnameTmp ) ; + + i ) {
if ( ( hostnameTmp [ i ] = = ' . ' ) | | ( hostnameTmp [ i ] = = 0 ) ) {
hostnameTmp [ i ] = ( char ) 0 ;
break ;
}
}
}
const char * controllerId = _myAddressStr . c_str ( ) ;
const char * publicIdentity = publicId ;
const char * hostname = hostnameTmp ;
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PGconn * conn = getPgConn ( ) ;
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
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exit ( 1 ) ;
}
while ( _run = = 1 ) {
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if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
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fprintf ( stderr , " %s heartbeat thread lost connection to Database \n " , _myAddressStr . c_str ( ) ) ;
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PQfinish ( conn ) ;
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exit ( 6 ) ;
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}
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if ( conn ) {
std : : string major = std : : to_string ( ZEROTIER_ONE_VERSION_MAJOR ) ;
std : : string minor = std : : to_string ( ZEROTIER_ONE_VERSION_MINOR ) ;
std : : string rev = std : : to_string ( ZEROTIER_ONE_VERSION_REVISION ) ;
std : : string build = std : : to_string ( ZEROTIER_ONE_VERSION_BUILD ) ;
std : : string now = std : : to_string ( OSUtils : : now ( ) ) ;
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std : : string host_port = std : : to_string ( _listenPort ) ;
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std : : string use_rabbitmq = ( _mqc ! = NULL ) ? " true " : " false " ;
const char * values [ 10 ] = {
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controllerId ,
hostname ,
now . c_str ( ) ,
publicIdentity ,
major . c_str ( ) ,
minor . c_str ( ) ,
rev . c_str ( ) ,
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build . c_str ( ) ,
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host_port . c_str ( ) ,
use_rabbitmq . c_str ( )
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} ;
PGresult * res = PQexecParams ( conn ,
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" INSERT INTO ztc_controller (id, cluster_host, last_alive, public_identity, v_major, v_minor, v_rev, v_build, host_port, use_rabbitmq) "
" VALUES ($1, $2, TO_TIMESTAMP($3::double precision/1000), $4, $5, $6, $7, $8, $9, $10) "
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" ON CONFLICT (id) DO UPDATE SET cluster_host = EXCLUDED.cluster_host, last_alive = EXCLUDED.last_alive, "
" public_identity = EXCLUDED.public_identity, v_major = EXCLUDED.v_major, v_minor = EXCLUDED.v_minor, "
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" v_rev = EXCLUDED.v_rev, v_build = EXCLUDED.v_rev, host_port = EXCLUDED.host_port, "
" use_rabbitmq = EXCLUDED.use_rabbitmq " ,
10 , // number of parameters
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NULL , // oid field. ignore
values , // values for substitution
NULL , // lengths in bytes of each value
NULL , // binary?
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " Heartbeat Update Failed: %s \n " , PQresultErrorMessage ( res ) ) ;
}
PQclear ( res ) ;
}
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std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 1000 ) ) ;
}
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PQfinish ( conn ) ;
conn = NULL ;
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}
void PostgreSQL : : membersDbWatcher ( )
{
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PGconn * conn = getPgConn ( NO_OVERRIDE ) ;
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
exit ( 1 ) ;
}
initializeMembers ( conn ) ;
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if ( this - > _mqc ! = NULL ) {
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PQfinish ( conn ) ;
conn = NULL ;
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_membersWatcher_RabbitMQ ( ) ;
} else {
_membersWatcher_Postgres ( conn ) ;
PQfinish ( conn ) ;
conn = NULL ;
}
if ( _run = = 1 ) {
fprintf ( stderr , " ERROR: %s membersDbWatcher should still be running! Exiting Controller. \n " , _myAddressStr . c_str ( ) ) ;
exit ( 9 ) ;
}
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fprintf ( stderr , " Exited membersDbWatcher \n " ) ;
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}
void PostgreSQL : : _membersWatcher_Postgres ( PGconn * conn ) {
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char buf [ 11 ] = { 0 } ;
std : : string cmd = " LISTEN member_ " + std : : string ( _myAddress . toString ( buf ) ) ;
PGresult * res = PQexec ( conn , cmd . c_str ( ) ) ;
if ( ! res | | PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " LISTEN command failed: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQfinish ( conn ) ;
exit ( 1 ) ;
}
PQclear ( res ) ; res = NULL ;
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while ( _run = = 1 ) {
if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " ERROR: Member Watcher lost connection to Postgres. " ) ;
exit ( - 1 ) ;
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}
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PGnotify * notify = NULL ;
PQconsumeInput ( conn ) ;
while ( ( notify = PQnotifies ( conn ) ) ! = NULL ) {
//fprintf(stderr, "ASYNC NOTIFY of '%s' id:%s received\n", notify->relname, notify->extra);
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try {
json tmp ( json : : parse ( notify - > extra ) ) ;
json & ov = tmp [ " old_val " ] ;
json & nv = tmp [ " new_val " ] ;
json oldConfig , newConfig ;
if ( ov . is_object ( ) ) oldConfig = ov ;
if ( nv . is_object ( ) ) newConfig = nv ;
if ( oldConfig . is_object ( ) | | newConfig . is_object ( ) ) {
_memberChanged ( oldConfig , newConfig , ( this - > _ready > = 2 ) ) ;
}
} catch ( . . . ) { } // ignore bad records
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free ( notify ) ;
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}
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std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 10 ) ) ;
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}
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}
void PostgreSQL : : _membersWatcher_RabbitMQ ( ) {
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char buf [ 11 ] = { 0 } ;
std : : string qname = " member_ " + std : : string ( _myAddress . toString ( buf ) ) ;
RabbitMQ rmq ( _mqc , qname . c_str ( ) ) ;
try {
rmq . init ( ) ;
} catch ( std : : runtime_error & e ) {
fprintf ( stderr , " RABBITMQ ERROR: %s \n " , e . what ( ) ) ;
exit ( 11 ) ;
}
while ( _run = = 1 ) {
try {
std : : string msg = rmq . consume ( ) ;
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// fprintf(stderr, "Got Member Update: %s\n", msg.c_str());
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if ( msg . empty ( ) ) {
continue ;
}
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json tmp ( json : : parse ( msg ) ) ;
json & ov = tmp [ " old_val " ] ;
json & nv = tmp [ " new_val " ] ;
json oldConfig , newConfig ;
if ( ov . is_object ( ) ) oldConfig = ov ;
if ( nv . is_object ( ) ) newConfig = nv ;
if ( oldConfig . is_object ( ) | | newConfig . is_object ( ) ) {
_memberChanged ( oldConfig , newConfig , ( this - > _ready > = 2 ) ) ;
}
} catch ( std : : runtime_error & e ) {
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fprintf ( stderr , " RABBITMQ ERROR member change: %s \n " , e . what ( ) ) ;
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break ;
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} catch ( std : : exception & e ) {
fprintf ( stderr , " RABBITMQ ERROR member change: %s \n " , e . what ( ) ) ;
} catch ( . . . ) {
fprintf ( stderr , " RABBITMQ ERROR member change: unknown error \n " ) ;
}
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}
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}
void PostgreSQL : : networksDbWatcher ( )
{
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PGconn * conn = getPgConn ( NO_OVERRIDE ) ;
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
exit ( 1 ) ;
}
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initializeNetworks ( conn ) ;
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if ( this - > _mqc ! = NULL ) {
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PQfinish ( conn ) ;
conn = NULL ;
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_networksWatcher_RabbitMQ ( ) ;
} else {
_networksWatcher_Postgres ( conn ) ;
PQfinish ( conn ) ;
conn = NULL ;
}
if ( _run = = 1 ) {
fprintf ( stderr , " ERROR: %s networksDbWatcher should still be running! Exiting Controller. \n " , _myAddressStr . c_str ( ) ) ;
exit ( 8 ) ;
}
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fprintf ( stderr , " Exited membersDbWatcher \n " ) ;
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}
void PostgreSQL : : _networksWatcher_Postgres ( PGconn * conn ) {
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char buf [ 11 ] = { 0 } ;
std : : string cmd = " LISTEN network_ " + std : : string ( _myAddress . toString ( buf ) ) ;
PGresult * res = PQexec ( conn , cmd . c_str ( ) ) ;
if ( ! res | | PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " LISTEN command failed: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQfinish ( conn ) ;
exit ( 1 ) ;
}
PQclear ( res ) ; res = NULL ;
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while ( _run = = 1 ) {
if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " ERROR: Network Watcher lost connection to Postgres. " ) ;
exit ( - 1 ) ;
}
PGnotify * notify = NULL ;
PQconsumeInput ( conn ) ;
while ( ( notify = PQnotifies ( conn ) ) ! = NULL ) {
//fprintf(stderr, "ASYNC NOTIFY of '%s' id:%s received\n", notify->relname, notify->extra);
try {
json tmp ( json : : parse ( notify - > extra ) ) ;
json & ov = tmp [ " old_val " ] ;
json & nv = tmp [ " new_val " ] ;
json oldConfig , newConfig ;
if ( ov . is_object ( ) ) oldConfig = ov ;
if ( nv . is_object ( ) ) newConfig = nv ;
if ( oldConfig . is_object ( ) | | newConfig . is_object ( ) ) {
_networkChanged ( oldConfig , newConfig , ( this - > _ready > = 2 ) ) ;
}
} catch ( . . . ) { } // ignore bad records
free ( notify ) ;
}
std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 10 ) ) ;
}
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}
void PostgreSQL : : _networksWatcher_RabbitMQ ( ) {
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char buf [ 11 ] = { 0 } ;
std : : string qname = " network_ " + std : : string ( _myAddress . toString ( buf ) ) ;
RabbitMQ rmq ( _mqc , qname . c_str ( ) ) ;
try {
rmq . init ( ) ;
} catch ( std : : runtime_error & e ) {
fprintf ( stderr , " RABBITMQ ERROR: %s \n " , e . what ( ) ) ;
exit ( 11 ) ;
}
while ( _run = = 1 ) {
try {
std : : string msg = rmq . consume ( ) ;
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if ( msg . empty ( ) ) {
continue ;
}
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// fprintf(stderr, "Got network update: %s\n", msg.c_str());
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json tmp ( json : : parse ( msg ) ) ;
json & ov = tmp [ " old_val " ] ;
json & nv = tmp [ " new_val " ] ;
json oldConfig , newConfig ;
if ( ov . is_object ( ) ) oldConfig = ov ;
if ( nv . is_object ( ) ) newConfig = nv ;
if ( oldConfig . is_object ( ) | | newConfig . is_object ( ) ) {
_networkChanged ( oldConfig , newConfig , ( this - > _ready > = 2 ) ) ;
}
} catch ( std : : runtime_error & e ) {
fprintf ( stderr , " RABBITMQ ERROR: %s \n " , e . what ( ) ) ;
break ;
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} catch ( std : : exception & e ) {
fprintf ( stderr , " RABBITMQ ERROR network watcher: %s \n " , e . what ( ) ) ;
} catch ( . . . ) {
fprintf ( stderr , " RABBITMQ ERROR network watcher: unknown error \n " ) ;
}
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}
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}
void PostgreSQL : : commitThread ( )
{
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PGconn * conn = getPgConn ( ) ;
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " ERROR: Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
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exit ( 1 ) ;
}
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json * config = nullptr ;
while ( _commitQueue . get ( config ) & ( _run = = 1 ) ) {
if ( ! config ) {
continue ;
}
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " ERROR: Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
delete config ;
exit ( 1 ) ;
}
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try {
const std : : string objtype = ( * config ) [ " objtype " ] ;
if ( objtype = = " member " ) {
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try {
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std : : string memberId = ( * config ) [ " id " ] ;
std : : string networkId = ( * config ) [ " nwid " ] ;
std : : string identity = ( * config ) [ " identity " ] ;
std : : string target = " NULL " ;
if ( ! ( * config ) [ " remoteTraceTarget " ] . is_null ( ) ) {
target = ( * config ) [ " remoteTraceTarget " ] ;
}
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std : : string caps = OSUtils : : jsonDump ( ( * config ) [ " capabilities " ] , - 1 ) ;
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std : : string lastAuthTime = std : : to_string ( ( long long ) ( * config ) [ " lastAuthorizedTime " ] ) ;
std : : string lastDeauthTime = std : : to_string ( ( long long ) ( * config ) [ " lastDeauthorizedTime " ] ) ;
std : : string rtraceLevel = std : : to_string ( ( int ) ( * config ) [ " remoteTraceLevel " ] ) ;
std : : string rev = std : : to_string ( ( unsigned long long ) ( * config ) [ " revision " ] ) ;
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std : : string tags = OSUtils : : jsonDump ( ( * config ) [ " tags " ] , - 1 ) ;
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std : : string vmajor = std : : to_string ( ( int ) ( * config ) [ " vMajor " ] ) ;
std : : string vminor = std : : to_string ( ( int ) ( * config ) [ " vMinor " ] ) ;
std : : string vrev = std : : to_string ( ( int ) ( * config ) [ " vRev " ] ) ;
std : : string vproto = std : : to_string ( ( int ) ( * config ) [ " vProto " ] ) ;
const char * values [ 19 ] = {
memberId . c_str ( ) ,
networkId . c_str ( ) ,
( ( * config ) [ " activeBridge " ] ? " true " : " false " ) ,
( ( * config ) [ " authorized " ] ? " true " : " false " ) ,
caps . c_str ( ) ,
identity . c_str ( ) ,
lastAuthTime . c_str ( ) ,
lastDeauthTime . c_str ( ) ,
( ( * config ) [ " noAutoAssignIps " ] ? " true " : " false " ) ,
rtraceLevel . c_str ( ) ,
( target = = " NULL " ) ? NULL : target . c_str ( ) ,
rev . c_str ( ) ,
tags . c_str ( ) ,
vmajor . c_str ( ) ,
vminor . c_str ( ) ,
vrev . c_str ( ) ,
vproto . c_str ( )
} ;
PGresult * res = PQexecParams ( conn ,
" INSERT INTO ztc_member (id, network_id, active_bridge, authorized, capabilities, "
" identity, last_authorized_time, last_deauthorized_time, no_auto_assign_ips, "
" remote_trace_level, remote_trace_target, revision, tags, v_major, v_minor, v_rev, v_proto) "
" VALUES ($1, $2, $3, $4, $5, $6, "
" TO_TIMESTAMP($7::double precision/1000), TO_TIMESTAMP($8::double precision/1000), "
" $9, $10, $11, $12, $13, $14, $15, $16, $17) ON CONFLICT (network_id, id) DO UPDATE SET "
" active_bridge = EXCLUDED.active_bridge, authorized = EXCLUDED.authorized, capabilities = EXCLUDED.capabilities, "
" identity = EXCLUDED.identity, last_authorized_time = EXCLUDED.last_authorized_time, "
" last_deauthorized_time = EXCLUDED.last_deauthorized_time, no_auto_assign_ips = EXCLUDED.no_auto_assign_ips, "
" remote_trace_level = EXCLUDED.remote_trace_level, remote_trace_target = EXCLUDED.remote_trace_target, "
" revision = EXCLUDED.revision+1, tags = EXCLUDED.tags, v_major = EXCLUDED.v_major, "
" v_minor = EXCLUDED.v_minor, v_rev = EXCLUDED.v_rev, v_proto = EXCLUDED.v_proto " ,
17 ,
NULL ,
values ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating member: %s \n " , PQresultErrorMessage ( res ) ) ;
fprintf ( stderr , " %s " , OSUtils : : jsonDump ( * config , 2 ) . c_str ( ) ) ;
PQclear ( res ) ;
delete config ;
config = nullptr ;
continue ;
}
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PQclear ( res ) ;
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res = PQexec ( conn , " BEGIN " ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error beginning transaction: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
delete config ;
config = nullptr ;
continue ;
}
PQclear ( res ) ;
const char * v2 [ 2 ] = {
memberId . c_str ( ) ,
networkId . c_str ( )
} ;
res = PQexecParams ( conn ,
" DELETE FROM ztc_member_ip_assignment WHERE member_id = $1 AND network_id = $2 " ,
2 ,
NULL ,
v2 ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating IP address assignments: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ; ;
delete config ;
config = nullptr ;
continue ;
}
PQclear ( res ) ;
std : : vector < std : : string > assignments ;
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for ( auto i = ( * config ) [ " ipAssignments " ] . begin ( ) ; i ! = ( * config ) [ " ipAssignments " ] . end ( ) ; + + i ) {
std : : string addr = * i ;
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if ( std : : find ( assignments . begin ( ) , assignments . end ( ) , addr ) ! = assignments . end ( ) ) {
continue ;
}
const char * v3 [ 3 ] = {
memberId . c_str ( ) ,
networkId . c_str ( ) ,
addr . c_str ( )
} ;
res = PQexecParams ( conn ,
" INSERT INTO ztc_member_ip_assignment (member_id, network_id, address) VALUES ($1, $2, $3) " ,
3 ,
NULL ,
v3 ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error setting IP addresses for member: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ;
break ; ;
}
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}
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res = PQexec ( conn , " COMMIT " ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error committing ip address data: %s \n " , PQresultErrorMessage ( res ) ) ;
}
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PQclear ( res ) ;
const uint64_t nwidInt = OSUtils : : jsonIntHex ( ( * config ) [ " nwid " ] , 0ULL ) ;
const uint64_t memberidInt = OSUtils : : jsonIntHex ( ( * config ) [ " id " ] , 0ULL ) ;
if ( nwidInt & & memberidInt ) {
nlohmann : : json nwOrig ;
nlohmann : : json memOrig ;
nlohmann : : json memNew ( * config ) ;
get ( nwidInt , nwOrig , memberidInt , memOrig ) ;
_memberChanged ( memOrig , memNew , ( this - > _ready > = 2 ) ) ;
} else {
fprintf ( stderr , " Can't notify of change. Error parsing nwid or memberid: %lu-%lu \n " , nwidInt , memberidInt ) ;
}
} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error updating member: %s \n " , e . what ( ) ) ;
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}
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} else if ( objtype = = " network " ) {
try {
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std : : string id = ( * config ) [ " id " ] ;
std : : string controllerId = _myAddressStr . c_str ( ) ;
std : : string name = ( * config ) [ " name " ] ;
std : : string remoteTraceTarget ( " NULL " ) ;
if ( ! ( * config ) [ " remoteTraceTarget " ] . is_null ( ) ) {
remoteTraceTarget = ( * config ) [ " remoteTraceTarget " ] ;
}
std : : string rulesSource = ( * config ) [ " rulesSource " ] ;
std : : string caps = OSUtils : : jsonDump ( ( * config ) [ " capabilitles " ] , - 1 ) ;
std : : string now = std : : to_string ( OSUtils : : now ( ) ) ;
std : : string mtu = std : : to_string ( ( int ) ( * config ) [ " mtu " ] ) ;
std : : string mcastLimit = std : : to_string ( ( int ) ( * config ) [ " multicastLimit " ] ) ;
std : : string rtraceLevel = std : : to_string ( ( int ) ( * config ) [ " remoteTraceLevel " ] ) ;
std : : string rules = OSUtils : : jsonDump ( ( * config ) [ " rules " ] , - 1 ) ;
std : : string tags = OSUtils : : jsonDump ( ( * config ) [ " tags " ] , - 1 ) ;
std : : string v4mode = OSUtils : : jsonDump ( ( * config ) [ " v4AssignMode " ] , - 1 ) ;
std : : string v6mode = OSUtils : : jsonDump ( ( * config ) [ " v6AssignMode " ] , - 1 ) ;
bool enableBroadcast = ( * config ) [ " enableBroadcast " ] ;
bool isPrivate = ( * config ) [ " private " ] ;
const char * values [ 16 ] = {
id . c_str ( ) ,
controllerId . c_str ( ) ,
caps . c_str ( ) ,
enableBroadcast ? " true " : " false " ,
now . c_str ( ) ,
mtu . c_str ( ) ,
mcastLimit . c_str ( ) ,
name . c_str ( ) ,
isPrivate ? " true " : " false " ,
rtraceLevel . c_str ( ) ,
( remoteTraceTarget = = " NULL " ? NULL : remoteTraceTarget . c_str ( ) ) ,
rules . c_str ( ) ,
rulesSource . c_str ( ) ,
tags . c_str ( ) ,
v4mode . c_str ( ) ,
v6mode . c_str ( ) ,
} ;
PGresult * res = PQexecParams ( conn ,
" UPDATE ztc_network SET controller_id = $2, capabilities = $3, enable_broadcast = $4, "
" last_updated = $5, mtu = $6, multicast_limit = $7, name = $8, private = $9, "
" remote_trace_level = $10, remote_trace_target = $11, rules = $12, rules_source = $13, "
" tags = $14, v4_assign_mode = $15, v6_assign_mode = $16 "
" WHERE id = $1 " ,
16 ,
NULL ,
values ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating network record: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
delete config ;
config = nullptr ;
continue ;
}
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PQclear ( res ) ;
res = PQexec ( conn , " BEGIN " ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error beginnning transaction: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
delete config ;
config = nullptr ;
continue ;
}
PQclear ( res ) ;
const char * params [ 1 ] = {
id . c_str ( )
} ;
res = PQexecParams ( conn ,
" DELETE FROM ztc_network_assignment_pool WHERE network_id = $1 " ,
1 ,
NULL ,
params ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating assignment pool: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ;
delete config ;
config = nullptr ;
continue ;
}
PQclear ( res ) ;
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auto pool = ( * config ) [ " ipAssignmentPools " ] ;
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bool err = false ;
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for ( auto i = pool . begin ( ) ; i ! = pool . end ( ) ; + + i ) {
std : : string start = ( * i ) [ " ipRangeStart " ] ;
std : : string end = ( * i ) [ " ipRangeEnd " ] ;
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const char * p [ 3 ] = {
id . c_str ( ) ,
start . c_str ( ) ,
end . c_str ( )
} ;
res = PQexecParams ( conn ,
" INSERT INTO ztc_network_assignment_pool (network_id, ip_range_start, ip_range_end) "
" VALUES ($1, $2, $3) " ,
3 ,
NULL ,
p ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating assignment pool: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
err = true ;
break ;
}
PQclear ( res ) ;
}
if ( err ) {
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ;
delete config ;
config = nullptr ;
continue ;
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}
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res = PQexecParams ( conn ,
" DELETE FROM ztc_network_route WHERE network_id = $1 " ,
1 ,
NULL ,
params ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating routes: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ;
delete config ;
config = nullptr ;
continue ;
}
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auto routes = ( * config ) [ " routes " ] ;
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err = false ;
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for ( auto i = routes . begin ( ) ; i ! = routes . end ( ) ; + + i ) {
std : : string t = ( * i ) [ " target " ] ;
std : : vector < std : : string > target ;
std : : istringstream f ( t ) ;
std : : string s ;
while ( std : : getline ( f , s , ' / ' ) ) {
target . push_back ( s ) ;
}
if ( target . empty ( ) | | target . size ( ) ! = 2 ) {
continue ;
}
std : : string targetAddr = target [ 0 ] ;
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std : : string targetBits = target [ 1 ] ;
std : : string via = " NULL " ;
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if ( ! ( * i ) [ " via " ] . is_null ( ) ) {
via = ( * i ) [ " via " ] ;
}
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const char * p [ 4 ] = {
id . c_str ( ) ,
targetAddr . c_str ( ) ,
targetBits . c_str ( ) ,
( via = = " NULL " ? NULL : via . c_str ( ) ) ,
} ;
res = PQexecParams ( conn ,
" INSERT INTO ztc_network_route (network_id, address, bits, via) VALUES ($1, $2, $3, $4) " ,
4 ,
NULL ,
p ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error updating routes: %s \n " , PQresultErrorMessage ( res ) ) ;
PQclear ( res ) ;
err = true ;
break ;
}
PQclear ( res ) ;
}
if ( err ) {
PQclear ( PQexec ( conn , " ROLLBACK " ) ) ;
delete config ;
config = nullptr ;
continue ;
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}
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res = PQexec ( conn , " COMMIT " ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error committing network update: %s \n " , PQresultErrorMessage ( res ) ) ;
}
PQclear ( res ) ;
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const uint64_t nwidInt = OSUtils : : jsonIntHex ( ( * config ) [ " nwid " ] , 0ULL ) ;
if ( nwidInt ) {
nlohmann : : json nwOrig ;
nlohmann : : json nwNew ( * config ) ;
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get ( nwidInt , nwOrig ) ;
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_networkChanged ( nwOrig , nwNew , true ) ;
} else {
fprintf ( stderr , " Can't notify network changed: %lu \n " , nwidInt ) ;
}
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} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error updating member: %s \n " , e . what ( ) ) ;
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}
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} else if ( objtype = = " trace " ) {
fprintf ( stderr , " ERROR: Trace not yet implemented " ) ;
} else if ( objtype = = " _delete_network " ) {
try {
std : : string networkId = ( * config ) [ " nwid " ] ;
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const char * values [ 1 ] = {
networkId . c_str ( )
} ;
PGresult * res = PQexecParams ( conn ,
" UPDATE ztc_network SET deleted = true WHERE id = $1 " ,
1 ,
NULL ,
values ,
NULL ,
NULL ,
0 ) ;
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if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error deleting network: %s \n " , PQresultErrorMessage ( res ) ) ;
}
PQclear ( res ) ;
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} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error deleting network: %s \n " , e . what ( ) ) ;
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}
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} else if ( objtype = = " _delete_member " ) {
try {
std : : string memberId = ( * config ) [ " id " ] ;
std : : string networkId = ( * config ) [ " nwid " ] ;
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const char * values [ 2 ] = {
memberId . c_str ( ) ,
networkId . c_str ( )
} ;
PGresult * res = PQexecParams ( conn ,
" UPDATE ztc_member SET hidden = true, deleted = true WHERE id = $1 AND network_id = $2 " ,
2 ,
NULL ,
values ,
NULL ,
NULL ,
0 ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
fprintf ( stderr , " ERROR: Error deleting member: %s \n " , PQresultErrorMessage ( res ) ) ;
}
PQclear ( res ) ;
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} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error deleting member: %s \n " , e . what ( ) ) ;
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}
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} else {
fprintf ( stderr , " ERROR: unknown objtype " ) ;
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}
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} catch ( std : : exception & e ) {
fprintf ( stderr , " ERROR: Error getting objtype: %s \n " , e . what ( ) ) ;
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}
delete config ;
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config = nullptr ;
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std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 10 ) ) ;
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}
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PQfinish ( conn ) ;
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if ( _run = = 1 ) {
fprintf ( stderr , " ERROR: %s commitThread should still be running! Exiting Controller. \n " , _myAddressStr . c_str ( ) ) ;
exit ( 7 ) ;
}
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}
void PostgreSQL : : onlineNotificationThread ( )
{
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PGconn * conn = getPgConn ( ) ;
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if ( PQstatus ( conn ) = = CONNECTION_BAD ) {
fprintf ( stderr , " Connection to database failed: %s \n " , PQerrorMessage ( conn ) ) ;
PQfinish ( conn ) ;
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exit ( 1 ) ;
}
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_connected = 1 ;
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int64_t lastUpdatedNetworkStatus = 0 ;
std : : unordered_map < std : : pair < uint64_t , uint64_t > , int64_t , _PairHasher > lastOnlineCumulative ;
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while ( _run = = 1 ) {
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if ( PQstatus ( conn ) ! = CONNECTION_OK ) {
fprintf ( stderr , " ERROR: Online Notification thread lost connection to Postgres. " ) ;
PQfinish ( conn ) ;
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exit ( 5 ) ;
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}
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// map used to send notifications to front end
std : : unordered_map < std : : string , std : : vector < std : : string > > updateMap ;
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std : : unordered_map < std : : pair < uint64_t , uint64_t > , std : : pair < int64_t , InetAddress > , _PairHasher > lastOnline ;
{
std : : lock_guard < std : : mutex > l ( _lastOnline_l ) ;
lastOnline . swap ( _lastOnline ) ;
}
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PGresult * res = NULL ;
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std : : stringstream memberUpdate ;
memberUpdate < < " INSERT INTO ztc_member_status (network_id, member_id, address, last_updated) VALUES " ;
bool firstRun = true ;
bool memberAdded = false ;
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for ( auto i = lastOnline . begin ( ) ; i ! = lastOnline . end ( ) ; + + i ) {
uint64_t nwid_i = i - > first . first ;
char nwidTmp [ 64 ] ;
char memTmp [ 64 ] ;
char ipTmp [ 64 ] ;
OSUtils : : ztsnprintf ( nwidTmp , sizeof ( nwidTmp ) , " %.16llx " , nwid_i ) ;
OSUtils : : ztsnprintf ( memTmp , sizeof ( memTmp ) , " %.10llx " , i - > first . second ) ;
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auto found = _networks . find ( nwid_i ) ;
if ( found = = _networks . end ( ) ) {
continue ; // skip members trying to join non-existant networks
}
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std : : string networkId ( nwidTmp ) ;
std : : string memberId ( memTmp ) ;
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std : : vector < std : : string > & members = updateMap [ networkId ] ;
members . push_back ( memberId ) ;
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lastOnlineCumulative [ i - > first ] = i - > second . first ;
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const char * qvals [ 2 ] = {
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networkId . c_str ( ) ,
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memberId . c_str ( )
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} ;
res = PQexecParams ( conn ,
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" SELECT id, network_id FROM ztc_member WHERE network_id = $1 AND id = $2 " ,
2 ,
NULL ,
qvals ,
NULL ,
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NULL ,
0 ) ;
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if ( PQresultStatus ( res ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Member count failed: %s " , PQerrorMessage ( conn ) ) ;
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PQclear ( res ) ;
continue ;
}
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int nrows = PQntuples ( res ) ;
PQclear ( res ) ;
if ( nrows = = 1 ) {
int64_t ts = i - > second . first ;
std : : string ipAddr = i - > second . second . toIpString ( ipTmp ) ;
std : : string timestamp = std : : to_string ( ts ) ;
if ( firstRun ) {
firstRun = false ;
} else {
memberUpdate < < " , " ;
}
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memberUpdate < < " (' " < < networkId < < " ', ' " < < memberId < < " ', " ;
if ( ipAddr . empty ( ) ) {
memberUpdate < < " NULL, " ;
} else {
memberUpdate < < " ' " < < ipAddr < < " ', " ;
}
memberUpdate < < " TO_TIMESTAMP( " < < timestamp < < " ::double precision/1000)) " ;
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memberAdded = true ;
} else if ( nrows > 1 ) {
fprintf ( stderr , " nrows > 1?!? " ) ;
continue ;
} else {
continue ;
}
}
memberUpdate < < " ON CONFLICT (network_id, member_id) DO UPDATE SET address = EXCLUDED.address, last_updated = EXCLUDED.last_updated; " ;
if ( memberAdded ) {
res = PQexec ( conn , memberUpdate . str ( ) . c_str ( ) ) ;
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if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
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fprintf ( stderr , " Multiple insert failed: %s " , PQerrorMessage ( conn ) ) ;
}
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PQclear ( res ) ;
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}
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const int64_t now = OSUtils : : now ( ) ;
if ( ( now - lastUpdatedNetworkStatus ) > 10000 ) {
lastUpdatedNetworkStatus = now ;
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std : : vector < std : : pair < uint64_t , std : : shared_ptr < _Network > > > networks ;
{
std : : lock_guard < std : : mutex > l ( _networks_l ) ;
for ( auto i = _networks . begin ( ) ; i ! = _networks . end ( ) ; + + i ) {
networks . push_back ( * i ) ;
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}
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}
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std : : stringstream networkUpdate ;
networkUpdate < < " INSERT INTO ztc_network_status (network_id, bridge_count, authorized_member_count, online_member_count, total_member_count, last_modified) VALUES " ;
bool nwFirstRun = true ;
bool networkAdded = false ;
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for ( auto i = networks . begin ( ) ; i ! = networks . end ( ) ; + + i ) {
char tmp [ 64 ] ;
Utils : : hex ( i - > first , tmp ) ;
std : : string networkId ( tmp ) ;
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std : : vector < std : : string > & _notUsed = updateMap [ networkId ] ;
( void ) _notUsed ;
uint64_t authMemberCount = 0 ;
uint64_t totalMemberCount = 0 ;
uint64_t onlineMemberCount = 0 ;
uint64_t bridgeCount = 0 ;
uint64_t ts = now ;
{
std : : lock_guard < std : : mutex > l2 ( i - > second - > lock ) ;
authMemberCount = i - > second - > authorizedMembers . size ( ) ;
totalMemberCount = i - > second - > members . size ( ) ;
bridgeCount = i - > second - > activeBridgeMembers . size ( ) ;
for ( auto m = i - > second - > members . begin ( ) ; m ! = i - > second - > members . end ( ) ; + + m ) {
auto lo = lastOnlineCumulative . find ( std : : pair < uint64_t , uint64_t > ( i - > first , m - > first ) ) ;
if ( lo ! = lastOnlineCumulative . end ( ) ) {
if ( ( now - lo - > second ) < = ( ZT_NETWORK_AUTOCONF_DELAY * 2 ) ) {
+ + onlineMemberCount ;
} else {
lastOnlineCumulative . erase ( lo ) ;
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}
}
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}
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}
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const char * nvals [ 1 ] = {
networkId . c_str ( )
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} ;
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res = PQexecParams ( conn ,
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" SELECT id FROM ztc_network WHERE id = $1 " ,
1 ,
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NULL ,
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nvals ,
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NULL ,
NULL ,
0 ) ;
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if ( PQresultStatus ( res ) ! = PGRES_TUPLES_OK ) {
fprintf ( stderr , " Network lookup failed: %s " , PQerrorMessage ( conn ) ) ;
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PQclear ( res ) ;
continue ;
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}
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int nrows = PQntuples ( res ) ;
PQclear ( res ) ;
if ( nrows = = 1 ) {
std : : string bc = std : : to_string ( bridgeCount ) ;
std : : string amc = std : : to_string ( authMemberCount ) ;
std : : string omc = std : : to_string ( onlineMemberCount ) ;
std : : string tmc = std : : to_string ( totalMemberCount ) ;
std : : string timestamp = std : : to_string ( ts ) ;
if ( nwFirstRun ) {
nwFirstRun = false ;
} else {
networkUpdate < < " , " ;
}
networkUpdate < < " (' " < < networkId < < " ', " < < bc < < " , " < < amc < < " , " < < omc < < " , " < < tmc < < " , "
< < " TO_TIMESTAMP( " < < timestamp < < " ::double precision/1000)) " ;
networkAdded = true ;
} else if ( nrows > 1 ) {
fprintf ( stderr , " Number of networks > 1?!?!? " ) ;
continue ;
} else {
continue ;
}
}
networkUpdate < < " ON CONFLICT (network_id) DO UPDATE SET bridge_count = EXCLUDED.bridge_count, "
< < " authorized_member_count = EXCLUDED.authorized_member_count, online_member_count = EXCLUDED.online_member_count, "
< < " total_member_count = EXCLUDED.total_member_count, last_modified = EXCLUDED.last_modified " ;
if ( networkAdded ) {
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res = PQexec ( conn , networkUpdate . str ( ) . c_str ( ) ) ;
if ( PQresultStatus ( res ) ! = PGRES_COMMAND_OK ) {
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fprintf ( stderr , " Error during multiple network upsert: %s " , PQresultErrorMessage ( res ) ) ;
}
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PQclear ( res ) ;
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}
}
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// for (auto it = updateMap.begin(); it != updateMap.end(); ++it) {
// std::string networkId = it->first;
// std::vector<std::string> members = it->second;
// std::stringstream queryBuilder;
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// std::string membersStr = ::join(members, ",");
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// queryBuilder << "NOTIFY controller, '" << networkId << ":" << membersStr << "'";
// std::string query = queryBuilder.str();
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// PGresult *res = PQexec(conn,query.c_str());
// if (PQresultStatus(res) != PGRES_COMMAND_OK) {
// fprintf(stderr, "ERROR: Error sending NOTIFY: %s\n", PQresultErrorMessage(res));
// }
// PQclear(res);
// }
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std : : this_thread : : sleep_for ( std : : chrono : : milliseconds ( 10 ) ) ;
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}
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fprintf ( stderr , " %s: Fell out of run loop in onlineNotificationThread \n " , _myAddressStr . c_str ( ) ) ;
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PQfinish ( conn ) ;
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if ( _run = = 1 ) {
fprintf ( stderr , " ERROR: %s onlineNotificationThread should still be running! Exiting Controller. \n " , _myAddressStr . c_str ( ) ) ;
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exit ( 6 ) ;
}
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}
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PGconn * PostgreSQL : : getPgConn ( OverrideMode m ) {
if ( m = = ALLOW_PGBOUNCER_OVERRIDE ) {
char * connStr = getenv ( " PGBOUNCER_CONNSTR " ) ;
if ( connStr ! = NULL ) {
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fprintf ( stderr , " PGBouncer Override \n " ) ;
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std : : string conn ( connStr ) ;
conn + = " application_name=controller- " ;
conn + = _myAddressStr . c_str ( ) ;
return PQconnectdb ( conn . c_str ( ) ) ;
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}
}
return PQconnectdb ( _connString . c_str ( ) ) ;
}
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# endif //ZT_CONTROLLER_USE_LIBPQ