/* * ZeroTier One - Network Virtualization Everywhere * Copyright (C) 2011-2015 ZeroTier, 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 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 * along with this program. If not, see . * * -- * * ZeroTier may be used and distributed under the terms of the GPLv3, which * are available at: http://www.gnu.org/licenses/gpl-3.0.html * * If you would like to embed ZeroTier into a commercial application or * redistribute it in a modified binary form, please contact ZeroTier Networks * LLC. Start here: http://www.zerotier.com/ */ #include #include #include #include #include #include #include #include #include #include #include #include "../include/ZeroTierOne.h" #include "../node/Constants.hpp" #include "../ext/json-parser/json.h" #include "SqliteNetworkController.hpp" #include "../node/Utils.hpp" #include "../node/CertificateOfMembership.hpp" #include "../node/NetworkConfig.hpp" #include "../node/InetAddress.hpp" #include "../node/MAC.hpp" #include "../node/Address.hpp" #include "../osdep/OSUtils.hpp" // Include ZT_NETCONF_SCHEMA_SQL constant to init database #include "schema.sql.c" // Stored in database as schemaVersion key in Config. // If not present, database is assumed to be empty and at the current schema version // and this key/value is added automatically. #define ZT_NETCONF_SQLITE_SCHEMA_VERSION 1 #define ZT_NETCONF_SQLITE_SCHEMA_VERSION_STR "1" // API version reported via JSON control plane #define ZT_NETCONF_CONTROLLER_API_VERSION 1 namespace ZeroTier { namespace { static std::string _jsonEscape(const char *s) { if (!s) return std::string(); std::string buf; for(const char *p=s;(*p);++p) { switch(*p) { case '\t': buf.append("\\t"); break; case '\b': buf.append("\\b"); break; case '\r': buf.append("\\r"); break; case '\n': buf.append("\\n"); break; case '\f': buf.append("\\f"); break; case '"': buf.append("\\\""); break; case '\\': buf.append("\\\\"); break; case '/': buf.append("\\/"); break; default: buf.push_back(*p); break; } } return buf; } static std::string _jsonEscape(const std::string &s) { return _jsonEscape(s.c_str()); } struct MemberRecord { int64_t rowid; char nodeId[16]; bool authorized; bool activeBridge; }; struct NetworkRecord { char id[24]; const char *name; const char *v4AssignMode; const char *v6AssignMode; bool isPrivate; bool enableBroadcast; bool allowPassiveBridging; int multicastLimit; uint64_t creationTime; uint64_t revision; }; } // anonymous namespace SqliteNetworkController::SqliteNetworkController(const char *dbPath) : _dbPath(dbPath), _db((sqlite3 *)0) { if (sqlite3_open_v2(dbPath,&_db,SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE,(const char *)0) != SQLITE_OK) throw std::runtime_error("SqliteNetworkController cannot open database file"); sqlite3_busy_timeout(_db,10000); sqlite3_stmt *s = (sqlite3_stmt *)0; if ((sqlite3_prepare_v2(_db,"SELECT v FROM Config WHERE k = 'schemaVersion';",-1,&s,(const char **)0) == SQLITE_OK)&&(s)) { int schemaVersion = -1234; if (sqlite3_step(s) == SQLITE_ROW) { schemaVersion = sqlite3_column_int(s,0); } sqlite3_finalize(s); if (schemaVersion == -1234) { sqlite3_close(_db); throw std::runtime_error("SqliteNetworkController schemaVersion not found in Config table (init failure?)"); } else if (schemaVersion != ZT_NETCONF_SQLITE_SCHEMA_VERSION) { // Note -- this will eventually run auto-upgrades so this isn't how it'll work going forward sqlite3_close(_db); throw std::runtime_error("SqliteNetworkController database schema version mismatch"); } } else { // Prepare statement will fail if Config table doesn't exist, which means our DB // needs to be initialized. if (sqlite3_exec(_db,ZT_NETCONF_SCHEMA_SQL"INSERT INTO Config (k,v) VALUES ('schemaVersion',"ZT_NETCONF_SQLITE_SCHEMA_VERSION_STR");",0,0,0) != SQLITE_OK) { sqlite3_close(_db); throw std::runtime_error("SqliteNetworkController cannot initialize database and/or insert schemaVersion into Config table"); } } if ( (sqlite3_prepare_v2(_db,"SELECT name,private,enableBroadcast,allowPassiveBridging,v4AssignMode,v6AssignMode,multicastLimit,creationTime,revision FROM Network WHERE id = ?",-1,&_sGetNetworkById,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT rowid,authorized,activeBridge FROM Member WHERE networkId = ? AND nodeId = ?",-1,&_sGetMember,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO Member (networkId,nodeId,authorized,activeBridge) VALUES (?,?,?,0)",-1,&_sCreateMember,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT identity FROM Node WHERE id = ?",-1,&_sGetNodeIdentity,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO Node (id,identity,lastAt,lastSeen,firstSeen) VALUES (?,?,?,?,?)",-1,&_sCreateNode,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"UPDATE Node SET lastAt = ?,lastSeen = ? WHERE id = ?",-1,&_sUpdateNode,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"UPDATE Node SET lastSeen = ? WHERE id = ?",-1,&_sUpdateNode2,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT etherType FROM Rule WHERE networkId = ? AND \"action\" = 'accept'",-1,&_sGetEtherTypesFromRuleTable,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT mgMac,mgAdi,preload,maxBalance,accrual FROM MulticastRate WHERE networkId = ?",-1,&_sGetMulticastRates,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT nodeId FROM Member WHERE networkId = ? AND activeBridge > 0 AND authorized > 0",-1,&_sGetActiveBridges,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT ip,ipNetmaskBits FROM IpAssignment WHERE networkId = ? AND nodeId = ? AND ipVersion = ?",-1,&_sGetIpAssignmentsForNode,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT ipNetwork,ipNetmaskBits FROM IpAssignmentPool WHERE networkId = ? AND ipVersion = ?",-1,&_sGetIpAssignmentPools,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT 1 FROM IpAssignment WHERE networkId = ? AND ip = ? AND ipVersion = ?",-1,&_sCheckIfIpIsAllocated,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO IpAssignment (networkId,nodeId,ip,ipNetmaskBits,ipVersion) VALUES (?,?,?,?,?)",-1,&_sAllocateIp,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM IpAssignment WHERE networkId = ? AND nodeId = ?",-1,&_sDeleteIpAllocations,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT nodeId,phyAddress FROM Relay WHERE networkId = ? ORDER BY nodeId ASC",-1,&_sGetRelays,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT id FROM Network ORDER BY id ASC",-1,&_sListNetworks,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT n.id FROM Member AS m,Node AS n WHERE m.networkId = ? AND n.id = m.nodeId ORDER BY n.id ASC",-1,&_sListNetworkMembers,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT m.authorized,m.activeBridge,n.identity,n.lastAt,n.lastSeen,n.firstSeen FROM Member AS m,Node AS n WHERE m.networkId = ? AND m.nodeId = ?",-1,&_sGetMember2,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT ipNetwork,ipNetmaskBits,ipVersion FROM IpAssignmentPool WHERE networkId = ? ORDER BY ipNetwork ASC",-1,&_sGetIpAssignmentPools2,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT ruleId,nodeId,vlanId,vlanPcp,etherType,macSource,macDest,ipSource,ipDest,ipTos,ipProtocol,ipSourcePort,ipDestPort,\"action\" FROM Rule WHERE networkId = ? ORDER BY ruleId ASC",-1,&_sListRules,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO Rule (networkId,ruleId,nodeId,vlanId,vlanPcP,etherType,macSource,macDest,ipSource,ipDest,ipTos,ipProtocol,ipSourcePort,ipDestPort,\"action\") VALUES (?,?,?,?,?,?,?,?,?,?,?,?,?,?,?)",-1,&_sCreateRule,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO Network (id,name,creationTime,revision) VALUES (?,?,?,1)",-1,&_sCreateNetwork,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT revision FROM Network WHERE id = ?",-1,&_sGetNetworkRevision,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"UPDATE Network SET revision = ? WHERE id = ?",-1,&_sSetNetworkRevision,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"SELECT ip,ipNetmaskBits,ipVersion FROM IpAssignment WHERE networkId = ? AND nodeId = ? ORDER BY ip ASC",-1,&_sGetIpAssignmentsForNode2,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM Relay WHERE networkId = ?",-1,&_sDeleteRelaysForNetwork,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO Relay (networkId,nodeId,phyAddress) VALUES (?,?,?)",-1,&_sCreateRelay,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM IpAssignmentPool WHERE networkId = ?",-1,&_sDeleteIpAssignmentPoolsForNetwork,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM Rule WHERE networkId = ?",-1,&_sDeleteRulesForNetwork,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"INSERT INTO IpAssignmentPool (networkId,ipNetwork,ipNetmaskBits,ipVersion) VALUES (?,?,?,?)",-1,&_sCreateIpAssignmentPool,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM Member WHERE networkId = ? AND nodeId = ?",-1,&_sDeleteMember,(const char **)0) != SQLITE_OK) ||(sqlite3_prepare_v2(_db,"DELETE FROM IpAssignment WHERE networkId = ?; DELETE FROM IpAssignmentPool WHERE networkId = ?; DELETE FROM Member WHERE networkId = ?; DELETE FROM MulticastRate WHERE networkId = ?; DELETE FROM Relay WHERE networkId = ?; DELETE FROM Rule WHERE networkId = ?; DELETE FROM Network WHERE id = ?;",-1,&_sDeleteNetworkAndRelated,(const char **)0) != SQLITE_OK) ) { //printf("!!! %s\n",sqlite3_errmsg(_db)); sqlite3_close(_db); throw std::runtime_error("SqliteNetworkController unable to initialize one or more prepared statements"); } } SqliteNetworkController::~SqliteNetworkController() { Mutex::Lock _l(_lock); if (_db) { sqlite3_finalize(_sGetNetworkById); sqlite3_finalize(_sGetMember); sqlite3_finalize(_sCreateMember); sqlite3_finalize(_sGetNodeIdentity); sqlite3_finalize(_sCreateNode); sqlite3_finalize(_sUpdateNode); sqlite3_finalize(_sUpdateNode2); sqlite3_finalize(_sGetEtherTypesFromRuleTable); sqlite3_finalize(_sGetMulticastRates); sqlite3_finalize(_sGetActiveBridges); sqlite3_finalize(_sGetIpAssignmentsForNode); sqlite3_finalize(_sGetIpAssignmentPools); sqlite3_finalize(_sCheckIfIpIsAllocated); sqlite3_finalize(_sAllocateIp); sqlite3_finalize(_sDeleteIpAllocations); sqlite3_finalize(_sGetRelays); sqlite3_finalize(_sListNetworks); sqlite3_finalize(_sListNetworkMembers); sqlite3_finalize(_sGetMember2); sqlite3_finalize(_sGetIpAssignmentPools2); sqlite3_finalize(_sListRules); sqlite3_finalize(_sCreateRule); sqlite3_finalize(_sCreateNetwork); sqlite3_finalize(_sGetNetworkRevision); sqlite3_finalize(_sSetNetworkRevision); sqlite3_finalize(_sGetIpAssignmentsForNode2); sqlite3_finalize(_sDeleteRelaysForNetwork); sqlite3_finalize(_sCreateRelay); sqlite3_finalize(_sDeleteIpAssignmentPoolsForNetwork); sqlite3_finalize(_sDeleteRulesForNetwork); sqlite3_finalize(_sCreateIpAssignmentPool); sqlite3_finalize(_sDeleteNetworkAndRelated); sqlite3_close(_db); } } NetworkController::ResultCode SqliteNetworkController::doNetworkConfigRequest(const InetAddress &fromAddr,const Identity &signingId,const Identity &identity,uint64_t nwid,const Dictionary &metaData,uint64_t haveRevision,Dictionary &netconf) { Mutex::Lock _l(_lock); // Note: we can't reuse prepared statements that return const char * pointers without // making our own copy in e.g. a std::string first. if ((!signingId)||(!signingId.hasPrivate())) { netconf["error"] = "signing identity invalid or lacks private key"; return NetworkController::NETCONF_QUERY_INTERNAL_SERVER_ERROR; } if (signingId.address().toInt() != (nwid >> 24)) { netconf["error"] = "signing identity address does not match most significant 40 bits of network ID"; return NetworkController::NETCONF_QUERY_INTERNAL_SERVER_ERROR; } NetworkRecord network; memset(&network,0,sizeof(network)); Utils::snprintf(network.id,sizeof(network.id),"%.16llx",(unsigned long long)nwid); MemberRecord member; memset(&member,0,sizeof(member)); Utils::snprintf(member.nodeId,sizeof(member.nodeId),"%.10llx",(unsigned long long)identity.address().toInt()); // Create/update Node record and check identity fully -- identities are first-come-first-claim sqlite3_reset(_sGetNodeIdentity); sqlite3_bind_text(_sGetNodeIdentity,1,member.nodeId,10,SQLITE_STATIC); if (sqlite3_step(_sGetNodeIdentity) == SQLITE_ROW) { try { Identity alreadyKnownIdentity((const char *)sqlite3_column_text(_sGetNodeIdentity,0)); if (alreadyKnownIdentity == identity) { char lastSeen[64]; Utils::snprintf(lastSeen,sizeof(lastSeen),"%llu",(unsigned long long)OSUtils::now()); if (fromAddr) { std::string lastAt(fromAddr.toString()); sqlite3_reset(_sUpdateNode); sqlite3_bind_text(_sUpdateNode,1,lastAt.c_str(),-1,SQLITE_STATIC); sqlite3_bind_text(_sUpdateNode,2,lastSeen,-1,SQLITE_STATIC); sqlite3_bind_text(_sUpdateNode,3,member.nodeId,10,SQLITE_STATIC); sqlite3_step(_sUpdateNode); } else { // fromAddr is empty, which means this was a relayed packet -- so don't update lastAt sqlite3_reset(_sUpdateNode2); sqlite3_bind_text(_sUpdateNode2,1,lastSeen,-1,SQLITE_STATIC); sqlite3_bind_text(_sUpdateNode2,2,member.nodeId,10,SQLITE_STATIC); sqlite3_step(_sUpdateNode2); } } else { return NetworkController::NETCONF_QUERY_ACCESS_DENIED; } } catch ( ... ) { // identity stored in database is not valid or is NULL return NetworkController::NETCONF_QUERY_ACCESS_DENIED; } } else { std::string idstr(identity.toString(false)); std::string lastAt; if (fromAddr) lastAt = fromAddr.toString(); char lastSeen[64]; Utils::snprintf(lastSeen,sizeof(lastSeen),"%llu",(unsigned long long)OSUtils::now()); sqlite3_reset(_sCreateNode); sqlite3_bind_text(_sCreateNode,1,member.nodeId,10,SQLITE_STATIC); sqlite3_bind_text(_sCreateNode,2,idstr.c_str(),-1,SQLITE_STATIC); sqlite3_bind_text(_sCreateNode,3,lastAt.c_str(),-1,SQLITE_STATIC); sqlite3_bind_text(_sCreateNode,4,lastSeen,-1,SQLITE_STATIC); sqlite3_bind_text(_sCreateNode,5,lastSeen,-1,SQLITE_STATIC); if (sqlite3_step(_sCreateNode) != SQLITE_DONE) { netconf["error"] = "unable to create new node record"; return NetworkController::NETCONF_QUERY_INTERNAL_SERVER_ERROR; } } // Fetch Network record sqlite3_reset(_sGetNetworkById); sqlite3_bind_text(_sGetNetworkById,1,network.id,16,SQLITE_STATIC); if (sqlite3_step(_sGetNetworkById) == SQLITE_ROW) { network.name = (const char *)sqlite3_column_text(_sGetNetworkById,0); network.isPrivate = (sqlite3_column_int(_sGetNetworkById,1) > 0); network.enableBroadcast = (sqlite3_column_int(_sGetNetworkById,2) > 0); network.allowPassiveBridging = (sqlite3_column_int(_sGetNetworkById,3) > 0); network.v4AssignMode = (const char *)sqlite3_column_text(_sGetNetworkById,4); network.v6AssignMode = (const char *)sqlite3_column_text(_sGetNetworkById,5); network.multicastLimit = sqlite3_column_int(_sGetNetworkById,6); network.creationTime = (uint64_t)sqlite3_column_int64(_sGetNetworkById,7); network.revision = (uint64_t)sqlite3_column_int64(_sGetNetworkById,8); } else return NetworkController::NETCONF_QUERY_OBJECT_NOT_FOUND; // Fetch Member record bool foundMember = false; sqlite3_reset(_sGetMember); sqlite3_bind_text(_sGetMember,1,network.id,16,SQLITE_STATIC); sqlite3_bind_text(_sGetMember,2,member.nodeId,10,SQLITE_STATIC); if (sqlite3_step(_sGetMember) == SQLITE_ROW) { foundMember = true; member.rowid = (int64_t)sqlite3_column_int64(_sGetMember,0); member.authorized = (sqlite3_column_int(_sGetMember,1) > 0); member.activeBridge = (sqlite3_column_int(_sGetMember,2) > 0); } // Create Member record for unknown nodes, auto-authorizing if network is public if (!foundMember) { member.authorized = (network.isPrivate ? false : true); member.activeBridge = false; sqlite3_reset(_sCreateMember); sqlite3_bind_text(_sCreateMember,1,network.id,16,SQLITE_STATIC); sqlite3_bind_text(_sCreateMember,2,member.nodeId,10,SQLITE_STATIC); sqlite3_bind_int(_sCreateMember,3,(member.authorized ? 0 : 1)); if (sqlite3_step(_sCreateMember) != SQLITE_DONE) { netconf["error"] = "unable to create new member record"; return NetworkController::NETCONF_QUERY_INTERNAL_SERVER_ERROR; } member.rowid = (int64_t)sqlite3_last_insert_rowid(_db); } // Check member authorization if (!member.authorized) return NetworkController::NETCONF_QUERY_ACCESS_DENIED; // If netconf is unchanged from client reported revision, just tell client they're up to date if ((haveRevision > 0)&&(haveRevision == network.revision)) return NetworkController::NETCONF_QUERY_OK_BUT_NOT_NEWER; // Create and sign netconf netconf.clear(); { char tss[24],rs[24]; Utils::snprintf(tss,sizeof(tss),"%.16llx",(unsigned long long)OSUtils::now()); Utils::snprintf(rs,sizeof(rs),"%.16llx",(unsigned long long)network.revision); netconf[ZT_NETWORKCONFIG_DICT_KEY_TIMESTAMP] = tss; netconf[ZT_NETWORKCONFIG_DICT_KEY_REVISION] = rs; netconf[ZT_NETWORKCONFIG_DICT_KEY_NETWORK_ID] = network.id; netconf[ZT_NETWORKCONFIG_DICT_KEY_ISSUED_TO] = member.nodeId; netconf[ZT_NETWORKCONFIG_DICT_KEY_PRIVATE] = network.isPrivate ? "1" : "0"; netconf[ZT_NETWORKCONFIG_DICT_KEY_NAME] = (network.name) ? network.name : ""; netconf[ZT_NETWORKCONFIG_DICT_KEY_ENABLE_BROADCAST] = network.enableBroadcast ? "1" : "0"; netconf[ZT_NETWORKCONFIG_DICT_KEY_ALLOW_PASSIVE_BRIDGING] = network.allowPassiveBridging ? "1" : "0"; { std::vector allowedEtherTypes; sqlite3_reset(_sGetEtherTypesFromRuleTable); sqlite3_bind_text(_sGetEtherTypesFromRuleTable,1,network.id,16,SQLITE_STATIC); while (sqlite3_step(_sGetEtherTypesFromRuleTable) == SQLITE_ROW) { int et = sqlite3_column_int(_sGetEtherTypesFromRuleTable,0); if ((et >= 0)&&(et <= 0xffff)) allowedEtherTypes.push_back(et); } std::sort(allowedEtherTypes.begin(),allowedEtherTypes.end()); std::unique(allowedEtherTypes.begin(),allowedEtherTypes.end()); std::string allowedEtherTypesCsv; for(std::vector::const_iterator i(allowedEtherTypes.begin());i!=allowedEtherTypes.end();++i) { if (allowedEtherTypesCsv.length()) allowedEtherTypesCsv.push_back(','); char tmp[16]; Utils::snprintf(tmp,sizeof(tmp),"%.4x",(unsigned int)*i); allowedEtherTypesCsv.append(tmp); } netconf[ZT_NETWORKCONFIG_DICT_KEY_ALLOWED_ETHERNET_TYPES] = allowedEtherTypesCsv; } { std::string multicastRates; sqlite3_reset(_sGetMulticastRates); sqlite3_bind_text(_sGetMulticastRates,1,network.id,16,SQLITE_STATIC); while (sqlite3_step(_sGetMulticastRates) == SQLITE_ROW) { const char *mac = (const char *)sqlite3_column_text(_sGetMulticastRates,0); if ((mac)&&(strlen(mac) == 12)) { unsigned long adi = ((unsigned long)sqlite3_column_int64(_sGetMulticastRates,1)) & 0xffffffff; char tmp[256]; Utils::snprintf(tmp,sizeof(tmp),"%s/%.4lx=%x,%x,%x\n",mac,adi,sqlite3_column_int(_sGetMulticastRates,2),sqlite3_column_int(_sGetMulticastRates,3),sqlite3_column_int(_sGetMulticastRates,4)); multicastRates.append(tmp); } } if (multicastRates.length() > 0) netconf[ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_RATES] = multicastRates; if (network.multicastLimit > 0) { char ml[16]; Utils::snprintf(ml,sizeof(ml),"%lx",(unsigned long)network.multicastLimit); netconf[ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_LIMIT] = ml; } } { std::string activeBridges; sqlite3_reset(_sGetActiveBridges); sqlite3_bind_text(_sGetActiveBridges,1,network.id,16,SQLITE_STATIC); while (sqlite3_step(_sGetActiveBridges) == SQLITE_ROW) { const char *ab = (const char *)sqlite3_column_text(_sGetActiveBridges,0); if ((ab)&&(strlen(ab) == 10)) { if (activeBridges.length()) activeBridges.push_back(','); activeBridges.append(ab); } if (activeBridges.length() > 1024) // sanity check -- you can't have too many active bridges at the moment break; } if (activeBridges.length()) netconf[ZT_NETWORKCONFIG_DICT_KEY_ACTIVE_BRIDGES] = activeBridges; } { std::string relays; sqlite3_reset(_sGetRelays); sqlite3_bind_text(_sGetRelays,1,network.id,16,SQLITE_STATIC); while (sqlite3_step(_sGetRelays) == SQLITE_ROW) { const char *n = (const char *)sqlite3_column_text(_sGetRelays,0); const char *a = (const char *)sqlite3_column_text(_sGetRelays,1); if ((n)&&(a)) { Address node(n); InetAddress addr(a); if ((node)&&(addr)) { if (relays.length()) relays.push_back(','); relays.append(node.toString()); relays.push_back(';'); relays.append(addr.toString()); } } } if (relays.length()) netconf[ZT_NETWORKCONFIG_DICT_KEY_RELAYS] = relays; } if ((network.v4AssignMode)&&(!strcmp(network.v4AssignMode,"zt"))) { std::string v4s; sqlite3_reset(_sGetIpAssignmentsForNode); sqlite3_bind_text(_sGetIpAssignmentsForNode,1,network.id,16,SQLITE_STATIC); sqlite3_bind_text(_sGetIpAssignmentsForNode,2,member.nodeId,10,SQLITE_STATIC); sqlite3_bind_int(_sGetIpAssignmentsForNode,3,4); // 4 == IPv4 while (sqlite3_step(_sGetIpAssignmentsForNode) == SQLITE_ROW) { const unsigned char *ip = (const unsigned char *)sqlite3_column_blob(_sGetIpAssignmentsForNode,0); int ipNetmaskBits = sqlite3_column_int(_sGetIpAssignmentsForNode,1); if ((ip)&&(sqlite3_column_bytes(_sGetIpAssignmentsForNode,0) >= 4)&&(ipNetmaskBits > 0)&&(ipNetmaskBits <= 32)) { char tmp[32]; Utils::snprintf(tmp,sizeof(tmp),"%d.%d.%d.%d/%d",(int)ip[0],(int)ip[1],(int)ip[2],(int)ip[3],ipNetmaskBits); if (v4s.length()) v4s.push_back(','); v4s.append(tmp); } } if (!v4s.length()) { // Attempt to auto-assign an IPv4 address from an available pool if one isn't assigned already sqlite3_reset(_sGetIpAssignmentPools); sqlite3_bind_text(_sGetIpAssignmentPools,1,network.id,16,SQLITE_STATIC); sqlite3_bind_int(_sGetIpAssignmentPools,2,4); // 4 == IPv4 while ((!v4s.length())&&(sqlite3_step(_sGetIpAssignmentPools) == SQLITE_ROW)) { const void *ipNetwork = sqlite3_column_blob(_sGetIpAssignmentPools,0); int ipNetmaskBits = sqlite3_column_int(_sGetIpAssignmentPools,1); if ((ipNetwork)&&(sqlite3_column_bytes(_sGetIpAssignmentPools,0) >= 4)&&(ipNetmaskBits > 0)&&(ipNetmaskBits < 32)) { uint32_t n = Utils::ntoh(*((const uint32_t *)ipNetwork)); // network in host byte order e.g. 192.168.0.0 uint32_t m = 0xffffffff << (32 - ipNetmaskBits); // netmask e.g. 0xffffff00 for '24' since 32 - 24 == 8 n &= m; // sanity check -- ipNetwork bits right of netmask bit count should be zero uint32_t im = ~m; // inverse mask, e.g. 0x000000ff for a netmask of 0xffffff00 uint32_t abits = (uint32_t)(identity.address().toInt() & 0xffffffff); // least significant bits of member ZT address for(uint32_t k=0;k<=im;++k) { // try up to the number of IPs possible in this network uint32_t ip = ( ((abits + k) & im) | n ); // build IP using bits from ZT address of member + k if ((ip & 0xffffff00) == 0) continue; // no IPs ending in .0 if (ip == n) continue; // no IPs equal to the network e.g. 10.0.0.0 for 10.0.0.0/255.255.255.0 if (ip == (n | im)) continue; // broadcast address e.g. 10.0.0.255 for 10.0.0.0/255.255.255.0 uint32_t nip = Utils::hton(ip); // IP in big-endian "network" byte order char ipBlob[16]; memset(ipBlob,0,12); memcpy(ipBlob + 12,&nip,4); sqlite3_reset(_sCheckIfIpIsAllocated); sqlite3_bind_text(_sCheckIfIpIsAllocated,1,network.id,16,SQLITE_STATIC); sqlite3_bind_blob(_sCheckIfIpIsAllocated,2,(const void *)ipBlob,16,SQLITE_STATIC); sqlite3_bind_int(_sCheckIfIpIsAllocated,3,4); // 4 == IPv4 if (sqlite3_step(_sCheckIfIpIsAllocated) != SQLITE_ROW) { // No rows returned, so the IP is available sqlite3_reset(_sAllocateIp); sqlite3_bind_text(_sAllocateIp,1,network.id,16,SQLITE_STATIC); sqlite3_bind_text(_sAllocateIp,2,member.nodeId,10,SQLITE_STATIC); sqlite3_bind_blob(_sAllocateIp,3,(const void *)ipBlob,16,SQLITE_STATIC); sqlite3_bind_int(_sAllocateIp,4,ipNetmaskBits); sqlite3_bind_int(_sAllocateIp,5,4); // 4 == IPv4 if (sqlite3_step(_sAllocateIp) == SQLITE_DONE) { char tmp[32]; Utils::snprintf(tmp,sizeof(tmp),"%d.%d.%d.%d/%d",(int)((ip >> 24) & 0xff),(int)((ip >> 16) & 0xff),(int)((ip >> 8) & 0xff),(int)(ip & 0xff),ipNetmaskBits); if (v4s.length()) v4s.push_back(','); v4s.append(tmp); break; // IP found and reserved! v4s containing something will cause outer while() to break. } } } } } } if (v4s.length()) netconf[ZT_NETWORKCONFIG_DICT_KEY_IPV4_STATIC] = v4s; } // TODO: IPv6 auto-assign once it's supported in UI if (network.isPrivate) { CertificateOfMembership com(network.revision,ZT1_CERTIFICATE_OF_MEMBERSHIP_REVISION_MAX_DELTA,nwid,identity.address()); if (com.sign(signingId)) // basically can't fail unless our identity is invalid netconf[ZT_NETWORKCONFIG_DICT_KEY_CERTIFICATE_OF_MEMBERSHIP] = com.toString(); else { netconf["error"] = "unable to sign COM"; return NETCONF_QUERY_INTERNAL_SERVER_ERROR; } } if (!netconf.sign(signingId,OSUtils::now())) { netconf["error"] = "unable to sign netconf dictionary"; return NETCONF_QUERY_INTERNAL_SERVER_ERROR; } } return NetworkController::NETCONF_QUERY_OK; } unsigned int SqliteNetworkController::handleControlPlaneHttpGET( const std::vector &path, const std::map &urlArgs, const std::map &headers, const std::string &body, std::string &responseBody, std::string &responseContentType) { Mutex::Lock _l(_lock); return _doCPGet(path,urlArgs,headers,body,responseBody,responseContentType); } unsigned int SqliteNetworkController::handleControlPlaneHttpPOST( const std::vector &path, const std::map &urlArgs, const std::map &headers, const std::string &body, std::string &responseBody, std::string &responseContentType) { if (path.empty()) return 404; Mutex::Lock _l(_lock); if (path[0] == "network") { if ((path.size() >= 2)&&(path[1].length() == 16)) { uint64_t nwid = Utils::hexStrToU64(path[1].c_str()); char nwids[24]; Utils::snprintf(nwids,sizeof(nwids),"%.16llx",(unsigned long long)nwid); int64_t revision = 0; sqlite3_reset(_sGetNetworkRevision); sqlite3_bind_text(_sGetNetworkRevision,1,nwids,16,SQLITE_STATIC); bool networkExists = false; if (sqlite3_step(_sGetNetworkRevision) == SQLITE_ROW) { networkExists = true; revision = sqlite3_column_int64(_sGetNetworkRevision,0); } if (path.size() >= 3) { if (!networkExists) return 404; if ((path.size() == 4)&&(path[2] == "member")&&(path[3].length() == 10)) { uint64_t address = Utils::hexStrToU64(path[3].c_str()); char addrs[24]; Utils::snprintf(addrs,sizeof(addrs),"%.10llx",address); int64_t memberRowId = 0; sqlite3_reset(_sGetMember); sqlite3_bind_text(_sGetMember,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sGetMember,2,addrs,10,SQLITE_STATIC); bool memberExists = false; if (sqlite3_step(_sGetMember) == SQLITE_ROW) { memberExists = true; memberRowId = sqlite3_column_int64(_sGetMember,0); } if (!memberExists) { sqlite3_reset(_sCreateMember); sqlite3_bind_text(_sCreateMember,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sCreateMember,2,addrs,10,SQLITE_STATIC); sqlite3_bind_int(_sCreateMember,3,0); if (sqlite3_step(_sCreateMember) != SQLITE_DONE) return 500; memberRowId = (int64_t)sqlite3_last_insert_rowid(_db); } json_value *j = json_parse(body.c_str(),body.length()); if (j) { if (j->type == json_object) { for(unsigned int k=0;ku.object.length;++k) { if (!strcmp(j->u.object.values[k].name,"authorized")) { if (j->u.object.values[k].value->type == json_boolean) { sqlite3_stmt *stmt = (sqlite3_stmt *)0; if (sqlite3_prepare_v2(_db,"UPDATE Member SET authorized = ? WHERE rowid = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_int(stmt,1,(j->u.object.values[k].value->u.boolean == 0) ? 0 : 1); sqlite3_bind_int64(stmt,2,memberRowId); sqlite3_step(stmt); sqlite3_finalize(stmt); } } else if (!strcmp(j->u.object.values[k].name,"activeBridge")) { if (j->u.object.values[k].value->type == json_boolean) { sqlite3_stmt *stmt = (sqlite3_stmt *)0; if (sqlite3_prepare_v2(_db,"UPDATE Member SET activeBridge = ? WHERE rowid = ?",-1,&stmt,(const char **)0) == SQLITE_OK) { sqlite3_bind_int(stmt,1,(j->u.object.values[k].value->u.boolean == 0) ? 0 : 1); sqlite3_bind_int64(stmt,2,memberRowId); sqlite3_step(stmt); sqlite3_finalize(stmt); } } } else if (!strcmp(j->u.object.values[k].name,"ipAssignments")) { if (j->u.object.values[k].value->type == json_array) { sqlite3_reset(_sDeleteIpAllocations); sqlite3_bind_text(_sDeleteIpAllocations,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sDeleteIpAllocations,2,addrs,10,SQLITE_STATIC); sqlite3_step(_sDeleteIpAllocations); for(unsigned int kk=0;kku.object.values[k].value->u.array.length;++kk) { json_value *ipalloc = j->u.object.values[k].value->u.array.values[kk]; if (ipalloc->type == json_string) { InetAddress a(ipalloc->u.string.ptr); char ipBlob[16]; int ipVersion = 0; switch(a.ss_family) { case AF_INET: if ((a.netmaskBits() > 0)&&(a.netmaskBits() <= 32)) { memset(ipBlob,0,12); memcpy(ipBlob + 12,a.rawIpData(),4); ipVersion = 4; } break; case AF_INET6: if ((a.netmaskBits() > 0)&&(a.netmaskBits() <= 128)) { memcpy(ipBlob,a.rawIpData(),16); ipVersion = 6; } break; } if (ipVersion > 0) { sqlite3_reset(_sAllocateIp); sqlite3_bind_text(_sAllocateIp,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sAllocateIp,2,addrs,10,SQLITE_STATIC); sqlite3_bind_blob(_sAllocateIp,3,(const void *)ipBlob,16,SQLITE_STATIC); sqlite3_bind_int(_sAllocateIp,4,(int)a.netmaskBits()); sqlite3_bind_int(_sAllocateIp,5,ipVersion); sqlite3_step(_sAllocateIp); } } } } } } } json_value_free(j); } return _doCPGet(path,urlArgs,headers,body,responseBody,responseContentType); } // else 404 } else { if (!networkExists) { if (path[1].substr(10) == "______") { // A special POST /network/##########______ feature lets users create a network // with an arbitrary unused network ID. nwid = 0; uint64_t nwidPrefix = (Utils::hexStrToU64(path[1].substr(0,10).c_str()) << 24) & 0xffffffffff000000ULL; uint64_t nwidPostfix = 0; Utils::getSecureRandom(&nwidPostfix,sizeof(nwidPostfix)); nwidPostfix &= 0xffffffULL; uint64_t nwidOriginalPostfix = nwidPostfix; do { uint64_t tryNwid = nwidPrefix | nwidPostfix; Utils::snprintf(nwids,sizeof(nwids),"%.16llx",(unsigned long long)tryNwid); sqlite3_reset(_sGetNetworkRevision); sqlite3_bind_text(_sGetNetworkRevision,1,nwids,16,SQLITE_STATIC); if (sqlite3_step(_sGetNetworkRevision) != SQLITE_ROW) { nwid = tryNwid; break; } ++nwidPostfix; nwidPostfix &= 0xffffffULL; } while (nwidPostfix != nwidOriginalPostfix); // 503 means we have no more free IDs for this prefix. You shouldn't host anywhere // near 16 million networks on the same controller, so shouldn't happen. if (!nwid) return 503; } sqlite3_reset(_sCreateNetwork); sqlite3_bind_text(_sCreateNetwork,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sCreateNetwork,2,nwids,16,SQLITE_STATIC); // default name, will be changed below if a name is specified in JSON sqlite3_bind_int64(_sCreateNetwork,3,(long long)OSUtils::now()); if (sqlite3_step(_sCreateNetwork) != SQLITE_DONE) return 500; } json_value *j = json_parse(body.c_str(),body.length()); if (j) { if (j->type == json_object) { for(unsigned int k=0;ku.object.length;++k) { sqlite3_stmt *stmt = (sqlite3_stmt *)0; if (!strcmp(j->u.object.values[k].name,"name")) { if ((j->u.object.values[k].value->type == json_string)&&(j->u.object.values[k].value->u.string.ptr[0])) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET name = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_text(stmt,1,j->u.object.values[k].value->u.string.ptr,-1,SQLITE_STATIC); } } else if (!strcmp(j->u.object.values[k].name,"private")) { if (j->u.object.values[k].value->type == json_boolean) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET private = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_int(stmt,1,(j->u.object.values[k].value->u.boolean == 0) ? 0 : 1); } } else if (!strcmp(j->u.object.values[k].name,"enableBroadcast")) { if (j->u.object.values[k].value->type == json_boolean) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET enableBroadcast = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_int(stmt,1,(j->u.object.values[k].value->u.boolean == 0) ? 0 : 1); } } else if (!strcmp(j->u.object.values[k].name,"allowPassiveBridging")) { if (j->u.object.values[k].value->type == json_boolean) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET allowPassiveBridging = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_int(stmt,1,(j->u.object.values[k].value->u.boolean == 0) ? 0 : 1); } } else if (!strcmp(j->u.object.values[k].name,"v4AssignMode")) { if (j->u.object.values[k].value->type == json_string) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET v4AssignMode = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_text(stmt,1,j->u.object.values[k].value->u.string.ptr,-1,SQLITE_STATIC); } } else if (!strcmp(j->u.object.values[k].name,"v6AssignMode")) { if (j->u.object.values[k].value->type == json_string) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET v6AssignMode = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_text(stmt,1,j->u.object.values[k].value->u.string.ptr,-1,SQLITE_STATIC); } } else if (!strcmp(j->u.object.values[k].name,"multicastLimit")) { if (j->u.object.values[k].value->type == json_integer) { if (sqlite3_prepare_v2(_db,"UPDATE Network SET multicastLimit = ? WHERE id = ?",-1,&stmt,(const char **)0) == SQLITE_OK) sqlite3_bind_int(stmt,1,(int)j->u.object.values[k].value->u.integer); } } else if (!strcmp(j->u.object.values[k].name,"relays")) { if (j->u.object.values[k].value->type == json_array) { std::map nodeIdToPhyAddress; for(unsigned int kk=0;kku.object.values[k].value->u.array.length;++kk) { json_value *relay = j->u.object.values[k].value->u.array.values[kk]; const char *address = (const char *)0; const char *phyAddress = (const char *)0; if ((relay)&&(relay->type == json_object)) { for(unsigned int rk=0;rku.object.length;++rk) { if ((!strcmp(relay->u.object.values[rk].name,"address"))&&(relay->u.object.values[rk].value->type == json_string)) address = relay->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(relay->u.object.values[rk].name,"phyAddress"))&&(relay->u.object.values[rk].value->type == json_string)) phyAddress = relay->u.object.values[rk].value->u.string.ptr; } } if ((address)&&(phyAddress)) nodeIdToPhyAddress[Address(address)] = InetAddress(phyAddress); } sqlite3_reset(_sDeleteRelaysForNetwork); sqlite3_bind_text(_sDeleteRelaysForNetwork,1,nwids,16,SQLITE_STATIC); sqlite3_step(_sDeleteRelaysForNetwork); for(std::map::iterator rl(nodeIdToPhyAddress.begin());rl!=nodeIdToPhyAddress.end();++rl) { sqlite3_reset(_sCreateRelay); sqlite3_bind_text(_sCreateRelay,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sCreateRelay,2,rl->first.toString().c_str(),-1,SQLITE_STATIC); sqlite3_bind_text(_sCreateRelay,3,rl->second.toString().c_str(),-1,SQLITE_STATIC); sqlite3_step(_sCreateRelay); } } } else if (!strcmp(j->u.object.values[k].name,"ipAssignmentPools")) { if (j->u.object.values[k].value->type == json_array) { std::set pools; for(unsigned int kk=0;kku.object.values[k].value->u.array.length;++kk) { json_value *pool = j->u.object.values[k].value->u.array.values[kk]; const char *net = (const char *)0; int bits = 0; if ((pool)&&(pool->type == json_object)) { for(unsigned int rk=0;rku.object.length;++rk) { if ((!strcmp(pool->u.object.values[rk].name,"network"))&&(pool->u.object.values[rk].value->type == json_string)) net = pool->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(pool->u.object.values[rk].name,"netmaskBits"))&&(pool->u.object.values[rk].value->type == json_integer)) bits = (int)pool->u.object.values[rk].value->u.integer; } } if ((net)&&(bits > 0)) { char tmp[128]; Utils::snprintf(tmp,sizeof(tmp),"%s/%d",net,bits); InetAddress n(tmp); if (((n.ss_family == AF_INET)&&(n.netmaskBits() < 32))||((n.ss_family == AF_INET6)&&(n.netmaskBits() < 128))) pools.insert(n); } sqlite3_reset(_sDeleteIpAssignmentPoolsForNetwork); sqlite3_bind_text(_sDeleteIpAssignmentPoolsForNetwork,1,nwids,16,SQLITE_STATIC); sqlite3_step(_sDeleteIpAssignmentPoolsForNetwork); for(std::set::const_iterator p(pools.begin());p!=pools.end();++p) { sqlite3_reset(_sCreateIpAssignmentPool); sqlite3_bind_text(_sCreateIpAssignmentPool,1,nwids,16,SQLITE_STATIC); sqlite3_bind_blob(_sCreateIpAssignmentPool,2,p->rawIpData(),(p->ss_family == AF_INET6) ? 16 : 4,SQLITE_STATIC); sqlite3_bind_int(_sCreateIpAssignmentPool,3,(int)p->netmaskBits()); sqlite3_bind_int(_sCreateIpAssignmentPool,4,(p->ss_family == AF_INET6) ? 6 : 4); sqlite3_step(_sCreateIpAssignmentPool); } } } } else if (!strcmp(j->u.object.values[k].name,"rules")) { if (j->u.object.values[k].value->type == json_array) { sqlite3_reset(_sDeleteRulesForNetwork); sqlite3_bind_text(_sDeleteRulesForNetwork,1,nwids,16,SQLITE_STATIC); sqlite3_step(_sDeleteRulesForNetwork); for(unsigned int kk=0;kku.object.values[k].value->u.array.length;++kk) { json_value *rj = j->u.object.values[k].value->u.array.values[kk]; if ((rj)&&(rj->type == json_object)) { struct { // NULL pointers indicate missing or NULL -- wildcards const json_int_t *ruleId; const char *nodeId; const json_int_t *vlanId; const json_int_t *vlanPcp; const json_int_t *etherType; const char *macSource; const char *macDest; const char *ipSource; const char *ipDest; const json_int_t *ipTos; const json_int_t *ipProtocol; const json_int_t *ipSourcePort; const json_int_t *ipDestPort; const char *action; } rule; memset(&rule,0,sizeof(rule)); for(unsigned int rk=0;rku.object.length;++rk) { if ((!strcmp(rj->u.object.values[rk].name,"ruleId"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.ruleId = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"nodeId"))&&(rj->u.object.values[rk].value->type == json_string)) rule.nodeId = rj->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(rj->u.object.values[rk].name,"vlanId"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.vlanId = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"vlanPcp"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.vlanPcp = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"etherType"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.etherType = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"macSource"))&&(rj->u.object.values[rk].value->type == json_string)) rule.macSource = rj->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(rj->u.object.values[rk].name,"macDest"))&&(rj->u.object.values[rk].value->type == json_string)) rule.macDest = rj->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(rj->u.object.values[rk].name,"ipSource"))&&(rj->u.object.values[rk].value->type == json_string)) rule.ipSource = rj->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(rj->u.object.values[rk].name,"ipDest"))&&(rj->u.object.values[rk].value->type == json_string)) rule.ipDest = rj->u.object.values[rk].value->u.string.ptr; else if ((!strcmp(rj->u.object.values[rk].name,"ipTos"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.ipTos = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"ipProtocol"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.ipProtocol = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"ipSourcePort"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.ipSourcePort = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"ipDestPort"))&&(rj->u.object.values[rk].value->type == json_integer)) rule.ipDestPort = &(rj->u.object.values[rk].value->u.integer); else if ((!strcmp(rj->u.object.values[rk].name,"action"))&&(rj->u.object.values[rk].value->type == json_string)) rule.action = rj->u.object.values[rk].value->u.string.ptr; } if ((rule.ruleId)&&(rule.action)&&(rule.action[0])) { char mactmp1[16],mactmp2[16]; sqlite3_reset(_sCreateRule); sqlite3_bind_text(_sCreateRule,1,nwids,16,SQLITE_STATIC); sqlite3_bind_int64(_sCreateRule,2,*rule.ruleId); for(int i=3;i<=14;++i) sqlite3_bind_null(_sCreateRule,i); if ((rule.nodeId)&&(strlen(rule.nodeId) == 10)) sqlite3_bind_text(_sCreateRule,3,rule.nodeId,10,SQLITE_STATIC); if (rule.vlanId) sqlite3_bind_int(_sCreateRule,4,(int)*rule.vlanId); if (rule.vlanPcp) sqlite3_bind_int(_sCreateRule,5,(int)*rule.vlanPcp); if (rule.etherType) sqlite3_bind_int(_sCreateRule,6,(int)*rule.etherType & (int)0xffff); if (rule.macSource) { MAC m(rule.macSource); Utils::snprintf(mactmp1,sizeof(mactmp1),"%.12llx",(unsigned long long)m.toInt()); sqlite3_bind_text(_sCreateRule,7,mactmp1,-1,SQLITE_STATIC); } if (rule.macDest) { MAC m(rule.macDest); Utils::snprintf(mactmp2,sizeof(mactmp2),"%.12llx",(unsigned long long)m.toInt()); sqlite3_bind_text(_sCreateRule,8,mactmp2,-1,SQLITE_STATIC); } if (rule.ipSource) sqlite3_bind_text(_sCreateRule,9,rule.ipSource,-1,SQLITE_STATIC); if (rule.ipDest) sqlite3_bind_text(_sCreateRule,10,rule.ipDest,-1,SQLITE_STATIC); if (rule.ipTos) sqlite3_bind_int(_sCreateRule,11,(int)*rule.ipTos); if (rule.ipProtocol) sqlite3_bind_int(_sCreateRule,12,(int)*rule.ipProtocol); if (rule.ipSourcePort) sqlite3_bind_int(_sCreateRule,13,(int)*rule.ipSourcePort & (int)0xffff); if (rule.ipDestPort) sqlite3_bind_int(_sCreateRule,14,(int)*rule.ipDestPort & (int)0xffff); sqlite3_bind_text(_sCreateRule,15,rule.action,-1,SQLITE_STATIC); sqlite3_step(_sCreateRule); } } } } } if (stmt) { sqlite3_bind_text(stmt,2,nwids,16,SQLITE_STATIC); sqlite3_step(stmt); sqlite3_finalize(stmt); } } } json_value_free(j); } sqlite3_reset(_sSetNetworkRevision); sqlite3_bind_int64(_sSetNetworkRevision,1,revision += 1); sqlite3_bind_text(_sSetNetworkRevision,2,nwids,16,SQLITE_STATIC); sqlite3_step(_sSetNetworkRevision); return _doCPGet(path,urlArgs,headers,body,responseBody,responseContentType); } } // else 404 } // else 404 return 404; } unsigned int SqliteNetworkController::handleControlPlaneHttpDELETE( const std::vector &path, const std::map &urlArgs, const std::map &headers, const std::string &body, std::string &responseBody, std::string &responseContentType) { if (path.empty()) return 404; Mutex::Lock _l(_lock); if (path[0] == "network") { if ((path.size() >= 2)&&(path[1].length() == 16)) { uint64_t nwid = Utils::hexStrToU64(path[1].c_str()); char nwids[24]; Utils::snprintf(nwids,sizeof(nwids),"%.16llx",(unsigned long long)nwid); if (path.size() >= 3) { if ((path.size() == 4)&&(path[2] == "member")&&(path[3].length() == 10)) { uint64_t address = Utils::hexStrToU64(path[3].c_str()); char addrs[24]; Utils::snprintf(addrs,sizeof(addrs),"%.10llx",address); sqlite3_reset(_sDeleteIpAllocations); sqlite3_bind_text(_sDeleteIpAllocations,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sDeleteIpAllocations,2,addrs,10,SQLITE_STATIC); if (sqlite3_step(_sDeleteIpAllocations) == SQLITE_DONE) { sqlite3_reset(_sDeleteMember); sqlite3_bind_text(_sDeleteMember,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sDeleteMember,2,addrs,10,SQLITE_STATIC); if (sqlite3_step(_sDeleteMember) != SQLITE_DONE) return 500; } else return 500; return 200; } } else { sqlite3_reset(_sDeleteNetworkAndRelated); for(int i=1;i<=7;++i) sqlite3_bind_text(_sDeleteNetworkAndRelated,i,nwids,16,SQLITE_STATIC); return ((sqlite3_step(_sDeleteNetworkAndRelated) == SQLITE_DONE) ? 200 : 500); } } // else 404 } // else 404 return 404; } unsigned int SqliteNetworkController::_doCPGet( const std::vector &path, const std::map &urlArgs, const std::map &headers, const std::string &body, std::string &responseBody, std::string &responseContentType) { // Assumes _lock is locked char json[16384]; if ((path.size() > 0)&&(path[0] == "network")) { if ((path.size() >= 2)&&(path[1].length() == 16)) { uint64_t nwid = Utils::hexStrToU64(path[1].c_str()); char nwids[24]; Utils::snprintf(nwids,sizeof(nwids),"%.16llx",(unsigned long long)nwid); if (path.size() >= 3) { if ((path.size() == 4)&&(path[2] == "member")&&(path[3].length() == 10)) { uint64_t address = Utils::hexStrToU64(path[3].c_str()); char addrs[24]; Utils::snprintf(addrs,sizeof(addrs),"%.10llx",address); sqlite3_reset(_sGetMember2); sqlite3_bind_text(_sGetMember2,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sGetMember2,2,addrs,10,SQLITE_STATIC); if (sqlite3_step(_sGetMember2) == SQLITE_ROW) { Utils::snprintf(json,sizeof(json), "{\n" "\t\"nwid\": \"%s\",\n" "\t\"address\": \"%s\",\n" "\t\"authorized\": %s,\n" "\t\"activeBridge\": %s,\n" "\t\"lastAt\": \"%s\",\n" "\t\"lastSeen\": %llu,\n" "\t\"firstSeen\": %llu,\n" "\t\"identity\": \"%s\",\n" "\t\"ipAssignments\": [", nwids, addrs, (sqlite3_column_int(_sGetMember2,0) > 0) ? "true" : "false", (sqlite3_column_int(_sGetMember2,1) > 0) ? "true" : "false", _jsonEscape((const char *)sqlite3_column_text(_sGetMember2,3)).c_str(), (unsigned long long)sqlite3_column_int64(_sGetMember2,4), (unsigned long long)sqlite3_column_int64(_sGetMember2,5), _jsonEscape((const char *)sqlite3_column_text(_sGetMember2,2)).c_str()); responseBody = json; sqlite3_reset(_sGetIpAssignmentsForNode2); sqlite3_bind_text(_sGetIpAssignmentsForNode2,1,nwids,16,SQLITE_STATIC); sqlite3_bind_text(_sGetIpAssignmentsForNode2,2,addrs,10,SQLITE_STATIC); bool firstIp = true; while (sqlite3_step(_sGetIpAssignmentPools2) == SQLITE_ROW) { InetAddress ip((const void *)sqlite3_column_blob(_sGetIpAssignmentsForNode2,0),(sqlite3_column_int(_sGetIpAssignmentsForNode2,2) == 6) ? 16 : 4,(unsigned int)sqlite3_column_int(_sGetIpAssignmentPools2,1)); responseBody.append(firstIp ? "\"" : ",\""); firstIp = false; responseBody.append(_jsonEscape(ip.toString())); responseBody.push_back('"'); } responseBody.append("]"); /* It's possible to get the actual netconf dictionary by including these * three URL arguments. The member identity must be the string * serialized identity of this member, and the signing identity must be * the full secret identity of this network controller. The have revision * is optional but would designate the revision our hypothetical client * already has. * * This is primarily for testing and is not used in production. It makes * it easy to test the entire network controller via its JSON API. * * If these arguments are included, three more object fields are returned: * 'netconf', 'netconfResult', and 'netconfResultMessage'. These are all * string fields and contain the actual netconf dictionary, the query * result code, and any verbose message e.g. an error description. */ std::map::const_iterator memids(urlArgs.find("memberIdentity")); std::map::const_iterator sigids(urlArgs.find("signingIdentity")); std::map::const_iterator hrs(urlArgs.find("haveRevision")); if ((memids != urlArgs.end())&&(sigids != urlArgs.end())) { Dictionary netconf; Identity memid,sigid; try { if (memid.fromString(memids->second)&&sigid.fromString(sigids->second)&&sigid.hasPrivate()) { uint64_t hr = 0; if (hrs != urlArgs.end()) hr = Utils::strToU64(hrs->second.c_str()); const char *result = ""; switch(this->doNetworkConfigRequest(InetAddress(),sigid,memid,nwid,Dictionary(),hr,netconf)) { case NetworkController::NETCONF_QUERY_OK: result = "OK"; break; case NetworkController::NETCONF_QUERY_OK_BUT_NOT_NEWER: result = "OK_BUT_NOT_NEWER"; break; case NetworkController::NETCONF_QUERY_OBJECT_NOT_FOUND: result = "OBJECT_NOT_FOUND"; break; case NetworkController::NETCONF_QUERY_ACCESS_DENIED: result = "ACCESS_DENIED"; break; case NetworkController::NETCONF_QUERY_INTERNAL_SERVER_ERROR: result = "INTERNAL_SERVER_ERROR"; break; default: result = "(unrecognized result code)"; break; } responseBody.append(",\n\t\"netconf\": \""); responseBody.append(_jsonEscape(netconf.toString().c_str())); responseBody.append("\",\n\t\"netconfResult\": \""); responseBody.append(result); responseBody.append("\",\n\t\"netconfResultMessage\": \""); responseBody.append(_jsonEscape(netconf["error"].c_str())); responseBody.append("\""); } else { responseBody.append(",\n\t\"netconf\": \"\",\n\t\"netconfResult\": \"INTERNAL_SERVER_ERROR\",\n\t\"netconfResultMessage\": \"invalid member or signing identity\""); } } catch ( ... ) { responseBody.append(",\n\t\"netconf\": \"\",\n\t\"netconfResult\": \"INTERNAL_SERVER_ERROR\",\n\t\"netconfResultMessage\": \"unexpected exception\""); } } responseBody.append("\n}\n"); responseContentType = "application/json"; return 200; } // else 404 } // else 404 } else { // get network info sqlite3_reset(_sGetNetworkById); sqlite3_bind_text(_sGetNetworkById,1,nwids,16,SQLITE_STATIC); if (sqlite3_step(_sGetNetworkById) == SQLITE_ROW) { Utils::snprintf(json,sizeof(json), "{\n" "\t\"nwid\": \"%s\",\n" "\t\"name\": \"%s\",\n" "\t\"private\": %s,\n" "\t\"enableBroadcast\": %s,\n" "\t\"allowPassiveBridging\": %s,\n" "\t\"v4AssignMode\": \"%s\",\n" "\t\"v6AssignMode\": \"%s\",\n" "\t\"multicastLimit\": %d,\n" "\t\"creationTime\": %llu,\n" "\t\"revision\": %llu,\n" "\t\"members\": [", nwids, _jsonEscape((const char *)sqlite3_column_text(_sGetNetworkById,0)).c_str(), (sqlite3_column_int(_sGetNetworkById,1) > 0) ? "true" : "false", (sqlite3_column_int(_sGetNetworkById,2) > 0) ? "true" : "false", (sqlite3_column_int(_sGetNetworkById,3) > 0) ? "true" : "false", _jsonEscape((const char *)sqlite3_column_text(_sGetNetworkById,4)).c_str(), _jsonEscape((const char *)sqlite3_column_text(_sGetNetworkById,5)).c_str(), sqlite3_column_int(_sGetNetworkById,6), (unsigned long long)sqlite3_column_int64(_sGetNetworkById,7), (unsigned long long)sqlite3_column_int64(_sGetNetworkById,8)); responseBody = json; sqlite3_reset(_sListNetworkMembers); sqlite3_bind_text(_sListNetworkMembers,1,nwids,16,SQLITE_STATIC); bool firstMember = true; while (sqlite3_step(_sListNetworkMembers) == SQLITE_ROW) { if (!firstMember) responseBody.push_back(','); responseBody.push_back('"'); responseBody.append((const char *)sqlite3_column_text(_sListNetworkMembers,0)); responseBody.push_back('"'); firstMember = false; } responseBody.append("],\n\t\"relays\": ["); sqlite3_reset(_sGetRelays); sqlite3_bind_text(_sGetRelays,1,nwids,16,SQLITE_STATIC); bool firstRelay = true; while (sqlite3_step(_sGetRelays) == SQLITE_ROW) { responseBody.append(firstRelay ? "\n\t\t" : ",\n\t\t"); firstRelay = false; responseBody.append("{\"address\":\""); responseBody.append((const char *)sqlite3_column_text(_sGetRelays,0)); responseBody.append("\",\"phyAddress\":\""); responseBody.append(_jsonEscape((const char *)sqlite3_column_text(_sGetRelays,1))); responseBody.append("\"}"); } responseBody.append("],\n\t\"ipAssignmentPools\": ["); sqlite3_reset(_sGetIpAssignmentPools2); sqlite3_bind_text(_sGetIpAssignmentPools2,1,nwids,16,SQLITE_STATIC); bool firstIpAssignmentPool = true; while (sqlite3_step(_sGetIpAssignmentPools2) == SQLITE_ROW) { responseBody.append(firstIpAssignmentPool ? "\n\t\t" : ",\n\t\t"); firstIpAssignmentPool = false; InetAddress ipp((const void *)sqlite3_column_blob(_sGetIpAssignmentPools2,0),(sqlite3_column_int(_sGetIpAssignmentPools2,2) == 6) ? 16 : 4,(unsigned int)sqlite3_column_int(_sGetIpAssignmentPools2,1)); Utils::snprintf(json,sizeof(json),"{\"network\":\"%s\",\"netmaskBits\":%u}", _jsonEscape(ipp.toIpString()).c_str(), ipp.netmaskBits()); responseBody.append(json); } responseBody.append("],\n\t\"rules\": ["); sqlite3_reset(_sListRules); sqlite3_bind_text(_sListRules,1,nwids,16,SQLITE_STATIC); bool firstRule = true; while (sqlite3_step(_sListRules) == SQLITE_ROW) { responseBody.append(firstRule ? "\n\t{\n" : ",{\n"); Utils::snprintf(json,sizeof(json),"\t\t\"ruleId\": %lld,\n",sqlite3_column_int64(_sListRules,0)); responseBody.append(json); if (sqlite3_column_type(_sListRules,1) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"nodeId\": \"%s\",\n",(const char *)sqlite3_column_text(_sListRules,1)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,2) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"vlanId\": %d,\n",sqlite3_column_int(_sListRules,2)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,3) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"vlanPcp\": %d,\n",sqlite3_column_int(_sListRules,3)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,4) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"etherType\": %d,\n",sqlite3_column_int(_sListRules,4)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,5) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"macSource\": \"%s\",\n",MAC((const char *)sqlite3_column_text(_sListRules,5)).toString().c_str()); responseBody.append(json); } if (sqlite3_column_type(_sListRules,6) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"macDest\": \"%s\",\n",MAC((const char *)sqlite3_column_text(_sListRules,6)).toString().c_str()); responseBody.append(json); } if (sqlite3_column_type(_sListRules,7) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipSource\": \"%s\",\n",_jsonEscape((const char *)sqlite3_column_text(_sListRules,7)).c_str()); responseBody.append(json); } if (sqlite3_column_type(_sListRules,8) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipDest\": \"%s\",\n",_jsonEscape((const char *)sqlite3_column_text(_sListRules,8)).c_str()); responseBody.append(json); } if (sqlite3_column_type(_sListRules,9) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipTos\": %d,\n",sqlite3_column_int(_sListRules,9)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,10) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipProtocol\": %d,\n",sqlite3_column_int(_sListRules,10)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,11) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipSourcePort\": %d,\n",sqlite3_column_int(_sListRules,11)); responseBody.append(json); } if (sqlite3_column_type(_sListRules,12) != SQLITE_NULL) { Utils::snprintf(json,sizeof(json),"\t\t\"ipDestPort\": %d,\n",sqlite3_column_int(_sListRules,12)); responseBody.append(json); } responseBody.append("\t\t\"action\": \""); responseBody.append(_jsonEscape((const char *)sqlite3_column_text(_sListRules,13))); responseBody.append("\"\n\t}"); } responseBody.append("]\n}\n"); responseContentType = "application/json"; return 200; } // else 404 } } else if (path.size() == 1) { // list networks sqlite3_reset(_sListNetworks); responseContentType = "application/json"; responseBody = "["; bool first = true; while (sqlite3_step(_sListNetworks) == SQLITE_ROW) { if (first) { first = false; responseBody.push_back('"'); } else responseBody.append(",\""); responseBody.append((const char *)sqlite3_column_text(_sListNetworks,0)); responseBody.push_back('"'); } responseBody.push_back(']'); return 200; } // else 404 } else { // GET /controller returns status and API version if controller is supported Utils::snprintf(json,sizeof(json),"{\n\t\"controller\": true,\n\t\"apiVersion\": %d,\n\t\"clock\": %llu\n}",ZT_NETCONF_CONTROLLER_API_VERSION,(unsigned long long)OSUtils::now()); responseBody = json; responseContentType = "applicaiton/json"; return 200; } return 404; } } // namespace ZeroTier