diff --git a/src/init.cpp b/src/init.cpp index 2e06c456ac..0a3af8323e 100644 --- a/src/init.cpp +++ b/src/init.cpp @@ -1,2333 +1,2340 @@ // Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2016 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #if defined(HAVE_CONFIG_H) #include "config/bitcoin-config.h" #endif #include "init.h" #include "addrman.h" #include "amount.h" #include "chain.h" #include "chainparams.h" #include "checkpoints.h" #include "compat/sanity.h" #include "config.h" #include "consensus/validation.h" #include "diskblockpos.h" #include "fs.h" #include "httprpc.h" #include "httpserver.h" #include "key.h" #include "miner.h" #include "net.h" #include "net_processing.h" #include "netbase.h" #include "policy/policy.h" #include "rpc/register.h" #include "rpc/safemode.h" #include "rpc/server.h" #include "scheduler.h" #include "script/scriptcache.h" #include "script/sigcache.h" #include "script/standard.h" #include "timedata.h" #include "torcontrol.h" #include "txdb.h" #include "txmempool.h" #include "ui_interface.h" #include "util.h" #include "utilmoneystr.h" #include "validation.h" #include "validationinterface.h" #ifdef ENABLE_WALLET #include "wallet/rpcdump.h" #endif #include "walletinitinterface.h" #include "warnings.h" #include #include #include #ifndef WIN32 #include #endif #include #include #include #include #include #include #if ENABLE_ZMQ #include "zmq/zmqnotificationinterface.h" #endif bool fFeeEstimatesInitialized = false; static const bool DEFAULT_PROXYRANDOMIZE = true; static const bool DEFAULT_REST_ENABLE = false; static const bool DEFAULT_STOPAFTERBLOCKIMPORT = false; std::unique_ptr g_connman; std::unique_ptr peerLogic; std::unique_ptr g_wallet_init_interface; #if ENABLE_ZMQ static CZMQNotificationInterface *pzmqNotificationInterface = nullptr; #endif #ifdef WIN32 // Win32 LevelDB doesn't use filedescriptors, and the ones used for accessing // block files don't count towards the fd_set size limit anyway. #define MIN_CORE_FILEDESCRIPTORS 0 #else #define MIN_CORE_FILEDESCRIPTORS 150 #endif static const char *FEE_ESTIMATES_FILENAME = "fee_estimates.dat"; ////////////////////////////////////////////////////////////////////////////// // // Shutdown // // // Thread management and startup/shutdown: // // The network-processing threads are all part of a thread group created by // AppInit() or the Qt main() function. // // A clean exit happens when StartShutdown() or the SIGTERM signal handler sets // fRequestShutdown, which triggers the DetectShutdownThread(), which interrupts // the main thread group. DetectShutdownThread() then exits, which causes // AppInit() to continue (it .joins the shutdown thread). Shutdown() is then // called to clean up database connections, and stop other threads that should // only be stopped after the main network-processing threads have exited. // // Note that if running -daemon the parent process returns from AppInit2 before // adding any threads to the threadGroup, so .join_all() returns immediately and // the parent exits from main(). // // Shutdown for Qt is very similar, only it uses a QTimer to detect // fRequestShutdown getting set, and then does the normal Qt shutdown thing. // std::atomic fRequestShutdown(false); std::atomic fDumpMempoolLater(false); void StartShutdown() { fRequestShutdown = true; } bool ShutdownRequested() { return fRequestShutdown; } /** * This is a minimally invasive approach to shutdown on LevelDB read errors from * the chainstate, while keeping user interface out of the common library, which * is shared between bitcoind, and bitcoin-qt and non-server tools. */ class CCoinsViewErrorCatcher final : public CCoinsViewBacked { public: explicit CCoinsViewErrorCatcher(CCoinsView *view) : CCoinsViewBacked(view) {} bool GetCoin(const COutPoint &outpoint, Coin &coin) const override { try { return CCoinsViewBacked::GetCoin(outpoint, coin); } catch (const std::runtime_error &e) { uiInterface.ThreadSafeMessageBox( _("Error reading from database, shutting down."), "", CClientUIInterface::MSG_ERROR); LogPrintf("Error reading from database: %s\n", e.what()); // Starting the shutdown sequence and returning false to the caller // would be interpreted as 'entry not found' (as opposed to unable // to read data), and could lead to invalid interpretation. Just // exit immediately, as we can't continue anyway, and all writes // should be atomic. abort(); } } // Writes do not need similar protection, as failure to write is handled by // the caller. }; static std::unique_ptr pcoinscatcher; static std::unique_ptr globalVerifyHandle; void Interrupt(boost::thread_group &threadGroup) { InterruptHTTPServer(); InterruptHTTPRPC(); InterruptRPC(); InterruptREST(); InterruptTorControl(); InterruptMapPort(); if (g_connman) { g_connman->Interrupt(); } threadGroup.interrupt_all(); } void Shutdown() { LogPrintf("%s: In progress...\n", __func__); static CCriticalSection cs_Shutdown; TRY_LOCK(cs_Shutdown, lockShutdown); if (!lockShutdown) { return; } /// Note: Shutdown() must be able to handle cases in which AppInit2() failed /// part of the way, for example if the data directory was found to be /// locked. Be sure that anything that writes files or flushes caches only /// does this if the respective module was initialized. RenameThread("bitcoin-shutoff"); g_mempool.AddTransactionsUpdated(1); StopHTTPRPC(); StopREST(); StopRPC(); StopHTTPServer(); g_wallet_init_interface->Flush(); StopMapPort(); // Because these depend on each-other, we make sure that neither can be // using the other before destroying them. UnregisterValidationInterface(peerLogic.get()); g_connman->Stop(); peerLogic.reset(); g_connman.reset(); StopTorControl(); if (fDumpMempoolLater && gArgs.GetArg("-persistmempool", DEFAULT_PERSIST_MEMPOOL)) { DumpMempool(); } if (fFeeEstimatesInitialized) { fs::path est_path = GetDataDir() / FEE_ESTIMATES_FILENAME; CAutoFile est_fileout(fsbridge::fopen(est_path, "wb"), SER_DISK, CLIENT_VERSION); if (!est_fileout.IsNull()) { g_mempool.WriteFeeEstimates(est_fileout); } else { LogPrintf("%s: Failed to write fee estimates to %s\n", __func__, est_path.string()); } fFeeEstimatesInitialized = false; } // FlushStateToDisk generates a SetBestChain callback, which we should avoid // missing if (pcoinsTip != nullptr) { FlushStateToDisk(); } // After there are no more peers/RPC left to give us new data which may // generate CValidationInterface callbacks, flush them... GetMainSignals().FlushBackgroundCallbacks(); // Any future callbacks will be dropped. This should absolutely be safe - if // missing a callback results in an unrecoverable situation, unclean // shutdown would too. The only reason to do the above flushes is to let the // wallet catch up with our current chain to avoid any strange pruning edge // cases and make next startup faster by avoiding rescan. { LOCK(cs_main); if (pcoinsTip != nullptr) { FlushStateToDisk(); } pcoinsTip.reset(); pcoinscatcher.reset(); pcoinsdbview.reset(); pblocktree.reset(); } g_wallet_init_interface->Stop(); #if ENABLE_ZMQ if (pzmqNotificationInterface) { UnregisterValidationInterface(pzmqNotificationInterface); delete pzmqNotificationInterface; pzmqNotificationInterface = nullptr; } #endif #ifndef WIN32 try { fs::remove(GetPidFile()); } catch (const fs::filesystem_error &e) { LogPrintf("%s: Unable to remove pidfile: %s\n", __func__, e.what()); } #endif UnregisterAllValidationInterfaces(); GetMainSignals().UnregisterBackgroundSignalScheduler(); g_wallet_init_interface->Close(); g_wallet_init_interface.reset(); globalVerifyHandle.reset(); ECC_Stop(); LogPrintf("%s: done\n", __func__); } /** * Signal handlers are very limited in what they are allowed to do, so: */ void HandleSIGTERM(int) { fRequestShutdown = true; } void HandleSIGHUP(int) { GetLogger().m_reopen_file = true; } void OnRPCStarted() { uiInterface.NotifyBlockTip.connect(&RPCNotifyBlockChange); } void OnRPCStopped() { uiInterface.NotifyBlockTip.disconnect(&RPCNotifyBlockChange); RPCNotifyBlockChange(false, nullptr); g_best_block_cv.notify_all(); LogPrint(BCLog::RPC, "RPC stopped.\n"); } std::string HelpMessage(HelpMessageMode mode) { const auto defaultBaseParams = CreateBaseChainParams(CBaseChainParams::MAIN); const auto testnetBaseParams = CreateBaseChainParams(CBaseChainParams::TESTNET); const auto defaultChainParams = CreateChainParams(CBaseChainParams::MAIN); const auto testnetChainParams = CreateChainParams(CBaseChainParams::TESTNET); const bool showDebug = gArgs.GetBoolArg("-help-debug", false); // When adding new options to the categories, please keep and ensure // alphabetical ordering. Do not translate _(...) -help-debug options, Many // technical terms, and only a very small audience, so is unnecessary stress // to translators. std::string strUsage = HelpMessageGroup(_("Options:")); strUsage += HelpMessageOpt("-?", _("Print this help message and exit")); strUsage += HelpMessageOpt("-version", _("Print version and exit")); strUsage += HelpMessageOpt( "-alertnotify=", _("Execute command when a relevant alert is received or we see a " "really long fork (%s in cmd is replaced by message)")); strUsage += HelpMessageOpt("-blocknotify=", _("Execute command when the best block changes " "(%s in cmd is replaced by block hash)")); if (showDebug) { strUsage += HelpMessageOpt( "-blocksonly", strprintf( _("Whether to operate in a blocks only mode (default: %d)"), DEFAULT_BLOCKSONLY)); } strUsage += HelpMessageOpt( "-assumevalid=", strprintf( _("If this block is in the chain assume that it and its ancestors " "are valid and potentially skip their script verification (0 to " "verify all, default: %s, testnet: %s)"), defaultChainParams->GetConsensus().defaultAssumeValid.GetHex(), testnetChainParams->GetConsensus().defaultAssumeValid.GetHex())); strUsage += HelpMessageOpt( "-conf=", strprintf(_("Specify configuration file (default: %s)"), BITCOIN_CONF_FILENAME)); if (mode == HMM_BITCOIND) { #if HAVE_DECL_DAEMON strUsage += HelpMessageOpt( "-daemon", _("Run in the background as a daemon and accept commands")); #endif } strUsage += HelpMessageOpt("-datadir=", _("Specify data directory")); if (showDebug) { strUsage += HelpMessageOpt( "-dbbatchsize", strprintf( "Maximum database write batch size in bytes (default: %u)", nDefaultDbBatchSize)); } strUsage += HelpMessageOpt( "-dbcache=", strprintf( _("Set database cache size in megabytes (%d to %d, default: %d)"), nMinDbCache, nMaxDbCache, nDefaultDbCache)); if (showDebug) { strUsage += HelpMessageOpt( "-feefilter", strprintf("Tell other nodes to filter invs to us by " "our mempool min fee (default: %d)", DEFAULT_FEEFILTER)); } strUsage += HelpMessageOpt( "-loadblock=", _("Imports blocks from external blk000??.dat file on startup")); strUsage += HelpMessageOpt( "-maxorphantx=", strprintf(_("Keep at most unconnectable " "transactions in memory (default: %u)"), DEFAULT_MAX_ORPHAN_TRANSACTIONS)); strUsage += HelpMessageOpt("-maxmempool=", strprintf(_("Keep the transaction memory pool " "below megabytes (default: %u)"), DEFAULT_MAX_MEMPOOL_SIZE)); strUsage += HelpMessageOpt("-mempoolexpiry=", strprintf(_("Do not keep transactions in the mempool " "longer than hours (default: %u)"), DEFAULT_MEMPOOL_EXPIRY)); if (showDebug) { strUsage += HelpMessageOpt( "-minimumchainwork=", strprintf( "Minimum work assumed to exist on a valid chain in hex " "(default: %s, testnet: %s)", defaultChainParams->GetConsensus().nMinimumChainWork.GetHex(), testnetChainParams->GetConsensus().nMinimumChainWork.GetHex())); } strUsage += HelpMessageOpt("-persistmempool", strprintf(_("Whether to save the mempool on shutdown " "and load on restart (default: %u)"), DEFAULT_PERSIST_MEMPOOL)); strUsage += HelpMessageOpt( "-blockreconstructionextratxn=", strprintf(_("Extra transactions to keep in memory for compact block " "reconstructions (default: %u)"), DEFAULT_BLOCK_RECONSTRUCTION_EXTRA_TXN)); strUsage += HelpMessageOpt( "-par=", strprintf(_("Set the number of script verification threads (%u to %d, " "0 = auto, <0 = leave that many cores free, default: %d)"), -GetNumCores(), MAX_SCRIPTCHECK_THREADS, DEFAULT_SCRIPTCHECK_THREADS)); #ifndef WIN32 strUsage += HelpMessageOpt( "-pid=", strprintf(_("Specify pid file (default: %s)"), BITCOIN_PID_FILENAME)); #endif strUsage += HelpMessageOpt( "-prune=", strprintf( _("Reduce storage requirements by enabling pruning (deleting) of " "old blocks. This allows the pruneblockchain RPC to be called to " "delete specific blocks, and enables automatic pruning of old " "blocks if a target size in MiB is provided. This mode is " "incompatible with -txindex and -rescan. " "Warning: Reverting this setting requires re-downloading the " "entire blockchain. " "(default: 0 = disable pruning blocks, 1 = allow manual pruning " "via RPC, >%u = automatically prune block files to stay under " "the specified target size in MiB)"), MIN_DISK_SPACE_FOR_BLOCK_FILES / 1024 / 1024)); strUsage += HelpMessageOpt( "-reindex-chainstate", _("Rebuild chain state from the currently indexed blocks")); strUsage += HelpMessageOpt("-reindex", _("Rebuild chain state and block index from " "the blk*.dat files on disk")); #ifndef WIN32 strUsage += HelpMessageOpt( "-sysperms", _("Create new files with system default permissions, instead of umask " "077 (only effective with disabled wallet functionality)")); #endif strUsage += HelpMessageOpt( "-txindex", strprintf(_("Maintain a full transaction index, used by " "the getrawtransaction rpc call (default: %d)"), DEFAULT_TXINDEX)); strUsage += HelpMessageOpt( "-usecashaddr", _("Use Cash Address for destination encoding instead " "of base58 (activate by default on Jan, 14)")); strUsage += HelpMessageGroup(_("Connection options:")); strUsage += HelpMessageOpt( "-addnode=", _("Add a node to connect to and attempt to keep the connection open " "(see the `addnode` RPC command help for more info)")); strUsage += HelpMessageOpt( "-banscore=", strprintf( _("Threshold for disconnecting misbehaving peers (default: %u)"), DEFAULT_BANSCORE_THRESHOLD)); strUsage += HelpMessageOpt( "-bantime=", strprintf(_("Number of seconds to keep misbehaving " "peers from reconnecting (default: %u)"), DEFAULT_MISBEHAVING_BANTIME)); strUsage += HelpMessageOpt("-bind=", _("Bind to given address and always listen on " "it. Use [host]:port notation for IPv6")); strUsage += HelpMessageOpt( "-connect=", _("Connect only to the specified node(s); -connect=0 " "disables automatic connections (the rules for this " "peer are the same as for -addnode)")); strUsage += HelpMessageOpt("-discover", _("Discover own IP addresses (default: 1 when " "listening and no -externalip or -proxy)")); strUsage += HelpMessageOpt( "-dns", _("Allow DNS lookups for -addnode, -seednode and -connect") + " " + strprintf(_("(default: %d)"), DEFAULT_NAME_LOOKUP)); strUsage += HelpMessageOpt( "-dnsseed", _("Query for peer addresses via DNS lookup, if low on " "addresses (default: 1 unless -connect/-noconnect)")); strUsage += HelpMessageOpt("-externalip=", _("Specify your own public address")); strUsage += HelpMessageOpt( "-forcednsseed", strprintf( _("Always query for peer addresses via DNS lookup (default: %d)"), DEFAULT_FORCEDNSSEED)); strUsage += HelpMessageOpt("-listen", _("Accept connections from outside (default: " "1 if no -proxy or -connect/-noconnect)")); strUsage += HelpMessageOpt( "-listenonion", strprintf(_("Automatically create Tor hidden service (default: %d)"), DEFAULT_LISTEN_ONION)); strUsage += HelpMessageOpt( "-maxconnections=", strprintf(_("Maintain at most connections to peers (default: %u)"), DEFAULT_MAX_PEER_CONNECTIONS)); strUsage += HelpMessageOpt("-maxreceivebuffer=", strprintf(_("Maximum per-connection receive buffer, " "*1000 bytes (default: %u)"), DEFAULT_MAXRECEIVEBUFFER)); strUsage += HelpMessageOpt( "-maxsendbuffer=", strprintf(_("Maximum per-connection send buffer, " "*1000 bytes (default: %u)"), DEFAULT_MAXSENDBUFFER)); strUsage += HelpMessageOpt( "-maxtimeadjustment", strprintf(_("Maximum allowed median peer time offset adjustment. Local " "perspective of time may be influenced by peers forward or " "backward by this amount. (default: %u seconds)"), DEFAULT_MAX_TIME_ADJUSTMENT)); strUsage += HelpMessageOpt("-onion=", strprintf(_("Use separate SOCKS5 proxy to reach peers " "via Tor hidden services (default: %s)"), "-proxy")); strUsage += HelpMessageOpt( "-onlynet=", _("Only connect to nodes in network (ipv4, ipv6 or onion)")); strUsage += HelpMessageOpt("-permitbaremultisig", strprintf(_("Relay non-P2SH multisig (default: %d)"), DEFAULT_PERMIT_BAREMULTISIG)); strUsage += HelpMessageOpt( "-peerbloomfilters", strprintf(_("Support filtering of blocks and transaction with bloom " "filters (default: %d)"), DEFAULT_PEERBLOOMFILTERS)); strUsage += HelpMessageOpt( "-port=", strprintf( _("Listen for connections on (default: %u or testnet: %u)"), defaultChainParams->GetDefaultPort(), testnetChainParams->GetDefaultPort())); strUsage += HelpMessageOpt("-proxy=", _("Connect through SOCKS5 proxy")); strUsage += HelpMessageOpt( "-proxyrandomize", strprintf(_("Randomize credentials for every proxy connection. This " "enables Tor stream isolation (default: %d)"), DEFAULT_PROXYRANDOMIZE)); strUsage += HelpMessageOpt( "-seednode=", _("Connect to a node to retrieve peer addresses, and disconnect")); strUsage += HelpMessageOpt( "-timeout=", strprintf(_("Specify connection timeout in " "milliseconds (minimum: 1, default: %d)"), DEFAULT_CONNECT_TIMEOUT)); strUsage += HelpMessageOpt("-torcontrol=:", strprintf(_("Tor control port to use if onion " "listening enabled (default: %s)"), DEFAULT_TOR_CONTROL)); strUsage += HelpMessageOpt("-torpassword=", _("Tor control port password (default: empty)")); #ifdef USE_UPNP #if USE_UPNP strUsage += HelpMessageOpt("-upnp", _("Use UPnP to map the listening port " "(default: 1 when listening and no -proxy)")); #else strUsage += HelpMessageOpt( "-upnp", strprintf(_("Use UPnP to map the listening port (default: %u)"), 0)); #endif #endif strUsage += HelpMessageOpt("-whitebind=", _("Bind to given address and whitelist peers connecting " "to it. Use [host]:port notation for IPv6")); strUsage += HelpMessageOpt( "-whitelist=", _("Whitelist peers connecting from the given IP address (e.g. 1.2.3.4) " "or CIDR notated network (e.g. 1.2.3.0/24). Can be specified " "multiple times.") + " " + _("Whitelisted peers cannot be DoS banned and their " "transactions are always relayed, even if they are already " "in the mempool, useful e.g. for a gateway")); strUsage += HelpMessageOpt( "-whitelistrelay", strprintf(_("Accept relayed transactions received from whitelisted " "peers even when not relaying transactions (default: %d)"), DEFAULT_WHITELISTRELAY)); strUsage += HelpMessageOpt( "-whitelistforcerelay", strprintf(_("Force relay of transactions from whitelisted peers even " "if they violate local relay policy (default: %d)"), DEFAULT_WHITELISTFORCERELAY)); strUsage += HelpMessageOpt( "-maxuploadtarget=", strprintf(_("Tries to keep outbound traffic under the given target (in " "MiB per 24h), 0 = no limit (default: %d)"), DEFAULT_MAX_UPLOAD_TARGET)); strUsage += g_wallet_init_interface->GetHelpString(showDebug); #if ENABLE_ZMQ strUsage += HelpMessageGroup(_("ZeroMQ notification options:")); strUsage += HelpMessageOpt("-zmqpubhashblock=
", _("Enable publish hash block in
")); strUsage += HelpMessageOpt("-zmqpubhashtx=
", _("Enable publish hash transaction in
")); strUsage += HelpMessageOpt("-zmqpubrawblock=
", _("Enable publish raw block in
")); strUsage += HelpMessageOpt("-zmqpubrawtx=
", _("Enable publish raw transaction in
")); #endif strUsage += HelpMessageGroup(_("Debugging/Testing options:")); strUsage += HelpMessageOpt("-uacomment=", _("Append comment to the user agent string")); if (showDebug) { strUsage += HelpMessageOpt( "-checkblocks=", strprintf( _("How many blocks to check at startup (default: %u, 0 = all)"), DEFAULT_CHECKBLOCKS)); strUsage += HelpMessageOpt("-checklevel=", strprintf(_("How thorough the block verification of " "-checkblocks is (0-4, default: %u)"), DEFAULT_CHECKLEVEL)); strUsage += HelpMessageOpt( "-checkblockindex", strprintf("Do a full consistency check for mapBlockIndex, " "setBlockIndexCandidates, chainActive and " "mapBlocksUnlinked occasionally. Also sets -checkmempool " "(default: %u)", defaultChainParams->DefaultConsistencyChecks())); strUsage += HelpMessageOpt( "-checkmempool=", strprintf("Run checks every transactions (default: %u)", defaultChainParams->DefaultConsistencyChecks())); strUsage += HelpMessageOpt( "-checkpoints", strprintf("Only accept block chain matching " "built-in checkpoints (default: %d)", DEFAULT_CHECKPOINTS_ENABLED)); strUsage += HelpMessageOpt( "-disablesafemode", strprintf("Disable safemode, override a real " "safe mode event (default: %d)", DEFAULT_DISABLE_SAFEMODE)); strUsage += HelpMessageOpt("-deprecatedrpc=", "Allows deprecated RPC method(s) to be used"); strUsage += HelpMessageOpt( "-testsafemode", strprintf("Force safe mode (default: %d)", DEFAULT_TESTSAFEMODE)); strUsage += HelpMessageOpt("-dropmessagestest=", "Randomly drop 1 of every network messages"); strUsage += HelpMessageOpt("-fuzzmessagestest=", "Randomly fuzz 1 of every network messages"); strUsage += HelpMessageOpt( "-stopafterblockimport", strprintf( "Stop running after importing blocks from disk (default: %d)", DEFAULT_STOPAFTERBLOCKIMPORT)); strUsage += HelpMessageOpt( "-stopatheight", strprintf("Stop running after reaching the given " "height in the main chain (default: %u)", DEFAULT_STOPATHEIGHT)); strUsage += HelpMessageOpt( "-limitancestorcount=", strprintf("Do not accept transactions if number of in-mempool " "ancestors is or more (default: %u)", DEFAULT_ANCESTOR_LIMIT)); strUsage += HelpMessageOpt("-limitancestorsize=", strprintf("Do not accept transactions whose size " "with all in-mempool ancestors exceeds " " kilobytes (default: %u)", DEFAULT_ANCESTOR_SIZE_LIMIT)); strUsage += HelpMessageOpt( "-limitdescendantcount=", strprintf("Do not accept transactions if any ancestor would have " " or more in-mempool descendants (default: %u)", DEFAULT_DESCENDANT_LIMIT)); strUsage += HelpMessageOpt( "-limitdescendantsize=", strprintf("Do not accept transactions if any ancestor would have " "more than kilobytes of in-mempool descendants " "(default: %u).", DEFAULT_DESCENDANT_SIZE_LIMIT)); } strUsage += HelpMessageOpt( "-debug=", strprintf(_("Output debugging information (default: %u, supplying " " is optional)"), 0) + ". " + _("If is not supplied or if = 1, " "output all debugging information.") + _(" can be:") + " " + ListLogCategories() + "."); strUsage += HelpMessageOpt( "-debugexclude=", strprintf(_("Exclude debugging information for a category. Can be used " "in conjunction with -debug=1 to output debug logs for all " "categories except one or more specified categories."))); if (showDebug) { strUsage += HelpMessageOpt( "-nodebug", "Turn off debugging messages, same as -debug=0"); } strUsage += HelpMessageOpt( "-help-debug", _("Show all debugging options (usage: --help -help-debug)")); strUsage += HelpMessageOpt( "-logips", strprintf(_("Include IP addresses in debug output (default: %d)"), DEFAULT_LOGIPS)); strUsage += HelpMessageOpt( "-logtimestamps", strprintf(_("Prepend debug output with timestamp (default: %d)"), DEFAULT_LOGTIMESTAMPS)); if (showDebug) { strUsage += HelpMessageOpt( "-logtimemicros", strprintf( "Add microsecond precision to debug timestamps (default: %d)", DEFAULT_LOGTIMEMICROS)); strUsage += HelpMessageOpt( "-mocktime=", "Replace actual time with seconds since epoch (default: 0)"); strUsage += HelpMessageOpt( "-limitfreerelay=", strprintf("Continuously rate-limit free transactions to *1000 " "bytes per minute (default: %u)", DEFAULT_LIMITFREERELAY)); strUsage += HelpMessageOpt("-relaypriority", strprintf("Require high priority for relaying free " "or low-fee transactions (default: %d)", DEFAULT_RELAYPRIORITY)); strUsage += HelpMessageOpt( "-maxsigcachesize=", strprintf("Limit size of signature cache to MiB (default: %u)", DEFAULT_MAX_SIG_CACHE_SIZE)); strUsage += HelpMessageOpt( "-maxscriptcachesize=", strprintf("Limit size of script cache to MiB (default: %u)", DEFAULT_MAX_SCRIPT_CACHE_SIZE)); strUsage += HelpMessageOpt( "-maxtipage=", strprintf("Maximum tip age in seconds to consider node in initial " "block download (default: %u)", DEFAULT_MAX_TIP_AGE)); } strUsage += HelpMessageOpt( "-excessutxocharge=", strprintf(_("Fees (in %s/kB) to charge per utxo created for" "relaying, and mining (default: %s)"), CURRENCY_UNIT, FormatMoney(DEFAULT_UTXO_FEE))); strUsage += HelpMessageOpt( "-minrelaytxfee=", strprintf( _("Fees (in %s/kB) smaller than this are considered zero fee for " "relaying, mining and transaction creation (default: %s)"), CURRENCY_UNIT, FormatMoney(DEFAULT_MIN_RELAY_TX_FEE_PER_KB))); strUsage += HelpMessageOpt( "-maxtxfee=", strprintf(_("Maximum total fees (in %s) to use in a single wallet " "transaction or raw transaction; setting this too low may " "abort large transactions (default: %s)"), CURRENCY_UNIT, FormatMoney(DEFAULT_TRANSACTION_MAXFEE))); strUsage += HelpMessageOpt( "-printtoconsole", _("Send trace/debug info to console instead of debug.log file")); if (showDebug) { strUsage += HelpMessageOpt( "-printpriority", strprintf("Log transaction priority and fee per " "kB when mining blocks (default: %d)", DEFAULT_PRINTPRIORITY)); } strUsage += HelpMessageOpt("-shrinkdebugfile", _("Shrink debug.log file on client startup " "(default: 1 when no -debug)")); AppendParamsHelpMessages(strUsage, showDebug); strUsage += HelpMessageGroup(_("Node relay options:")); if (showDebug) { strUsage += HelpMessageOpt( "-acceptnonstdtxn", strprintf( "Relay and mine \"non-standard\" transactions (%sdefault: %u)", "testnet/regtest only; ", defaultChainParams->RequireStandard())); strUsage += HelpMessageOpt("-excessiveblocksize=", strprintf(_("Do not accept blocks larger than this " "limit, in bytes (default: %d)"), DEFAULT_MAX_BLOCK_SIZE)); strUsage += HelpMessageOpt( "-dustrelayfee=", strprintf("Fee rate (in %s/kB) used to defined dust, the value of " "an output such that it will cost about 1/3 of its value " "in fees at this fee rate to spend it. (default: %s)", CURRENCY_UNIT, FormatMoney(DUST_RELAY_TX_FEE))); } strUsage += HelpMessageOpt("-bytespersigop", strprintf(_("Equivalent bytes per sigop in transactions " "for relay and mining (default: %u)"), DEFAULT_BYTES_PER_SIGOP)); strUsage += HelpMessageOpt( "-datacarrier", strprintf(_("Relay and mine data carrier transactions (default: %d)"), DEFAULT_ACCEPT_DATACARRIER)); strUsage += HelpMessageOpt( "-datacarriersize", strprintf(_("Maximum size of data in data carrier transactions we " "relay and mine (default: %u)"), MAX_OP_RETURN_RELAY)); strUsage += HelpMessageGroup(_("Block creation options:")); strUsage += HelpMessageOpt( "-blockmaxsize=", strprintf(_("Set maximum block size in bytes (default: %d)"), DEFAULT_MAX_GENERATED_BLOCK_SIZE)); strUsage += HelpMessageOpt( "-blockprioritypercentage=", strprintf(_("Set maximum percentage of a block reserved to " "high-priority/low-fee transactions (default: %d)"), DEFAULT_BLOCK_PRIORITY_PERCENTAGE)); strUsage += HelpMessageOpt( "-blockmintxfee=", strprintf(_("Set lowest fee rate (in %s/kB) for transactions to be " "included in block creation. (default: %s)"), CURRENCY_UNIT, FormatMoney(DEFAULT_BLOCK_MIN_TX_FEE_PER_KB))); if (showDebug) { strUsage += HelpMessageOpt("-blockversion=", "Override block version to test forking scenarios"); } strUsage += HelpMessageGroup(_("RPC server options:")); strUsage += HelpMessageOpt("-server", _("Accept command line and JSON-RPC commands")); strUsage += HelpMessageOpt( "-rest", strprintf(_("Accept public REST requests (default: %d)"), DEFAULT_REST_ENABLE)); strUsage += HelpMessageOpt( "-rpcbind=", _("Bind to given address to listen for JSON-RPC connections. Use " "[host]:port notation for IPv6. This option can be specified " "multiple times (default: bind to all interfaces)")); strUsage += HelpMessageOpt("-rpccookiefile=", _("Location of the auth cookie (default: data dir)")); strUsage += HelpMessageOpt("-rpcuser=", _("Username for JSON-RPC connections")); strUsage += HelpMessageOpt("-rpcpassword=", _("Password for JSON-RPC connections")); strUsage += HelpMessageOpt( "-rpcauth=", _("Username and hashed password for JSON-RPC connections. The field " " comes in the format: :$. A canonical " "python script is included in share/rpcuser. The client then " "connects normally using the " "rpcuser=/rpcpassword= pair of arguments. This " "option can be specified multiple times")); strUsage += HelpMessageOpt( "-rpcport=", strprintf(_("Listen for JSON-RPC connections on (default: %u or " "testnet: %u)"), defaultBaseParams->RPCPort(), testnetBaseParams->RPCPort())); strUsage += HelpMessageOpt( "-rpcallowip=", _("Allow JSON-RPC connections from specified source. Valid for " "are a single IP (e.g. 1.2.3.4), a network/netmask (e.g. " "1.2.3.4/255.255.255.0) or a network/CIDR (e.g. 1.2.3.4/24). This " "option can be specified multiple times")); strUsage += HelpMessageOpt( "-rpcthreads=", strprintf( _("Set the number of threads to service RPC calls (default: %d)"), DEFAULT_HTTP_THREADS)); strUsage += HelpMessageOpt( "-rpccorsdomain=value", "Domain from which to accept cross origin requests (browser enforced)"); if (showDebug) { strUsage += HelpMessageOpt( "-rpcworkqueue=", strprintf("Set the depth of the work queue to " "service RPC calls (default: %d)", DEFAULT_HTTP_WORKQUEUE)); strUsage += HelpMessageOpt( "-rpcservertimeout=", strprintf("Timeout during HTTP requests (default: %d)", DEFAULT_HTTP_SERVER_TIMEOUT)); } return strUsage; } std::string LicenseInfo() { const std::string URL_SOURCE_CODE = ""; const std::string URL_WEBSITE = ""; return CopyrightHolders( strprintf(_("Copyright (C) %i-%i"), 2009, COPYRIGHT_YEAR) + " ") + "\n" + "\n" + strprintf(_("Please contribute if you find %s useful. " "Visit %s for further information about the software."), PACKAGE_NAME, URL_WEBSITE) + "\n" + strprintf(_("The source code is available from %s."), URL_SOURCE_CODE) + "\n" + "\n" + _("This is experimental software.") + "\n" + strprintf(_("Distributed under the MIT software license, see the " "accompanying file %s or %s"), "COPYING", "") + "\n" + "\n" + strprintf(_("This product includes software developed by the " "OpenSSL Project for use in the OpenSSL Toolkit %s and " "cryptographic software written by Eric Young and UPnP " "software written by Thomas Bernard."), "") + "\n"; } static void BlockNotifyCallback(bool initialSync, const CBlockIndex *pBlockIndex) { if (initialSync || !pBlockIndex) { return; } std::string strCmd = gArgs.GetArg("-blocknotify", ""); if (!strCmd.empty()) { boost::replace_all(strCmd, "%s", pBlockIndex->GetBlockHash().GetHex()); std::thread t(runCommand, strCmd); // thread runs free t.detach(); } } static bool fHaveGenesis = false; static CWaitableCriticalSection cs_GenesisWait; static CConditionVariable condvar_GenesisWait; static void BlockNotifyGenesisWait(bool, const CBlockIndex *pBlockIndex) { if (pBlockIndex != nullptr) { { LOCK(cs_GenesisWait); fHaveGenesis = true; } condvar_GenesisWait.notify_all(); } } struct CImportingNow { CImportingNow() { assert(fImporting == false); fImporting = true; } ~CImportingNow() { assert(fImporting == true); fImporting = false; } }; // If we're using -prune with -reindex, then delete block files that will be // ignored by the reindex. Since reindexing works by starting at block file 0 // and looping until a blockfile is missing, do the same here to delete any // later block files after a gap. Also delete all rev files since they'll be // rewritten by the reindex anyway. This ensures that vinfoBlockFile is in sync // with what's actually on disk by the time we start downloading, so that // pruning works correctly. void CleanupBlockRevFiles() { std::map mapBlockFiles; // Glob all blk?????.dat and rev?????.dat files from the blocks directory. // Remove the rev files immediately and insert the blk file paths into an // ordered map keyed by block file index. LogPrintf("Removing unusable blk?????.dat and rev?????.dat files for " "-reindex with -prune\n"); fs::path blocksdir = GetDataDir() / "blocks"; for (fs::directory_iterator it(blocksdir); it != fs::directory_iterator(); it++) { if (is_regular_file(*it) && it->path().filename().string().length() == 12 && it->path().filename().string().substr(8, 4) == ".dat") { if (it->path().filename().string().substr(0, 3) == "blk") { mapBlockFiles[it->path().filename().string().substr(3, 5)] = it->path(); } else if (it->path().filename().string().substr(0, 3) == "rev") { remove(it->path()); } } } // Remove all block files that aren't part of a contiguous set starting at // zero by walking the ordered map (keys are block file indices) by keeping // a separate counter. Once we hit a gap (or if 0 doesn't exist) start // removing block files. int nContigCounter = 0; for (const std::pair &item : mapBlockFiles) { if (atoi(item.first) == nContigCounter) { nContigCounter++; continue; } remove(item.second); } } void ThreadImport(const Config &config, std::vector vImportFiles) { RenameThread("bitcoin-loadblk"); { CImportingNow imp; // -reindex if (fReindex) { int nFile = 0; while (true) { CDiskBlockPos pos(nFile, 0); if (!fs::exists(GetBlockPosFilename(pos, "blk"))) { // No block files left to reindex break; } FILE *file = OpenBlockFile(pos, true); if (!file) { // This error is logged in OpenBlockFile break; } LogPrintf("Reindexing block file blk%05u.dat...\n", (unsigned int)nFile); LoadExternalBlockFile(config, file, &pos); nFile++; } pblocktree->WriteReindexing(false); fReindex = false; LogPrintf("Reindexing finished\n"); // To avoid ending up in a situation without genesis block, re-try // initializing (no-op if reindexing worked): LoadGenesisBlock(config.GetChainParams()); } // hardcoded $DATADIR/bootstrap.dat fs::path pathBootstrap = GetDataDir() / "bootstrap.dat"; if (fs::exists(pathBootstrap)) { FILE *file = fsbridge::fopen(pathBootstrap, "rb"); if (file) { fs::path pathBootstrapOld = GetDataDir() / "bootstrap.dat.old"; LogPrintf("Importing bootstrap.dat...\n"); LoadExternalBlockFile(config, file); RenameOver(pathBootstrap, pathBootstrapOld); } else { LogPrintf("Warning: Could not open bootstrap file %s\n", pathBootstrap.string()); } } // -loadblock= for (const fs::path &path : vImportFiles) { FILE *file = fsbridge::fopen(path, "rb"); if (file) { LogPrintf("Importing blocks file %s...\n", path.string()); LoadExternalBlockFile(config, file); } else { LogPrintf("Warning: Could not open blocks file %s\n", path.string()); } } // scan for better chains in the block chain database, that are not yet // connected in the active best chain CValidationState state; if (!ActivateBestChain(config, state)) { LogPrintf("Failed to connect best block"); StartShutdown(); } if (gArgs.GetBoolArg("-stopafterblockimport", DEFAULT_STOPAFTERBLOCKIMPORT)) { LogPrintf("Stopping after block import\n"); StartShutdown(); } } // End scope of CImportingNow if (gArgs.GetArg("-persistmempool", DEFAULT_PERSIST_MEMPOOL)) { LoadMempool(config); fDumpMempoolLater = !fRequestShutdown; } } /** Sanity checks * Ensure that Bitcoin is running in a usable environment with all * necessary library support. */ bool InitSanityCheck(void) { if (!ECC_InitSanityCheck()) { InitError( "Elliptic curve cryptography sanity check failure. Aborting."); return false; } if (!glibc_sanity_test() || !glibcxx_sanity_test()) { return false; } if (!Random_SanityCheck()) { InitError("OS cryptographic RNG sanity check failure. Aborting."); return false; } return true; } static bool AppInitServers(Config &config, HTTPRPCRequestProcessor &httpRPCRequestProcessor, boost::thread_group &threadGroup) { RPCServerSignals::OnStarted(&OnRPCStarted); RPCServerSignals::OnStopped(&OnRPCStopped); if (!InitHTTPServer(config)) { return false; } if (!StartRPC()) { return false; } if (!StartHTTPRPC(config, httpRPCRequestProcessor)) { return false; } if (gArgs.GetBoolArg("-rest", DEFAULT_REST_ENABLE) && !StartREST()) { return false; } if (!StartHTTPServer()) { return false; } return true; } // Parameter interaction based on rules void InitParameterInteraction() { // when specifying an explicit binding address, you want to listen on it // even when -connect or -proxy is specified. if (gArgs.IsArgSet("-bind")) { if (gArgs.SoftSetBoolArg("-listen", true)) { LogPrintf( "%s: parameter interaction: -bind set -> setting -listen=1\n", __func__); } } if (gArgs.IsArgSet("-whitebind")) { if (gArgs.SoftSetBoolArg("-listen", true)) { LogPrintf("%s: parameter interaction: -whitebind set -> setting " "-listen=1\n", __func__); } } if (gArgs.IsArgSet("-connect")) { // when only connecting to trusted nodes, do not seed via DNS, or listen // by default. if (gArgs.SoftSetBoolArg("-dnsseed", false)) { LogPrintf("%s: parameter interaction: -connect set -> setting " "-dnsseed=0\n", __func__); } if (gArgs.SoftSetBoolArg("-listen", false)) { LogPrintf("%s: parameter interaction: -connect set -> setting " "-listen=0\n", __func__); } } if (gArgs.IsArgSet("-proxy")) { // to protect privacy, do not listen by default if a default proxy // server is specified. if (gArgs.SoftSetBoolArg("-listen", false)) { LogPrintf( "%s: parameter interaction: -proxy set -> setting -listen=0\n", __func__); } // to protect privacy, do not use UPNP when a proxy is set. The user may // still specify -listen=1 to listen locally, so don't rely on this // happening through -listen below. if (gArgs.SoftSetBoolArg("-upnp", false)) { LogPrintf( "%s: parameter interaction: -proxy set -> setting -upnp=0\n", __func__); } // to protect privacy, do not discover addresses by default if (gArgs.SoftSetBoolArg("-discover", false)) { LogPrintf("%s: parameter interaction: -proxy set -> setting " "-discover=0\n", __func__); } } if (!gArgs.GetBoolArg("-listen", DEFAULT_LISTEN)) { // do not map ports or try to retrieve public IP when not listening // (pointless) if (gArgs.SoftSetBoolArg("-upnp", false)) { LogPrintf( "%s: parameter interaction: -listen=0 -> setting -upnp=0\n", __func__); } if (gArgs.SoftSetBoolArg("-discover", false)) { LogPrintf( "%s: parameter interaction: -listen=0 -> setting -discover=0\n", __func__); } if (gArgs.SoftSetBoolArg("-listenonion", false)) { LogPrintf("%s: parameter interaction: -listen=0 -> setting " "-listenonion=0\n", __func__); } } if (gArgs.IsArgSet("-externalip")) { // if an explicit public IP is specified, do not try to find others if (gArgs.SoftSetBoolArg("-discover", false)) { LogPrintf("%s: parameter interaction: -externalip set -> setting " "-discover=0\n", __func__); } } // disable whitelistrelay in blocksonly mode if (gArgs.GetBoolArg("-blocksonly", DEFAULT_BLOCKSONLY)) { if (gArgs.SoftSetBoolArg("-whitelistrelay", false)) { LogPrintf("%s: parameter interaction: -blocksonly=1 -> setting " "-whitelistrelay=0\n", __func__); } } // Forcing relay from whitelisted hosts implies we will accept relays from // them in the first place. if (gArgs.GetBoolArg("-whitelistforcerelay", DEFAULT_WHITELISTFORCERELAY)) { if (gArgs.SoftSetBoolArg("-whitelistrelay", true)) { LogPrintf("%s: parameter interaction: -whitelistforcerelay=1 -> " "setting -whitelistrelay=1\n", __func__); } } } static std::string ResolveErrMsg(const char *const optname, const std::string &strBind) { return strprintf(_("Cannot resolve -%s address: '%s'"), optname, strBind); } void InitLogging() { BCLog::Logger &logger = GetLogger(); logger.m_print_to_console = gArgs.GetBoolArg("-printtoconsole", false); logger.m_log_timestamps = gArgs.GetBoolArg("-logtimestamps", DEFAULT_LOGTIMESTAMPS); logger.m_log_time_micros = gArgs.GetBoolArg("-logtimemicros", DEFAULT_LOGTIMEMICROS); fLogIPs = gArgs.GetBoolArg("-logips", DEFAULT_LOGIPS); LogPrintf("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n"); LogPrintf("%s version %s\n", CLIENT_NAME, FormatFullVersion()); } namespace { // Variables internal to initialization process only int nMaxConnections; int nUserMaxConnections; int nFD; ServiceFlags nLocalServices = NODE_NETWORK; } // namespace [[noreturn]] static void new_handler_terminate() { // Rather than throwing std::bad-alloc if allocation fails, terminate // immediately to (try to) avoid chain corruption. Since LogPrintf may // itself allocate memory, set the handler directly to terminate first. std::set_new_handler(std::terminate); LogPrintf("Error: Out of memory. Terminating.\n"); // The log was successful, terminate now. std::terminate(); }; bool AppInitBasicSetup() { // Step 1: setup #ifdef _MSC_VER // Turn off Microsoft heap dump noise _CrtSetReportMode(_CRT_WARN, _CRTDBG_MODE_FILE); _CrtSetReportFile(_CRT_WARN, CreateFileA("NUL", GENERIC_WRITE, 0, nullptr, OPEN_EXISTING, 0, 0)); #endif #if _MSC_VER >= 1400 // Disable confusing "helpful" text message on abort, Ctrl-C _set_abort_behavior(0, _WRITE_ABORT_MSG | _CALL_REPORTFAULT); #endif #ifdef WIN32 // Enable Data Execution Prevention (DEP) // Minimum supported OS versions: WinXP SP3, WinVista >= SP1, Win Server 2008 // A failure is non-critical and needs no further attention! #ifndef PROCESS_DEP_ENABLE // We define this here, because GCCs winbase.h limits this to _WIN32_WINNT >= // 0x0601 (Windows 7), which is not correct. Can be removed, when GCCs winbase.h // is fixed! #define PROCESS_DEP_ENABLE 0x00000001 #endif typedef BOOL(WINAPI * PSETPROCDEPPOL)(DWORD); PSETPROCDEPPOL setProcDEPPol = (PSETPROCDEPPOL)GetProcAddress( GetModuleHandleA("Kernel32.dll"), "SetProcessDEPPolicy"); if (setProcDEPPol != nullptr) { setProcDEPPol(PROCESS_DEP_ENABLE); } #endif if (!SetupNetworking()) { return InitError("Initializing networking failed"); } #ifndef WIN32 if (!gArgs.GetBoolArg("-sysperms", false)) { umask(077); } // Clean shutdown on SIGTERM struct sigaction sa; sa.sa_handler = HandleSIGTERM; sigemptyset(&sa.sa_mask); sa.sa_flags = 0; sigaction(SIGTERM, &sa, nullptr); sigaction(SIGINT, &sa, nullptr); // Reopen debug.log on SIGHUP struct sigaction sa_hup; sa_hup.sa_handler = HandleSIGHUP; sigemptyset(&sa_hup.sa_mask); sa_hup.sa_flags = 0; sigaction(SIGHUP, &sa_hup, nullptr); // Ignore SIGPIPE, otherwise it will bring the daemon down if the client // closes unexpectedly signal(SIGPIPE, SIG_IGN); #endif std::set_new_handler(new_handler_terminate); return true; } bool AppInitParameterInteraction(Config &config, RPCServer &rpcServer) { const CChainParams &chainparams = config.GetChainParams(); // Step 2: parameter interactions // also see: InitParameterInteraction() // if using block pruning, then disallow txindex if (gArgs.GetArg("-prune", 0)) { if (gArgs.GetBoolArg("-txindex", DEFAULT_TXINDEX)) { return InitError(_("Prune mode is incompatible with -txindex.")); } } // if space reserved for high priority transactions is misconfigured // stop program execution and warn the user with a proper error message const int64_t blkprio = gArgs.GetArg("-blockprioritypercentage", DEFAULT_BLOCK_PRIORITY_PERCENTAGE); if (!config.SetBlockPriorityPercentage(blkprio)) { return InitError(_("Block priority percentage has to belong to the " "[0..100] interval.")); } // -bind and -whitebind can't be set when not listening size_t nUserBind = gArgs.GetArgs("-bind").size() + gArgs.GetArgs("-whitebind").size(); if (nUserBind != 0 && !gArgs.GetBoolArg("-listen", DEFAULT_LISTEN)) { return InitError( "Cannot set -bind or -whitebind together with -listen=0"); } // Make sure enough file descriptors are available int nBind = std::max(nUserBind, size_t(1)); nUserMaxConnections = gArgs.GetArg("-maxconnections", DEFAULT_MAX_PEER_CONNECTIONS); nMaxConnections = std::max(nUserMaxConnections, 0); // Trim requested connection counts, to fit into system limitations nMaxConnections = std::max(std::min(nMaxConnections, (int)(FD_SETSIZE - nBind - MIN_CORE_FILEDESCRIPTORS - MAX_ADDNODE_CONNECTIONS)), 0); nFD = RaiseFileDescriptorLimit(nMaxConnections + MIN_CORE_FILEDESCRIPTORS + MAX_ADDNODE_CONNECTIONS); if (nFD < MIN_CORE_FILEDESCRIPTORS) { return InitError(_("Not enough file descriptors available.")); } nMaxConnections = std::min(nFD - MIN_CORE_FILEDESCRIPTORS - MAX_ADDNODE_CONNECTIONS, nMaxConnections); if (nMaxConnections < nUserMaxConnections) { InitWarning(strprintf(_("Reducing -maxconnections from %d to %d, " "because of system limitations."), nUserMaxConnections, nMaxConnections)); } // Step 3: parameter-to-internal-flags if (gArgs.IsArgSet("-debug")) { // Special-case: if -debug=0/-nodebug is set, turn off debugging // messages const std::vector &categories = gArgs.GetArgs("-debug"); if (find(categories.begin(), categories.end(), std::string("0")) == categories.end()) { for (const auto &cat : categories) { BCLog::LogFlags flag; if (!GetLogCategory(flag, cat)) { InitWarning( strprintf(_("Unsupported logging category %s=%s."), "-debug", cat)); } GetLogger().EnableCategory(flag); } } } // Now remove the logging categories which were explicitly excluded for (const std::string &cat : gArgs.GetArgs("-debugexclude")) { BCLog::LogFlags flag; if (!GetLogCategory(flag, cat)) { InitWarning(strprintf(_("Unsupported logging category %s=%s."), "-debugexclude", cat)); } GetLogger().DisableCategory(flag); } // Check for -debugnet if (gArgs.GetBoolArg("-debugnet", false)) { InitWarning( _("Unsupported argument -debugnet ignored, use -debug=net.")); } // Check for -socks - as this is a privacy risk to continue, exit here if (gArgs.IsArgSet("-socks")) { return InitError( _("Unsupported argument -socks found. Setting SOCKS version isn't " "possible anymore, only SOCKS5 proxies are supported.")); } // Check for -tor - as this is a privacy risk to continue, exit here if (gArgs.GetBoolArg("-tor", false)) { return InitError(_("Unsupported argument -tor found, use -onion.")); } if (gArgs.GetBoolArg("-benchmark", false)) { InitWarning( _("Unsupported argument -benchmark ignored, use -debug=bench.")); } if (gArgs.GetBoolArg("-whitelistalwaysrelay", false)) { InitWarning(_("Unsupported argument -whitelistalwaysrelay ignored, use " "-whitelistrelay and/or -whitelistforcerelay.")); } if (gArgs.IsArgSet("-blockminsize")) { InitWarning("Unsupported argument -blockminsize ignored."); } // Checkmempool and checkblockindex default to true in regtest mode int ratio = std::min( std::max( gArgs.GetArg("-checkmempool", chainparams.DefaultConsistencyChecks() ? 1 : 0), 0), 1000000); if (ratio != 0) { g_mempool.setSanityCheck(1.0 / ratio); } fCheckBlockIndex = gArgs.GetBoolArg("-checkblockindex", chainparams.DefaultConsistencyChecks()); fCheckpointsEnabled = gArgs.GetBoolArg("-checkpoints", DEFAULT_CHECKPOINTS_ENABLED); hashAssumeValid = uint256S( gArgs.GetArg("-assumevalid", chainparams.GetConsensus().defaultAssumeValid.GetHex())); if (!hashAssumeValid.IsNull()) { LogPrintf("Assuming ancestors of block %s have valid signatures.\n", hashAssumeValid.GetHex()); } else { LogPrintf("Validating signatures for all blocks.\n"); } if (gArgs.IsArgSet("-minimumchainwork")) { const std::string minChainWorkStr = gArgs.GetArg("-minimumchainwork", ""); if (!IsHexNumber(minChainWorkStr)) { return InitError(strprintf( "Invalid non-hex (%s) minimum chain work value specified", minChainWorkStr)); } nMinimumChainWork = UintToArith256(uint256S(minChainWorkStr)); } else { nMinimumChainWork = UintToArith256(chainparams.GetConsensus().nMinimumChainWork); } LogPrintf("Setting nMinimumChainWork=%s\n", nMinimumChainWork.GetHex()); if (nMinimumChainWork < UintToArith256(chainparams.GetConsensus().nMinimumChainWork)) { LogPrintf("Warning: nMinimumChainWork set below default value of %s\n", chainparams.GetConsensus().nMinimumChainWork.GetHex()); } // mempool limits int64_t nMempoolSizeMax = gArgs.GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000; int64_t nMempoolSizeMin = gArgs.GetArg("-limitdescendantsize", DEFAULT_DESCENDANT_SIZE_LIMIT) * 1000 * 40; if (nMempoolSizeMax < 0 || nMempoolSizeMax < nMempoolSizeMin) { return InitError(strprintf(_("-maxmempool must be at least %d MB"), std::ceil(nMempoolSizeMin / 1000000.0))); } // -par=0 means autodetect, but nScriptCheckThreads==0 means no concurrency nScriptCheckThreads = gArgs.GetArg("-par", DEFAULT_SCRIPTCHECK_THREADS); if (nScriptCheckThreads <= 0) { nScriptCheckThreads += GetNumCores(); } if (nScriptCheckThreads <= 1) { nScriptCheckThreads = 0; } else if (nScriptCheckThreads > MAX_SCRIPTCHECK_THREADS) { nScriptCheckThreads = MAX_SCRIPTCHECK_THREADS; } // Configure excessive block size. const uint64_t nProposedExcessiveBlockSize = gArgs.GetArg("-excessiveblocksize", DEFAULT_MAX_BLOCK_SIZE); if (!config.SetMaxBlockSize(nProposedExcessiveBlockSize)) { return InitError( _("Excessive block size must be > 1,000,000 bytes (1MB)")); } // Check blockmaxsize does not exceed maximum accepted block size. const uint64_t nProposedMaxGeneratedBlockSize = gArgs.GetArg("-blockmaxsize", DEFAULT_MAX_GENERATED_BLOCK_SIZE); if (nProposedMaxGeneratedBlockSize > config.GetMaxBlockSize()) { auto msg = _("Max generated block size (blockmaxsize) cannot exceed " "the excessive block size (excessiveblocksize)"); return InitError(msg); } // block pruning; get the amount of disk space (in MiB) to allot for block & // undo files int64_t nPruneArg = gArgs.GetArg("-prune", 0); if (nPruneArg < 0) { return InitError( _("Prune cannot be configured with a negative value.")); } nPruneTarget = (uint64_t)nPruneArg * 1024 * 1024; if (nPruneArg == 1) { // manual pruning: -prune=1 LogPrintf("Block pruning enabled. Use RPC call " "pruneblockchain(height) to manually prune block and undo " "files.\n"); nPruneTarget = std::numeric_limits::max(); fPruneMode = true; } else if (nPruneTarget) { if (nPruneTarget < MIN_DISK_SPACE_FOR_BLOCK_FILES) { return InitError( strprintf(_("Prune configured below the minimum of %d MiB. " "Please use a higher number."), MIN_DISK_SPACE_FOR_BLOCK_FILES / 1024 / 1024)); } LogPrintf("Prune configured to target %uMiB on disk for block and undo " "files.\n", nPruneTarget / 1024 / 1024); fPruneMode = true; } RegisterAllRPCCommands(config, rpcServer, tableRPC); g_wallet_init_interface->RegisterRPC(tableRPC); #ifdef ENABLE_WALLET RegisterDumpRPCCommands(tableRPC); #endif nConnectTimeout = gArgs.GetArg("-timeout", DEFAULT_CONNECT_TIMEOUT); if (nConnectTimeout <= 0) { nConnectTimeout = DEFAULT_CONNECT_TIMEOUT; } // Obtain the amount to charge excess UTXO if (gArgs.IsArgSet("-excessutxocharge")) { Amount n = Amount::zero(); auto parsed = ParseMoney(gArgs.GetArg("-excessutxocharge", ""), n); if (!parsed || Amount::zero() > n) { return InitError(AmountErrMsg( "excessutxocharge", gArgs.GetArg("-excessutxocharge", ""))); } config.SetExcessUTXOCharge(n); } else { config.SetExcessUTXOCharge(DEFAULT_UTXO_FEE); } // Fee-per-kilobyte amount considered the same as "free". If you are mining, // be careful setting this: if you set it to zero then a transaction spammer // can cheaply fill blocks using 1-satoshi-fee transactions. It should be // set above the real cost to you of processing a transaction. if (gArgs.IsArgSet("-minrelaytxfee")) { Amount n = Amount::zero(); auto parsed = ParseMoney(gArgs.GetArg("-minrelaytxfee", ""), n); if (!parsed || Amount::zero() == n) { return InitError(AmountErrMsg("minrelaytxfee", gArgs.GetArg("-minrelaytxfee", ""))); } // High fee check is done afterward in WalletParameterInteraction() config.SetMinFeePerKB(CFeeRate(n)); } else { config.SetMinFeePerKB(CFeeRate(DEFAULT_MIN_RELAY_TX_FEE_PER_KB)); } // Sanity check argument for min fee for including tx in block // TODO: Harmonize which arguments need sanity checking and where that // happens. if (gArgs.IsArgSet("-blockmintxfee")) { Amount n = Amount::zero(); if (!ParseMoney(gArgs.GetArg("-blockmintxfee", ""), n)) { return InitError(AmountErrMsg("blockmintxfee", gArgs.GetArg("-blockmintxfee", ""))); } } // Feerate used to define dust. Shouldn't be changed lightly as old // implementations may inadvertently create non-standard transactions. if (gArgs.IsArgSet("-dustrelayfee")) { Amount n = Amount::zero(); auto parsed = ParseMoney(gArgs.GetArg("-dustrelayfee", ""), n); if (!parsed || Amount::zero() == n) { return InitError(AmountErrMsg("dustrelayfee", gArgs.GetArg("-dustrelayfee", ""))); } dustRelayFee = CFeeRate(n); } fRequireStandard = !gArgs.GetBoolArg("-acceptnonstdtxn", !chainparams.RequireStandard()); if (chainparams.RequireStandard() && !fRequireStandard) { return InitError( strprintf("acceptnonstdtxn is not currently supported for %s chain", chainparams.NetworkIDString())); } nBytesPerSigOp = gArgs.GetArg("-bytespersigop", nBytesPerSigOp); if (!g_wallet_init_interface->ParameterInteraction()) { return false; } fIsBareMultisigStd = gArgs.GetBoolArg("-permitbaremultisig", DEFAULT_PERMIT_BAREMULTISIG); fAcceptDatacarrier = gArgs.GetBoolArg("-datacarrier", DEFAULT_ACCEPT_DATACARRIER); // Option to startup with mocktime set (used for regression testing): SetMockTime(gArgs.GetArg("-mocktime", 0)); // SetMockTime(0) is a no-op if (gArgs.GetBoolArg("-peerbloomfilters", DEFAULT_PEERBLOOMFILTERS)) { nLocalServices = ServiceFlags(nLocalServices | NODE_BLOOM); } // Signal Bitcoin Cash support. // TODO: remove some time after the hardfork when no longer needed // to differentiate the network nodes. nLocalServices = ServiceFlags(nLocalServices | NODE_BITCOIN_CASH); nMaxTipAge = gArgs.GetArg("-maxtipage", DEFAULT_MAX_TIP_AGE); return true; } static bool LockDataDirectory(bool probeOnly) { std::string strDataDir = GetDataDir().string(); // Make sure only a single Bitcoin process is using the data directory. fs::path pathLockFile = GetDataDir() / ".lock"; // empty lock file; created if it doesn't exist. FILE *file = fsbridge::fopen(pathLockFile, "a"); if (file) { fclose(file); } try { static boost::interprocess::file_lock lock( pathLockFile.string().c_str()); if (!lock.try_lock()) { return InitError( strprintf(_("Cannot obtain a lock on data directory %s. %s is " "probably already running."), strDataDir, _(PACKAGE_NAME))); } if (probeOnly) { lock.unlock(); } } catch (const boost::interprocess::interprocess_exception &e) { return InitError(strprintf(_("Cannot obtain a lock on data directory " "%s. %s is probably already running.") + " %s.", strDataDir, _(PACKAGE_NAME), e.what())); } return true; } bool AppInitSanityChecks() { // Step 4: sanity checks // Initialize elliptic curve code std::string sha256_algo = SHA256AutoDetect(); LogPrintf("Using the '%s' SHA256 implementation\n", sha256_algo); RandomInit(); ECC_Start(); globalVerifyHandle.reset(new ECCVerifyHandle()); // Sanity check if (!InitSanityCheck()) { return InitError(strprintf( _("Initialization sanity check failed. %s is shutting down."), _(PACKAGE_NAME))); } // Probe the data directory lock to give an early error message, if possible // We cannot hold the data directory lock here, as the forking for daemon() // hasn't yet happened, and a fork will cause weird behavior to it. return LockDataDirectory(true); } bool AppInitLockDataDirectory() { // After daemonization get the data directory lock again and hold on to it // until exit. This creates a slight window for a race condition to happen, // however this condition is harmless: it will at most make us exit without // printing a message to console. if (!LockDataDirectory(false)) { // Detailed error printed inside LockDataDirectory return false; } return true; } bool AppInitMain(Config &config, HTTPRPCRequestProcessor &httpRPCRequestProcessor, boost::thread_group &threadGroup, CScheduler &scheduler) { // Step 4a: application initialization const CChainParams &chainparams = config.GetChainParams(); #ifndef WIN32 CreatePidFile(GetPidFile(), getpid()); #endif BCLog::Logger &logger = GetLogger(); bool default_shrinkdebugfile = logger.DefaultShrinkDebugFile(); if (gArgs.GetBoolArg("-shrinkdebugfile", default_shrinkdebugfile)) { // Do this first since it both loads a bunch of debug.log into memory, // and because this needs to happen before any other debug.log printing. logger.ShrinkDebugFile(); } if (logger.m_print_to_file) { logger.OpenDebugLog(); } if (!logger.m_log_timestamps) { LogPrintf("Startup time: %s\n", DateTimeStrFormat("%Y-%m-%d %H:%M:%S", GetTime())); } LogPrintf("Default data directory %s\n", GetDefaultDataDir().string()); LogPrintf("Using data directory %s\n", GetDataDir().string()); LogPrintf( "Using config file %s\n", GetConfigFile(gArgs.GetArg("-conf", BITCOIN_CONF_FILENAME)).string()); LogPrintf("Using at most %i automatic connections (%i file descriptors " "available)\n", nMaxConnections, nFD); InitSignatureCache(); InitScriptExecutionCache(); LogPrintf("Using %u threads for script verification\n", nScriptCheckThreads); if (nScriptCheckThreads) { for (int i = 0; i < nScriptCheckThreads - 1; i++) { threadGroup.create_thread(&ThreadScriptCheck); } } // Start the lightweight task scheduler thread CScheduler::Function serviceLoop = boost::bind(&CScheduler::serviceQueue, &scheduler); threadGroup.create_thread(boost::bind(&TraceThread, "scheduler", serviceLoop)); GetMainSignals().RegisterBackgroundSignalScheduler(scheduler); /** * Start the RPC server. It will be started in "warmup" mode and not * process calls yet (but it will verify that the server is there and will * be ready later). Warmup mode will be completed when initialisation is * finished. */ if (gArgs.GetBoolArg("-server", false)) { uiInterface.InitMessage.connect(SetRPCWarmupStatus); if (!AppInitServers(config, httpRPCRequestProcessor, threadGroup)) { return InitError( _("Unable to start HTTP server. See debug log for details.")); } } // Step 5: verify wallet database integrity if (!g_wallet_init_interface->Verify(chainparams)) { return false; } // Step 6: network initialization // Note that we absolutely cannot open any actual connections // until the very end ("start node") as the UTXO/block state // is not yet setup and may end up being set up twice if we // need to reindex later. assert(!g_connman); g_connman = std::unique_ptr( new CConnman(config, GetRand(std::numeric_limits::max()), GetRand(std::numeric_limits::max()))); CConnman &connman = *g_connman; peerLogic.reset(new PeerLogicValidation(&connman, scheduler)); RegisterValidationInterface(peerLogic.get()); if (gArgs.IsArgSet("-onlynet")) { std::set nets; for (const std::string &snet : gArgs.GetArgs("-onlynet")) { enum Network net = ParseNetwork(snet); if (net == NET_UNROUTABLE) { return InitError(strprintf( _("Unknown network specified in -onlynet: '%s'"), snet)); } nets.insert(net); } for (int n = 0; n < NET_MAX; n++) { enum Network net = (enum Network)n; if (!nets.count(net)) SetLimited(net); } } // Check for host lookup allowed before parsing any network related // parameters fNameLookup = gArgs.GetBoolArg("-dns", DEFAULT_NAME_LOOKUP); bool proxyRandomize = gArgs.GetBoolArg("-proxyrandomize", DEFAULT_PROXYRANDOMIZE); // -proxy sets a proxy for all outgoing network traffic // -noproxy (or -proxy=0) as well as the empty string can be used to not set // a proxy, this is the default std::string proxyArg = gArgs.GetArg("-proxy", ""); SetLimited(NET_TOR); if (proxyArg != "" && proxyArg != "0") { CService proxyAddr; if (!Lookup(proxyArg.c_str(), proxyAddr, 9050, fNameLookup)) { return InitError(strprintf( _("Invalid -proxy address or hostname: '%s'"), proxyArg)); } proxyType addrProxy = proxyType(proxyAddr, proxyRandomize); if (!addrProxy.IsValid()) { return InitError(strprintf( _("Invalid -proxy address or hostname: '%s'"), proxyArg)); } SetProxy(NET_IPV4, addrProxy); SetProxy(NET_IPV6, addrProxy); SetProxy(NET_TOR, addrProxy); SetNameProxy(addrProxy); // by default, -proxy sets onion as reachable, unless -noonion later SetLimited(NET_TOR, false); } // -onion can be used to set only a proxy for .onion, or override normal // proxy for .onion addresses. // -noonion (or -onion=0) disables connecting to .onion entirely. An empty // string is used to not override the onion proxy (in which case it defaults // to -proxy set above, or none) std::string onionArg = gArgs.GetArg("-onion", ""); if (onionArg != "") { if (onionArg == "0") { // Handle -noonion/-onion=0 SetLimited(NET_TOR); // set onions as unreachable } else { CService onionProxy; if (!Lookup(onionArg.c_str(), onionProxy, 9050, fNameLookup)) { return InitError(strprintf( _("Invalid -onion address or hostname: '%s'"), onionArg)); } proxyType addrOnion = proxyType(onionProxy, proxyRandomize); if (!addrOnion.IsValid()) { return InitError(strprintf( _("Invalid -onion address or hostname: '%s'"), onionArg)); } SetProxy(NET_TOR, addrOnion); SetLimited(NET_TOR, false); } } // see Step 2: parameter interactions for more information about these fListen = gArgs.GetBoolArg("-listen", DEFAULT_LISTEN); fDiscover = gArgs.GetBoolArg("-discover", true); fRelayTxes = !gArgs.GetBoolArg("-blocksonly", DEFAULT_BLOCKSONLY); for (const std::string &strAddr : gArgs.GetArgs("-externalip")) { CService addrLocal; if (Lookup(strAddr.c_str(), addrLocal, GetListenPort(), fNameLookup) && addrLocal.IsValid()) { AddLocal(addrLocal, LOCAL_MANUAL); } else { return InitError(ResolveErrMsg("externalip", strAddr)); } } #if ENABLE_ZMQ pzmqNotificationInterface = CZMQNotificationInterface::Create(); if (pzmqNotificationInterface) { RegisterValidationInterface(pzmqNotificationInterface); } #endif // unlimited unless -maxuploadtarget is set uint64_t nMaxOutboundLimit = 0; uint64_t nMaxOutboundTimeframe = MAX_UPLOAD_TIMEFRAME; if (gArgs.IsArgSet("-maxuploadtarget")) { nMaxOutboundLimit = gArgs.GetArg("-maxuploadtarget", DEFAULT_MAX_UPLOAD_TARGET) * 1024 * 1024; } // Step 7: load block chain fReindex = gArgs.GetBoolArg("-reindex", false); bool fReindexChainState = gArgs.GetBoolArg("-reindex-chainstate", false); // cache size calculations int64_t nTotalCache = (gArgs.GetArg("-dbcache", nDefaultDbCache) << 20); // total cache cannot be less than nMinDbCache nTotalCache = std::max(nTotalCache, nMinDbCache << 20); // total cache cannot be greater than nMaxDbcache nTotalCache = std::min(nTotalCache, nMaxDbCache << 20); int64_t nBlockTreeDBCache = nTotalCache / 8; nBlockTreeDBCache = std::min(nBlockTreeDBCache, (gArgs.GetBoolArg("-txindex", DEFAULT_TXINDEX) ? nMaxBlockDBAndTxIndexCache : nMaxBlockDBCache) << 20); nTotalCache -= nBlockTreeDBCache; // use 25%-50% of the remainder for disk cache int64_t nCoinDBCache = std::min(nTotalCache / 2, (nTotalCache / 4) + (1 << 23)); // cap total coins db cache nCoinDBCache = std::min(nCoinDBCache, nMaxCoinsDBCache << 20); nTotalCache -= nCoinDBCache; // the rest goes to in-memory cache nCoinCacheUsage = nTotalCache; int64_t nMempoolSizeMax = gArgs.GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000; LogPrintf("Cache configuration:\n"); LogPrintf("* Using %.1fMiB for block index database\n", nBlockTreeDBCache * (1.0 / 1024 / 1024)); LogPrintf("* Using %.1fMiB for chain state database\n", nCoinDBCache * (1.0 / 1024 / 1024)); LogPrintf("* Using %.1fMiB for in-memory UTXO set (plus up to %.1fMiB of " "unused mempool space)\n", nCoinCacheUsage * (1.0 / 1024 / 1024), nMempoolSizeMax * (1.0 / 1024 / 1024)); int64_t nStart = 0; bool fLoaded = false; while (!fLoaded && !fRequestShutdown) { bool fReset = fReindex; std::string strLoadError; uiInterface.InitMessage(_("Loading block index...")); nStart = GetTimeMillis(); do { try { UnloadBlockIndex(); pcoinsTip.reset(); pcoinsdbview.reset(); pcoinscatcher.reset(); pblocktree.reset( new CBlockTreeDB(nBlockTreeDBCache, false, fReset)); if (fReindex) { pblocktree->WriteReindexing(true); // If we're reindexing in prune mode, wipe away unusable // block files and all undo data files if (fPruneMode) { CleanupBlockRevFiles(); } } if (fRequestShutdown) { break; } // LoadBlockIndex will load fTxIndex from the db, or set it if // we're reindexing. It will also load fHavePruned if we've // ever removed a block file from disk. if (!LoadBlockIndex(config)) { strLoadError = _("Error loading block database"); break; } // If the loaded chain has a wrong genesis, bail out immediately // (we're likely using a testnet datadir, or the other way // around). if (!mapBlockIndex.empty() && mapBlockIndex.count( chainparams.GetConsensus().hashGenesisBlock) == 0) { return InitError(_("Incorrect or no genesis block found. " "Wrong datadir for network?")); } // Check for changed -txindex state if (fTxIndex != gArgs.GetBoolArg("-txindex", DEFAULT_TXINDEX)) { strLoadError = _("You need to rebuild the database using " "-reindex-chainstate to change -txindex"); break; } // Check for changed -prune state. What we are concerned about // is a user who has pruned blocks in the past, but is now // trying to run unpruned. if (fHavePruned && !fPruneMode) { strLoadError = _("You need to rebuild the database using -reindex to " "go back to unpruned mode. This will redownload the " "entire blockchain"); break; } // At this point blocktree args are consistent with what's on // disk. If we're not mid-reindex (based on disk + args), add a // genesis block on disk. This is called again in ThreadImport // if the reindex completes. if (!fReindex && !LoadGenesisBlock(chainparams)) { strLoadError = _("Error initializing block database"); break; } // At this point we're either in reindex or we've loaded a // useful block tree into mapBlockIndex! pcoinsdbview.reset(new CCoinsViewDB( nCoinDBCache, false, fReset || fReindexChainState)); pcoinscatcher.reset( new CCoinsViewErrorCatcher(pcoinsdbview.get())); // If necessary, upgrade from older database format. // This is a no-op if we cleared the coinsviewdb with -reindex // or -reindex-chainstate if (!pcoinsdbview->Upgrade()) { strLoadError = _("Error upgrading chainstate database"); break; } // ReplayBlocks is a no-op if we cleared the coinsviewdb with // -reindex or -reindex-chainstate if (!ReplayBlocks(config, pcoinsdbview.get())) { strLoadError = _("Unable to replay blocks. You will need to rebuild " "the database using -reindex-chainstate."); break; } // The on-disk coinsdb is now in a good state, create the cache pcoinsTip.reset(new CCoinsViewCache(pcoinscatcher.get())); if (!fReindex && !fReindexChainState) { // LoadChainTip sets chainActive based on pcoinsTip's best // block if (!LoadChainTip(config)) { strLoadError = _("Error initializing block database"); break; } assert(chainActive.Tip() != nullptr); } if (!fReindex) { // Note that RewindBlockIndex MUST run even if we're about // to -reindex-chainstate. It both disconnects blocks based // on chainActive, and drops block data in mapBlockIndex // based on lack of available witness data. uiInterface.InitMessage(_("Rewinding blocks...")); if (!RewindBlockIndex(config)) { strLoadError = _("Unable to rewind the database to a " "pre-fork state. You will need to " "redownload the blockchain"); break; } } if (!fReindex && !fReindexChainState) { uiInterface.InitMessage(_("Verifying blocks...")); if (fHavePruned && gArgs.GetArg("-checkblocks", DEFAULT_CHECKBLOCKS) > MIN_BLOCKS_TO_KEEP) { LogPrintf("Prune: pruned datadir may not have more " "than %d blocks; only checking available " "blocks", MIN_BLOCKS_TO_KEEP); } { LOCK(cs_main); CBlockIndex *tip = chainActive.Tip(); RPCNotifyBlockChange(true, tip); if (tip && tip->nTime > GetAdjustedTime() + MAX_FUTURE_BLOCK_TIME) { strLoadError = _("The block database contains a block which " "appears to be from the future. This may be " "due to your computer's date and time being " "set incorrectly. Only rebuild the block " "database if you are sure that your " "computer's date and time are correct"); break; } } if (!CVerifyDB().VerifyDB( config, pcoinsdbview.get(), gArgs.GetArg("-checklevel", DEFAULT_CHECKLEVEL), gArgs.GetArg("-checkblocks", DEFAULT_CHECKBLOCKS))) { strLoadError = _("Corrupted block database detected"); break; } } } catch (const std::exception &e) { LogPrintf("%s\n", e.what()); strLoadError = _("Error opening block database"); break; } fLoaded = true; } while (false); if (!fLoaded && !fRequestShutdown) { // first suggest a reindex if (!fReset) { bool fRet = uiInterface.ThreadSafeQuestion( strLoadError + ".\n\n" + _("Do you want to rebuild the block database now?"), strLoadError + ".\nPlease restart with -reindex or " "-reindex-chainstate to recover.", "", CClientUIInterface::MSG_ERROR | CClientUIInterface::BTN_ABORT); if (fRet) { fReindex = true; fRequestShutdown = false; } else { LogPrintf("Aborted block database rebuild. Exiting.\n"); return false; } } else { return InitError(strLoadError); } } } // As LoadBlockIndex can take several minutes, it's possible the user // requested to kill the GUI during the last operation. If so, exit. // As the program has not fully started yet, Shutdown() is possibly // overkill. if (fRequestShutdown) { LogPrintf("Shutdown requested. Exiting.\n"); return false; } LogPrintf(" block index %15dms\n", GetTimeMillis() - nStart); fs::path est_path = GetDataDir() / FEE_ESTIMATES_FILENAME; CAutoFile est_filein(fsbridge::fopen(est_path, "rb"), SER_DISK, CLIENT_VERSION); // Allowed to fail as this file IS missing on first startup. if (!est_filein.IsNull()) { g_mempool.ReadFeeEstimates(est_filein); } fFeeEstimatesInitialized = true; // Encoded addresses using cashaddr instead of base58 // Activates by default on Jan, 14 config.SetCashAddrEncoding( gArgs.GetBoolArg("-usecashaddr", GetAdjustedTime() > 1515900000)); // Step 8: load wallet if (!g_wallet_init_interface->Open(chainparams)) { return false; } // Step 9: data directory maintenance // if pruning, unset the service bit and perform the initial blockstore // prune after any wallet rescanning has taken place. if (fPruneMode) { LogPrintf("Unsetting NODE_NETWORK on prune mode\n"); nLocalServices = ServiceFlags(nLocalServices & ~NODE_NETWORK); if (!fReindex) { uiInterface.InitMessage(_("Pruning blockstore...")); PruneAndFlush(); } } // Step 10: import blocks if (!CheckDiskSpace()) { return false; } // Either install a handler to notify us when genesis activates, or set // fHaveGenesis directly. // No locking, as this happens before any background thread is started. if (chainActive.Tip() == nullptr) { uiInterface.NotifyBlockTip.connect(BlockNotifyGenesisWait); } else { fHaveGenesis = true; } if (gArgs.IsArgSet("-blocknotify")) { uiInterface.NotifyBlockTip.connect(BlockNotifyCallback); } std::vector vImportFiles; for (const std::string &strFile : gArgs.GetArgs("-loadblock")) { vImportFiles.push_back(strFile); } threadGroup.create_thread( boost::bind(&ThreadImport, std::ref(config), vImportFiles)); // Wait for genesis block to be processed { WAIT_LOCK(cs_GenesisWait, lock); // We previously could hang here if StartShutdown() is called prior to // ThreadImport getting started, so instead we just wait on a timer to // check ShutdownRequested() regularly. while (!fHaveGenesis && !ShutdownRequested()) { condvar_GenesisWait.wait_for(lock, std::chrono::milliseconds(500)); } uiInterface.NotifyBlockTip.disconnect(BlockNotifyGenesisWait); } // Step 11: start node + int chain_active_height; + //// debug print - LogPrintf("mapBlockIndex.size() = %u\n", mapBlockIndex.size()); - LogPrintf("nBestHeight = %d\n", chainActive.Height()); + { + LOCK(cs_main); + LogPrintf("mapBlockIndex.size() = %u\n", mapBlockIndex.size()); + chain_active_height = chainActive.Height(); + } + LogPrintf("nBestHeight = %d\n", chain_active_height); + if (gArgs.GetBoolArg("-listenonion", DEFAULT_LISTEN_ONION)) { StartTorControl(); } Discover(); // Map ports with UPnP if (gArgs.GetBoolArg("-upnp", DEFAULT_UPNP)) { StartMapPort(); } CConnman::Options connOptions; connOptions.nLocalServices = nLocalServices; connOptions.nMaxConnections = nMaxConnections; connOptions.nMaxOutbound = std::min(MAX_OUTBOUND_CONNECTIONS, connOptions.nMaxConnections); connOptions.nMaxAddnode = MAX_ADDNODE_CONNECTIONS; connOptions.nMaxFeeler = 1; - connOptions.nBestHeight = chainActive.Height(); + connOptions.nBestHeight = chain_active_height; connOptions.uiInterface = &uiInterface; connOptions.m_msgproc = peerLogic.get(); connOptions.nSendBufferMaxSize = 1000 * gArgs.GetArg("-maxsendbuffer", DEFAULT_MAXSENDBUFFER); connOptions.nReceiveFloodSize = 1000 * gArgs.GetArg("-maxreceivebuffer", DEFAULT_MAXRECEIVEBUFFER); connOptions.m_added_nodes = gArgs.GetArgs("-addnode"); connOptions.nMaxOutboundTimeframe = nMaxOutboundTimeframe; connOptions.nMaxOutboundLimit = nMaxOutboundLimit; for (const std::string &strBind : gArgs.GetArgs("-bind")) { CService addrBind; if (!Lookup(strBind.c_str(), addrBind, GetListenPort(), false)) { return InitError(ResolveErrMsg("bind", strBind)); } connOptions.vBinds.push_back(addrBind); } for (const std::string &strBind : gArgs.GetArgs("-whitebind")) { CService addrBind; if (!Lookup(strBind.c_str(), addrBind, 0, false)) { return InitError(ResolveErrMsg("whitebind", strBind)); } if (addrBind.GetPort() == 0) { return InitError(strprintf( _("Need to specify a port with -whitebind: '%s'"), strBind)); } connOptions.vWhiteBinds.push_back(addrBind); } for (const auto &net : gArgs.GetArgs("-whitelist")) { CSubNet subnet; LookupSubNet(net.c_str(), subnet); if (!subnet.IsValid()) { return InitError(strprintf( _("Invalid netmask specified in -whitelist: '%s'"), net)); } connOptions.vWhitelistedRange.push_back(subnet); } connOptions.vSeedNodes = gArgs.GetArgs("-seednode"); // Initiate outbound connections unless connect=0 connOptions.m_use_addrman_outgoing = !gArgs.IsArgSet("-connect"); if (!connOptions.m_use_addrman_outgoing) { const auto connect = gArgs.GetArgs("-connect"); if (connect.size() != 1 || connect[0] != "0") { connOptions.m_specified_outgoing = connect; } } if (!connman.Start(scheduler, connOptions)) { return false; } // Step 12: finished SetRPCWarmupFinished(); uiInterface.InitMessage(_("Done loading")); g_wallet_init_interface->Start(scheduler); return !fRequestShutdown; } diff --git a/src/txdb.h b/src/txdb.h index 9217d599ba..6022a51438 100644 --- a/src/txdb.h +++ b/src/txdb.h @@ -1,137 +1,137 @@ // Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2016 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_TXDB_H #define BITCOIN_TXDB_H #include "blockfileinfo.h" #include "chain.h" #include "coins.h" #include "dbwrapper.h" #include "diskblockpos.h" #include #include #include #include class CBlockIndex; class CCoinsViewDBCursor; class uint256; class Config; //! No need to periodic flush if at least this much space still available. static constexpr int MAX_BLOCK_COINSDB_USAGE = 10; //! -dbcache default (MiB) static const int64_t nDefaultDbCache = 450; //! -dbbatchsize default (bytes) static const int64_t nDefaultDbBatchSize = 16 << 20; //! max. -dbcache (MiB) static const int64_t nMaxDbCache = sizeof(void *) > 4 ? 16384 : 1024; //! min. -dbcache (MiB) static const int64_t nMinDbCache = 4; //! Max memory allocated to block tree DB specific cache, if no -txindex (MiB) static const int64_t nMaxBlockDBCache = 2; //! Max memory allocated to block tree DB specific cache, if -txindex (MiB) // Unlike for the UTXO database, for the txindex scenario the leveldb cache make // a meaningful difference: // https://github.com/bitcoin/bitcoin/pull/8273#issuecomment-229601991 static const int64_t nMaxBlockDBAndTxIndexCache = 1024; //! Max memory allocated to coin DB specific cache (MiB) static const int64_t nMaxCoinsDBCache = 8; struct CDiskTxPos : public CDiskBlockPos { unsigned int nTxOffset; // after header ADD_SERIALIZE_METHODS; template inline void SerializationOp(Stream &s, Operation ser_action) { READWRITE(*(CDiskBlockPos *)this); READWRITE(VARINT(nTxOffset)); } CDiskTxPos(const CDiskBlockPos &blockIn, unsigned int nTxOffsetIn) : CDiskBlockPos(blockIn.nFile, blockIn.nPos), nTxOffset(nTxOffsetIn) {} CDiskTxPos() { SetNull(); } void SetNull() { CDiskBlockPos::SetNull(); nTxOffset = 0; } }; /** CCoinsView backed by the coin database (chainstate/) */ class CCoinsViewDB final : public CCoinsView { protected: CDBWrapper db; public: explicit CCoinsViewDB(size_t nCacheSize, bool fMemory = false, bool fWipe = false); bool GetCoin(const COutPoint &outpoint, Coin &coin) const override; bool HaveCoin(const COutPoint &outpoint) const override; uint256 GetBestBlock() const override; std::vector GetHeadBlocks() const override; bool BatchWrite(CCoinsMap &mapCoins, const uint256 &hashBlock) override; CCoinsViewCursor *Cursor() const override; //! Attempt to update from an older database format. //! Returns whether an error occurred. bool Upgrade(); size_t EstimateSize() const override; }; /** Specialization of CCoinsViewCursor to iterate over a CCoinsViewDB */ class CCoinsViewDBCursor : public CCoinsViewCursor { public: ~CCoinsViewDBCursor() {} bool GetKey(COutPoint &key) const override; bool GetValue(Coin &coin) const override; unsigned int GetValueSize() const override; bool Valid() const override; void Next() override; private: CCoinsViewDBCursor(CDBIterator *pcursorIn, const uint256 &hashBlockIn) : CCoinsViewCursor(hashBlockIn), pcursor(pcursorIn) {} std::unique_ptr pcursor; std::pair keyTmp; friend class CCoinsViewDB; }; /** Access to the block database (blocks/index/) */ class CBlockTreeDB : public CDBWrapper { public: explicit CBlockTreeDB(size_t nCacheSize, bool fMemory = false, bool fWipe = false); private: CBlockTreeDB(const CBlockTreeDB &); void operator=(const CBlockTreeDB &); public: bool WriteBatchSync( const std::vector> &fileInfo, int nLastFile, const std::vector &blockinfo); - bool ReadBlockFileInfo(int nFile, CBlockFileInfo &fileinfo); + bool ReadBlockFileInfo(int nFile, CBlockFileInfo &info); bool ReadLastBlockFile(int &nFile); - bool WriteReindexing(bool fReindex); - bool ReadReindexing(bool &fReindex); + bool WriteReindexing(bool fReindexing); + bool ReadReindexing(bool &fReindexing); bool ReadTxIndex(const uint256 &txid, CDiskTxPos &pos); - bool WriteTxIndex(const std::vector> &list); + bool WriteTxIndex(const std::vector> &vect); bool WriteFlag(const std::string &name, bool fValue); bool ReadFlag(const std::string &name, bool &fValue); bool LoadBlockIndexGuts( const Config &config, std::function insertBlockIndex); }; #endif // BITCOIN_TXDB_H diff --git a/src/validation.cpp b/src/validation.cpp index fd9991c4a8..c7d9c9a72e 100644 --- a/src/validation.cpp +++ b/src/validation.cpp @@ -1,5508 +1,5510 @@ // Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2016 The Bitcoin Core developers // Copyright (c) 2017-2018 The Bitcoin developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include "validation.h" #include "arith_uint256.h" #include "blockindexworkcomparator.h" #include "blockvalidity.h" #include "chainparams.h" #include "checkpoints.h" #include "checkqueue.h" #include "config.h" #include "consensus/activation.h" #include "consensus/consensus.h" #include "consensus/merkle.h" #include "consensus/tx_verify.h" #include "consensus/validation.h" #include "fs.h" #include "hash.h" #include "init.h" #include "policy/fees.h" #include "policy/policy.h" #include "pow.h" #include "primitives/block.h" #include "primitives/transaction.h" #include "random.h" #include "reverse_iterator.h" #include "script/script.h" #include "script/scriptcache.h" #include "script/sigcache.h" #include "script/standard.h" #include "timedata.h" #include "tinyformat.h" #include "txdb.h" #include "txmempool.h" #include "ui_interface.h" #include "undo.h" #include "util.h" #include "utilmoneystr.h" #include "utilstrencodings.h" #include "validationinterface.h" #include "warnings.h" #include #include #include #include #include #include #if defined(NDEBUG) #error "Bitcoin cannot be compiled without assertions." #endif /** * Global state */ CCriticalSection cs_main; BlockMap mapBlockIndex; CChain chainActive; CBlockIndex *pindexBestHeader = nullptr; CWaitableCriticalSection g_best_block_mutex; CConditionVariable g_best_block_cv; uint256 g_best_block; int nScriptCheckThreads = 0; std::atomic_bool fImporting(false); -bool fReindex = false; +std::atomic_bool fReindex(false); bool fTxIndex = false; bool fHavePruned = false; bool fPruneMode = false; bool fIsBareMultisigStd = DEFAULT_PERMIT_BAREMULTISIG; bool fRequireStandard = true; bool fCheckBlockIndex = false; bool fCheckpointsEnabled = DEFAULT_CHECKPOINTS_ENABLED; size_t nCoinCacheUsage = 5000 * 300; uint64_t nPruneTarget = 0; int64_t nMaxTipAge = DEFAULT_MAX_TIP_AGE; uint256 hashAssumeValid; arith_uint256 nMinimumChainWork; Amount maxTxFee = DEFAULT_TRANSACTION_MAXFEE; CTxMemPool g_mempool; static void CheckBlockIndex(const Consensus::Params &consensusParams); /** Constant stuff for coinbase transactions we create: */ CScript COINBASE_FLAGS; const std::string strMessageMagic = "Bitcoin Signed Message:\n"; // Internal stuff namespace { CBlockIndex *pindexBestInvalid; CBlockIndex *pindexBestParked; /** * The best finalized block. * This block cannot be reorged in any way, shape or form. */ CBlockIndex const *pindexFinalized; /** * The set of all CBlockIndex entries with BLOCK_VALID_TRANSACTIONS (for itself * and all ancestors) and as good as our current tip or better. Entries may be * failed, though, and pruning nodes may be missing the data for the block. */ std::set setBlockIndexCandidates; /** * All pairs A->B, where A (or one of its ancestors) misses transactions, but B * has transactions. Pruned nodes may have entries where B is missing data. */ std::multimap mapBlocksUnlinked; CCriticalSection cs_LastBlockFile; std::vector vinfoBlockFile; int nLastBlockFile = 0; /** * Global flag to indicate we should check to see if there are block/undo files * that should be deleted. Set on startup or if we allocate more file space when * we're in prune mode. */ bool fCheckForPruning = false; /** * Every received block is assigned a unique and increasing identifier, so we * know which one to give priority in case of a fork. * Blocks loaded from disk are assigned id 0, so start the counter at 1. */ std::atomic nBlockSequenceId{1}; /** Decreasing counter (used by subsequent preciousblock calls). */ int32_t nBlockReverseSequenceId = -1; /** chainwork for the last block that preciousblock has been applied to. */ arith_uint256 nLastPreciousChainwork = 0; /** Dirty block index entries. */ std::set setDirtyBlockIndex; /** Dirty block file entries. */ std::set setDirtyFileInfo; } // namespace CBlockIndex *FindForkInGlobalIndex(const CChain &chain, const CBlockLocator &locator) { // Find the first block the caller has in the main chain for (const uint256 &hash : locator.vHave) { BlockMap::iterator mi = mapBlockIndex.find(hash); if (mi != mapBlockIndex.end()) { CBlockIndex *pindex = (*mi).second; if (chain.Contains(pindex)) { return pindex; } if (pindex->GetAncestor(chain.Height()) == chain.Tip()) { return chain.Tip(); } } } return chain.Genesis(); } std::unique_ptr pcoinsdbview; std::unique_ptr pcoinsTip; std::unique_ptr pblocktree; enum FlushStateMode { FLUSH_STATE_NONE, FLUSH_STATE_IF_NEEDED, FLUSH_STATE_PERIODIC, FLUSH_STATE_ALWAYS }; // See definition for documentation static bool FlushStateToDisk(const CChainParams &chainParams, CValidationState &state, FlushStateMode mode, int nManualPruneHeight = 0); static void FindFilesToPruneManual(std::set &setFilesToPrune, int nManualPruneHeight); static void FindFilesToPrune(std::set &setFilesToPrune, uint64_t nPruneAfterHeight); static FILE *OpenUndoFile(const CDiskBlockPos &pos, bool fReadOnly = false); static uint32_t GetBlockScriptFlags(const Config &config, const CBlockIndex *pChainTip); bool TestLockPointValidity(const LockPoints *lp) { AssertLockHeld(cs_main); assert(lp); // If there are relative lock times then the maxInputBlock will be set // If there are no relative lock times, the LockPoints don't depend on the // chain if (lp->maxInputBlock) { // Check whether chainActive is an extension of the block at which the // LockPoints // calculation was valid. If not LockPoints are no longer valid if (!chainActive.Contains(lp->maxInputBlock)) { return false; } } // LockPoints still valid return true; } bool CheckSequenceLocks(const CTransaction &tx, int flags, LockPoints *lp, bool useExistingLockPoints) { AssertLockHeld(cs_main); AssertLockHeld(g_mempool.cs); CBlockIndex *tip = chainActive.Tip(); CBlockIndex index; index.pprev = tip; // CheckSequenceLocks() uses chainActive.Height()+1 to evaluate height based // locks because when SequenceLocks() is called within ConnectBlock(), the // height of the block *being* evaluated is what is used. Thus if we want to // know if a transaction can be part of the *next* block, we need to use one // more than chainActive.Height() index.nHeight = tip->nHeight + 1; std::pair lockPair; if (useExistingLockPoints) { assert(lp); lockPair.first = lp->height; lockPair.second = lp->time; } else { // pcoinsTip contains the UTXO set for chainActive.Tip() CCoinsViewMemPool viewMemPool(pcoinsTip.get(), g_mempool); std::vector prevheights; prevheights.resize(tx.vin.size()); for (size_t txinIndex = 0; txinIndex < tx.vin.size(); txinIndex++) { const CTxIn &txin = tx.vin[txinIndex]; Coin coin; if (!viewMemPool.GetCoin(txin.prevout, coin)) { return error("%s: Missing input", __func__); } if (coin.GetHeight() == MEMPOOL_HEIGHT) { // Assume all mempool transaction confirm in the next block prevheights[txinIndex] = tip->nHeight + 1; } else { prevheights[txinIndex] = coin.GetHeight(); } } lockPair = CalculateSequenceLocks(tx, flags, &prevheights, index); if (lp) { lp->height = lockPair.first; lp->time = lockPair.second; // Also store the hash of the block with the highest height of all // the blocks which have sequence locked prevouts. This hash needs // to still be on the chain for these LockPoint calculations to be // valid. // Note: It is impossible to correctly calculate a maxInputBlock if // any of the sequence locked inputs depend on unconfirmed txs, // except in the special case where the relative lock time/height is // 0, which is equivalent to no sequence lock. Since we assume input // height of tip+1 for mempool txs and test the resulting lockPair // from CalculateSequenceLocks against tip+1. We know // EvaluateSequenceLocks will fail if there was a non-zero sequence // lock on a mempool input, so we can use the return value of // CheckSequenceLocks to indicate the LockPoints validity. int maxInputHeight = 0; for (int height : prevheights) { // Can ignore mempool inputs since we'll fail if they had // non-zero locks. if (height != tip->nHeight + 1) { maxInputHeight = std::max(maxInputHeight, height); } } lp->maxInputBlock = tip->GetAncestor(maxInputHeight); } } return EvaluateSequenceLocks(index, lockPair); } /** Convert CValidationState to a human-readable message for logging */ std::string FormatStateMessage(const CValidationState &state) { return strprintf( "%s%s (code %i)", state.GetRejectReason(), state.GetDebugMessage().empty() ? "" : ", " + state.GetDebugMessage(), state.GetRejectCode()); } static bool IsCurrentForFeeEstimation() { AssertLockHeld(cs_main); if (IsInitialBlockDownload()) { return false; } if (chainActive.Tip()->GetBlockTime() < (GetTime() - MAX_FEE_ESTIMATION_TIP_AGE)) { return false; } if (chainActive.Height() < pindexBestHeader->nHeight - 1) { return false; } return true; } static bool IsMagneticAnomalyEnabledForCurrentBlock(const Config &config) { AssertLockHeld(cs_main); return IsMagneticAnomalyEnabled(config, chainActive.Tip()); } // Command-line argument "-replayprotectionactivationtime=" will // cause the node to switch to replay protected SigHash ForkID value when the // median timestamp of the previous 11 blocks is greater than or equal to // . Defaults to the pre-defined timestamp when not set. static bool IsReplayProtectionEnabled(const Config &config, int64_t nMedianTimePast) { return nMedianTimePast >= gArgs.GetArg( "-replayprotectionactivationtime", config.GetChainParams().GetConsensus().greatWallActivationTime); } static bool IsReplayProtectionEnabled(const Config &config, const CBlockIndex *pindexPrev) { if (pindexPrev == nullptr) { return false; } return IsReplayProtectionEnabled(config, pindexPrev->GetMedianTimePast()); } static bool IsReplayProtectionEnabledForCurrentBlock(const Config &config) { AssertLockHeld(cs_main); return IsReplayProtectionEnabled(config, chainActive.Tip()); } // Used to avoid mempool polluting consensus critical paths if CCoinsViewMempool // were somehow broken and returning the wrong scriptPubKeys static bool CheckInputsFromMempoolAndCache(const CTransaction &tx, CValidationState &state, const CCoinsViewCache &view, CTxMemPool &pool, const uint32_t flags, bool cacheSigStore, PrecomputedTransactionData &txdata) { AssertLockHeld(cs_main); // pool.cs should be locked already, but go ahead and re-take the lock here // to enforce that mempool doesn't change between when we check the view and // when we actually call through to CheckInputs LOCK(pool.cs); assert(!tx.IsCoinBase()); for (const CTxIn &txin : tx.vin) { const Coin &coin = view.AccessCoin(txin.prevout); // At this point we haven't actually checked if the coins are all // available (or shouldn't assume we have, since CheckInputs does). So // we just return failure if the inputs are not available here, and then // only have to check equivalence for available inputs. if (coin.IsSpent()) { return false; } const CTransactionRef &txFrom = pool.get(txin.prevout.GetTxId()); if (txFrom) { assert(txFrom->GetId() == txin.prevout.GetTxId()); assert(txFrom->vout.size() > txin.prevout.GetN()); assert(txFrom->vout[txin.prevout.GetN()] == coin.GetTxOut()); } else { const Coin &coinFromDisk = pcoinsTip->AccessCoin(txin.prevout); assert(!coinFromDisk.IsSpent()); assert(coinFromDisk.GetTxOut() == coin.GetTxOut()); } } return CheckInputs(tx, state, view, true, flags, cacheSigStore, true, txdata); } static bool AcceptToMemoryPoolWorker( const Config &config, CTxMemPool &pool, CValidationState &state, const CTransactionRef &ptx, bool fLimitFree, bool *pfMissingInputs, int64_t nAcceptTime, bool fOverrideMempoolLimit, const Amount nAbsurdFee, std::vector &coins_to_uncache) { AssertLockHeld(cs_main); const CTransaction &tx = *ptx; const TxId txid = tx.GetId(); // mempool "read lock" (held through // GetMainSignals().TransactionAddedToMempool()) LOCK(pool.cs); if (pfMissingInputs) { *pfMissingInputs = false; } // Coinbase is only valid in a block, not as a loose transaction. if (!CheckRegularTransaction(tx, state)) { // state filled in by CheckRegularTransaction. return false; } // Rather not work on nonstandard transactions (unless -testnet/-regtest) std::string reason; if (fRequireStandard && !IsStandardTx(tx, reason)) { return state.DoS(0, false, REJECT_NONSTANDARD, reason); } // Only accept nLockTime-using transactions that can be mined in the next // block; we don't want our mempool filled up with transactions that can't // be mined yet. CValidationState ctxState; if (!ContextualCheckTransactionForCurrentBlock( config, tx, ctxState, STANDARD_LOCKTIME_VERIFY_FLAGS)) { // We copy the state from a dummy to ensure we don't increase the // ban score of peer for transaction that could be valid in the future. return state.DoS( 0, false, REJECT_NONSTANDARD, ctxState.GetRejectReason(), ctxState.CorruptionPossible(), ctxState.GetDebugMessage()); } // Is it already in the memory pool? if (pool.exists(txid)) { return state.Invalid(false, REJECT_ALREADY_KNOWN, "txn-already-in-mempool"); } // Check for conflicts with in-memory transactions for (const CTxIn &txin : tx.vin) { auto itConflicting = pool.mapNextTx.find(txin.prevout); if (itConflicting != pool.mapNextTx.end()) { // Disable replacement feature for good return state.Invalid(false, REJECT_CONFLICT, "txn-mempool-conflict"); } } { CCoinsView dummy; CCoinsViewCache view(&dummy); Amount nValueIn = Amount::zero(); LockPoints lp; CCoinsViewMemPool viewMemPool(pcoinsTip.get(), pool); view.SetBackend(viewMemPool); // Do all inputs exist? for (const CTxIn txin : tx.vin) { if (!pcoinsTip->HaveCoinInCache(txin.prevout)) { coins_to_uncache.push_back(txin.prevout); } if (!view.HaveCoin(txin.prevout)) { // Are inputs missing because we already have the tx? for (size_t out = 0; out < tx.vout.size(); out++) { // Optimistically just do efficient check of cache for // outputs. if (pcoinsTip->HaveCoinInCache(COutPoint(txid, out))) { return state.Invalid(false, REJECT_DUPLICATE, "txn-already-known"); } } // Otherwise assume this might be an orphan tx for which we just // haven't seen parents yet. if (pfMissingInputs) { *pfMissingInputs = true; } // fMissingInputs and !state.IsInvalid() is used to detect this // condition, don't set state.Invalid() return false; } } // Are the actual inputs available? if (!view.HaveInputs(tx)) { return state.Invalid(false, REJECT_DUPLICATE, "bad-txns-inputs-spent"); } // Bring the best block into scope. view.GetBestBlock(); nValueIn = view.GetValueIn(tx); // We have all inputs cached now, so switch back to dummy, so we don't // need to keep lock on mempool. view.SetBackend(dummy); // Only accept BIP68 sequence locked transactions that can be mined in // the next block; we don't want our mempool filled up with transactions // that can't be mined yet. Must keep pool.cs for this unless we change // CheckSequenceLocks to take a CoinsViewCache instead of create its // own. if (!CheckSequenceLocks(tx, STANDARD_LOCKTIME_VERIFY_FLAGS, &lp)) { return state.DoS(0, false, REJECT_NONSTANDARD, "non-BIP68-final"); } // Check for non-standard pay-to-script-hash in inputs if (fRequireStandard && !AreInputsStandard(tx, view)) { return state.Invalid(false, REJECT_NONSTANDARD, "bad-txns-nonstandard-inputs"); } int64_t nSigOpsCount = GetTransactionSigOpCount(tx, view, STANDARD_SCRIPT_VERIFY_FLAGS); Amount nValueOut = tx.GetValueOut(); Amount nFees = nValueIn - nValueOut; // nModifiedFees includes any fee deltas from PrioritiseTransaction Amount nModifiedFees = nFees; double nPriorityDummy = 0; pool.ApplyDeltas(txid, nPriorityDummy, nModifiedFees); Amount inChainInputValue; double dPriority = view.GetPriority(tx, chainActive.Height(), inChainInputValue); // Keep track of transactions that spend a coinbase, which we re-scan // during reorgs to ensure COINBASE_MATURITY is still met. bool fSpendsCoinbase = false; for (const CTxIn &txin : tx.vin) { const Coin &coin = view.AccessCoin(txin.prevout); if (coin.IsCoinBase()) { fSpendsCoinbase = true; break; } } CTxMemPoolEntry entry(ptx, nFees, nAcceptTime, dPriority, chainActive.Height(), inChainInputValue, fSpendsCoinbase, nSigOpsCount, lp); unsigned int nSize = entry.GetTxSize(); // Check that the transaction doesn't have an excessive number of // sigops, making it impossible to mine. Since the coinbase transaction // itself can contain sigops MAX_STANDARD_TX_SIGOPS is less than // MAX_BLOCK_SIGOPS_PER_MB; we still consider this an invalid rather // than merely non-standard transaction. if (nSigOpsCount > MAX_STANDARD_TX_SIGOPS) { return state.DoS(0, false, REJECT_NONSTANDARD, "bad-txns-too-many-sigops", false, strprintf("%d", nSigOpsCount)); } CFeeRate minRelayTxFee = config.GetMinFeePerKB(); Amount mempoolRejectFee = pool.GetMinFee( gArgs.GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000) .GetFee(nSize); if (mempoolRejectFee > Amount::zero() && nModifiedFees < mempoolRejectFee) { return state.DoS(0, false, REJECT_INSUFFICIENTFEE, "mempool min fee not met", false, strprintf("%d < %d", nFees, mempoolRejectFee)); } if (gArgs.GetBoolArg("-relaypriority", DEFAULT_RELAYPRIORITY) && nModifiedFees < minRelayTxFee.GetFee(nSize) && !AllowFree(entry.GetPriority(chainActive.Height() + 1))) { // Require that free transactions have sufficient priority to be // mined in the next block. return state.DoS(0, false, REJECT_INSUFFICIENTFEE, "insufficient priority"); } // Continuously rate-limit free (really, very-low-fee) transactions. // This mitigates 'penny-flooding' -- sending thousands of free // transactions just to be annoying or make others' transactions take // longer to confirm. if (fLimitFree && nModifiedFees < minRelayTxFee.GetFee(nSize)) { static CCriticalSection csFreeLimiter; static double dFreeCount; static int64_t nLastTime; int64_t nNow = GetTime(); LOCK(csFreeLimiter); // Use an exponentially decaying ~10-minute window: dFreeCount *= pow(1.0 - 1.0 / 600.0, double(nNow - nLastTime)); nLastTime = nNow; // -limitfreerelay unit is thousand-bytes-per-minute // At default rate it would take over a month to fill 1GB // NOTE: Use the actual size here, and not the fee size since this // is counting real size for the rate limiter. if (dFreeCount + nSize >= gArgs.GetArg("-limitfreerelay", DEFAULT_LIMITFREERELAY) * 10 * 1000) { return state.DoS(0, false, REJECT_INSUFFICIENTFEE, "rate limited free transaction"); } LogPrint(BCLog::MEMPOOL, "Rate limit dFreeCount: %g => %g\n", dFreeCount, dFreeCount + nSize); dFreeCount += nSize; } if (nAbsurdFee != Amount::zero() && nFees > nAbsurdFee) { return state.Invalid(false, REJECT_HIGHFEE, "absurdly-high-fee", strprintf("%d > %d", nFees, nAbsurdFee)); } // Calculate in-mempool ancestors, up to a limit. CTxMemPool::setEntries setAncestors; size_t nLimitAncestors = gArgs.GetArg("-limitancestorcount", DEFAULT_ANCESTOR_LIMIT); size_t nLimitAncestorSize = gArgs.GetArg("-limitancestorsize", DEFAULT_ANCESTOR_SIZE_LIMIT) * 1000; size_t nLimitDescendants = gArgs.GetArg("-limitdescendantcount", DEFAULT_DESCENDANT_LIMIT); size_t nLimitDescendantSize = gArgs.GetArg("-limitdescendantsize", DEFAULT_DESCENDANT_SIZE_LIMIT) * 1000; std::string errString; if (!pool.CalculateMemPoolAncestors( entry, setAncestors, nLimitAncestors, nLimitAncestorSize, nLimitDescendants, nLimitDescendantSize, errString)) { return state.DoS(0, false, REJECT_NONSTANDARD, "too-long-mempool-chain", false, errString); } // Set extraFlags as a set of flags that needs to be activated. uint32_t extraFlags = SCRIPT_VERIFY_NONE; if (IsReplayProtectionEnabledForCurrentBlock(config)) { extraFlags |= SCRIPT_ENABLE_REPLAY_PROTECTION; } if (IsMagneticAnomalyEnabledForCurrentBlock(config)) { extraFlags |= SCRIPT_ENABLE_CHECKDATASIG; } // Check inputs based on the set of flags we activate. uint32_t scriptVerifyFlags = STANDARD_SCRIPT_VERIFY_FLAGS; if (!config.GetChainParams().RequireStandard()) { scriptVerifyFlags = SCRIPT_ENABLE_SIGHASH_FORKID | gArgs.GetArg("-promiscuousmempoolflags", scriptVerifyFlags); } // Make sure whatever we need to activate is actually activated. scriptVerifyFlags |= extraFlags; // Check against previous transactions. This is done last to help // prevent CPU exhaustion denial-of-service attacks. PrecomputedTransactionData txdata(tx); if (!CheckInputs(tx, state, view, true, scriptVerifyFlags, true, false, txdata)) { // State filled in by CheckInputs. return false; } // Check again against the current block tip's script verification flags // to cache our script execution flags. This is, of course, useless if // the next block has different script flags from the previous one, but // because the cache tracks script flags for us it will auto-invalidate // and we'll just have a few blocks of extra misses on soft-fork // activation. // // This is also useful in case of bugs in the standard flags that cause // transactions to pass as valid when they're actually invalid. For // instance the STRICTENC flag was incorrectly allowing certain CHECKSIG // NOT scripts to pass, even though they were invalid. // // There is a similar check in CreateNewBlock() to prevent creating // invalid blocks (using TestBlockValidity), however allowing such // transactions into the mempool can be exploited as a DoS attack. uint32_t currentBlockScriptVerifyFlags = GetBlockScriptFlags(config, chainActive.Tip()); if (!CheckInputsFromMempoolAndCache(tx, state, view, pool, currentBlockScriptVerifyFlags, true, txdata)) { // If we're using promiscuousmempoolflags, we may hit this normally. // Check if current block has some flags that scriptVerifyFlags does // not before printing an ominous warning. if (!(~scriptVerifyFlags & currentBlockScriptVerifyFlags)) { return error( "%s: BUG! PLEASE REPORT THIS! ConnectInputs failed against " "MANDATORY but not STANDARD flags %s, %s", __func__, txid.ToString(), FormatStateMessage(state)); } if (!CheckInputs(tx, state, view, true, MANDATORY_SCRIPT_VERIFY_FLAGS | extraFlags, true, false, txdata)) { return error( "%s: ConnectInputs failed against MANDATORY but not " "STANDARD flags due to promiscuous mempool %s, %s", __func__, txid.ToString(), FormatStateMessage(state)); } LogPrintf("Warning: -promiscuousmempool flags set to not include " "currently enforced soft forks, this may break mining or " "otherwise cause instability!\n"); } // This transaction should only count for fee estimation if // the node is not behind and it is not dependent on any other // transactions in the mempool. bool validForFeeEstimation = IsCurrentForFeeEstimation() && pool.HasNoInputsOf(tx); // Store transaction in memory. pool.addUnchecked(txid, entry, setAncestors, validForFeeEstimation); // Trim mempool and check if tx was trimmed. if (!fOverrideMempoolLimit) { pool.LimitSize( gArgs.GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000, gArgs.GetArg("-mempoolexpiry", DEFAULT_MEMPOOL_EXPIRY) * 60 * 60); if (!pool.exists(txid)) { return state.DoS(0, false, REJECT_INSUFFICIENTFEE, "mempool full"); } } } GetMainSignals().TransactionAddedToMempool(ptx); return true; } /** * (try to) add transaction to memory pool with a specified acceptance time. */ static bool AcceptToMemoryPoolWithTime( const Config &config, CTxMemPool &pool, CValidationState &state, const CTransactionRef &tx, bool fLimitFree, bool *pfMissingInputs, int64_t nAcceptTime, bool fOverrideMempoolLimit = false, const Amount nAbsurdFee = Amount::zero()) { std::vector coins_to_uncache; bool res = AcceptToMemoryPoolWorker( config, pool, state, tx, fLimitFree, pfMissingInputs, nAcceptTime, fOverrideMempoolLimit, nAbsurdFee, coins_to_uncache); if (!res) { for (const COutPoint &outpoint : coins_to_uncache) { pcoinsTip->Uncache(outpoint); } } // After we've (potentially) uncached entries, ensure our coins cache is // still within its size limits CValidationState stateDummy; FlushStateToDisk(config.GetChainParams(), stateDummy, FLUSH_STATE_PERIODIC); return res; } bool AcceptToMemoryPool(const Config &config, CTxMemPool &pool, CValidationState &state, const CTransactionRef &tx, bool fLimitFree, bool *pfMissingInputs, bool fOverrideMempoolLimit, const Amount nAbsurdFee) { return AcceptToMemoryPoolWithTime(config, pool, state, tx, fLimitFree, pfMissingInputs, GetTime(), fOverrideMempoolLimit, nAbsurdFee); } /** * Return transaction in txOut, and if it was found inside a block, its hash is * placed in hashBlock. */ bool GetTransaction(const Config &config, const TxId &txid, CTransactionRef &txOut, uint256 &hashBlock, bool fAllowSlow) { CBlockIndex *pindexSlow = nullptr; LOCK(cs_main); CTransactionRef ptx = g_mempool.get(txid); if (ptx) { txOut = ptx; return true; } if (fTxIndex) { CDiskTxPos postx; if (pblocktree->ReadTxIndex(txid, postx)) { CAutoFile file(OpenBlockFile(postx, true), SER_DISK, CLIENT_VERSION); if (file.IsNull()) { return error("%s: OpenBlockFile failed", __func__); } CBlockHeader header; try { file >> header; fseek(file.Get(), postx.nTxOffset, SEEK_CUR); file >> txOut; } catch (const std::exception &e) { return error("%s: Deserialize or I/O error - %s", __func__, e.what()); } hashBlock = header.GetHash(); if (txOut->GetId() != txid) { return error("%s: txid mismatch", __func__); } return true; } } // use coin database to locate block that contains transaction, and scan it if (fAllowSlow) { const Coin &coin = AccessByTxid(*pcoinsTip, txid); if (!coin.IsSpent()) { pindexSlow = chainActive[coin.GetHeight()]; } } if (pindexSlow) { CBlock block; if (ReadBlockFromDisk(block, pindexSlow, config)) { for (const auto &tx : block.vtx) { if (tx->GetId() == txid) { txOut = tx; hashBlock = pindexSlow->GetBlockHash(); return true; } } } } return false; } ////////////////////////////////////////////////////////////////////////////// // // CBlock and CBlockIndex // static bool WriteBlockToDisk(const CBlock &block, CDiskBlockPos &pos, const CMessageHeader::MessageMagic &messageStart) { // Open history file to append CAutoFile fileout(OpenBlockFile(pos), SER_DISK, CLIENT_VERSION); if (fileout.IsNull()) { return error("WriteBlockToDisk: OpenBlockFile failed"); } // Write index header unsigned int nSize = GetSerializeSize(fileout, block); fileout << FLATDATA(messageStart) << nSize; // Write block long fileOutPos = ftell(fileout.Get()); if (fileOutPos < 0) { return error("WriteBlockToDisk: ftell failed"); } pos.nPos = (unsigned int)fileOutPos; fileout << block; return true; } bool ReadBlockFromDisk(CBlock &block, const CDiskBlockPos &pos, const Config &config) { block.SetNull(); // Open history file to read CAutoFile filein(OpenBlockFile(pos, true), SER_DISK, CLIENT_VERSION); if (filein.IsNull()) { return error("ReadBlockFromDisk: OpenBlockFile failed for %s", pos.ToString()); } // Read block try { filein >> block; } catch (const std::exception &e) { return error("%s: Deserialize or I/O error - %s at %s", __func__, e.what(), pos.ToString()); } // Check the header if (!CheckProofOfWork(block.GetHash(), block.nBits, config)) { return error("ReadBlockFromDisk: Errors in block header at %s", pos.ToString()); } return true; } bool ReadBlockFromDisk(CBlock &block, const CBlockIndex *pindex, const Config &config) { if (!ReadBlockFromDisk(block, pindex->GetBlockPos(), config)) { return false; } if (block.GetHash() != pindex->GetBlockHash()) { return error("ReadBlockFromDisk(CBlock&, CBlockIndex*): GetHash() " "doesn't match index for %s at %s", pindex->ToString(), pindex->GetBlockPos().ToString()); } return true; } Amount GetBlockSubsidy(int nHeight, const Consensus::Params &consensusParams) { int halvings = nHeight / consensusParams.nSubsidyHalvingInterval; // Force block reward to zero when right shift is undefined. if (halvings >= 64) { return Amount::zero(); } Amount nSubsidy = 50 * COIN; // Subsidy is cut in half every 210,000 blocks which will occur // approximately every 4 years. return ((nSubsidy / SATOSHI) >> halvings) * SATOSHI; } bool IsInitialBlockDownload() { // Once this function has returned false, it must remain false. static std::atomic latchToFalse{false}; // Optimization: pre-test latch before taking the lock. if (latchToFalse.load(std::memory_order_relaxed)) { return false; } LOCK(cs_main); if (latchToFalse.load(std::memory_order_relaxed)) { return false; } if (fImporting || fReindex) { return true; } if (chainActive.Tip() == nullptr) { return true; } if (chainActive.Tip()->nChainWork < nMinimumChainWork) { return true; } if (chainActive.Tip()->GetBlockTime() < (GetTime() - nMaxTipAge)) { return true; } LogPrintf("Leaving InitialBlockDownload (latching to false)\n"); latchToFalse.store(true, std::memory_order_relaxed); return false; } CBlockIndex const *pindexBestForkTip = nullptr; CBlockIndex const *pindexBestForkBase = nullptr; static void AlertNotify(const std::string &strMessage) { uiInterface.NotifyAlertChanged(); std::string strCmd = gArgs.GetArg("-alertnotify", ""); if (strCmd.empty()) { return; } // Alert text should be plain ascii coming from a trusted source, but to be // safe we first strip anything not in safeChars, then add single quotes // around the whole string before passing it to the shell: std::string singleQuote("'"); std::string safeStatus = SanitizeString(strMessage); safeStatus = singleQuote + safeStatus + singleQuote; boost::replace_all(strCmd, "%s", safeStatus); std::thread t(runCommand, strCmd); // thread runs free t.detach(); } static void CheckForkWarningConditions() { AssertLockHeld(cs_main); // Before we get past initial download, we cannot reliably alert about forks // (we assume we don't get stuck on a fork before finishing our initial // sync) if (IsInitialBlockDownload()) { return; } // If our best fork is no longer within 72 blocks (+/- 12 hours if no one // mines it) of our head, drop it if (pindexBestForkTip && chainActive.Height() - pindexBestForkTip->nHeight >= 72) { pindexBestForkTip = nullptr; } if (pindexBestForkTip || (pindexBestInvalid && pindexBestInvalid->nChainWork > chainActive.Tip()->nChainWork + (GetBlockProof(*chainActive.Tip()) * 6))) { if (!GetfLargeWorkForkFound() && pindexBestForkBase) { std::string warning = std::string("'Warning: Large-work fork detected, forking after " "block ") + pindexBestForkBase->phashBlock->ToString() + std::string("'"); AlertNotify(warning); } if (pindexBestForkTip && pindexBestForkBase) { LogPrintf("%s: Warning: Large fork found\n forking the " "chain at height %d (%s)\n lasting to height %d " "(%s).\nChain state database corruption likely.\n", __func__, pindexBestForkBase->nHeight, pindexBestForkBase->phashBlock->ToString(), pindexBestForkTip->nHeight, pindexBestForkTip->phashBlock->ToString()); SetfLargeWorkForkFound(true); } else { LogPrintf("%s: Warning: Found invalid chain at least ~6 blocks " "longer than our best chain.\nChain state database " "corruption likely.\n", __func__); SetfLargeWorkInvalidChainFound(true); } } else { SetfLargeWorkForkFound(false); SetfLargeWorkInvalidChainFound(false); } } static void CheckForkWarningConditionsOnNewFork(const CBlockIndex *pindexNewForkTip) { AssertLockHeld(cs_main); // If we are on a fork that is sufficiently large, set a warning flag. const CBlockIndex *pfork = chainActive.FindFork(pindexNewForkTip); // We define a condition where we should warn the user about as a fork of at // least 7 blocks with a tip within 72 blocks (+/- 12 hours if no one mines // it) of ours. We use 7 blocks rather arbitrarily as it represents just // under 10% of sustained network hash rate operating on the fork, or a // chain that is entirely longer than ours and invalid (note that this // should be detected by both). We define it this way because it allows us // to only store the highest fork tip (+ base) which meets the 7-block // condition and from this always have the most-likely-to-cause-warning fork if (pfork && (!pindexBestForkTip || pindexNewForkTip->nHeight > pindexBestForkTip->nHeight) && pindexNewForkTip->nChainWork - pfork->nChainWork > (GetBlockProof(*pfork) * 7) && chainActive.Height() - pindexNewForkTip->nHeight < 72) { pindexBestForkTip = pindexNewForkTip; pindexBestForkBase = pfork; } CheckForkWarningConditions(); } static void InvalidChainFound(CBlockIndex *pindexNew) { if (!pindexBestInvalid || pindexNew->nChainWork > pindexBestInvalid->nChainWork) { pindexBestInvalid = pindexNew; } // If the invalid chain found is supposed to be finalized, we need to move // back the finalization point. if (IsBlockFinalized(pindexNew)) { pindexFinalized = pindexNew->pprev; } LogPrintf( "%s: invalid block=%s height=%d log2_work=%.8g date=%s\n", __func__, pindexNew->GetBlockHash().ToString(), pindexNew->nHeight, log(pindexNew->nChainWork.getdouble()) / log(2.0), DateTimeStrFormat("%Y-%m-%d %H:%M:%S", pindexNew->GetBlockTime())); CBlockIndex *tip = chainActive.Tip(); assert(tip); LogPrintf("%s: current best=%s height=%d log2_work=%.8g date=%s\n", __func__, tip->GetBlockHash().ToString(), chainActive.Height(), log(tip->nChainWork.getdouble()) / log(2.0), DateTimeStrFormat("%Y-%m-%d %H:%M:%S", tip->GetBlockTime())); } static void InvalidBlockFound(CBlockIndex *pindex, const CValidationState &state) { if (!state.CorruptionPossible()) { pindex->nStatus = pindex->nStatus.withFailed(); setDirtyBlockIndex.insert(pindex); InvalidChainFound(pindex); } } void SpendCoins(CCoinsViewCache &view, const CTransaction &tx, CTxUndo &txundo, int nHeight) { // Mark inputs spent. if (tx.IsCoinBase()) { return; } txundo.vprevout.reserve(tx.vin.size()); for (const CTxIn &txin : tx.vin) { txundo.vprevout.emplace_back(); bool is_spent = view.SpendCoin(txin.prevout, &txundo.vprevout.back()); assert(is_spent); } } void UpdateCoins(CCoinsViewCache &view, const CTransaction &tx, CTxUndo &txundo, int nHeight) { SpendCoins(view, tx, txundo, nHeight); AddCoins(view, tx, nHeight); } void UpdateCoins(CCoinsViewCache &view, const CTransaction &tx, int nHeight) { // Mark inputs spent. if (!tx.IsCoinBase()) { for (const CTxIn &txin : tx.vin) { bool is_spent = view.SpendCoin(txin.prevout); assert(is_spent); } } // Add outputs. AddCoins(view, tx, nHeight); } bool CScriptCheck::operator()() { const CScript &scriptSig = ptxTo->vin[nIn].scriptSig; return VerifyScript(scriptSig, scriptPubKey, nFlags, CachingTransactionSignatureChecker(ptxTo, nIn, amount, cacheStore, txdata), &error); } int GetSpendHeight(const CCoinsViewCache &inputs) { LOCK(cs_main); CBlockIndex *pindexPrev = mapBlockIndex.find(inputs.GetBestBlock())->second; return pindexPrev->nHeight + 1; } bool CheckInputs(const CTransaction &tx, CValidationState &state, const CCoinsViewCache &inputs, bool fScriptChecks, const uint32_t flags, bool sigCacheStore, bool scriptCacheStore, const PrecomputedTransactionData &txdata, std::vector *pvChecks) { assert(!tx.IsCoinBase()); if (!Consensus::CheckTxInputs(tx, state, inputs, GetSpendHeight(inputs))) { return false; } if (pvChecks) { pvChecks->reserve(tx.vin.size()); } // The first loop above does all the inexpensive checks. Only if ALL inputs // pass do we perform expensive ECDSA signature checks. Helps prevent CPU // exhaustion attacks. // Skip script verification when connecting blocks under the assumedvalid // block. Assuming the assumedvalid block is valid this is safe because // block merkle hashes are still computed and checked, of course, if an // assumed valid block is invalid due to false scriptSigs this optimization // would allow an invalid chain to be accepted. if (!fScriptChecks) { return true; } // First check if script executions have been cached with the same flags. // Note that this assumes that the inputs provided are correct (ie that the // transaction hash which is in tx's prevouts properly commits to the // scriptPubKey in the inputs view of that transaction). uint256 hashCacheEntry = GetScriptCacheKey(tx, flags); if (IsKeyInScriptCache(hashCacheEntry, !scriptCacheStore)) { return true; } for (size_t i = 0; i < tx.vin.size(); i++) { const COutPoint &prevout = tx.vin[i].prevout; const Coin &coin = inputs.AccessCoin(prevout); assert(!coin.IsSpent()); // We very carefully only pass in things to CScriptCheck which are // clearly committed to by tx' witness hash. This provides a sanity // check that our caching is not introducing consensus failures through // additional data in, eg, the coins being spent being checked as a part // of CScriptCheck. const CScript &scriptPubKey = coin.GetTxOut().scriptPubKey; const Amount amount = coin.GetTxOut().nValue; // Verify signature CScriptCheck check(scriptPubKey, amount, tx, i, flags, sigCacheStore, txdata); if (pvChecks) { pvChecks->push_back(std::move(check)); } else if (!check()) { const bool hasNonMandatoryFlags = (flags & STANDARD_NOT_MANDATORY_VERIFY_FLAGS) != 0; if (hasNonMandatoryFlags) { // Check whether the failure was caused by a non-mandatory // script verification check, such as non-standard DER encodings // or non-null dummy arguments; if so, don't trigger DoS // protection to avoid splitting the network between upgraded // and non-upgraded nodes. // // We also check activating the monolith opcodes as it is a // strictly additive change and we would not like to ban some of // our peer that are ahead of us and are considering the fork // as activated. CScriptCheck check2(scriptPubKey, amount, tx, i, flags & ~STANDARD_NOT_MANDATORY_VERIFY_FLAGS, sigCacheStore, txdata); if (check2()) { return state.Invalid( false, REJECT_NONSTANDARD, strprintf("non-mandatory-script-verify-flag (%s)", ScriptErrorString(check.GetScriptError()))); } } // Failures of other flags indicate a transaction that is invalid in // new blocks, e.g. a invalid P2SH. We DoS ban such nodes as they // are not following the protocol. That said during an upgrade // careful thought should be taken as to the correct behavior - we // may want to continue peering with non-upgraded nodes even after // soft-fork super-majority signaling has occurred. return state.DoS( 100, false, REJECT_INVALID, strprintf("mandatory-script-verify-flag-failed (%s)", ScriptErrorString(check.GetScriptError()))); } } if (scriptCacheStore && !pvChecks) { // We executed all of the provided scripts, and were told to cache the // result. Do so now. AddKeyInScriptCache(hashCacheEntry); } return true; } namespace { bool UndoWriteToDisk(const CBlockUndo &blockundo, CDiskBlockPos &pos, const uint256 &hashBlock, const CMessageHeader::MessageMagic &messageStart) { // Open history file to append CAutoFile fileout(OpenUndoFile(pos), SER_DISK, CLIENT_VERSION); if (fileout.IsNull()) { return error("%s: OpenUndoFile failed", __func__); } // Write index header unsigned int nSize = GetSerializeSize(fileout, blockundo); fileout << FLATDATA(messageStart) << nSize; // Write undo data long fileOutPos = ftell(fileout.Get()); if (fileOutPos < 0) { return error("%s: ftell failed", __func__); } pos.nPos = (unsigned int)fileOutPos; fileout << blockundo; // calculate & write checksum CHashWriter hasher(SER_GETHASH, PROTOCOL_VERSION); hasher << hashBlock; hasher << blockundo; fileout << hasher.GetHash(); return true; } bool UndoReadFromDisk(CBlockUndo &blockundo, const CDiskBlockPos &pos, const uint256 &hashBlock) { // Open history file to read CAutoFile filein(OpenUndoFile(pos, true), SER_DISK, CLIENT_VERSION); if (filein.IsNull()) { return error("%s: OpenUndoFile failed", __func__); } // Read block uint256 hashChecksum; // We need a CHashVerifier as reserializing may lose data CHashVerifier verifier(&filein); try { verifier << hashBlock; verifier >> blockundo; filein >> hashChecksum; } catch (const std::exception &e) { return error("%s: Deserialize or I/O error - %s", __func__, e.what()); } // Verify checksum if (hashChecksum != verifier.GetHash()) { return error("%s: Checksum mismatch", __func__); } return true; } /** Abort with a message */ bool AbortNode(const std::string &strMessage, const std::string &userMessage = "") { SetMiscWarning(strMessage); LogPrintf("*** %s\n", strMessage); uiInterface.ThreadSafeMessageBox( userMessage.empty() ? _("Error: A fatal internal error occurred, see " "debug.log for details") : userMessage, "", CClientUIInterface::MSG_ERROR); StartShutdown(); return false; } bool AbortNode(CValidationState &state, const std::string &strMessage, const std::string &userMessage = "") { AbortNode(strMessage, userMessage); return state.Error(strMessage); } } // namespace /** Restore the UTXO in a Coin at a given COutPoint. */ DisconnectResult UndoCoinSpend(const Coin &undo, CCoinsViewCache &view, const COutPoint &out) { bool fClean = true; if (view.HaveCoin(out)) { // Overwriting transaction output. fClean = false; } if (undo.GetHeight() == 0) { // Missing undo metadata (height and coinbase). Older versions included // this information only in undo records for the last spend of a // transactions' outputs. This implies that it must be present for some // other output of the same tx. const Coin &alternate = AccessByTxid(view, out.GetTxId()); if (alternate.IsSpent()) { // Adding output for transaction without known metadata return DISCONNECT_FAILED; } // This is somewhat ugly, but hopefully utility is limited. This is only // useful when working from legacy on disck data. In any case, putting // the correct information in there doesn't hurt. const_cast(undo) = Coin(undo.GetTxOut(), alternate.GetHeight(), alternate.IsCoinBase()); } // The potential_overwrite parameter to AddCoin is only allowed to be false // if we know for sure that the coin did not already exist in the cache. As // we have queried for that above using HaveCoin, we don't need to guess. // When fClean is false, a coin already existed and it is an overwrite. view.AddCoin(out, std::move(undo), !fClean); return fClean ? DISCONNECT_OK : DISCONNECT_UNCLEAN; } /** * Undo the effects of this block (with given index) on the UTXO set represented * by coins. When FAILED is returned, view is left in an indeterminate state. */ static DisconnectResult DisconnectBlock(const CBlock &block, const CBlockIndex *pindex, CCoinsViewCache &view) { CBlockUndo blockUndo; CDiskBlockPos pos = pindex->GetUndoPos(); if (pos.IsNull()) { error("DisconnectBlock(): no undo data available"); return DISCONNECT_FAILED; } if (!UndoReadFromDisk(blockUndo, pos, pindex->pprev->GetBlockHash())) { error("DisconnectBlock(): failure reading undo data"); return DISCONNECT_FAILED; } return ApplyBlockUndo(blockUndo, block, pindex, view); } DisconnectResult ApplyBlockUndo(const CBlockUndo &blockUndo, const CBlock &block, const CBlockIndex *pindex, CCoinsViewCache &view) { bool fClean = true; if (blockUndo.vtxundo.size() + 1 != block.vtx.size()) { error("DisconnectBlock(): block and undo data inconsistent"); return DISCONNECT_FAILED; } // First, restore inputs. for (size_t i = 1; i < block.vtx.size(); i++) { const CTransaction &tx = *(block.vtx[i]); const CTxUndo &txundo = blockUndo.vtxundo[i - 1]; if (txundo.vprevout.size() != tx.vin.size()) { error("DisconnectBlock(): transaction and undo data inconsistent"); return DISCONNECT_FAILED; } for (size_t j = 0; j < tx.vin.size(); j++) { const COutPoint &out = tx.vin[j].prevout; const Coin &undo = txundo.vprevout[j]; DisconnectResult res = UndoCoinSpend(undo, view, out); if (res == DISCONNECT_FAILED) { return DISCONNECT_FAILED; } fClean = fClean && res != DISCONNECT_UNCLEAN; } } // Second, revert created outputs. for (const auto &ptx : block.vtx) { const CTransaction &tx = *ptx; const TxId &txid = tx.GetId(); const bool is_coinbase = tx.IsCoinBase(); // Check that all outputs are available and match the outputs in the // block itself exactly. for (size_t o = 0; o < tx.vout.size(); o++) { if (tx.vout[o].scriptPubKey.IsUnspendable()) { continue; } COutPoint out(txid, o); Coin coin; bool is_spent = view.SpendCoin(out, &coin); if (!is_spent || tx.vout[o] != coin.GetTxOut() || uint32_t(pindex->nHeight) != coin.GetHeight() || is_coinbase != coin.IsCoinBase()) { // transaction output mismatch fClean = false; } } } // Move best block pointer to previous block. view.SetBestBlock(block.hashPrevBlock); return fClean ? DISCONNECT_OK : DISCONNECT_UNCLEAN; } static void FlushBlockFile(bool fFinalize = false) { LOCK(cs_LastBlockFile); CDiskBlockPos posOld(nLastBlockFile, 0); FILE *fileOld = OpenBlockFile(posOld); if (fileOld) { if (fFinalize) { TruncateFile(fileOld, vinfoBlockFile[nLastBlockFile].nSize); } FileCommit(fileOld); fclose(fileOld); } fileOld = OpenUndoFile(posOld); if (fileOld) { if (fFinalize) { TruncateFile(fileOld, vinfoBlockFile[nLastBlockFile].nUndoSize); } FileCommit(fileOld); fclose(fileOld); } } static bool FindUndoPos(CValidationState &state, int nFile, CDiskBlockPos &pos, unsigned int nAddSize); static bool WriteUndoDataForBlock(const CBlockUndo &blockundo, CValidationState &state, CBlockIndex *pindex, const CChainParams &chainparams) { // Write undo information to disk if (pindex->GetUndoPos().IsNull()) { CDiskBlockPos _pos; if (!FindUndoPos( state, pindex->nFile, _pos, ::GetSerializeSize(blockundo, SER_DISK, CLIENT_VERSION) + 40)) { return error("ConnectBlock(): FindUndoPos failed"); } if (!UndoWriteToDisk(blockundo, _pos, pindex->pprev->GetBlockHash(), chainparams.DiskMagic())) { return AbortNode(state, "Failed to write undo data"); } // update nUndoPos in block index pindex->nUndoPos = _pos.nPos; pindex->nStatus = pindex->nStatus.withUndo(); setDirtyBlockIndex.insert(pindex); } return true; } static bool WriteTxIndexDataForBlock(const CBlock &block, CValidationState &state, CBlockIndex *pindex) { CDiskTxPos pos(pindex->GetBlockPos(), GetSizeOfCompactSize(block.vtx.size())); std::vector> vPos; vPos.reserve(block.vtx.size()); for (const CTransactionRef &tx : block.vtx) { vPos.push_back(std::make_pair(tx->GetHash(), pos)); pos.nTxOffset += ::GetSerializeSize(*tx, SER_DISK, CLIENT_VERSION); } if (fTxIndex) { if (!pblocktree->WriteTxIndex(vPos)) { return AbortNode(state, "Failed to write transaction index"); } } return true; } static CCheckQueue scriptcheckqueue(128); void ThreadScriptCheck() { RenameThread("bitcoin-scriptch"); scriptcheckqueue.Thread(); } // Protected by cs_main VersionBitsCache versionbitscache; int32_t ComputeBlockVersion(const CBlockIndex *pindexPrev, const Consensus::Params ¶ms) { int32_t nVersion = VERSIONBITS_TOP_BITS; return nVersion; } // Returns the script flags which should be checked for a given block static uint32_t GetBlockScriptFlags(const Config &config, const CBlockIndex *pChainTip) { AssertLockHeld(cs_main); const Consensus::Params &consensusParams = config.GetChainParams().GetConsensus(); uint32_t flags = SCRIPT_VERIFY_NONE; // P2SH didn't become active until Apr 1 2012 if (pChainTip->GetMedianTimePast() >= P2SH_ACTIVATION_TIME) { flags |= SCRIPT_VERIFY_P2SH; } // Start enforcing the DERSIG (BIP66) rule. if ((pChainTip->nHeight + 1) >= consensusParams.BIP66Height) { flags |= SCRIPT_VERIFY_DERSIG; } // Start enforcing CHECKLOCKTIMEVERIFY (BIP65) rule. if ((pChainTip->nHeight + 1) >= consensusParams.BIP65Height) { flags |= SCRIPT_VERIFY_CHECKLOCKTIMEVERIFY; } // Start enforcing CSV (BIP68, BIP112 and BIP113) rule. if ((pChainTip->nHeight + 1) >= consensusParams.CSVHeight) { flags |= SCRIPT_VERIFY_CHECKSEQUENCEVERIFY; } // If the UAHF is enabled, we start accepting replay protected txns if (IsUAHFenabled(config, pChainTip)) { flags |= SCRIPT_VERIFY_STRICTENC; flags |= SCRIPT_ENABLE_SIGHASH_FORKID; } // If the DAA HF is enabled, we start rejecting transaction that use a high // s in their signature. We also make sure that signature that are supposed // to fail (for instance in multisig or other forms of smart contracts) are // null. if (IsDAAEnabled(config, pChainTip)) { flags |= SCRIPT_VERIFY_LOW_S; flags |= SCRIPT_VERIFY_NULLFAIL; } // When the magnetic anomaly fork is enabled, we start accepting // transactions using the OP_CHECKDATASIG opcode and it's verify // alternative. We also start enforcing push only signatures and // clean stack. if (IsMagneticAnomalyEnabled(config, pChainTip)) { flags |= SCRIPT_ENABLE_CHECKDATASIG; flags |= SCRIPT_VERIFY_SIGPUSHONLY; flags |= SCRIPT_VERIFY_CLEANSTACK; } // We make sure this node will have replay protection during the next hard // fork. if (IsReplayProtectionEnabled(config, pChainTip)) { flags |= SCRIPT_ENABLE_REPLAY_PROTECTION; } return flags; } static int64_t nTimeCheck = 0; static int64_t nTimeForks = 0; static int64_t nTimeVerify = 0; static int64_t nTimeConnect = 0; static int64_t nTimeIndex = 0; static int64_t nTimeCallbacks = 0; static int64_t nTimeTotal = 0; /** * Apply the effects of this block (with given index) on the UTXO set * represented by coins. Validity checks that depend on the UTXO set are also * done; ConnectBlock() can fail if those validity checks fail (among other * reasons). */ static bool ConnectBlock(const Config &config, const CBlock &block, CValidationState &state, CBlockIndex *pindex, CCoinsViewCache &view, bool fJustCheck = false) { AssertLockHeld(cs_main); int64_t nTimeStart = GetTimeMicros(); // Check it again in case a previous version let a bad block in BlockValidationOptions validationOptions = BlockValidationOptions(!fJustCheck, !fJustCheck); if (!CheckBlock(config, block, state, validationOptions)) { return error("%s: Consensus::CheckBlock: %s", __func__, FormatStateMessage(state)); } // Verify that the view's current state corresponds to the previous block uint256 hashPrevBlock = pindex->pprev == nullptr ? uint256() : pindex->pprev->GetBlockHash(); assert(hashPrevBlock == view.GetBestBlock()); // Special case for the genesis block, skipping connection of its // transactions (its coinbase is unspendable) const Consensus::Params &consensusParams = config.GetChainParams().GetConsensus(); if (block.GetHash() == consensusParams.hashGenesisBlock) { if (!fJustCheck) { view.SetBestBlock(pindex->GetBlockHash()); } return true; } bool fScriptChecks = true; if (!hashAssumeValid.IsNull()) { // We've been configured with the hash of a block which has been // externally verified to have a valid history. A suitable default value // is included with the software and updated from time to time. Because // validity relative to a piece of software is an objective fact these // defaults can be easily reviewed. This setting doesn't force the // selection of any particular chain but makes validating some faster by // effectively caching the result of part of the verification. BlockMap::const_iterator it = mapBlockIndex.find(hashAssumeValid); if (it != mapBlockIndex.end()) { if (it->second->GetAncestor(pindex->nHeight) == pindex && pindexBestHeader->GetAncestor(pindex->nHeight) == pindex && pindexBestHeader->nChainWork >= nMinimumChainWork) { // This block is a member of the assumed verified chain and an // ancestor of the best header. The equivalent time check // discourages hashpower from extorting the network via DOS // attack into accepting an invalid block through telling users // they must manually set assumevalid. Requiring a software // change or burying the invalid block, regardless of the // setting, makes it hard to hide the implication of the demand. // This also avoids having release candidates that are hardly // doing any signature verification at all in testing without // having to artificially set the default assumed verified block // further back. The test against nMinimumChainWork prevents the // skipping when denied access to any chain at least as good as // the expected chain. fScriptChecks = (GetBlockProofEquivalentTime( *pindexBestHeader, *pindex, *pindexBestHeader, consensusParams) <= 60 * 60 * 24 * 7 * 2); } } } int64_t nTime1 = GetTimeMicros(); nTimeCheck += nTime1 - nTimeStart; LogPrint(BCLog::BENCH, " - Sanity checks: %.2fms [%.2fs]\n", 0.001 * (nTime1 - nTimeStart), nTimeCheck * 0.000001); // Do not allow blocks that contain transactions which 'overwrite' older // transactions, unless those are already completely spent. If such // overwrites are allowed, coinbases and transactions depending upon those // can be duplicated to remove the ability to spend the first instance -- // even after being sent to another address. See BIP30 and // http://r6.ca/blog/20120206T005236Z.html for more information. This logic // is not necessary for memory pool transactions, as AcceptToMemoryPool // already refuses previously-known transaction ids entirely. This rule was // originally applied to all blocks with a timestamp after March 15, 2012, // 0:00 UTC. Now that the whole chain is irreversibly beyond that time it is // applied to all blocks except the two in the chain that violate it. This // prevents exploiting the issue against nodes during their initial block // download. bool fEnforceBIP30 = (!pindex->phashBlock) || // Enforce on CreateNewBlock // invocations which don't // have a hash. !((pindex->nHeight == 91842 && pindex->GetBlockHash() == uint256S("0x00000000000a4d0a398161ffc163c503763" "b1f4360639393e0e4c8e300e0caec")) || (pindex->nHeight == 91880 && pindex->GetBlockHash() == uint256S("0x00000000000743f190a18c5577a3c2d2a1f" "610ae9601ac046a38084ccb7cd721"))); // Once BIP34 activated it was not possible to create new duplicate // coinbases and thus other than starting with the 2 existing duplicate // coinbase pairs, not possible to create overwriting txs. But by the time // BIP34 activated, in each of the existing pairs the duplicate coinbase had // overwritten the first before the first had been spent. Since those // coinbases are sufficiently buried its no longer possible to create // further duplicate transactions descending from the known pairs either. If // we're on the known chain at height greater than where BIP34 activated, we // can save the db accesses needed for the BIP30 check. CBlockIndex *pindexBIP34height = pindex->pprev->GetAncestor(consensusParams.BIP34Height); // Only continue to enforce if we're below BIP34 activation height or the // block hash at that height doesn't correspond. fEnforceBIP30 = fEnforceBIP30 && (!pindexBIP34height || !(pindexBIP34height->GetBlockHash() == consensusParams.BIP34Hash)); if (fEnforceBIP30) { for (const auto &tx : block.vtx) { for (size_t o = 0; o < tx->vout.size(); o++) { if (view.HaveCoin(COutPoint(tx->GetId(), o))) { return state.DoS( 100, error("ConnectBlock(): tried to overwrite transaction"), REJECT_INVALID, "bad-txns-BIP30"); } } } } // Start enforcing BIP68 (sequence locks). int nLockTimeFlags = 0; if (pindex->nHeight >= consensusParams.CSVHeight) { nLockTimeFlags |= LOCKTIME_VERIFY_SEQUENCE; } const uint32_t flags = GetBlockScriptFlags(config, pindex->pprev); int64_t nTime2 = GetTimeMicros(); nTimeForks += nTime2 - nTime1; LogPrint(BCLog::BENCH, " - Fork checks: %.2fms [%.2fs]\n", 0.001 * (nTime2 - nTime1), nTimeForks * 0.000001); CBlockUndo blockundo; CCheckQueueControl control(fScriptChecks ? &scriptcheckqueue : nullptr); std::vector prevheights; Amount nFees = Amount::zero(); int nInputs = 0; // Sigops counting. We need to do it again because of P2SH. uint64_t nSigOpsCount = 0; const uint64_t currentBlockSize = ::GetSerializeSize(block, SER_NETWORK, PROTOCOL_VERSION); const uint64_t nMaxSigOpsCount = GetMaxBlockSigOpsCount(currentBlockSize); blockundo.vtxundo.reserve(block.vtx.size() - 1); for (const auto &ptx : block.vtx) { const CTransaction &tx = *ptx; nInputs += tx.vin.size(); if (tx.IsCoinBase()) { // We've already checked for sigops count before P2SH in CheckBlock. nSigOpsCount += GetSigOpCountWithoutP2SH(tx, flags); } // We do not need to throw when a transaction is duplicated. If they are // in the same block, CheckBlock will catch it, and if they are in a // different block, it'll register as a double spend or BIP30 violation. // In both cases, we get a more meaningful feedback out of it. AddCoins(view, tx, pindex->nHeight, true); } for (const auto &ptx : block.vtx) { const CTransaction &tx = *ptx; if (tx.IsCoinBase()) { continue; } if (!view.HaveInputs(tx)) { return state.DoS(100, error("ConnectBlock(): inputs missing/spent"), REJECT_INVALID, "bad-txns-inputs-missingorspent"); } // Check that transaction is BIP68 final BIP68 lock checks (as // opposed to nLockTime checks) must be in ConnectBlock because they // require the UTXO set. prevheights.resize(tx.vin.size()); for (size_t j = 0; j < tx.vin.size(); j++) { prevheights[j] = view.AccessCoin(tx.vin[j].prevout).GetHeight(); } if (!SequenceLocks(tx, nLockTimeFlags, &prevheights, *pindex)) { return state.DoS( 100, error("%s: contains a non-BIP68-final transaction", __func__), REJECT_INVALID, "bad-txns-nonfinal"); } // GetTransactionSigOpCount counts 2 types of sigops: // * legacy (always) // * p2sh (when P2SH enabled in flags and excludes coinbase) auto txSigOpsCount = GetTransactionSigOpCount(tx, view, flags); if (txSigOpsCount > MAX_TX_SIGOPS_COUNT) { return state.DoS(100, false, REJECT_INVALID, "bad-txn-sigops"); } nSigOpsCount += txSigOpsCount; if (nSigOpsCount > nMaxSigOpsCount) { return state.DoS(100, error("ConnectBlock(): too many sigops"), REJECT_INVALID, "bad-blk-sigops"); } Amount fee = view.GetValueIn(tx) - tx.GetValueOut(); nFees += fee; // Don't cache results if we're actually connecting blocks (still // consult the cache, though). bool fCacheResults = fJustCheck; std::vector vChecks; if (!CheckInputs(tx, state, view, fScriptChecks, flags, fCacheResults, fCacheResults, PrecomputedTransactionData(tx), &vChecks)) { return error("ConnectBlock(): CheckInputs on %s failed with %s", tx.GetId().ToString(), FormatStateMessage(state)); } control.Add(vChecks); blockundo.vtxundo.push_back(CTxUndo()); SpendCoins(view, tx, blockundo.vtxundo.back(), pindex->nHeight); } int64_t nTime3 = GetTimeMicros(); nTimeConnect += nTime3 - nTime2; LogPrint(BCLog::BENCH, " - Connect %u transactions: %.2fms (%.3fms/tx, " "%.3fms/txin) [%.2fs]\n", (unsigned)block.vtx.size(), 0.001 * (nTime3 - nTime2), 0.001 * (nTime3 - nTime2) / block.vtx.size(), nInputs <= 1 ? 0 : 0.001 * (nTime3 - nTime2) / (nInputs - 1), nTimeConnect * 0.000001); Amount blockReward = nFees + GetBlockSubsidy(pindex->nHeight, consensusParams); if (block.vtx[0]->GetValueOut() > blockReward) { return state.DoS(100, error("ConnectBlock(): coinbase pays too much " "(actual=%d vs limit=%d)", block.vtx[0]->GetValueOut(), blockReward), REJECT_INVALID, "bad-cb-amount"); } if (!control.Wait()) { return state.DoS(100, false, REJECT_INVALID, "blk-bad-inputs", false, "parallel script check failed"); } int64_t nTime4 = GetTimeMicros(); nTimeVerify += nTime4 - nTime2; LogPrint(BCLog::BENCH, " - Verify %u txins: %.2fms (%.3fms/txin) [%.2fs]\n", nInputs - 1, 0.001 * (nTime4 - nTime2), nInputs <= 1 ? 0 : 0.001 * (nTime4 - nTime2) / (nInputs - 1), nTimeVerify * 0.000001); if (fJustCheck) { return true; } if (!WriteUndoDataForBlock(blockundo, state, pindex, config.GetChainParams())) { return false; } if (!pindex->IsValid(BlockValidity::SCRIPTS)) { pindex->RaiseValidity(BlockValidity::SCRIPTS); setDirtyBlockIndex.insert(pindex); } if (!WriteTxIndexDataForBlock(block, state, pindex)) { return false; } // add this block to the view's block chain view.SetBestBlock(pindex->GetBlockHash()); int64_t nTime5 = GetTimeMicros(); nTimeIndex += nTime5 - nTime4; LogPrint(BCLog::BENCH, " - Index writing: %.2fms [%.2fs]\n", 0.001 * (nTime5 - nTime4), nTimeIndex * 0.000001); int64_t nTime6 = GetTimeMicros(); nTimeCallbacks += nTime6 - nTime5; LogPrint(BCLog::BENCH, " - Callbacks: %.2fms [%.2fs]\n", 0.001 * (nTime6 - nTime5), nTimeCallbacks * 0.000001); // If we just activated the replay protection with that block, it means // transaction in the mempool are now invalid. As a result, we need to clear // the mempool. if (IsReplayProtectionEnabled(config, pindex) && !IsReplayProtectionEnabled(config, pindex->pprev)) { g_mempool.clear(); } return true; } /** * Update the on-disk chain state. * The caches and indexes are flushed depending on the mode we're called with if * they're too large, if it's been a while since the last write, or always and * in all cases if we're in prune mode and are deleting files. */ static bool FlushStateToDisk(const CChainParams &chainparams, CValidationState &state, FlushStateMode mode, int nManualPruneHeight) { int64_t nMempoolUsage = g_mempool.DynamicMemoryUsage(); LOCK(cs_main); static int64_t nLastWrite = 0; static int64_t nLastFlush = 0; static int64_t nLastSetChain = 0; std::set setFilesToPrune; bool fFlushForPrune = false; bool fDoFullFlush = false; int64_t nNow = 0; try { { LOCK(cs_LastBlockFile); if (fPruneMode && (fCheckForPruning || nManualPruneHeight > 0) && !fReindex) { if (nManualPruneHeight > 0) { FindFilesToPruneManual(setFilesToPrune, nManualPruneHeight); } else { FindFilesToPrune(setFilesToPrune, chainparams.PruneAfterHeight()); fCheckForPruning = false; } if (!setFilesToPrune.empty()) { fFlushForPrune = true; if (!fHavePruned) { pblocktree->WriteFlag("prunedblockfiles", true); fHavePruned = true; } } } nNow = GetTimeMicros(); // Avoid writing/flushing immediately after startup. if (nLastWrite == 0) { nLastWrite = nNow; } if (nLastFlush == 0) { nLastFlush = nNow; } if (nLastSetChain == 0) { nLastSetChain = nNow; } int64_t nMempoolSizeMax = gArgs.GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000; int64_t cacheSize = pcoinsTip->DynamicMemoryUsage(); int64_t nTotalSpace = nCoinCacheUsage + std::max(nMempoolSizeMax - nMempoolUsage, 0); // The cache is large and we're within 10% and 10 MiB of the limit, // but we have time now (not in the middle of a block processing). bool fCacheLarge = mode == FLUSH_STATE_PERIODIC && cacheSize > std::max((9 * nTotalSpace) / 10, nTotalSpace - MAX_BLOCK_COINSDB_USAGE * 1024 * 1024); // The cache is over the limit, we have to write now. bool fCacheCritical = mode == FLUSH_STATE_IF_NEEDED && cacheSize > nTotalSpace; // It's been a while since we wrote the block index to disk. Do this // frequently, so we don't need to redownload after a crash. bool fPeriodicWrite = mode == FLUSH_STATE_PERIODIC && nNow > nLastWrite + (int64_t)DATABASE_WRITE_INTERVAL * 1000000; // It's been very long since we flushed the cache. Do this // infrequently, to optimize cache usage. bool fPeriodicFlush = mode == FLUSH_STATE_PERIODIC && nNow > nLastFlush + (int64_t)DATABASE_FLUSH_INTERVAL * 1000000; // Combine all conditions that result in a full cache flush. fDoFullFlush = (mode == FLUSH_STATE_ALWAYS) || fCacheLarge || fCacheCritical || fPeriodicFlush || fFlushForPrune; // Write blocks and block index to disk. if (fDoFullFlush || fPeriodicWrite) { // Depend on nMinDiskSpace to ensure we can write block index if (!CheckDiskSpace(0)) { return state.Error("out of disk space"); } // First make sure all block and undo data is flushed to disk. FlushBlockFile(); // Then update all block file information (which may refer to // block and undo files). { std::vector> vFiles; vFiles.reserve(setDirtyFileInfo.size()); for (int i : setDirtyFileInfo) { vFiles.push_back(std::make_pair(i, &vinfoBlockFile[i])); } setDirtyFileInfo.clear(); std::vector vBlocks; vBlocks.reserve(setDirtyBlockIndex.size()); for (const CBlockIndex *cbi : setDirtyBlockIndex) { vBlocks.push_back(cbi); } setDirtyBlockIndex.clear(); if (!pblocktree->WriteBatchSync(vFiles, nLastBlockFile, vBlocks)) { return AbortNode( state, "Failed to write to block index database"); } } // Finally remove any pruned files if (fFlushForPrune) { UnlinkPrunedFiles(setFilesToPrune); } nLastWrite = nNow; } // Flush best chain related state. This can only be done if the // blocks / block index write was also done. if (fDoFullFlush) { // Typical Coin structures on disk are around 48 bytes in size. // Pushing a new one to the database can cause it to be written // twice (once in the log, and once in the tables). This is // already an overestimation, as most will delete an existing // entry or overwrite one. Still, use a conservative safety // factor of 2. if (!CheckDiskSpace(48 * 2 * 2 * pcoinsTip->GetCacheSize())) { return state.Error("out of disk space"); } // Flush the chainstate (which may refer to block index // entries). if (!pcoinsTip->Flush()) { return AbortNode(state, "Failed to write to coin database"); } nLastFlush = nNow; } } if (fDoFullFlush || ((mode == FLUSH_STATE_ALWAYS || mode == FLUSH_STATE_PERIODIC) && nNow > nLastSetChain + (int64_t)DATABASE_WRITE_INTERVAL * 1000000)) { // Update best block in wallet (so we can detect restored wallets). GetMainSignals().SetBestChain(chainActive.GetLocator()); nLastSetChain = nNow; } } catch (const std::runtime_error &e) { return AbortNode( state, std::string("System error while flushing: ") + e.what()); } return true; } void FlushStateToDisk() { CValidationState state; const CChainParams &chainparams = Params(); FlushStateToDisk(chainparams, state, FLUSH_STATE_ALWAYS); } void PruneAndFlush() { CValidationState state; fCheckForPruning = true; const CChainParams &chainparams = Params(); FlushStateToDisk(chainparams, state, FLUSH_STATE_NONE); } /** * Update chainActive and related internal data structures when adding a new * block to the chain tip. */ static void UpdateTip(const Config &config, CBlockIndex *pindexNew) { const Consensus::Params &consensusParams = config.GetChainParams().GetConsensus(); chainActive.SetTip(pindexNew); // New best block g_mempool.AddTransactionsUpdated(1); { LOCK(g_best_block_mutex); g_best_block = pindexNew->GetBlockHash(); g_best_block_cv.notify_all(); } static bool fWarned = false; std::vector warningMessages; if (!IsInitialBlockDownload()) { int nUpgraded = 0; const CBlockIndex *pindex = chainActive.Tip(); // Check the version of the last 100 blocks to see if we need to // upgrade: for (int i = 0; i < 100 && pindex != nullptr; i++) { int32_t nExpectedVersion = ComputeBlockVersion(pindex->pprev, consensusParams); if (pindex->nVersion > VERSIONBITS_LAST_OLD_BLOCK_VERSION && (pindex->nVersion & ~nExpectedVersion) != 0) { ++nUpgraded; } pindex = pindex->pprev; } if (nUpgraded > 0) { warningMessages.push_back(strprintf( "%d of last 100 blocks have unexpected version", nUpgraded)); } if (nUpgraded > 100 / 2) { std::string strWarning = _("Warning: Unknown block versions being mined! It's possible " "unknown rules are in effect"); // notify GetWarnings(), called by Qt and the JSON-RPC code to warn // the user: SetMiscWarning(strWarning); if (!fWarned) { AlertNotify(strWarning); fWarned = true; } } } LogPrintf("%s: new best=%s height=%d version=0x%08x log2_work=%.8g tx=%lu " "date='%s' progress=%f cache=%.1fMiB(%utxo)", __func__, chainActive.Tip()->GetBlockHash().ToString(), chainActive.Height(), chainActive.Tip()->nVersion, log(chainActive.Tip()->nChainWork.getdouble()) / log(2.0), (unsigned long)chainActive.Tip()->nChainTx, DateTimeStrFormat("%Y-%m-%d %H:%M:%S", chainActive.Tip()->GetBlockTime()), GuessVerificationProgress(config.GetChainParams().TxData(), chainActive.Tip()), pcoinsTip->DynamicMemoryUsage() * (1.0 / (1 << 20)), pcoinsTip->GetCacheSize()); if (!warningMessages.empty()) { LogPrintf(" warning='%s'", boost::algorithm::join(warningMessages, ", ")); } LogPrintf("\n"); } /** * Disconnect chainActive's tip. * After calling, the mempool will be in an inconsistent state, with * transactions from disconnected blocks being added to disconnectpool. You * should make the mempool consistent again by calling updateMempoolForReorg. * with cs_main held. * * If disconnectpool is nullptr, then no disconnected transactions are added to * disconnectpool (note that the caller is responsible for mempool consistency * in any case). */ static bool DisconnectTip(const Config &config, CValidationState &state, DisconnectedBlockTransactions *disconnectpool) { CBlockIndex *pindexDelete = chainActive.Tip(); assert(pindexDelete); // Read block from disk. std::shared_ptr pblock = std::make_shared(); CBlock &block = *pblock; if (!ReadBlockFromDisk(block, pindexDelete, config)) { return AbortNode(state, "Failed to read block"); } // Apply the block atomically to the chain state. int64_t nStart = GetTimeMicros(); { CCoinsViewCache view(pcoinsTip.get()); assert(view.GetBestBlock() == pindexDelete->GetBlockHash()); if (DisconnectBlock(block, pindexDelete, view) != DISCONNECT_OK) { return error("DisconnectTip(): DisconnectBlock %s failed", pindexDelete->GetBlockHash().ToString()); } bool flushed = view.Flush(); assert(flushed); } LogPrint(BCLog::BENCH, "- Disconnect block: %.2fms\n", (GetTimeMicros() - nStart) * 0.001); // Write the chain state to disk, if necessary. if (!FlushStateToDisk(config.GetChainParams(), state, FLUSH_STATE_IF_NEEDED)) { return false; } // If this block was deactivating the replay protection, then we need to // remove transactions that are replay protected from the mempool. There is // no easy way to do this so we'll just discard the whole mempool and then // add the transaction of the block we just disconnected back. if (IsReplayProtectionEnabled(config, pindexDelete) && !IsReplayProtectionEnabled(config, pindexDelete->pprev)) { LogPrint(BCLog::MEMPOOL, "Clearing mempool for reorg"); g_mempool.clear(); // While not strictly necessary, clearing the disconnect pool is also // beneficial so we don't try to reuse its content at the end of the // reorg, which we know will fail. if (disconnectpool) { disconnectpool->clear(); } } if (disconnectpool) { disconnectpool->addForBlock(block.vtx); } // If the tip is finalized, then undo it. if (pindexFinalized == pindexDelete) { pindexFinalized = pindexDelete->pprev; } // Update chainActive and related variables. UpdateTip(config, pindexDelete->pprev); // Let wallets know transactions went from 1-confirmed to // 0-confirmed or conflicted: GetMainSignals().BlockDisconnected(pblock); return true; } static int64_t nTimeReadFromDisk = 0; static int64_t nTimeConnectTotal = 0; static int64_t nTimeFlush = 0; static int64_t nTimeChainState = 0; static int64_t nTimePostConnect = 0; struct PerBlockConnectTrace { CBlockIndex *pindex = nullptr; std::shared_ptr pblock; std::shared_ptr> conflictedTxs; PerBlockConnectTrace() : conflictedTxs(std::make_shared>()) {} }; /** * Used to track blocks whose transactions were applied to the UTXO state as a * part of a single ActivateBestChainStep call. * * This class also tracks transactions that are removed from the mempool as * conflicts (per block) and can be used to pass all those transactions through * SyncTransaction. * * This class assumes (and asserts) that the conflicted transactions for a given * block are added via mempool callbacks prior to the BlockConnected() * associated with those transactions. If any transactions are marked * conflicted, it is assumed that an associated block will always be added. * * This class is single-use, once you call GetBlocksConnected() you have to * throw it away and make a new one. */ class ConnectTrace { private: std::vector blocksConnected; CTxMemPool &pool; public: explicit ConnectTrace(CTxMemPool &_pool) : blocksConnected(1), pool(_pool) { pool.NotifyEntryRemoved.connect( boost::bind(&ConnectTrace::NotifyEntryRemoved, this, _1, _2)); } ~ConnectTrace() { pool.NotifyEntryRemoved.disconnect( boost::bind(&ConnectTrace::NotifyEntryRemoved, this, _1, _2)); } void BlockConnected(CBlockIndex *pindex, std::shared_ptr pblock) { assert(!blocksConnected.back().pindex); assert(pindex); assert(pblock); blocksConnected.back().pindex = pindex; blocksConnected.back().pblock = std::move(pblock); blocksConnected.emplace_back(); } std::vector &GetBlocksConnected() { // We always keep one extra block at the end of our list because blocks // are added after all the conflicted transactions have been filled in. // Thus, the last entry should always be an empty one waiting for the // transactions from the next block. We pop the last entry here to make // sure the list we return is sane. assert(!blocksConnected.back().pindex); assert(blocksConnected.back().conflictedTxs->empty()); blocksConnected.pop_back(); return blocksConnected; } void NotifyEntryRemoved(CTransactionRef txRemoved, MemPoolRemovalReason reason) { assert(!blocksConnected.back().pindex); if (reason == MemPoolRemovalReason::CONFLICT) { blocksConnected.back().conflictedTxs->emplace_back( std::move(txRemoved)); } } }; static bool FinalizeBlockInternal(const Config &config, CValidationState &state, const CBlockIndex *pindex) { AssertLockHeld(cs_main); if (pindex->nStatus.isInvalid()) { // We try to finalize an invalid block. return state.DoS(100, error("%s: Trying to finalize invalid block %s", __func__, pindex->GetBlockHash().ToString()), REJECT_INVALID, "finalize-invalid-block"); } // Check that the request is consistent with current finalization. if (pindexFinalized && !AreOnTheSameFork(pindex, pindexFinalized)) { return state.DoS( 20, error("%s: Trying to finalize block %s which conflicts " "with already finalized block", __func__, pindex->GetBlockHash().ToString()), REJECT_AGAINST_FINALIZED, "bad-fork-prior-finalized"); } if (IsBlockFinalized(pindex)) { // The block is already finalized. return true; } // We have a new block to finalize. pindexFinalized = pindex; return true; } static const CBlockIndex *FindBlockToFinalize(const Config &config, CBlockIndex *pindexNew) { AssertLockHeld(cs_main); const int32_t maxreorgdepth = gArgs.GetArg("-maxreorgdepth", DEFAULT_MAX_REORG_DEPTH); const int64_t finalizationdelay = gArgs.GetArg("-finalizationdelay", DEFAULT_MIN_FINALIZATION_DELAY); // Find our candidate. // If maxreorgdepth is < 0 pindex will be null and auto finalization // disabled const CBlockIndex *pindex = pindexNew->GetAncestor(pindexNew->nHeight - maxreorgdepth); int64_t now = GetTime(); // If the finalization delay is not expired since the startup time, // finalization should be avoided. Header receive time is not saved to disk // and so cannot be anterior to startup time. if (now < (GetStartupTime() + finalizationdelay)) { return nullptr; } // While our candidate is not eligible (finalization delay not expired), try // the previous one. while (pindex && (pindex != pindexFinalized)) { // Check that the block to finalize is known for a long enough time. // This test will ensure that an attacker could not cause a block to // finalize by forking the chain with a depth > maxreorgdepth. // If the block is loaded from disk, header receive time is 0 and the // block will be finalized. This is safe because the delay since the // node startup is already expired. auto headerReceivedTime = pindex->GetHeaderReceivedTime(); // If finalization delay is <= 0, finalization always occurs immediately if (now >= (headerReceivedTime + finalizationdelay)) { return pindex; } pindex = pindex->pprev; } return nullptr; } /** * Connect a new block to chainActive. pblock is either nullptr or a pointer to * a CBlock corresponding to pindexNew, to bypass loading it again from disk. * * The block is always added to connectTrace (either after loading from disk or * by copying pblock) - if that is not intended, care must be taken to remove * the last entry in blocksConnected in case of failure. */ static bool ConnectTip(const Config &config, CValidationState &state, CBlockIndex *pindexNew, const std::shared_ptr &pblock, ConnectTrace &connectTrace, DisconnectedBlockTransactions &disconnectpool) { assert(pindexNew->pprev == chainActive.Tip()); // Read block from disk. int64_t nTime1 = GetTimeMicros(); std::shared_ptr pthisBlock; if (!pblock) { std::shared_ptr pblockNew = std::make_shared(); if (!ReadBlockFromDisk(*pblockNew, pindexNew, config)) { return AbortNode(state, "Failed to read block"); } pthisBlock = pblockNew; } else { pthisBlock = pblock; } const CBlock &blockConnecting = *pthisBlock; // Apply the block atomically to the chain state. int64_t nTime2 = GetTimeMicros(); nTimeReadFromDisk += nTime2 - nTime1; int64_t nTime3; LogPrint(BCLog::BENCH, " - Load block from disk: %.2fms [%.2fs]\n", (nTime2 - nTime1) * 0.001, nTimeReadFromDisk * 0.000001); { CCoinsViewCache view(pcoinsTip.get()); bool rv = ConnectBlock(config, blockConnecting, state, pindexNew, view); GetMainSignals().BlockChecked(blockConnecting, state); if (!rv) { if (state.IsInvalid()) { InvalidBlockFound(pindexNew, state); } return error("ConnectTip(): ConnectBlock %s failed (%s)", pindexNew->GetBlockHash().ToString(), FormatStateMessage(state)); } // Update the finalized block. const CBlockIndex *pindexToFinalize = FindBlockToFinalize(config, pindexNew); if (pindexToFinalize && !FinalizeBlockInternal(config, state, pindexToFinalize)) { state.SetCorruptionPossible(); return error("ConnectTip(): FinalizeBlock %s failed (%s)", pindexNew->GetBlockHash().ToString(), FormatStateMessage(state)); } nTime3 = GetTimeMicros(); nTimeConnectTotal += nTime3 - nTime2; LogPrint(BCLog::BENCH, " - Connect total: %.2fms [%.2fs]\n", (nTime3 - nTime2) * 0.001, nTimeConnectTotal * 0.000001); bool flushed = view.Flush(); assert(flushed); } int64_t nTime4 = GetTimeMicros(); nTimeFlush += nTime4 - nTime3; LogPrint(BCLog::BENCH, " - Flush: %.2fms [%.2fs]\n", (nTime4 - nTime3) * 0.001, nTimeFlush * 0.000001); // Write the chain state to disk, if necessary. if (!FlushStateToDisk(config.GetChainParams(), state, FLUSH_STATE_IF_NEEDED)) { return false; } int64_t nTime5 = GetTimeMicros(); nTimeChainState += nTime5 - nTime4; LogPrint(BCLog::BENCH, " - Writing chainstate: %.2fms [%.2fs]\n", (nTime5 - nTime4) * 0.001, nTimeChainState * 0.000001); // Remove conflicting transactions from the mempool.; g_mempool.removeForBlock(blockConnecting.vtx, pindexNew->nHeight); disconnectpool.removeForBlock(blockConnecting.vtx); // Update chainActive & related variables. UpdateTip(config, pindexNew); int64_t nTime6 = GetTimeMicros(); nTimePostConnect += nTime6 - nTime5; nTimeTotal += nTime6 - nTime1; LogPrint(BCLog::BENCH, " - Connect postprocess: %.2fms [%.2fs]\n", (nTime6 - nTime5) * 0.001, nTimePostConnect * 0.000001); LogPrint(BCLog::BENCH, "- Connect block: %.2fms [%.2fs]\n", (nTime6 - nTime1) * 0.001, nTimeTotal * 0.000001); connectTrace.BlockConnected(pindexNew, std::move(pthisBlock)); return true; } /** * Return the tip of the chain with the most work in it, that isn't known to be * invalid (it's however far from certain to be valid). */ static CBlockIndex *FindMostWorkChain() { AssertLockHeld(cs_main); do { CBlockIndex *pindexNew = nullptr; // Find the best candidate header. { std::set::reverse_iterator it = setBlockIndexCandidates.rbegin(); if (it == setBlockIndexCandidates.rend()) { return nullptr; } pindexNew = *it; } // If this block will cause a finalized block to be reorged, then we // mark it as invalid. if (pindexFinalized && !AreOnTheSameFork(pindexNew, pindexFinalized)) { LogPrintf("Mark block %s invalid because it forks prior to the " "finalization point %d.\n", pindexNew->GetBlockHash().ToString(), pindexFinalized->nHeight); pindexNew->nStatus = pindexNew->nStatus.withFailed(); InvalidChainFound(pindexNew); } const CBlockIndex *pindexFork = chainActive.FindFork(pindexNew); // Check whether all blocks on the path between the currently active // chain and the candidate are valid. Just going until the active chain // is an optimization, as we know all blocks in it are valid already. CBlockIndex *pindexTest = pindexNew; bool hasValidAncestor = true; while (hasValidAncestor && pindexTest && pindexTest != pindexFork) { assert(pindexTest->nChainTx || pindexTest->nHeight == 0); // If this is a parked chain, but it has enough PoW, clear the park // state. bool fParkedChain = pindexTest->nStatus.isOnParkedChain(); if (fParkedChain && gArgs.GetBoolArg("-parkdeepreorg", true)) { const CBlockIndex *pindexTip = chainActive.Tip(); // During initialization, pindexTip and/or pindexFork may be // null. In this case, we just ignore the fact that the chain is // parked. if (!pindexTip || !pindexFork) { UnparkBlock(pindexTest); continue; } // A parked chain can be unparked if it has twice as much PoW // accumulated as the main chain has since the fork block. CBlockIndex const *pindexExtraPow = pindexTip; arith_uint256 requiredWork = pindexTip->nChainWork; switch (pindexTip->nHeight - pindexFork->nHeight) { // Limit the penality for depth 1, 2 and 3 to half a block // worth of work to ensure we don't fork accidentaly. case 3: case 2: pindexExtraPow = pindexExtraPow->pprev; // FALLTHROUGH case 1: { const arith_uint256 deltaWork = pindexExtraPow->nChainWork - pindexFork->nChainWork; requiredWork += (deltaWork >> 1); break; } default: requiredWork += pindexExtraPow->nChainWork - pindexFork->nChainWork; break; } if (pindexNew->nChainWork > requiredWork) { // We have enough, clear the parked state. LogPrintf("Unpark block %s as its chain has accumulated " "enough PoW.\n", pindexTest->GetBlockHash().ToString()); fParkedChain = false; UnparkBlock(pindexTest); } } // Pruned nodes may have entries in setBlockIndexCandidates for // which block files have been deleted. Remove those as candidates // for the most work chain if we come across them; we can't switch // to a chain unless we have all the non-active-chain parent blocks. bool fInvalidChain = pindexTest->nStatus.isInvalid(); bool fMissingData = !pindexTest->nStatus.hasData(); if (!(fInvalidChain || fParkedChain || fMissingData)) { // The current block is acceptable, move to the parent, up to // the fork point. pindexTest = pindexTest->pprev; continue; } // Candidate chain is not usable (either invalid or missing data) hasValidAncestor = false; setBlockIndexCandidates.erase(pindexTest); if (fInvalidChain && (pindexBestInvalid == nullptr || pindexNew->nChainWork > pindexBestInvalid->nChainWork)) { pindexBestInvalid = pindexNew; } if (fParkedChain && (pindexBestParked == nullptr || pindexNew->nChainWork > pindexBestParked->nChainWork)) { pindexBestParked = pindexNew; } CBlockIndex *pindexFailed = pindexNew; // Remove the entire chain from the set. while (pindexTest != pindexFailed) { if (fInvalidChain || fParkedChain) { pindexFailed->nStatus = pindexFailed->nStatus.withFailedParent(fInvalidChain) .withParkedParent(fParkedChain); } else if (fMissingData) { // If we're missing data, then add back to // mapBlocksUnlinked, so that if the block arrives in the // future we can try adding to setBlockIndexCandidates // again. mapBlocksUnlinked.insert( std::make_pair(pindexFailed->pprev, pindexFailed)); } setBlockIndexCandidates.erase(pindexFailed); pindexFailed = pindexFailed->pprev; } if (fInvalidChain || fParkedChain) { // We discovered a new chain tip that is either parked or // invalid, we may want to warn. CheckForkWarningConditionsOnNewFork(pindexNew); } } // We found a candidate that has valid ancestors. This is our guy. if (hasValidAncestor) { return pindexNew; } } while (true); } /** * Delete all entries in setBlockIndexCandidates that are worse than the current * tip. */ static void PruneBlockIndexCandidates() { // Note that we can't delete the current block itself, as we may need to // return to it later in case a reorganization to a better block fails. auto it = setBlockIndexCandidates.begin(); while (it != setBlockIndexCandidates.end() && setBlockIndexCandidates.value_comp()(*it, chainActive.Tip())) { setBlockIndexCandidates.erase(it++); } // Either the current tip or a successor of it we're working towards is left // in setBlockIndexCandidates. assert(!setBlockIndexCandidates.empty()); } /** * Try to make some progress towards making pindexMostWork the active block. * pblock is either nullptr or a pointer to a CBlock corresponding to * pindexMostWork. */ static bool ActivateBestChainStep(const Config &config, CValidationState &state, CBlockIndex *pindexMostWork, const std::shared_ptr &pblock, bool &fInvalidFound, ConnectTrace &connectTrace) { AssertLockHeld(cs_main); const CBlockIndex *pindexOldTip = chainActive.Tip(); const CBlockIndex *pindexFork = chainActive.FindFork(pindexMostWork); // Disconnect active blocks which are no longer in the best chain. bool fBlocksDisconnected = false; DisconnectedBlockTransactions disconnectpool; while (chainActive.Tip() && chainActive.Tip() != pindexFork) { if (!DisconnectTip(config, state, &disconnectpool)) { // This is likely a fatal error, but keep the mempool consistent, // just in case. Only remove from the mempool in this case. disconnectpool.updateMempoolForReorg(config, false); return false; } fBlocksDisconnected = true; } // Build list of new blocks to connect. std::vector vpindexToConnect; bool fContinue = true; int nHeight = pindexFork ? pindexFork->nHeight : -1; while (fContinue && nHeight != pindexMostWork->nHeight) { // Don't iterate the entire list of potential improvements toward the // best tip, as we likely only need a few blocks along the way. int nTargetHeight = std::min(nHeight + 32, pindexMostWork->nHeight); vpindexToConnect.clear(); vpindexToConnect.reserve(nTargetHeight - nHeight); CBlockIndex *pindexIter = pindexMostWork->GetAncestor(nTargetHeight); while (pindexIter && pindexIter->nHeight != nHeight) { vpindexToConnect.push_back(pindexIter); pindexIter = pindexIter->pprev; } nHeight = nTargetHeight; // Connect new blocks. for (CBlockIndex *pindexConnect : reverse_iterate(vpindexToConnect)) { if (!ConnectTip(config, state, pindexConnect, pindexConnect == pindexMostWork ? pblock : std::shared_ptr(), connectTrace, disconnectpool)) { if (state.IsInvalid()) { // The block violates a consensus rule. if (!state.CorruptionPossible()) { InvalidChainFound(vpindexToConnect.back()); } state = CValidationState(); fInvalidFound = true; fContinue = false; break; } // A system error occurred (disk space, database error, ...). // Make the mempool consistent with the current tip, just in // case any observers try to use it before shutdown. disconnectpool.updateMempoolForReorg(config, false); return false; } else { PruneBlockIndexCandidates(); if (!pindexOldTip || chainActive.Tip()->nChainWork > pindexOldTip->nChainWork) { // We're in a better position than we were. Return // temporarily to release the lock. fContinue = false; break; } } } } if (fBlocksDisconnected) { // If any blocks were disconnected, disconnectpool may be non empty. Add // any disconnected transactions back to the mempool. disconnectpool.updateMempoolForReorg(config, true); } g_mempool.check(pcoinsTip.get()); // Callbacks/notifications for a new best chain. if (fInvalidFound) { CheckForkWarningConditionsOnNewFork(pindexMostWork); } else { CheckForkWarningConditions(); } return true; } static void NotifyHeaderTip() { bool fNotify = false; bool fInitialBlockDownload = false; static CBlockIndex *pindexHeaderOld = nullptr; CBlockIndex *pindexHeader = nullptr; { LOCK(cs_main); pindexHeader = pindexBestHeader; if (pindexHeader != pindexHeaderOld) { fNotify = true; fInitialBlockDownload = IsInitialBlockDownload(); pindexHeaderOld = pindexHeader; } } // Send block tip changed notifications without cs_main if (fNotify) { uiInterface.NotifyHeaderTip(fInitialBlockDownload, pindexHeader); } } bool ActivateBestChain(const Config &config, CValidationState &state, std::shared_ptr pblock) { // Note that while we're often called here from ProcessNewBlock, this is // far from a guarantee. Things in the P2P/RPC will often end up calling // us in the middle of ProcessNewBlock - do not assume pblock is set // sanely for performance or correctness! CBlockIndex *pindexMostWork = nullptr; CBlockIndex *pindexNewTip = nullptr; do { boost::this_thread::interruption_point(); if (ShutdownRequested()) { break; } const CBlockIndex *pindexFork; bool fInitialDownload; { LOCK(cs_main); // Destructed before cs_main is unlocked. ConnectTrace connectTrace(g_mempool); CBlockIndex *pindexOldTip = chainActive.Tip(); if (pindexMostWork == nullptr) { pindexMostWork = FindMostWorkChain(); } // Whether we have anything to do at all. if (pindexMostWork == nullptr || pindexMostWork == chainActive.Tip()) { return true; } bool fInvalidFound = false; std::shared_ptr nullBlockPtr; if (!ActivateBestChainStep( config, state, pindexMostWork, pblock && pblock->GetHash() == pindexMostWork->GetBlockHash() ? pblock : nullBlockPtr, fInvalidFound, connectTrace)) { return false; } if (fInvalidFound) { // Wipe cache, we may need another branch now. pindexMostWork = nullptr; } pindexNewTip = chainActive.Tip(); pindexFork = chainActive.FindFork(pindexOldTip); fInitialDownload = IsInitialBlockDownload(); for (const PerBlockConnectTrace &trace : connectTrace.GetBlocksConnected()) { assert(trace.pblock && trace.pindex); GetMainSignals().BlockConnected(trace.pblock, trace.pindex, *trace.conflictedTxs); } } // When we reach this point, we switched to a new tip (stored in // pindexNewTip). // Notifications/callbacks that can run without cs_main // Notify external listeners about the new tip. GetMainSignals().UpdatedBlockTip(pindexNewTip, pindexFork, fInitialDownload); // Always notify the UI if a new block tip was connected if (pindexFork != pindexNewTip) { uiInterface.NotifyBlockTip(fInitialDownload, pindexNewTip); } } while (pindexNewTip != pindexMostWork); const CChainParams ¶ms = config.GetChainParams(); CheckBlockIndex(params.GetConsensus()); // Write changes periodically to disk, after relay. if (!FlushStateToDisk(params, state, FLUSH_STATE_PERIODIC)) { return false; } int nStopAtHeight = gArgs.GetArg("-stopatheight", DEFAULT_STOPATHEIGHT); if (nStopAtHeight && pindexNewTip && pindexNewTip->nHeight >= nStopAtHeight) { StartShutdown(); } return true; } bool PreciousBlock(const Config &config, CValidationState &state, CBlockIndex *pindex) { { LOCK(cs_main); if (pindex->nChainWork < chainActive.Tip()->nChainWork) { // Nothing to do, this block is not at the tip. return true; } if (chainActive.Tip()->nChainWork > nLastPreciousChainwork) { // The chain has been extended since the last call, reset the // counter. nBlockReverseSequenceId = -1; } nLastPreciousChainwork = chainActive.Tip()->nChainWork; setBlockIndexCandidates.erase(pindex); pindex->nSequenceId = nBlockReverseSequenceId; if (nBlockReverseSequenceId > std::numeric_limits::min()) { // We can't keep reducing the counter if somebody really wants to // call preciousblock 2**31-1 times on the same set of tips... nBlockReverseSequenceId--; } // In case this was parked, unpark it. UnparkBlock(pindex); // Make sure it is added to the candidate list if apropriate. if (pindex->IsValid(BlockValidity::TRANSACTIONS) && pindex->nChainTx) { setBlockIndexCandidates.insert(pindex); PruneBlockIndexCandidates(); } } return ActivateBestChain(config, state); } static bool UnwindBlock(const Config &config, CValidationState &state, CBlockIndex *pindex, bool invalidate) { AssertLockHeld(cs_main); // Mark the block as either invalid or parked. pindex->nStatus = invalidate ? pindex->nStatus.withFailed() : pindex->nStatus.withParked(); setDirtyBlockIndex.insert(pindex); DisconnectedBlockTransactions disconnectpool; while (chainActive.Contains(pindex)) { CBlockIndex *pindexWalk = chainActive.Tip(); if (pindexWalk != pindex) { pindexWalk->nStatus = invalidate ? pindexWalk->nStatus.withFailedParent() : pindexWalk->nStatus.withParkedParent(); setDirtyBlockIndex.insert(pindexWalk); } // ActivateBestChain considers blocks already in chainActive // unconditionally valid already, so force disconnect away from it. if (!DisconnectTip(config, state, &disconnectpool)) { // It's probably hopeless to try to make the mempool consistent // here if DisconnectTip failed, but we can try. disconnectpool.updateMempoolForReorg(config, false); return false; } } // DisconnectTip will add transactions to disconnectpool; try to add these // back to the mempool. disconnectpool.updateMempoolForReorg(config, true); // The resulting new best tip may not be in setBlockIndexCandidates anymore, // so add it again. for (const std::pair &it : mapBlockIndex) { CBlockIndex *i = it.second; if (i->IsValid(BlockValidity::TRANSACTIONS) && i->nChainTx && !setBlockIndexCandidates.value_comp()(i, chainActive.Tip())) { setBlockIndexCandidates.insert(i); } } if (invalidate) { InvalidChainFound(pindex); } uiInterface.NotifyBlockTip(IsInitialBlockDownload(), pindex->pprev); return true; } bool FinalizeBlockAndInvalidate(const Config &config, CValidationState &state, CBlockIndex *pindex) { AssertLockHeld(cs_main); if (!FinalizeBlockInternal(config, state, pindex)) { // state is set by FinalizeBlockInternal. return false; } // We have a valid candidate, make sure it is not parked. if (pindex->nStatus.isOnParkedChain()) { UnparkBlock(pindex); } // If the finalized block is not on the active chain, we need to rewind. if (!AreOnTheSameFork(pindex, chainActive.Tip())) { const CBlockIndex *pindexFork = chainActive.FindFork(pindex); CBlockIndex *pindexToInvalidate = chainActive.Tip()->GetAncestor(pindexFork->nHeight + 1); return InvalidateBlock(config, state, pindexToInvalidate); } return true; } bool InvalidateBlock(const Config &config, CValidationState &state, CBlockIndex *pindex) { return UnwindBlock(config, state, pindex, true); } bool ParkBlock(const Config &config, CValidationState &state, CBlockIndex *pindex) { return UnwindBlock(config, state, pindex, false); } template void UpdateFlagsForBlock(CBlockIndex *pindexBase, CBlockIndex *pindex, F f) { BlockStatus newStatus = f(pindex->nStatus); if (pindex->nStatus != newStatus && pindex->GetAncestor(pindexBase->nHeight) == pindexBase) { pindex->nStatus = newStatus; setDirtyBlockIndex.insert(pindex); if (pindex->IsValid(BlockValidity::TRANSACTIONS) && pindex->nChainTx && setBlockIndexCandidates.value_comp()(chainActive.Tip(), pindex)) { setBlockIndexCandidates.insert(pindex); } } } template void UpdateFlags(CBlockIndex *pindex, F f, C fchild) { AssertLockHeld(cs_main); // Update the current block. UpdateFlagsForBlock(pindex, pindex, f); // Update the flags from this block and all its descendants. BlockMap::iterator it = mapBlockIndex.begin(); while (it != mapBlockIndex.end()) { UpdateFlagsForBlock(pindex, it->second, fchild); it++; } // Update the flags from all ancestors too. while (pindex != nullptr) { BlockStatus newStatus = f(pindex->nStatus); if (pindex->nStatus != newStatus) { pindex->nStatus = newStatus; setDirtyBlockIndex.insert(pindex); } pindex = pindex->pprev; } } template void UpdateFlags(CBlockIndex *pindex, F f) { // Handy shorthand. UpdateFlags(pindex, f, f); } bool ResetBlockFailureFlags(CBlockIndex *pindex) { AssertLockHeld(cs_main); if (pindexBestInvalid && (pindexBestInvalid->GetAncestor(pindex->nHeight) == pindex || pindex->GetAncestor(pindexBestInvalid->nHeight) == pindexBestInvalid)) { // Reset the invalid block marker if it is about to be cleared. pindexBestInvalid = nullptr; } // In case we are reconsidering something before the finalization point, // move the finalization point to the last common ancestor. if (pindexFinalized) { pindexFinalized = LastCommonAncestor(pindex, pindexFinalized); } UpdateFlags(pindex, [](const BlockStatus status) { return status.withClearedFailureFlags(); }); return true; } static bool UnparkBlockImpl(CBlockIndex *pindex, bool fClearChildren) { AssertLockHeld(cs_main); if (pindexBestParked && (pindexBestParked->GetAncestor(pindex->nHeight) == pindex || pindex->GetAncestor(pindexBestParked->nHeight) == pindexBestParked)) { // Reset the parked block marker if it is about to be cleared. pindexBestParked = nullptr; } UpdateFlags(pindex, [](const BlockStatus status) { return status.withClearedParkedFlags(); }, [fClearChildren](const BlockStatus status) { return fClearChildren ? status.withClearedParkedFlags() : status.withParkedParent(false); }); return true; } bool UnparkBlockAndChildren(CBlockIndex *pindex) { return UnparkBlockImpl(pindex, true); } bool UnparkBlock(CBlockIndex *pindex) { return UnparkBlockImpl(pindex, false); } const CBlockIndex *GetFinalizedBlock() { AssertLockHeld(cs_main); return pindexFinalized; } bool IsBlockFinalized(const CBlockIndex *pindex) { AssertLockHeld(cs_main); return pindexFinalized && pindexFinalized->GetAncestor(pindex->nHeight) == pindex; } static CBlockIndex *AddToBlockIndex(const CBlockHeader &block) { // Check for duplicate uint256 hash = block.GetHash(); BlockMap::iterator it = mapBlockIndex.find(hash); if (it != mapBlockIndex.end()) { return it->second; } // Construct new block index object CBlockIndex *pindexNew = new CBlockIndex(block); assert(pindexNew); // We assign the sequence id to blocks only when the full data is available, // to avoid miners withholding blocks but broadcasting headers, to get a // competitive advantage. pindexNew->nSequenceId = 0; BlockMap::iterator mi = mapBlockIndex.insert(std::make_pair(hash, pindexNew)).first; pindexNew->phashBlock = &((*mi).first); BlockMap::iterator miPrev = mapBlockIndex.find(block.hashPrevBlock); if (miPrev != mapBlockIndex.end()) { pindexNew->pprev = (*miPrev).second; pindexNew->nHeight = pindexNew->pprev->nHeight + 1; pindexNew->BuildSkip(); } pindexNew->nTimeReceived = GetTime(); pindexNew->nTimeMax = (pindexNew->pprev ? std::max(pindexNew->pprev->nTimeMax, pindexNew->nTime) : pindexNew->nTime); pindexNew->nChainWork = (pindexNew->pprev ? pindexNew->pprev->nChainWork : 0) + GetBlockProof(*pindexNew); pindexNew->RaiseValidity(BlockValidity::TREE); if (pindexBestHeader == nullptr || pindexBestHeader->nChainWork < pindexNew->nChainWork) { pindexBestHeader = pindexNew; } setDirtyBlockIndex.insert(pindexNew); return pindexNew; } /** * Mark a block as having its data received and checked (up to * BLOCK_VALID_TRANSACTIONS). */ bool ReceivedBlockTransactions(const CBlock &block, CValidationState &state, CBlockIndex *pindexNew, const CDiskBlockPos &pos) { pindexNew->nTx = block.vtx.size(); pindexNew->nChainTx = 0; pindexNew->nFile = pos.nFile; pindexNew->nDataPos = pos.nPos; pindexNew->nUndoPos = 0; pindexNew->nStatus = pindexNew->nStatus.withData(); pindexNew->RaiseValidity(BlockValidity::TRANSACTIONS); setDirtyBlockIndex.insert(pindexNew); if (pindexNew->pprev == nullptr || pindexNew->pprev->nChainTx) { // If pindexNew is the genesis block or all parents are // BLOCK_VALID_TRANSACTIONS. std::deque queue; queue.push_back(pindexNew); // Recursively process any descendant blocks that now may be eligible to // be connected. while (!queue.empty()) { CBlockIndex *pindex = queue.front(); queue.pop_front(); pindex->nChainTx = (pindex->pprev ? pindex->pprev->nChainTx : 0) + pindex->nTx; if (pindex->nSequenceId == 0) { // We assign a sequence is when transaction are recieved to // prevent a miner from being able to broadcast a block but not // its content. However, a sequence id may have been set // manually, for instance via PreciousBlock, in which case, we // don't need to assign one. pindex->nSequenceId = nBlockSequenceId++; } if (chainActive.Tip() == nullptr || !setBlockIndexCandidates.value_comp()(pindex, chainActive.Tip())) { setBlockIndexCandidates.insert(pindex); } std::pair::iterator, std::multimap::iterator> range = mapBlocksUnlinked.equal_range(pindex); while (range.first != range.second) { std::multimap::iterator it = range.first; queue.push_back(it->second); range.first++; mapBlocksUnlinked.erase(it); } } } else if (pindexNew->pprev && pindexNew->pprev->IsValid(BlockValidity::TREE)) { mapBlocksUnlinked.insert(std::make_pair(pindexNew->pprev, pindexNew)); } return true; } static bool FindBlockPos(CValidationState &state, CDiskBlockPos &pos, unsigned int nAddSize, unsigned int nHeight, uint64_t nTime, bool fKnown = false) { LOCK(cs_LastBlockFile); unsigned int nFile = fKnown ? pos.nFile : nLastBlockFile; if (vinfoBlockFile.size() <= nFile) { vinfoBlockFile.resize(nFile + 1); } if (!fKnown) { while (vinfoBlockFile[nFile].nSize + nAddSize >= MAX_BLOCKFILE_SIZE) { nFile++; if (vinfoBlockFile.size() <= nFile) { vinfoBlockFile.resize(nFile + 1); } } pos.nFile = nFile; pos.nPos = vinfoBlockFile[nFile].nSize; } if ((int)nFile != nLastBlockFile) { if (!fKnown) { LogPrintf("Leaving block file %i: %s\n", nLastBlockFile, vinfoBlockFile[nLastBlockFile].ToString()); } FlushBlockFile(!fKnown); nLastBlockFile = nFile; } vinfoBlockFile[nFile].AddBlock(nHeight, nTime); if (fKnown) { vinfoBlockFile[nFile].nSize = std::max(pos.nPos + nAddSize, vinfoBlockFile[nFile].nSize); } else { vinfoBlockFile[nFile].nSize += nAddSize; } if (!fKnown) { unsigned int nOldChunks = (pos.nPos + BLOCKFILE_CHUNK_SIZE - 1) / BLOCKFILE_CHUNK_SIZE; unsigned int nNewChunks = (vinfoBlockFile[nFile].nSize + BLOCKFILE_CHUNK_SIZE - 1) / BLOCKFILE_CHUNK_SIZE; if (nNewChunks > nOldChunks) { if (fPruneMode) { fCheckForPruning = true; } if (CheckDiskSpace(nNewChunks * BLOCKFILE_CHUNK_SIZE - pos.nPos)) { FILE *file = OpenBlockFile(pos); if (file) { LogPrintf( "Pre-allocating up to position 0x%x in blk%05u.dat\n", nNewChunks * BLOCKFILE_CHUNK_SIZE, pos.nFile); AllocateFileRange(file, pos.nPos, nNewChunks * BLOCKFILE_CHUNK_SIZE - pos.nPos); fclose(file); } } else { return state.Error("out of disk space"); } } } setDirtyFileInfo.insert(nFile); return true; } static bool FindUndoPos(CValidationState &state, int nFile, CDiskBlockPos &pos, unsigned int nAddSize) { pos.nFile = nFile; LOCK(cs_LastBlockFile); unsigned int nNewSize; pos.nPos = vinfoBlockFile[nFile].nUndoSize; nNewSize = vinfoBlockFile[nFile].nUndoSize += nAddSize; setDirtyFileInfo.insert(nFile); unsigned int nOldChunks = (pos.nPos + UNDOFILE_CHUNK_SIZE - 1) / UNDOFILE_CHUNK_SIZE; unsigned int nNewChunks = (nNewSize + UNDOFILE_CHUNK_SIZE - 1) / UNDOFILE_CHUNK_SIZE; if (nNewChunks > nOldChunks) { if (fPruneMode) { fCheckForPruning = true; } if (CheckDiskSpace(nNewChunks * UNDOFILE_CHUNK_SIZE - pos.nPos)) { FILE *file = OpenUndoFile(pos); if (file) { LogPrintf("Pre-allocating up to position 0x%x in rev%05u.dat\n", nNewChunks * UNDOFILE_CHUNK_SIZE, pos.nFile); AllocateFileRange(file, pos.nPos, nNewChunks * UNDOFILE_CHUNK_SIZE - pos.nPos); fclose(file); } } else { return state.Error("out of disk space"); } } return true; } /** * Return true if the provided block header is valid. * Only verify PoW if blockValidationOptions is configured to do so. * This allows validation of headers on which the PoW hasn't been done. * For example: to validate template handed to mining software. * Do not call this for any check that depends on the context. * For context-dependant calls, see ContextualCheckBlockHeader. */ static bool CheckBlockHeader( const Config &config, const CBlockHeader &block, CValidationState &state, BlockValidationOptions validationOptions = BlockValidationOptions()) { // Check proof of work matches claimed amount if (validationOptions.shouldValidatePoW() && !CheckProofOfWork(block.GetHash(), block.nBits, config)) { return state.DoS(50, false, REJECT_INVALID, "high-hash", false, "proof of work failed"); } return true; } bool CheckBlock(const Config &config, const CBlock &block, CValidationState &state, BlockValidationOptions validationOptions) { // These are checks that are independent of context. if (block.fChecked) { return true; } // Check that the header is valid (particularly PoW). This is mostly // redundant with the call in AcceptBlockHeader. if (!CheckBlockHeader(config, block, state, validationOptions)) { return false; } // Check the merkle root. if (validationOptions.shouldValidateMerkleRoot()) { bool mutated; uint256 hashMerkleRoot2 = BlockMerkleRoot(block, &mutated); if (block.hashMerkleRoot != hashMerkleRoot2) { return state.DoS(100, false, REJECT_INVALID, "bad-txnmrklroot", true, "hashMerkleRoot mismatch"); } // Check for merkle tree malleability (CVE-2012-2459): repeating // sequences of transactions in a block without affecting the merkle // root of a block, while still invalidating it. if (mutated) { return state.DoS(100, false, REJECT_INVALID, "bad-txns-duplicate", true, "duplicate transaction"); } } // All potential-corruption validation must be done before we do any // transaction validation, as otherwise we may mark the header as invalid // because we receive the wrong transactions for it. // First transaction must be coinbase. if (block.vtx.empty()) { return state.DoS(100, false, REJECT_INVALID, "bad-cb-missing", false, "first tx is not coinbase"); } // Size limits. auto nMaxBlockSize = config.GetMaxBlockSize(); // Bail early if there is no way this block is of reasonable size. if ((block.vtx.size() * MIN_TRANSACTION_SIZE) > nMaxBlockSize) { return state.DoS(100, false, REJECT_INVALID, "bad-blk-length", false, "size limits failed"); } auto currentBlockSize = ::GetSerializeSize(block, SER_NETWORK, PROTOCOL_VERSION); if (currentBlockSize > nMaxBlockSize) { return state.DoS(100, false, REJECT_INVALID, "bad-blk-length", false, "size limits failed"); } // And a valid coinbase. if (!CheckCoinbase(*block.vtx[0], state)) { return state.Invalid(false, state.GetRejectCode(), state.GetRejectReason(), strprintf("Coinbase check failed (txid %s) %s", block.vtx[0]->GetId().ToString(), state.GetDebugMessage())); } // Keep track of the sigops count. uint64_t nSigOps = 0; auto nMaxSigOpsCount = GetMaxBlockSigOpsCount(currentBlockSize); // Check transactions auto txCount = block.vtx.size(); auto *tx = block.vtx[0].get(); size_t i = 0; while (true) { // Count the sigops for the current transaction. If the total sigops // count is too high, the the block is invalid. nSigOps += GetSigOpCountWithoutP2SH(*tx, STANDARD_SCRIPT_VERIFY_FLAGS); if (nSigOps > nMaxSigOpsCount) { return state.DoS(100, false, REJECT_INVALID, "bad-blk-sigops", false, "out-of-bounds SigOpCount"); } // Go to the next transaction. i++; // We reached the end of the block, success. if (i >= txCount) { break; } // Check that the transaction is valid. Because this check differs for // the coinbase, the loop is arranged such as this only runs after at // least one increment. tx = block.vtx[i].get(); if (!CheckRegularTransaction(*tx, state)) { return state.Invalid( false, state.GetRejectCode(), state.GetRejectReason(), strprintf("Transaction check failed (txid %s) %s", tx->GetId().ToString(), state.GetDebugMessage())); } } if (validationOptions.shouldValidatePoW() && validationOptions.shouldValidateMerkleRoot()) { block.fChecked = true; } return true; } static bool CheckIndexAgainstCheckpoint(const CBlockIndex *pindexPrev, CValidationState &state, const CChainParams &chainparams, const uint256 &hash) { if (*pindexPrev->phashBlock == chainparams.GetConsensus().hashGenesisBlock) { return true; } int nHeight = pindexPrev->nHeight + 1; const CCheckpointData &checkpoints = chainparams.Checkpoints(); // Check that the block chain matches the known block chain up to a // checkpoint. if (!Checkpoints::CheckBlock(checkpoints, nHeight, hash)) { return state.DoS(100, error("%s: rejected by checkpoint lock-in at %d", __func__, nHeight), REJECT_CHECKPOINT, "checkpoint mismatch"); } // Don't accept any forks from the main chain prior to last checkpoint. // GetLastCheckpoint finds the last checkpoint in MapCheckpoints that's in // our MapBlockIndex. CBlockIndex *pcheckpoint = Checkpoints::GetLastCheckpoint(checkpoints); if (pcheckpoint && nHeight < pcheckpoint->nHeight) { return state.DoS( 100, error("%s: forked chain older than last checkpoint (height %d)", __func__, nHeight), REJECT_CHECKPOINT, "bad-fork-prior-to-checkpoint"); } return true; } static bool ContextualCheckBlockHeader(const Config &config, const CBlockHeader &block, CValidationState &state, const CBlockIndex *pindexPrev, int64_t nAdjustedTime) { const Consensus::Params &consensusParams = config.GetChainParams().GetConsensus(); const int nHeight = pindexPrev == nullptr ? 0 : pindexPrev->nHeight + 1; // Check proof of work if (block.nBits != GetNextWorkRequired(pindexPrev, &block, config)) { LogPrintf("bad bits after height: %d\n", pindexPrev->nHeight); return state.DoS(100, false, REJECT_INVALID, "bad-diffbits", false, "incorrect proof of work"); } // Check timestamp against prev if (block.GetBlockTime() <= pindexPrev->GetMedianTimePast()) { return state.Invalid(false, REJECT_INVALID, "time-too-old", "block's timestamp is too early"); } // Check timestamp if (block.GetBlockTime() > nAdjustedTime + MAX_FUTURE_BLOCK_TIME) { return state.Invalid(false, REJECT_INVALID, "time-too-new", "block timestamp too far in the future"); } // Reject outdated version blocks when 95% (75% on testnet) of the network // has upgraded: // check for version 2, 3 and 4 upgrades if ((block.nVersion < 2 && nHeight >= consensusParams.BIP34Height) || (block.nVersion < 3 && nHeight >= consensusParams.BIP66Height) || (block.nVersion < 4 && nHeight >= consensusParams.BIP65Height)) { return state.Invalid( false, REJECT_OBSOLETE, strprintf("bad-version(0x%08x)", block.nVersion), strprintf("rejected nVersion=0x%08x block", block.nVersion)); } return true; } bool ContextualCheckTransactionForCurrentBlock(const Config &config, const CTransaction &tx, CValidationState &state, int flags) { AssertLockHeld(cs_main); // By convention a negative value for flags indicates that the current // network-enforced consensus rules should be used. In a future soft-fork // scenario that would mean checking which rules would be enforced for the // next block and setting the appropriate flags. At the present time no // soft-forks are scheduled, so no flags are set. flags = std::max(flags, 0); // ContextualCheckTransactionForCurrentBlock() uses chainActive.Height()+1 // to evaluate nLockTime because when IsFinalTx() is called within // CBlock::AcceptBlock(), the height of the block *being* evaluated is what // is used. Thus if we want to know if a transaction can be part of the // *next* block, we need to call ContextualCheckTransaction() with one more // than chainActive.Height(). const int nBlockHeight = chainActive.Height() + 1; // BIP113 will require that time-locked transactions have nLockTime set to // less than the median time of the previous block they're contained in. // When the next block is created its previous block will be the current // chain tip, so we use that to calculate the median time passed to // ContextualCheckTransaction() if LOCKTIME_MEDIAN_TIME_PAST is set. const int64_t nMedianTimePast = chainActive.Tip() == nullptr ? 0 : chainActive.Tip()->GetMedianTimePast(); const int64_t nLockTimeCutoff = (flags & LOCKTIME_MEDIAN_TIME_PAST) ? nMedianTimePast : GetAdjustedTime(); return ContextualCheckTransaction(config, tx, state, nBlockHeight, nLockTimeCutoff, nMedianTimePast); } static bool ContextualCheckBlock(const Config &config, const CBlock &block, CValidationState &state, const CBlockIndex *pindexPrev) { const int nHeight = pindexPrev == nullptr ? 0 : pindexPrev->nHeight + 1; const Consensus::Params &consensusParams = config.GetChainParams().GetConsensus(); // Start enforcing BIP113 (Median Time Past). int nLockTimeFlags = 0; if (nHeight >= consensusParams.CSVHeight) { nLockTimeFlags |= LOCKTIME_MEDIAN_TIME_PAST; } const int64_t nMedianTimePast = pindexPrev == nullptr ? 0 : pindexPrev->GetMedianTimePast(); const int64_t nLockTimeCutoff = (nLockTimeFlags & LOCKTIME_MEDIAN_TIME_PAST) ? nMedianTimePast : block.GetBlockTime(); const bool fIsMagneticAnomalyEnabled = IsMagneticAnomalyEnabled(config, pindexPrev); // Check that all transactions are finalized const CTransaction *prevTx = nullptr; for (const auto &ptx : block.vtx) { const CTransaction &tx = *ptx; if (fIsMagneticAnomalyEnabled) { if (prevTx && (tx.GetId() <= prevTx->GetId())) { if (tx.GetId() == prevTx->GetId()) { return state.DoS(100, false, REJECT_INVALID, "tx-duplicate", false, strprintf("Duplicated transaction %s", tx.GetId().ToString())); } return state.DoS( 100, false, REJECT_INVALID, "tx-ordering", false, strprintf("Transaction order is invalid (%s < %s)", tx.GetId().ToString(), prevTx->GetId().ToString())); } if (prevTx || !tx.IsCoinBase()) { prevTx = &tx; } } if (!ContextualCheckTransaction(config, tx, state, nHeight, nLockTimeCutoff, nMedianTimePast)) { // state set by ContextualCheckTransaction. return false; } } // Enforce rule that the coinbase starts with serialized block height if (nHeight >= consensusParams.BIP34Height) { CScript expect = CScript() << nHeight; if (block.vtx[0]->vin[0].scriptSig.size() < expect.size() || !std::equal(expect.begin(), expect.end(), block.vtx[0]->vin[0].scriptSig.begin())) { return state.DoS(100, false, REJECT_INVALID, "bad-cb-height", false, "block height mismatch in coinbase"); } } return true; } /** * If the provided block header is valid, add it to the block index. * * Returns true if the block is succesfully added to the block index. */ static bool AcceptBlockHeader(const Config &config, const CBlockHeader &block, CValidationState &state, CBlockIndex **ppindex) { AssertLockHeld(cs_main); const CChainParams &chainparams = config.GetChainParams(); // Check for duplicate uint256 hash = block.GetHash(); BlockMap::iterator miSelf = mapBlockIndex.find(hash); CBlockIndex *pindex = nullptr; if (hash != chainparams.GetConsensus().hashGenesisBlock) { if (miSelf != mapBlockIndex.end()) { // Block header is already known. pindex = miSelf->second; if (ppindex) { *ppindex = pindex; } if (pindex->nStatus.isInvalid()) { return state.Invalid(error("%s: block %s is marked invalid", __func__, hash.ToString()), 0, "duplicate"); } return true; } if (!CheckBlockHeader(config, block, state)) { return error("%s: Consensus::CheckBlockHeader: %s, %s", __func__, hash.ToString(), FormatStateMessage(state)); } // Get prev block index BlockMap::iterator mi = mapBlockIndex.find(block.hashPrevBlock); if (mi == mapBlockIndex.end()) { return state.DoS(10, error("%s: prev block not found", __func__), 0, "prev-blk-not-found"); } CBlockIndex *pindexPrev = (*mi).second; assert(pindexPrev); if (pindexPrev->nStatus.isInvalid()) { return state.DoS(100, error("%s: prev block invalid", __func__), REJECT_INVALID, "bad-prevblk"); } if (fCheckpointsEnabled && !CheckIndexAgainstCheckpoint(pindexPrev, state, chainparams, hash)) { return error("%s: CheckIndexAgainstCheckpoint(): %s", __func__, state.GetRejectReason().c_str()); } if (!ContextualCheckBlockHeader(config, block, state, pindexPrev, GetAdjustedTime())) { return error("%s: Consensus::ContextualCheckBlockHeader: %s, %s", __func__, hash.ToString(), FormatStateMessage(state)); } } if (pindex == nullptr) { pindex = AddToBlockIndex(block); } if (ppindex) { *ppindex = pindex; } CheckBlockIndex(chainparams.GetConsensus()); return true; } // Exposed wrapper for AcceptBlockHeader bool ProcessNewBlockHeaders(const Config &config, const std::vector &headers, CValidationState &state, const CBlockIndex **ppindex, CBlockHeader *first_invalid) { if (first_invalid != nullptr) { first_invalid->SetNull(); } { LOCK(cs_main); for (const CBlockHeader &header : headers) { // Use a temp pindex instead of ppindex to avoid a const_cast CBlockIndex *pindex = nullptr; if (!AcceptBlockHeader(config, header, state, &pindex)) { if (first_invalid) { *first_invalid = header; } return false; } if (ppindex) { *ppindex = pindex; } } } NotifyHeaderTip(); return true; } /** * Store a block on disk. * * @param[in] config The global config. * @param[in-out] pblock The block we want to accept. * @param[in] fRequested A boolean to indicate if this block was requested * from our peers. * @param[in] dbp If non-null, the disk position of the block. * @param[in-out] fNewBlock True if block was first received via this call. * @return True if the block is accepted as a valid block and written to disk. */ static bool AcceptBlock(const Config &config, const std::shared_ptr &pblock, CValidationState &state, bool fRequested, const CDiskBlockPos *dbp, bool *fNewBlock) { AssertLockHeld(cs_main); const CBlock &block = *pblock; if (fNewBlock) { *fNewBlock = false; } CBlockIndex *pindex = nullptr; if (!AcceptBlockHeader(config, block, state, &pindex)) { return false; } // Try to process all requested blocks that we don't have, but only // process an unrequested block if it's new and has enough work to // advance our tip, and isn't too many blocks ahead. bool fAlreadyHave = pindex->nStatus.hasData(); // TODO: deal better with return value and error conditions for duplicate // and unrequested blocks. if (fAlreadyHave) { return true; } // Compare block header timestamps and received times of the block and the // chaintip. If they have the same chain height, use these diffs as a // tie-breaker, attempting to pick the more honestly-mined block. int64_t newBlockTimeDiff = std::llabs(pindex->GetReceivedTimeDiff()); int64_t chainTipTimeDiff = chainActive.Tip() ? std::llabs(chainActive.Tip()->GetReceivedTimeDiff()) : 0; bool isSameHeight = chainActive.Tip() && (pindex->nChainWork == chainActive.Tip()->nChainWork); if (isSameHeight) { LogPrintf("Chain tip timestamp-to-received-time difference: hash=%s, " "diff=%d\n", chainActive.Tip()->GetBlockHash().ToString(), chainTipTimeDiff); LogPrintf("New block timestamp-to-received-time difference: hash=%s, " "diff=%d\n", pindex->GetBlockHash().ToString(), newBlockTimeDiff); } bool fHasMoreWork = (chainActive.Tip() ? pindex->nChainWork > chainActive.Tip()->nChainWork : true); // Blocks that are too out-of-order needlessly limit the effectiveness of // pruning, because pruning will not delete block files that contain any // blocks which are too close in height to the tip. Apply this test // regardless of whether pruning is enabled; it should generally be safe to // not process unrequested blocks. bool fTooFarAhead = (pindex->nHeight > int(chainActive.Height() + MIN_BLOCKS_TO_KEEP)); // TODO: Decouple this function from the block download logic by removing // fRequested // This requires some new chain datastructure to efficiently look up if a // block is in a chain leading to a candidate for best tip, despite not // being such a candidate itself. // If we didn't ask for it: if (!fRequested) { // This is a previously-processed block that was pruned. if (pindex->nTx != 0) { return true; } // Don't process less-work chains. if (!fHasMoreWork) { return true; } // Block height is too high. if (fTooFarAhead) { return true; } // Protect against DoS attacks from low-work chains. // If our tip is behind, a peer could try to send us // low-work blocks on a fake chain that we would never // request; don't process these. if (pindex->nChainWork < nMinimumChainWork) { return true; } } if (fNewBlock) { *fNewBlock = true; } if (!CheckBlock(config, block, state) || !ContextualCheckBlock(config, block, state, pindex->pprev)) { if (state.IsInvalid() && !state.CorruptionPossible()) { pindex->nStatus = pindex->nStatus.withFailed(); setDirtyBlockIndex.insert(pindex); } return error("%s: %s (block %s)", __func__, FormatStateMessage(state), block.GetHash().ToString()); } // If this is a deep reorg (a regorg of more than one block), preemptively // mark the chain as parked. If it has enough work, it'll unpark // automatically. We mark the block as parked at the very last minute so we // can make sure everything is ready to be reorged if needed. if (gArgs.GetBoolArg("-parkdeepreorg", true)) { const CBlockIndex *pindexFork = chainActive.FindFork(pindex); if (pindexFork && pindexFork->nHeight + 1 < pindex->nHeight) { LogPrintf("Park block %s as it would cause a deep reorg.\n", pindex->GetBlockHash().ToString()); pindex->nStatus = pindex->nStatus.withParked(); setDirtyBlockIndex.insert(pindex); } } // Header is valid/has work and the merkle tree is good. // Relay now, but if it does not build on our best tip, let the // SendMessages loop relay it. if (!IsInitialBlockDownload() && chainActive.Tip() == pindex->pprev) { GetMainSignals().NewPoWValidBlock(pindex, pblock); } int nHeight = pindex->nHeight; const CChainParams &chainparams = config.GetChainParams(); // Write block to history file try { unsigned int nBlockSize = ::GetSerializeSize(block, SER_DISK, CLIENT_VERSION); CDiskBlockPos blockPos; if (dbp != nullptr) { blockPos = *dbp; } if (!FindBlockPos(state, blockPos, nBlockSize + 8, nHeight, block.GetBlockTime(), dbp != nullptr)) { return error("AcceptBlock(): FindBlockPos failed"); } if (dbp == nullptr) { if (!WriteBlockToDisk(block, blockPos, chainparams.DiskMagic())) { AbortNode(state, "Failed to write block"); } } if (!ReceivedBlockTransactions(block, state, pindex, blockPos)) { return error("AcceptBlock(): ReceivedBlockTransactions failed"); } } catch (const std::runtime_error &e) { return AbortNode(state, std::string("System error: ") + e.what()); } if (fCheckForPruning) { // we just allocated more disk space for block files. FlushStateToDisk(config.GetChainParams(), state, FLUSH_STATE_NONE); } return true; } bool ProcessNewBlock(const Config &config, const std::shared_ptr pblock, bool fForceProcessing, bool *fNewBlock) { { if (fNewBlock) { *fNewBlock = false; } const CChainParams &chainparams = config.GetChainParams(); CValidationState state; // Ensure that CheckBlock() passes before calling AcceptBlock, as // belt-and-suspenders. bool ret = CheckBlock(config, *pblock, state); LOCK(cs_main); if (ret) { // Store to disk ret = AcceptBlock(config, pblock, state, fForceProcessing, nullptr, fNewBlock); } CheckBlockIndex(chainparams.GetConsensus()); if (!ret) { GetMainSignals().BlockChecked(*pblock, state); return error("%s: AcceptBlock FAILED", __func__); } } NotifyHeaderTip(); // Only used to report errors, not invalidity - ignore it CValidationState state; if (!ActivateBestChain(config, state, pblock)) { return error("%s: ActivateBestChain failed", __func__); } return true; } bool TestBlockValidity(const Config &config, CValidationState &state, const CBlock &block, CBlockIndex *pindexPrev, BlockValidationOptions validationOptions) { AssertLockHeld(cs_main); const CChainParams &chainparams = config.GetChainParams(); assert(pindexPrev && pindexPrev == chainActive.Tip()); if (fCheckpointsEnabled && !CheckIndexAgainstCheckpoint(pindexPrev, state, chainparams, block.GetHash())) { return error("%s: CheckIndexAgainstCheckpoint(): %s", __func__, state.GetRejectReason().c_str()); } CCoinsViewCache viewNew(pcoinsTip.get()); CBlockIndex indexDummy(block); indexDummy.pprev = pindexPrev; indexDummy.nHeight = pindexPrev->nHeight + 1; // NOTE: CheckBlockHeader is called by CheckBlock if (!ContextualCheckBlockHeader(config, block, state, pindexPrev, GetAdjustedTime())) { return error("%s: Consensus::ContextualCheckBlockHeader: %s", __func__, FormatStateMessage(state)); } if (!CheckBlock(config, block, state, validationOptions)) { return error("%s: Consensus::CheckBlock: %s", __func__, FormatStateMessage(state)); } if (!ContextualCheckBlock(config, block, state, pindexPrev)) { return error("%s: Consensus::ContextualCheckBlock: %s", __func__, FormatStateMessage(state)); } if (!ConnectBlock(config, block, state, &indexDummy, viewNew, true)) { return false; } assert(state.IsValid()); return true; } /** * BLOCK PRUNING CODE */ /** * Calculate the amount of disk space the block & undo files currently use. */ static uint64_t CalculateCurrentUsage() { uint64_t retval = 0; for (const CBlockFileInfo &file : vinfoBlockFile) { retval += file.nSize + file.nUndoSize; } return retval; } /** * Prune a block file (modify associated database entries) */ void PruneOneBlockFile(const int fileNumber) { for (const std::pair &it : mapBlockIndex) { CBlockIndex *pindex = it.second; if (pindex->nFile == fileNumber) { pindex->nStatus = pindex->nStatus.withData(false).withUndo(false); pindex->nFile = 0; pindex->nDataPos = 0; pindex->nUndoPos = 0; setDirtyBlockIndex.insert(pindex); // Prune from mapBlocksUnlinked -- any block we prune would have // to be downloaded again in order to consider its chain, at which // point it would be considered as a candidate for // mapBlocksUnlinked or setBlockIndexCandidates. std::pair::iterator, std::multimap::iterator> range = mapBlocksUnlinked.equal_range(pindex->pprev); while (range.first != range.second) { std::multimap::iterator _it = range.first; range.first++; if (_it->second == pindex) { mapBlocksUnlinked.erase(_it); } } } } vinfoBlockFile[fileNumber].SetNull(); setDirtyFileInfo.insert(fileNumber); } void UnlinkPrunedFiles(const std::set &setFilesToPrune) { for (const int i : setFilesToPrune) { CDiskBlockPos pos(i, 0); fs::remove(GetBlockPosFilename(pos, "blk")); fs::remove(GetBlockPosFilename(pos, "rev")); LogPrintf("Prune: %s deleted blk/rev (%05u)\n", __func__, i); } } /** * Calculate the block/rev files to delete based on height specified by user * with RPC command pruneblockchain */ static void FindFilesToPruneManual(std::set &setFilesToPrune, int nManualPruneHeight) { assert(fPruneMode && nManualPruneHeight > 0); LOCK2(cs_main, cs_LastBlockFile); if (chainActive.Tip() == nullptr) { return; } // last block to prune is the lesser of (user-specified height, // MIN_BLOCKS_TO_KEEP from the tip) unsigned int nLastBlockWeCanPrune = std::min((unsigned)nManualPruneHeight, chainActive.Tip()->nHeight - MIN_BLOCKS_TO_KEEP); int count = 0; for (int fileNumber = 0; fileNumber < nLastBlockFile; fileNumber++) { if (vinfoBlockFile[fileNumber].nSize == 0 || vinfoBlockFile[fileNumber].nHeightLast > nLastBlockWeCanPrune) { continue; } PruneOneBlockFile(fileNumber); setFilesToPrune.insert(fileNumber); count++; } LogPrintf("Prune (Manual): prune_height=%d removed %d blk/rev pairs\n", nLastBlockWeCanPrune, count); } /* This function is called from the RPC code for pruneblockchain */ void PruneBlockFilesManual(int nManualPruneHeight) { CValidationState state; const CChainParams &chainparams = Params(); FlushStateToDisk(chainparams, state, FLUSH_STATE_NONE, nManualPruneHeight); } /** * Prune block and undo files (blk???.dat and undo???.dat) so that the disk * space used is less than a user-defined target. The user sets the target (in * MB) on the command line or in config file. This will be run on startup and * whenever new space is allocated in a block or undo file, staying below the * target. Changing back to unpruned requires a reindex (which in this case * means the blockchain must be re-downloaded.) * * Pruning functions are called from FlushStateToDisk when the global * fCheckForPruning flag has been set. Block and undo files are deleted in * lock-step (when blk00003.dat is deleted, so is rev00003.dat.). Pruning cannot * take place until the longest chain is at least a certain length (100000 on * mainnet, 1000 on testnet, 1000 on regtest). Pruning will never delete a block * within a defined distance (currently 288) from the active chain's tip. The * block index is updated by unsetting HAVE_DATA and HAVE_UNDO for any blocks * that were stored in the deleted files. A db flag records the fact that at * least some block files have been pruned. * * @param[out] setFilesToPrune The set of file indices that can be unlinked * will be returned */ static void FindFilesToPrune(std::set &setFilesToPrune, uint64_t nPruneAfterHeight) { LOCK2(cs_main, cs_LastBlockFile); if (chainActive.Tip() == nullptr || nPruneTarget == 0) { return; } if (uint64_t(chainActive.Tip()->nHeight) <= nPruneAfterHeight) { return; } unsigned int nLastBlockWeCanPrune = chainActive.Tip()->nHeight - MIN_BLOCKS_TO_KEEP; uint64_t nCurrentUsage = CalculateCurrentUsage(); // We don't check to prune until after we've allocated new space for files, // so we should leave a buffer under our target to account for another // allocation before the next pruning. uint64_t nBuffer = BLOCKFILE_CHUNK_SIZE + UNDOFILE_CHUNK_SIZE; uint64_t nBytesToPrune; int count = 0; if (nCurrentUsage + nBuffer >= nPruneTarget) { for (int fileNumber = 0; fileNumber < nLastBlockFile; fileNumber++) { nBytesToPrune = vinfoBlockFile[fileNumber].nSize + vinfoBlockFile[fileNumber].nUndoSize; if (vinfoBlockFile[fileNumber].nSize == 0) { continue; } // are we below our target? if (nCurrentUsage + nBuffer < nPruneTarget) { break; } // don't prune files that could have a block within // MIN_BLOCKS_TO_KEEP of the main chain's tip but keep scanning if (vinfoBlockFile[fileNumber].nHeightLast > nLastBlockWeCanPrune) { continue; } PruneOneBlockFile(fileNumber); // Queue up the files for removal setFilesToPrune.insert(fileNumber); nCurrentUsage -= nBytesToPrune; count++; } } LogPrint(BCLog::PRUNE, "Prune: target=%dMiB actual=%dMiB diff=%dMiB " "max_prune_height=%d removed %d blk/rev pairs\n", nPruneTarget / 1024 / 1024, nCurrentUsage / 1024 / 1024, ((int64_t)nPruneTarget - (int64_t)nCurrentUsage) / 1024 / 1024, nLastBlockWeCanPrune, count); } bool CheckDiskSpace(uint64_t nAdditionalBytes) { uint64_t nFreeBytesAvailable = fs::space(GetDataDir()).available; // Check for nMinDiskSpace bytes (currently 50MB) if (nFreeBytesAvailable < nMinDiskSpace + nAdditionalBytes) { return AbortNode("Disk space is low!", _("Error: Disk space is low!")); } return true; } static FILE *OpenDiskFile(const CDiskBlockPos &pos, const char *prefix, bool fReadOnly) { if (pos.IsNull()) { return nullptr; } fs::path path = GetBlockPosFilename(pos, prefix); fs::create_directories(path.parent_path()); FILE *file = fsbridge::fopen(path, "rb+"); if (!file && !fReadOnly) { file = fsbridge::fopen(path, "wb+"); } if (!file) { LogPrintf("Unable to open file %s\n", path.string()); return nullptr; } if (pos.nPos) { if (fseek(file, pos.nPos, SEEK_SET)) { LogPrintf("Unable to seek to position %u of %s\n", pos.nPos, path.string()); fclose(file); return nullptr; } } return file; } FILE *OpenBlockFile(const CDiskBlockPos &pos, bool fReadOnly) { return OpenDiskFile(pos, "blk", fReadOnly); } /** Open an undo file (rev?????.dat) */ static FILE *OpenUndoFile(const CDiskBlockPos &pos, bool fReadOnly) { return OpenDiskFile(pos, "rev", fReadOnly); } fs::path GetBlockPosFilename(const CDiskBlockPos &pos, const char *prefix) { return GetDataDir() / "blocks" / strprintf("%s%05u.dat", prefix, pos.nFile); } CBlockIndex *InsertBlockIndex(uint256 hash) { if (hash.IsNull()) { return nullptr; } // Return existing BlockMap::iterator mi = mapBlockIndex.find(hash); if (mi != mapBlockIndex.end()) { return (*mi).second; } // Create new CBlockIndex *pindexNew = new CBlockIndex(); if (!pindexNew) { throw std::runtime_error(std::string(__func__) + ": new CBlockIndex failed"); } mi = mapBlockIndex.insert(std::make_pair(hash, pindexNew)).first; pindexNew->phashBlock = &((*mi).first); return pindexNew; } static bool LoadBlockIndexDB(const Config &config) { if (!pblocktree->LoadBlockIndexGuts(config, InsertBlockIndex)) { return false; } boost::this_thread::interruption_point(); // Calculate nChainWork std::vector> vSortedByHeight; vSortedByHeight.reserve(mapBlockIndex.size()); for (const std::pair &item : mapBlockIndex) { CBlockIndex *pindex = item.second; vSortedByHeight.push_back(std::make_pair(pindex->nHeight, pindex)); } sort(vSortedByHeight.begin(), vSortedByHeight.end()); for (const std::pair &item : vSortedByHeight) { CBlockIndex *pindex = item.second; pindex->nChainWork = (pindex->pprev ? pindex->pprev->nChainWork : 0) + GetBlockProof(*pindex); pindex->nTimeMax = (pindex->pprev ? std::max(pindex->pprev->nTimeMax, pindex->nTime) : pindex->nTime); // We can link the chain of blocks for which we've received transactions // at some point. Pruned nodes may have deleted the block. if (pindex->nTx > 0) { if (pindex->pprev) { if (pindex->pprev->nChainTx) { pindex->nChainTx = pindex->pprev->nChainTx + pindex->nTx; } else { pindex->nChainTx = 0; mapBlocksUnlinked.insert( std::make_pair(pindex->pprev, pindex)); } } else { pindex->nChainTx = pindex->nTx; } } if (pindex->IsValid(BlockValidity::TRANSACTIONS) && (pindex->nChainTx || pindex->pprev == nullptr)) { setBlockIndexCandidates.insert(pindex); } if (pindex->nStatus.isInvalid() && (!pindexBestInvalid || pindex->nChainWork > pindexBestInvalid->nChainWork)) { pindexBestInvalid = pindex; } if (pindex->nStatus.isOnParkedChain() && (!pindexBestParked || pindex->nChainWork > pindexBestParked->nChainWork)) { pindexBestParked = pindex; } if (pindex->pprev) { pindex->BuildSkip(); } if (pindex->IsValid(BlockValidity::TREE) && (pindexBestHeader == nullptr || CBlockIndexWorkComparator()(pindexBestHeader, pindex))) { pindexBestHeader = pindex; } } // Load block file info pblocktree->ReadLastBlockFile(nLastBlockFile); vinfoBlockFile.resize(nLastBlockFile + 1); LogPrintf("%s: last block file = %i\n", __func__, nLastBlockFile); for (int nFile = 0; nFile <= nLastBlockFile; nFile++) { pblocktree->ReadBlockFileInfo(nFile, vinfoBlockFile[nFile]); } LogPrintf("%s: last block file info: %s\n", __func__, vinfoBlockFile[nLastBlockFile].ToString()); for (int nFile = nLastBlockFile + 1; true; nFile++) { CBlockFileInfo info; if (pblocktree->ReadBlockFileInfo(nFile, info)) { vinfoBlockFile.push_back(info); } else { break; } } // Check presence of blk files LogPrintf("Checking all blk files are present...\n"); std::set setBlkDataFiles; for (const std::pair &item : mapBlockIndex) { CBlockIndex *pindex = item.second; if (pindex->nStatus.hasData()) { setBlkDataFiles.insert(pindex->nFile); } } for (const int i : setBlkDataFiles) { CDiskBlockPos pos(i, 0); if (CAutoFile(OpenBlockFile(pos, true), SER_DISK, CLIENT_VERSION) .IsNull()) { return false; } } // Check whether we have ever pruned block & undo files pblocktree->ReadFlag("prunedblockfiles", fHavePruned); if (fHavePruned) { LogPrintf( "LoadBlockIndexDB(): Block files have previously been pruned\n"); } // Check whether we need to continue reindexing bool fReindexing = false; pblocktree->ReadReindexing(fReindexing); - fReindex |= fReindexing; + if (fReindexing) { + fReindex = true; + } // Check whether we have a transaction index pblocktree->ReadFlag("txindex", fTxIndex); LogPrintf("%s: transaction index %s\n", __func__, fTxIndex ? "enabled" : "disabled"); return true; } bool LoadChainTip(const Config &config) { if (chainActive.Tip() && chainActive.Tip()->GetBlockHash() == pcoinsTip->GetBestBlock()) { return true; } if (pcoinsTip->GetBestBlock().IsNull() && mapBlockIndex.size() == 1) { // In case we just added the genesis block, connect it now, so // that we always have a chainActive.Tip() when we return. LogPrintf("%s: Connecting genesis block...\n", __func__); CValidationState state; if (!ActivateBestChain(config, state)) { return false; } } // Load pointer to end of best chain BlockMap::iterator it = mapBlockIndex.find(pcoinsTip->GetBestBlock()); if (it == mapBlockIndex.end()) { return false; } chainActive.SetTip(it->second); PruneBlockIndexCandidates(); LogPrintf( "Loaded best chain: hashBestChain=%s height=%d date=%s progress=%f\n", chainActive.Tip()->GetBlockHash().ToString(), chainActive.Height(), DateTimeStrFormat("%Y-%m-%d %H:%M:%S", chainActive.Tip()->GetBlockTime()), GuessVerificationProgress(config.GetChainParams().TxData(), chainActive.Tip())); return true; } CVerifyDB::CVerifyDB() { uiInterface.ShowProgress(_("Verifying blocks..."), 0); } CVerifyDB::~CVerifyDB() { uiInterface.ShowProgress("", 100); } bool CVerifyDB::VerifyDB(const Config &config, CCoinsView *coinsview, int nCheckLevel, int nCheckDepth) { LOCK(cs_main); if (chainActive.Tip() == nullptr || chainActive.Tip()->pprev == nullptr) { return true; } // Verify blocks in the best chain if (nCheckDepth <= 0) { // suffices until the year 19000 nCheckDepth = 1000000000; } if (nCheckDepth > chainActive.Height()) { nCheckDepth = chainActive.Height(); } nCheckLevel = std::max(0, std::min(4, nCheckLevel)); LogPrintf("Verifying last %i blocks at level %i\n", nCheckDepth, nCheckLevel); CCoinsViewCache coins(coinsview); CBlockIndex *pindexState = chainActive.Tip(); CBlockIndex *pindexFailure = nullptr; int nGoodTransactions = 0; CValidationState state; int reportDone = 0; LogPrintf("[0%%]..."); for (CBlockIndex *pindex = chainActive.Tip(); pindex && pindex->pprev; pindex = pindex->pprev) { boost::this_thread::interruption_point(); int percentageDone = std::max( 1, std::min( 99, (int)(((double)(chainActive.Height() - pindex->nHeight)) / (double)nCheckDepth * (nCheckLevel >= 4 ? 50 : 100)))); if (reportDone < percentageDone / 10) { // report every 10% step LogPrintf("[%d%%]...", percentageDone); reportDone = percentageDone / 10; } uiInterface.ShowProgress(_("Verifying blocks..."), percentageDone); if (pindex->nHeight < chainActive.Height() - nCheckDepth) { break; } if (fPruneMode && !pindex->nStatus.hasData()) { // If pruning, only go back as far as we have data. LogPrintf("VerifyDB(): block verification stopping at height %d " "(pruning, no data)\n", pindex->nHeight); break; } CBlock block; // check level 0: read from disk if (!ReadBlockFromDisk(block, pindex, config)) { return error( "VerifyDB(): *** ReadBlockFromDisk failed at %d, hash=%s", pindex->nHeight, pindex->GetBlockHash().ToString()); } // check level 1: verify block validity if (nCheckLevel >= 1 && !CheckBlock(config, block, state)) { return error("%s: *** found bad block at %d, hash=%s (%s)\n", __func__, pindex->nHeight, pindex->GetBlockHash().ToString(), FormatStateMessage(state)); } // check level 2: verify undo validity if (nCheckLevel >= 2 && pindex) { CBlockUndo undo; CDiskBlockPos pos = pindex->GetUndoPos(); if (!pos.IsNull()) { if (!UndoReadFromDisk(undo, pos, pindex->pprev->GetBlockHash())) { return error( "VerifyDB(): *** found bad undo data at %d, hash=%s\n", pindex->nHeight, pindex->GetBlockHash().ToString()); } } } // check level 3: check for inconsistencies during memory-only // disconnect of tip blocks if (nCheckLevel >= 3 && pindex == pindexState && (coins.DynamicMemoryUsage() + pcoinsTip->DynamicMemoryUsage()) <= nCoinCacheUsage) { assert(coins.GetBestBlock() == pindex->GetBlockHash()); DisconnectResult res = DisconnectBlock(block, pindex, coins); if (res == DISCONNECT_FAILED) { return error("VerifyDB(): *** irrecoverable inconsistency in " "block data at %d, hash=%s", pindex->nHeight, pindex->GetBlockHash().ToString()); } pindexState = pindex->pprev; if (res == DISCONNECT_UNCLEAN) { nGoodTransactions = 0; pindexFailure = pindex; } else { nGoodTransactions += block.vtx.size(); } } if (ShutdownRequested()) { return true; } } if (pindexFailure) { return error("VerifyDB(): *** coin database inconsistencies found " "(last %i blocks, %i good transactions before that)\n", chainActive.Height() - pindexFailure->nHeight + 1, nGoodTransactions); } // check level 4: try reconnecting blocks if (nCheckLevel >= 4) { CBlockIndex *pindex = pindexState; while (pindex != chainActive.Tip()) { boost::this_thread::interruption_point(); uiInterface.ShowProgress( _("Verifying blocks..."), std::max(1, std::min(99, 100 - (int)(((double)(chainActive.Height() - pindex->nHeight)) / (double)nCheckDepth * 50)))); pindex = chainActive.Next(pindex); CBlock block; if (!ReadBlockFromDisk(block, pindex, config)) { return error( "VerifyDB(): *** ReadBlockFromDisk failed at %d, hash=%s", pindex->nHeight, pindex->GetBlockHash().ToString()); } if (!ConnectBlock(config, block, state, pindex, coins)) { return error( "VerifyDB(): *** found unconnectable block at %d, hash=%s", pindex->nHeight, pindex->GetBlockHash().ToString()); } } } LogPrintf("[DONE].\n"); LogPrintf("No coin database inconsistencies in last %i blocks (%i " "transactions)\n", chainActive.Height() - pindexState->nHeight, nGoodTransactions); return true; } /** * Apply the effects of a block on the utxo cache, ignoring that it may already * have been applied. */ static bool RollforwardBlock(const CBlockIndex *pindex, CCoinsViewCache &view, const Config &config) { // TODO: merge with ConnectBlock CBlock block; if (!ReadBlockFromDisk(block, pindex, config)) { return error("ReplayBlock(): ReadBlockFromDisk failed at %d, hash=%s", pindex->nHeight, pindex->GetBlockHash().ToString()); } for (const CTransactionRef &tx : block.vtx) { // Pass check = true as every addition may be an overwrite. AddCoins(view, *tx, pindex->nHeight, true); } for (const CTransactionRef &tx : block.vtx) { if (tx->IsCoinBase()) { continue; } for (const CTxIn &txin : tx->vin) { view.SpendCoin(txin.prevout); } } return true; } bool ReplayBlocks(const Config &config, CCoinsView *view) { LOCK(cs_main); CCoinsViewCache cache(view); std::vector hashHeads = view->GetHeadBlocks(); if (hashHeads.empty()) { // We're already in a consistent state. return true; } if (hashHeads.size() != 2) { return error("ReplayBlocks(): unknown inconsistent state"); } uiInterface.ShowProgress(_("Replaying blocks..."), 0); LogPrintf("Replaying blocks\n"); // Old tip during the interrupted flush. const CBlockIndex *pindexOld = nullptr; // New tip during the interrupted flush. const CBlockIndex *pindexNew; // Latest block common to both the old and the new tip. const CBlockIndex *pindexFork = nullptr; if (mapBlockIndex.count(hashHeads[0]) == 0) { return error( "ReplayBlocks(): reorganization to unknown block requested"); } pindexNew = mapBlockIndex[hashHeads[0]]; if (!hashHeads[1].IsNull()) { // The old tip is allowed to be 0, indicating it's the first flush. if (mapBlockIndex.count(hashHeads[1]) == 0) { return error( "ReplayBlocks(): reorganization from unknown block requested"); } pindexOld = mapBlockIndex[hashHeads[1]]; pindexFork = LastCommonAncestor(pindexOld, pindexNew); assert(pindexFork != nullptr); } // Rollback along the old branch. while (pindexOld != pindexFork) { if (pindexOld->nHeight > 0) { // Never disconnect the genesis block. CBlock block; if (!ReadBlockFromDisk(block, pindexOld, config)) { return error("RollbackBlock(): ReadBlockFromDisk() failed at " "%d, hash=%s", pindexOld->nHeight, pindexOld->GetBlockHash().ToString()); } LogPrintf("Rolling back %s (%i)\n", pindexOld->GetBlockHash().ToString(), pindexOld->nHeight); DisconnectResult res = DisconnectBlock(block, pindexOld, cache); if (res == DISCONNECT_FAILED) { return error( "RollbackBlock(): DisconnectBlock failed at %d, hash=%s", pindexOld->nHeight, pindexOld->GetBlockHash().ToString()); } // If DISCONNECT_UNCLEAN is returned, it means a non-existing UTXO // was deleted, or an existing UTXO was overwritten. It corresponds // to cases where the block-to-be-disconnect never had all its // operations applied to the UTXO set. However, as both writing a // UTXO and deleting a UTXO are idempotent operations, the result is // still a version of the UTXO set with the effects of that block // undone. } pindexOld = pindexOld->pprev; } // Roll forward from the forking point to the new tip. int nForkHeight = pindexFork ? pindexFork->nHeight : 0; for (int nHeight = nForkHeight + 1; nHeight <= pindexNew->nHeight; ++nHeight) { const CBlockIndex *pindex = pindexNew->GetAncestor(nHeight); LogPrintf("Rolling forward %s (%i)\n", pindex->GetBlockHash().ToString(), nHeight); if (!RollforwardBlock(pindex, cache, config)) { return false; } } cache.SetBestBlock(pindexNew->GetBlockHash()); cache.Flush(); uiInterface.ShowProgress("", 100); return true; } bool RewindBlockIndex(const Config &config) { LOCK(cs_main); const CChainParams ¶ms = config.GetChainParams(); int nHeight = chainActive.Height() + 1; // nHeight is now the height of the first insufficiently-validated block, or // tipheight + 1 CValidationState state; CBlockIndex *pindex = chainActive.Tip(); while (chainActive.Height() >= nHeight) { if (fPruneMode && !chainActive.Tip()->nStatus.hasData()) { // If pruning, don't try rewinding past the HAVE_DATA point; since // older blocks can't be served anyway, there's no need to walk // further, and trying to DisconnectTip() will fail (and require a // needless reindex/redownload of the blockchain). break; } if (!DisconnectTip(config, state, nullptr)) { return error( "RewindBlockIndex: unable to disconnect block at height %i", pindex->nHeight); } // Occasionally flush state to disk. if (!FlushStateToDisk(params, state, FLUSH_STATE_PERIODIC)) { return false; } } // Reduce validity flag and have-data flags. // We do this after actual disconnecting, otherwise we'll end up writing the // lack of data to disk before writing the chainstate, resulting in a // failure to continue if interrupted. for (const std::pair &p : mapBlockIndex) { CBlockIndex *pindexIter = p.second; if (pindexIter->IsValid(BlockValidity::TRANSACTIONS) && pindexIter->nChainTx) { setBlockIndexCandidates.insert(pindexIter); } } if (chainActive.Tip() != nullptr) { // We can't prune block index candidates based on our tip if we have // no tip due to chainActive being empty! PruneBlockIndexCandidates(); CheckBlockIndex(params.GetConsensus()); // FlushStateToDisk can possibly read chainActive. Be conservative // and skip it here, we're about to -reindex-chainstate anyway, so // it'll get called a bunch real soon. if (!FlushStateToDisk(params, state, FLUSH_STATE_ALWAYS)) { return false; } } return true; } // May NOT be used after any connections are up as much of the peer-processing // logic assumes a consistent block index state void UnloadBlockIndex() { LOCK(cs_main); setBlockIndexCandidates.clear(); chainActive.SetTip(nullptr); pindexFinalized = nullptr; pindexBestInvalid = nullptr; pindexBestParked = nullptr; pindexBestHeader = nullptr; g_mempool.clear(); mapBlocksUnlinked.clear(); vinfoBlockFile.clear(); nLastBlockFile = 0; nBlockSequenceId = 1; setDirtyBlockIndex.clear(); setDirtyFileInfo.clear(); versionbitscache.Clear(); for (BlockMap::value_type &entry : mapBlockIndex) { delete entry.second; } mapBlockIndex.clear(); fHavePruned = false; } bool LoadBlockIndex(const Config &config) { // Load block index from databases bool needs_init = fReindex; if (!fReindex) { bool ret = LoadBlockIndexDB(config); if (!ret) { return false; } needs_init = mapBlockIndex.empty(); } if (needs_init) { // Everything here is for *new* reindex/DBs. Thus, though // LoadBlockIndexDB may have set fReindex if we shut down // mid-reindex previously, we don't check fReindex and // instead only check it prior to LoadBlockIndexDB to set // needs_init. LogPrintf("Initializing databases...\n"); // Use the provided setting for -txindex in the new database fTxIndex = gArgs.GetBoolArg("-txindex", DEFAULT_TXINDEX); pblocktree->WriteFlag("txindex", fTxIndex); } return true; } bool LoadGenesisBlock(const CChainParams &chainparams) { LOCK(cs_main); // Check whether we're already initialized by checking for genesis in // mapBlockIndex. Note that we can't use chainActive here, since it is // set based on the coins db, not the block index db, which is the only // thing loaded at this point. if (mapBlockIndex.count(chainparams.GenesisBlock().GetHash())) { return true; } // Only add the genesis block if not reindexing (in which case we reuse the // one already on disk) try { CBlock &block = const_cast(chainparams.GenesisBlock()); // Start new block file unsigned int nBlockSize = ::GetSerializeSize(block, SER_DISK, CLIENT_VERSION); CDiskBlockPos blockPos; CValidationState state; if (!FindBlockPos(state, blockPos, nBlockSize + 8, 0, block.GetBlockTime())) { return error("%s: FindBlockPos failed", __func__); } if (!WriteBlockToDisk(block, blockPos, chainparams.DiskMagic())) { return error("%s: writing genesis block to disk failed", __func__); } CBlockIndex *pindex = AddToBlockIndex(block); if (!ReceivedBlockTransactions(block, state, pindex, blockPos)) { return error("%s: genesis block not accepted", __func__); } } catch (const std::runtime_error &e) { return error("%s: failed to write genesis block: %s", __func__, e.what()); } return true; } bool LoadExternalBlockFile(const Config &config, FILE *fileIn, CDiskBlockPos *dbp) { // Map of disk positions for blocks with unknown parent (only used for // reindex) static std::multimap mapBlocksUnknownParent; int64_t nStart = GetTimeMillis(); const CChainParams &chainparams = config.GetChainParams(); int nLoaded = 0; try { // This takes over fileIn and calls fclose() on it in the CBufferedFile // destructor. Make sure we have at least 2*MAX_TX_SIZE space in there // so any transaction can fit in the buffer. CBufferedFile blkdat(fileIn, 2 * MAX_TX_SIZE, MAX_TX_SIZE + 8, SER_DISK, CLIENT_VERSION); uint64_t nRewind = blkdat.GetPos(); while (!blkdat.eof()) { boost::this_thread::interruption_point(); blkdat.SetPos(nRewind); // Start one byte further next time, in case of failure. nRewind++; // Remove former limit. blkdat.SetLimit(); unsigned int nSize = 0; try { // Locate a header. uint8_t buf[CMessageHeader::MESSAGE_START_SIZE]; blkdat.FindByte(chainparams.DiskMagic()[0]); nRewind = blkdat.GetPos() + 1; blkdat >> FLATDATA(buf); if (memcmp(buf, std::begin(chainparams.DiskMagic()), CMessageHeader::MESSAGE_START_SIZE)) { continue; } // Read size. blkdat >> nSize; if (nSize < 80) { continue; } } catch (const std::exception &) { // No valid block header found; don't complain. break; } try { // read block uint64_t nBlockPos = blkdat.GetPos(); if (dbp) { dbp->nPos = nBlockPos; } blkdat.SetLimit(nBlockPos + nSize); blkdat.SetPos(nBlockPos); std::shared_ptr pblock = std::make_shared(); CBlock &block = *pblock; blkdat >> block; nRewind = blkdat.GetPos(); // detect out of order blocks, and store them for later uint256 hash = block.GetHash(); if (hash != chainparams.GetConsensus().hashGenesisBlock && mapBlockIndex.find(block.hashPrevBlock) == mapBlockIndex.end()) { LogPrint(BCLog::REINDEX, "%s: Out of order block %s, parent %s not known\n", __func__, hash.ToString(), block.hashPrevBlock.ToString()); if (dbp) { mapBlocksUnknownParent.insert( std::make_pair(block.hashPrevBlock, *dbp)); } continue; } // process in case the block isn't known yet if (mapBlockIndex.count(hash) == 0 || !mapBlockIndex[hash]->nStatus.hasData()) { LOCK(cs_main); CValidationState state; if (AcceptBlock(config, pblock, state, true, dbp, nullptr)) { nLoaded++; } if (state.IsError()) { break; } } else if (hash != chainparams.GetConsensus().hashGenesisBlock && mapBlockIndex[hash]->nHeight % 1000 == 0) { LogPrint( BCLog::REINDEX, "Block Import: already had block %s at height %d\n", hash.ToString(), mapBlockIndex[hash]->nHeight); } // Activate the genesis block so normal node progress can // continue if (hash == chainparams.GetConsensus().hashGenesisBlock) { CValidationState state; if (!ActivateBestChain(config, state)) { break; } } NotifyHeaderTip(); // Recursively process earlier encountered successors of this // block std::deque queue; queue.push_back(hash); while (!queue.empty()) { uint256 head = queue.front(); queue.pop_front(); std::pair::iterator, std::multimap::iterator> range = mapBlocksUnknownParent.equal_range(head); while (range.first != range.second) { std::multimap::iterator it = range.first; std::shared_ptr pblockrecursive = std::make_shared(); if (ReadBlockFromDisk(*pblockrecursive, it->second, config)) { LogPrint( BCLog::REINDEX, "%s: Processing out of order child %s of %s\n", __func__, pblockrecursive->GetHash().ToString(), head.ToString()); LOCK(cs_main); CValidationState dummy; if (AcceptBlock(config, pblockrecursive, dummy, true, &it->second, nullptr)) { nLoaded++; queue.push_back(pblockrecursive->GetHash()); } } range.first++; mapBlocksUnknownParent.erase(it); NotifyHeaderTip(); } } } catch (const std::exception &e) { LogPrintf("%s: Deserialize or I/O error - %s\n", __func__, e.what()); } } } catch (const std::runtime_error &e) { AbortNode(std::string("System error: ") + e.what()); } if (nLoaded > 0) { LogPrintf("Loaded %i blocks from external file in %dms\n", nLoaded, GetTimeMillis() - nStart); } return nLoaded > 0; } static void CheckBlockIndex(const Consensus::Params &consensusParams) { if (!fCheckBlockIndex) { return; } LOCK(cs_main); // During a reindex, we read the genesis block and call CheckBlockIndex // before ActivateBestChain, so we have the genesis block in mapBlockIndex // but no active chain. (A few of the tests when iterating the block tree // require that chainActive has been initialized.) if (chainActive.Height() < 0) { assert(mapBlockIndex.size() <= 1); return; } // Build forward-pointing map of the entire block tree. std::multimap forward; for (const std::pair &it : mapBlockIndex) { forward.emplace(it.second->pprev, it.second); } assert(forward.size() == mapBlockIndex.size()); std::pair::iterator, std::multimap::iterator> rangeGenesis = forward.equal_range(nullptr); CBlockIndex *pindex = rangeGenesis.first->second; rangeGenesis.first++; // There is only one index entry with parent nullptr. assert(rangeGenesis.first == rangeGenesis.second); // Iterate over the entire block tree, using depth-first search. // Along the way, remember whether there are blocks on the path from genesis // block being explored which are the first to have certain properties. size_t nNodes = 0; int nHeight = 0; // Oldest ancestor of pindex which is invalid. CBlockIndex *pindexFirstInvalid = nullptr; // Oldest ancestor of pindex which is parked. CBlockIndex *pindexFirstParked = nullptr; // Oldest ancestor of pindex which does not have data available. CBlockIndex *pindexFirstMissing = nullptr; // Oldest ancestor of pindex for which nTx == 0. CBlockIndex *pindexFirstNeverProcessed = nullptr; // Oldest ancestor of pindex which does not have BLOCK_VALID_TREE // (regardless of being valid or not). CBlockIndex *pindexFirstNotTreeValid = nullptr; // Oldest ancestor of pindex which does not have BLOCK_VALID_TRANSACTIONS // (regardless of being valid or not). CBlockIndex *pindexFirstNotTransactionsValid = nullptr; // Oldest ancestor of pindex which does not have BLOCK_VALID_CHAIN // (regardless of being valid or not). CBlockIndex *pindexFirstNotChainValid = nullptr; // Oldest ancestor of pindex which does not have BLOCK_VALID_SCRIPTS // (regardless of being valid or not). CBlockIndex *pindexFirstNotScriptsValid = nullptr; while (pindex != nullptr) { nNodes++; if (pindexFirstInvalid == nullptr && pindex->nStatus.hasFailed()) { pindexFirstInvalid = pindex; } if (pindexFirstParked == nullptr && pindex->nStatus.isParked()) { pindexFirstParked = pindex; } if (pindexFirstMissing == nullptr && !pindex->nStatus.hasData()) { pindexFirstMissing = pindex; } if (pindexFirstNeverProcessed == nullptr && pindex->nTx == 0) { pindexFirstNeverProcessed = pindex; } if (pindex->pprev != nullptr && pindexFirstNotTreeValid == nullptr && pindex->nStatus.getValidity() < BlockValidity::TREE) { pindexFirstNotTreeValid = pindex; } if (pindex->pprev != nullptr && pindexFirstNotTransactionsValid == nullptr && pindex->nStatus.getValidity() < BlockValidity::TRANSACTIONS) { pindexFirstNotTransactionsValid = pindex; } if (pindex->pprev != nullptr && pindexFirstNotChainValid == nullptr && pindex->nStatus.getValidity() < BlockValidity::CHAIN) { pindexFirstNotChainValid = pindex; } if (pindex->pprev != nullptr && pindexFirstNotScriptsValid == nullptr && pindex->nStatus.getValidity() < BlockValidity::SCRIPTS) { pindexFirstNotScriptsValid = pindex; } // Begin: actual consistency checks. if (pindex->pprev == nullptr) { // Genesis block checks. // Genesis block's hash must match. assert(pindex->GetBlockHash() == consensusParams.hashGenesisBlock); // The current active chain's genesis block must be this block. assert(pindex == chainActive.Genesis()); } if (pindex->nChainTx == 0) { // nSequenceId can't be set positive for blocks that aren't linked // (negative is used for preciousblock) assert(pindex->nSequenceId <= 0); } // VALID_TRANSACTIONS is equivalent to nTx > 0 for all nodes (whether or // not pruning has occurred). HAVE_DATA is only equivalent to nTx > 0 // (or VALID_TRANSACTIONS) if no pruning has occurred. if (!fHavePruned) { // If we've never pruned, then HAVE_DATA should be equivalent to nTx // > 0 assert(pindex->nStatus.hasData() == (pindex->nTx > 0)); assert(pindexFirstMissing == pindexFirstNeverProcessed); } else if (pindex->nStatus.hasData()) { // If we have pruned, then we can only say that HAVE_DATA implies // nTx > 0 assert(pindex->nTx > 0); } if (pindex->nStatus.hasUndo()) { assert(pindex->nStatus.hasData()); } // This is pruning-independent. assert((pindex->nStatus.getValidity() >= BlockValidity::TRANSACTIONS) == (pindex->nTx > 0)); // All parents having had data (at some point) is equivalent to all // parents being VALID_TRANSACTIONS, which is equivalent to nChainTx // being set. // nChainTx != 0 is used to signal that all parent blocks have been // processed (but may have been pruned). assert((pindexFirstNeverProcessed != nullptr) == (pindex->nChainTx == 0)); assert((pindexFirstNotTransactionsValid != nullptr) == (pindex->nChainTx == 0)); // nHeight must be consistent. assert(pindex->nHeight == nHeight); // For every block except the genesis block, the chainwork must be // larger than the parent's. assert(pindex->pprev == nullptr || pindex->nChainWork >= pindex->pprev->nChainWork); // The pskip pointer must point back for all but the first 2 blocks. assert(nHeight < 2 || (pindex->pskip && (pindex->pskip->nHeight < nHeight))); // All mapBlockIndex entries must at least be TREE valid assert(pindexFirstNotTreeValid == nullptr); if (pindex->nStatus.getValidity() >= BlockValidity::TREE) { // TREE valid implies all parents are TREE valid assert(pindexFirstNotTreeValid == nullptr); } if (pindex->nStatus.getValidity() >= BlockValidity::CHAIN) { // CHAIN valid implies all parents are CHAIN valid assert(pindexFirstNotChainValid == nullptr); } if (pindex->nStatus.getValidity() >= BlockValidity::SCRIPTS) { // SCRIPTS valid implies all parents are SCRIPTS valid assert(pindexFirstNotScriptsValid == nullptr); } if (pindexFirstInvalid == nullptr) { // Checks for not-invalid blocks. // The failed mask cannot be set for blocks without invalid parents. assert(!pindex->nStatus.isInvalid()); } if (pindexFirstParked == nullptr) { // Checks for not-invalid blocks. // The failed mask cannot be set for blocks without invalid parents. assert(!pindex->nStatus.isOnParkedChain()); } if (!CBlockIndexWorkComparator()(pindex, chainActive.Tip()) && pindexFirstNeverProcessed == nullptr) { if (pindexFirstInvalid == nullptr) { // If this block sorts at least as good as the current tip and // is valid and we have all data for its parents, it must be in // setBlockIndexCandidates or be parked. if (pindexFirstMissing == nullptr) { assert(pindex->nStatus.isOnParkedChain() || setBlockIndexCandidates.count(pindex)); } // chainActive.Tip() must also be there even if some data has // been pruned. if (pindex == chainActive.Tip()) { assert(setBlockIndexCandidates.count(pindex)); } // If some parent is missing, then it could be that this block // was in setBlockIndexCandidates but had to be removed because // of the missing data. In this case it must be in // mapBlocksUnlinked -- see test below. } } else { // If this block sorts worse than the current tip or some ancestor's // block has never been seen, it cannot be in // setBlockIndexCandidates. assert(setBlockIndexCandidates.count(pindex) == 0); } // Check whether this block is in mapBlocksUnlinked. std::pair::iterator, std::multimap::iterator> rangeUnlinked = mapBlocksUnlinked.equal_range(pindex->pprev); bool foundInUnlinked = false; while (rangeUnlinked.first != rangeUnlinked.second) { assert(rangeUnlinked.first->first == pindex->pprev); if (rangeUnlinked.first->second == pindex) { foundInUnlinked = true; break; } rangeUnlinked.first++; } if (pindex->pprev && pindex->nStatus.hasData() && pindexFirstNeverProcessed != nullptr && pindexFirstInvalid == nullptr) { // If this block has block data available, some parent was never // received, and has no invalid parents, it must be in // mapBlocksUnlinked. assert(foundInUnlinked); } if (!pindex->nStatus.hasData()) { // Can't be in mapBlocksUnlinked if we don't HAVE_DATA assert(!foundInUnlinked); } if (pindexFirstMissing == nullptr) { // We aren't missing data for any parent -- cannot be in // mapBlocksUnlinked. assert(!foundInUnlinked); } if (pindex->pprev && pindex->nStatus.hasData() && pindexFirstNeverProcessed == nullptr && pindexFirstMissing != nullptr) { // We HAVE_DATA for this block, have received data for all parents // at some point, but we're currently missing data for some parent. // We must have pruned. assert(fHavePruned); // This block may have entered mapBlocksUnlinked if: // - it has a descendant that at some point had more work than the // tip, and // - we tried switching to that descendant but were missing // data for some intermediate block between chainActive and the // tip. // So if this block is itself better than chainActive.Tip() and it // wasn't in // setBlockIndexCandidates, then it must be in mapBlocksUnlinked. if (!CBlockIndexWorkComparator()(pindex, chainActive.Tip()) && setBlockIndexCandidates.count(pindex) == 0) { if (pindexFirstInvalid == nullptr) { assert(foundInUnlinked); } } } // Perhaps too slow // assert(pindex->GetBlockHash() == pindex->GetBlockHeader().GetHash()); // End: actual consistency checks. // Try descending into the first subnode. std::pair::iterator, std::multimap::iterator> range = forward.equal_range(pindex); if (range.first != range.second) { // A subnode was found. pindex = range.first->second; nHeight++; continue; } // This is a leaf node. Move upwards until we reach a node of which we // have not yet visited the last child. while (pindex) { // We are going to either move to a parent or a sibling of pindex. // If pindex was the first with a certain property, unset the // corresponding variable. if (pindex == pindexFirstInvalid) { pindexFirstInvalid = nullptr; } if (pindex == pindexFirstParked) { pindexFirstParked = nullptr; } if (pindex == pindexFirstMissing) { pindexFirstMissing = nullptr; } if (pindex == pindexFirstNeverProcessed) { pindexFirstNeverProcessed = nullptr; } if (pindex == pindexFirstNotTreeValid) { pindexFirstNotTreeValid = nullptr; } if (pindex == pindexFirstNotTransactionsValid) { pindexFirstNotTransactionsValid = nullptr; } if (pindex == pindexFirstNotChainValid) { pindexFirstNotChainValid = nullptr; } if (pindex == pindexFirstNotScriptsValid) { pindexFirstNotScriptsValid = nullptr; } // Find our parent. CBlockIndex *pindexPar = pindex->pprev; // Find which child we just visited. std::pair::iterator, std::multimap::iterator> rangePar = forward.equal_range(pindexPar); while (rangePar.first->second != pindex) { // Our parent must have at least the node we're coming from as // child. assert(rangePar.first != rangePar.second); rangePar.first++; } // Proceed to the next one. rangePar.first++; if (rangePar.first != rangePar.second) { // Move to the sibling. pindex = rangePar.first->second; break; } else { // Move up further. pindex = pindexPar; nHeight--; continue; } } } // Check that we actually traversed the entire map. assert(nNodes == forward.size()); } std::string CBlockFileInfo::ToString() const { return strprintf( "CBlockFileInfo(blocks=%u, size=%u, heights=%u...%u, time=%s...%s)", nBlocks, nSize, nHeightFirst, nHeightLast, DateTimeStrFormat("%Y-%m-%d", nTimeFirst), DateTimeStrFormat("%Y-%m-%d", nTimeLast)); } CBlockFileInfo *GetBlockFileInfo(size_t n) { return &vinfoBlockFile.at(n); } static const uint64_t MEMPOOL_DUMP_VERSION = 1; bool LoadMempool(const Config &config) { int64_t nExpiryTimeout = gArgs.GetArg("-mempoolexpiry", DEFAULT_MEMPOOL_EXPIRY) * 60 * 60; FILE *filestr = fsbridge::fopen(GetDataDir() / "mempool.dat", "rb"); CAutoFile file(filestr, SER_DISK, CLIENT_VERSION); if (file.IsNull()) { LogPrintf( "Failed to open mempool file from disk. Continuing anyway.\n"); return false; } int64_t count = 0; int64_t skipped = 0; int64_t failed = 0; int64_t nNow = GetTime(); try { uint64_t version; file >> version; if (version != MEMPOOL_DUMP_VERSION) { return false; } uint64_t num; file >> num; double prioritydummy = 0; while (num--) { CTransactionRef tx; int64_t nTime; int64_t nFeeDelta; file >> tx; file >> nTime; file >> nFeeDelta; Amount amountdelta = nFeeDelta * SATOSHI; if (amountdelta != Amount::zero()) { g_mempool.PrioritiseTransaction(tx->GetId(), tx->GetId().ToString(), prioritydummy, amountdelta); } CValidationState state; if (nTime + nExpiryTimeout > nNow) { LOCK(cs_main); AcceptToMemoryPoolWithTime(config, g_mempool, state, tx, true, nullptr, nTime); if (state.IsValid()) { ++count; } else { ++failed; } } else { ++skipped; } if (ShutdownRequested()) { return false; } } std::map mapDeltas; file >> mapDeltas; for (const auto &i : mapDeltas) { g_mempool.PrioritiseTransaction(i.first, i.first.ToString(), prioritydummy, i.second); } } catch (const std::exception &e) { LogPrintf("Failed to deserialize mempool data on disk: %s. Continuing " "anyway.\n", e.what()); return false; } LogPrintf("Imported mempool transactions from disk: %i successes, %i " "failed, %i expired\n", count, failed, skipped); return true; } void DumpMempool(void) { int64_t start = GetTimeMicros(); std::map mapDeltas; std::vector vinfo; { LOCK(g_mempool.cs); for (const auto &i : g_mempool.mapDeltas) { mapDeltas[i.first] = i.second.second; } vinfo = g_mempool.infoAll(); } int64_t mid = GetTimeMicros(); try { FILE *filestr = fsbridge::fopen(GetDataDir() / "mempool.dat.new", "wb"); if (!filestr) { return; } CAutoFile file(filestr, SER_DISK, CLIENT_VERSION); uint64_t version = MEMPOOL_DUMP_VERSION; file << version; file << uint64_t(vinfo.size()); for (const auto &i : vinfo) { file << *(i.tx); file << int64_t(i.nTime); file << i.nFeeDelta; mapDeltas.erase(i.tx->GetId()); } file << mapDeltas; FileCommit(file.Get()); file.fclose(); RenameOver(GetDataDir() / "mempool.dat.new", GetDataDir() / "mempool.dat"); int64_t last = GetTimeMicros(); LogPrintf("Dumped mempool: %gs to copy, %gs to dump\n", (mid - start) * 0.000001, (last - mid) * 0.000001); } catch (const std::exception &e) { LogPrintf("Failed to dump mempool: %s. Continuing anyway.\n", e.what()); } } //! Guess how far we are in the verification process at the given block index double GuessVerificationProgress(const ChainTxData &data, CBlockIndex *pindex) { if (pindex == nullptr) { return 0.0; } int64_t nNow = time(nullptr); double fTxTotal; if (pindex->nChainTx <= data.nTxCount) { fTxTotal = data.nTxCount + (nNow - data.nTime) * data.dTxRate; } else { fTxTotal = pindex->nChainTx + (nNow - pindex->GetBlockTime()) * data.dTxRate; } return pindex->nChainTx / fTxTotal; } class CMainCleanup { public: CMainCleanup() {} ~CMainCleanup() { // block headers for (const std::pair &it : mapBlockIndex) { delete it.second; } mapBlockIndex.clear(); } } instance_of_cmaincleanup; diff --git a/src/validation.h b/src/validation.h index 043213d365..02390ef227 100644 --- a/src/validation.h +++ b/src/validation.h @@ -1,718 +1,718 @@ // Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2016 The Bitcoin Core developers // Copyright (c) 2017 The Bitcoin developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_VALIDATION_H #define BITCOIN_VALIDATION_H #if defined(HAVE_CONFIG_H) #include "config/bitcoin-config.h" #endif #include "amount.h" #include "blockfileinfo.h" #include "coins.h" #include "consensus/consensus.h" #include "diskblockpos.h" #include "fs.h" #include "protocol.h" // For CMessageHeader::MessageMagic #include "script/script_error.h" #include "sync.h" #include "versionbits.h" #include #include #include #include #include #include #include #include #include class CBlockIndex; class CBlockTreeDB; class CBloomFilter; class CChainParams; class CCoinsViewDB; class CConnman; class CInv; class Config; class CScriptCheck; class CTxMemPool; class CTxUndo; class CValidationInterface; class CValidationState; struct CDiskBlockPos; struct ChainTxData; struct PrecomputedTransactionData; struct LockPoints; #define MIN_TRANSACTION_SIZE \ (::GetSerializeSize(CTransaction(), SER_NETWORK, PROTOCOL_VERSION)) /** Default for DEFAULT_WHITELISTRELAY. */ static const bool DEFAULT_WHITELISTRELAY = true; /** Default for DEFAULT_WHITELISTFORCERELAY. */ static const bool DEFAULT_WHITELISTFORCERELAY = true; /** Default for -minrelaytxfee, minimum relay fee for transactions */ static const Amount DEFAULT_MIN_RELAY_TX_FEE_PER_KB(1000 * SATOSHI); /** Default for -excessutxocharge for transactions transactions */ static const Amount DEFAULT_UTXO_FEE = Amount::zero(); //! -maxtxfee default static const Amount DEFAULT_TRANSACTION_MAXFEE(COIN / 10); //! Discourage users to set fees higher than this amount (in satoshis) per kB static const Amount HIGH_TX_FEE_PER_KB(COIN / 100); /** * -maxtxfee will warn if called with a higher fee than this amount (in satoshis */ static const Amount HIGH_MAX_TX_FEE(100 * HIGH_TX_FEE_PER_KB); /** Default for -limitancestorcount, max number of in-mempool ancestors */ static const unsigned int DEFAULT_ANCESTOR_LIMIT = 25; /** Default for -limitancestorsize, maximum kilobytes of tx + all in-mempool * ancestors */ static const unsigned int DEFAULT_ANCESTOR_SIZE_LIMIT = 101; /** Default for -limitdescendantcount, max number of in-mempool descendants */ static const unsigned int DEFAULT_DESCENDANT_LIMIT = 25; /** Default for -limitdescendantsize, maximum kilobytes of in-mempool * descendants */ static const unsigned int DEFAULT_DESCENDANT_SIZE_LIMIT = 101; /** Default for -mempoolexpiry, expiration time for mempool transactions in * hours */ static const unsigned int DEFAULT_MEMPOOL_EXPIRY = 336; /** The maximum size of a blk?????.dat file (since 0.8) */ static const unsigned int MAX_BLOCKFILE_SIZE = 0x8000000; // 128 MiB /** The pre-allocation chunk size for blk?????.dat files (since 0.8) */ static const unsigned int BLOCKFILE_CHUNK_SIZE = 0x1000000; // 16 MiB /** The pre-allocation chunk size for rev?????.dat files (since 0.8) */ static const unsigned int UNDOFILE_CHUNK_SIZE = 0x100000; // 1 MiB /** Maximum number of script-checking threads allowed */ static const int MAX_SCRIPTCHECK_THREADS = 16; /** -par default (number of script-checking threads, 0 = auto) */ static const int DEFAULT_SCRIPTCHECK_THREADS = 0; /** * Number of blocks that can be requested at any given time from a single peer. */ static const int MAX_BLOCKS_IN_TRANSIT_PER_PEER = 16; /** * Timeout in seconds during which a peer must stall block download progress * before being disconnected. */ static const unsigned int BLOCK_STALLING_TIMEOUT = 2; /** * Number of headers sent in one getheaders result. We rely on the assumption * that if a peer sends less than this number, we reached its tip. Changing this * value is a protocol upgrade. */ static const unsigned int MAX_HEADERS_RESULTS = 2000; /** * Maximum depth of blocks we're willing to serve as compact blocks to peers * when requested. For older blocks, a regular BLOCK response will be sent. */ static const int MAX_CMPCTBLOCK_DEPTH = 5; /** * Maximum depth of blocks we're willing to respond to GETBLOCKTXN requests for. */ static const int MAX_BLOCKTXN_DEPTH = 10; /** * Size of the "block download window": how far ahead of our current height do * we fetch ? Larger windows tolerate larger download speed differences between * peer, but increase the potential degree of disordering of blocks on disk * (which make reindexing and in the future perhaps pruning harder). We'll * probably want to make this a per-peer adaptive value at some point. */ static const unsigned int BLOCK_DOWNLOAD_WINDOW = 1024; /** Time to wait (in seconds) between writing blocks/block index to disk. */ static const unsigned int DATABASE_WRITE_INTERVAL = 60 * 60; /** Time to wait (in seconds) between flushing chainstate to disk. */ static const unsigned int DATABASE_FLUSH_INTERVAL = 24 * 60 * 60; /** Maximum length of reject messages. */ static const unsigned int MAX_REJECT_MESSAGE_LENGTH = 111; /** Average delay between local address broadcasts in seconds. */ static const unsigned int AVG_LOCAL_ADDRESS_BROADCAST_INTERVAL = 24 * 24 * 60; /** Average delay between peer address broadcasts in seconds. */ static const unsigned int AVG_ADDRESS_BROADCAST_INTERVAL = 30; /** * Average delay between trickled inventory transmissions in seconds. * Blocks and whitelisted receivers bypass this, outbound peers get half this * delay. */ static const unsigned int INVENTORY_BROADCAST_INTERVAL = 5; /** * Maximum number of inventory items to send per transmission. * Limits the impact of low-fee transaction floods. */ static const unsigned int INVENTORY_BROADCAST_MAX_PER_MB = 7 * INVENTORY_BROADCAST_INTERVAL; /** Average delay between feefilter broadcasts in seconds. */ static const unsigned int AVG_FEEFILTER_BROADCAST_INTERVAL = 10 * 60; /** Maximum feefilter broadcast delay after significant change. */ static const unsigned int MAX_FEEFILTER_CHANGE_DELAY = 5 * 60; /** Block download timeout base, expressed in millionths of the block interval * (i.e. 10 min) */ static const int64_t BLOCK_DOWNLOAD_TIMEOUT_BASE = 1000000; /** * Additional block download timeout per parallel downloading peer (i.e. 5 min) */ static const int64_t BLOCK_DOWNLOAD_TIMEOUT_PER_PEER = 500000; static const unsigned int DEFAULT_LIMITFREERELAY = 0; static const bool DEFAULT_RELAYPRIORITY = true; static const int64_t DEFAULT_MAX_TIP_AGE = 24 * 60 * 60; /** * Maximum age of our tip in seconds for us to be considered current for fee * estimation. */ static const int64_t MAX_FEE_ESTIMATION_TIP_AGE = 3 * 60 * 60; /** Default for -permitbaremultisig */ static const bool DEFAULT_PERMIT_BAREMULTISIG = true; static const bool DEFAULT_CHECKPOINTS_ENABLED = true; static const bool DEFAULT_TXINDEX = false; static const unsigned int DEFAULT_BANSCORE_THRESHOLD = 100; /** Default for -persistmempool */ static const bool DEFAULT_PERSIST_MEMPOOL = true; /** Default for using fee filter */ static const bool DEFAULT_FEEFILTER = true; /** * Maximum number of headers to announce when relaying blocks with headers * message. */ static const unsigned int MAX_BLOCKS_TO_ANNOUNCE = 8; /** Maximum number of unconnecting headers announcements before DoS score */ static const int MAX_UNCONNECTING_HEADERS = 10; static const bool DEFAULT_PEERBLOOMFILTERS = true; /** Default for -stopatheight */ static const int DEFAULT_STOPATHEIGHT = 0; /** Default for -maxreorgdepth */ static const int DEFAULT_MAX_REORG_DEPTH = 10; /** * Default for -finalizationdelay * This is the minimum time between a block header reception and the block * finalization. * This value should be >> block propagation and validation time */ static const int64_t DEFAULT_MIN_FINALIZATION_DELAY = 2 * 60 * 60; extern CScript COINBASE_FLAGS; extern CCriticalSection cs_main; extern CTxMemPool g_mempool; extern uint64_t nLastBlockTx; extern uint64_t nLastBlockSize; extern const std::string strMessageMagic; extern CWaitableCriticalSection g_best_block_mutex; extern CConditionVariable g_best_block_cv; extern uint256 g_best_block; extern std::atomic_bool fImporting; -extern bool fReindex; +extern std::atomic_bool fReindex; extern int nScriptCheckThreads; extern bool fTxIndex; extern bool fIsBareMultisigStd; extern bool fRequireStandard; extern bool fCheckBlockIndex; extern bool fCheckpointsEnabled; extern size_t nCoinCacheUsage; /** * Absolute maximum transaction fee (in satoshis) used by wallet and mempool * (rejects high fee in sendrawtransaction) */ extern Amount maxTxFee; /** * If the tip is older than this (in seconds), the node is considered to be in * initial block download. */ extern int64_t nMaxTipAge; /** * Block hash whose ancestors we will assume to have valid scripts without * checking them. */ extern uint256 hashAssumeValid; /** * Minimum work we will assume exists on some valid chain. */ extern arith_uint256 nMinimumChainWork; /** * Best header we've seen so far (used for getheaders queries' starting points). */ extern CBlockIndex *pindexBestHeader; /** Minimum disk space required - used in CheckDiskSpace() */ static const uint64_t nMinDiskSpace = 52428800; /** Pruning-related variables and constants */ /** True if any block files have ever been pruned. */ extern bool fHavePruned; /** True if we're running in -prune mode. */ extern bool fPruneMode; /** Number of MiB of block files that we're trying to stay below. */ extern uint64_t nPruneTarget; /** Block files containing a block-height within MIN_BLOCKS_TO_KEEP of * chainActive.Tip() will not be pruned. */ static const unsigned int MIN_BLOCKS_TO_KEEP = 288; static const signed int DEFAULT_CHECKBLOCKS = 6; static const unsigned int DEFAULT_CHECKLEVEL = 3; /** * Require that user allocate at least 550MB for block & undo files (blk???.dat * and rev???.dat) * At 1MB per block, 288 blocks = 288MB. * Add 15% for Undo data = 331MB * Add 20% for Orphan block rate = 397MB * We want the low water mark after pruning to be at least 397 MB and since we * prune in full block file chunks, we need the high water mark which triggers * the prune to be one 128MB block file + added 15% undo data = 147MB greater * for a total of 545MB. Setting the target to > than 550MB will make it likely * we can respect the target. */ static const uint64_t MIN_DISK_SPACE_FOR_BLOCK_FILES = 550 * 1024 * 1024; class BlockValidationOptions { private: bool checkPoW : 1; bool checkMerkleRoot : 1; public: // Do full validation by default BlockValidationOptions() : checkPoW(true), checkMerkleRoot(true) {} BlockValidationOptions(bool checkPoWIn, bool checkMerkleRootIn) : checkPoW(checkPoWIn), checkMerkleRoot(checkMerkleRootIn) {} bool shouldValidatePoW() const { return checkPoW; } bool shouldValidateMerkleRoot() const { return checkMerkleRoot; } }; /** * Process an incoming block. This only returns after the best known valid * block is made active. Note that it does not, however, guarantee that the * specific block passed to it has been checked for validity! * * If you want to *possibly* get feedback on whether pblock is valid, you must * install a CValidationInterface (see validationinterface.h) - this will have * its BlockChecked method called whenever *any* block completes validation. * * Note that we guarantee that either the proof-of-work is valid on pblock, or * (and possibly also) BlockChecked will have been called. * * Call without cs_main held. * * @param[in] config The global config. * @param[in] pblock The block we want to process. * @param[in] fForceProcessing Process this block even if unrequested; used * for non-network block sources and whitelisted peers. * @param[out] fNewBlock A boolean which is set to indicate if the block was * first received via this call. * @return True if the block is accepted as a valid block. */ bool ProcessNewBlock(const Config &config, const std::shared_ptr pblock, bool fForceProcessing, bool *fNewBlock); /** * Process incoming block headers. * * Call without cs_main held. * * @param[in] config The config. * @param[in] block The block headers themselves. * @param[out] state This may be set to an Error state if any error * occurred processing them. * @param[out] ppindex If set, the pointer will be set to point to the * last new block index object for the given headers. * @param[out] first_invalid First header that fails validation, if one exists. * @return True if block headers were accepted as valid. */ bool ProcessNewBlockHeaders(const Config &config, const std::vector &block, CValidationState &state, const CBlockIndex **ppindex = nullptr, CBlockHeader *first_invalid = nullptr); /** * Check whether enough disk space is available for an incoming block. */ bool CheckDiskSpace(uint64_t nAdditionalBytes = 0); /** * Open a block file (blk?????.dat). */ FILE *OpenBlockFile(const CDiskBlockPos &pos, bool fReadOnly = false); /** * Translation to a filesystem path. */ fs::path GetBlockPosFilename(const CDiskBlockPos &pos, const char *prefix); /** * Import blocks from an external file. */ bool LoadExternalBlockFile(const Config &config, FILE *fileIn, CDiskBlockPos *dbp = nullptr); /** * Ensures we have a genesis block in the block tree, possibly writing one to * disk. */ bool LoadGenesisBlock(const CChainParams &chainparams); /** * Load the block tree and coins database from disk, initializing state if we're * running with -reindex. */ bool LoadBlockIndex(const Config &config); /** * Update the chain tip based on database information. */ bool LoadChainTip(const Config &config); /** * Unload database information. */ void UnloadBlockIndex(); /** * Run an instance of the script checking thread. */ void ThreadScriptCheck(); /** * Check whether we are doing an initial block download (synchronizing from disk * or network) */ bool IsInitialBlockDownload(); /** * Retrieve a transaction (from memory pool, or from disk, if possible). */ bool GetTransaction(const Config &config, const TxId &txid, CTransactionRef &tx, uint256 &hashBlock, bool fAllowSlow = false); /** * Find the best known block, and make it the active tip of the block chain. * If it fails, the tip is not updated. * * pblock is either nullptr or a pointer to a block that is already loaded * in memory (to avoid loading it from disk again). * * Returns true if a new chain tip was set. */ bool ActivateBestChain( const Config &config, CValidationState &state, std::shared_ptr pblock = std::shared_ptr()); Amount GetBlockSubsidy(int nHeight, const Consensus::Params &consensusParams); /** * Guess verification progress (as a fraction between 0.0=genesis and * 1.0=current tip). */ double GuessVerificationProgress(const ChainTxData &data, CBlockIndex *pindex); /** * Mark one block file as pruned. */ void PruneOneBlockFile(const int fileNumber); /** * Actually unlink the specified files */ void UnlinkPrunedFiles(const std::set &setFilesToPrune); /** Create a new block index entry for a given block hash */ CBlockIndex *InsertBlockIndex(uint256 hash); /** Flush all state, indexes and buffers to disk. */ void FlushStateToDisk(); /** Prune block files and flush state to disk. */ void PruneAndFlush(); /** Prune block files up to a given height */ void PruneBlockFilesManual(int nPruneUpToHeight); /** * (try to) add transaction to memory pool */ bool AcceptToMemoryPool(const Config &config, CTxMemPool &pool, CValidationState &state, const CTransactionRef &tx, bool fLimitFree, bool *pfMissingInputs, bool fOverrideMempoolLimit = false, const Amount nAbsurdFee = Amount::zero()); /** Convert CValidationState to a human-readable message for logging */ std::string FormatStateMessage(const CValidationState &state); /** * Check whether all inputs of this transaction are valid (no double spends, * scripts & sigs, amounts). This does not modify the UTXO set. * * If pvChecks is not nullptr, script checks are pushed onto it instead of being * performed inline. Any script checks which are not necessary (eg due to script * execution cache hits) are, obviously, not pushed onto pvChecks/run. * * Setting sigCacheStore/scriptCacheStore to false will remove elements from the * corresponding cache which are matched. This is useful for checking blocks * where we will likely never need the cache entry again. */ bool CheckInputs(const CTransaction &tx, CValidationState &state, const CCoinsViewCache &view, bool fScriptChecks, const uint32_t flags, bool sigCacheStore, bool scriptCacheStore, const PrecomputedTransactionData &txdata, std::vector *pvChecks = nullptr); /** * Mark all the coins corresponding to a given transaction inputs as spent. */ void SpendCoins(CCoinsViewCache &view, const CTransaction &tx, CTxUndo &txundo, int nHeight); /** * Apply the effects of this transaction on the UTXO set represented by view. */ void UpdateCoins(CCoinsViewCache &view, const CTransaction &tx, int nHeight); void UpdateCoins(CCoinsViewCache &view, const CTransaction &tx, CTxUndo &txundo, int nHeight); /** * Test whether the LockPoints height and time are still valid on the current * chain. */ bool TestLockPointValidity(const LockPoints *lp); /** * Check if transaction will be BIP 68 final in the next block to be created. * * Simulates calling SequenceLocks() with data from the tip of the current * active chain. Optionally stores in LockPoints the resulting height and time * calculated and the hash of the block needed for calculation or skips the * calculation and uses the LockPoints passed in for evaluation. The LockPoints * should not be considered valid if CheckSequenceLocks returns false. * * See consensus/consensus.h for flag definitions. */ bool CheckSequenceLocks(const CTransaction &tx, int flags, LockPoints *lp = nullptr, bool useExistingLockPoints = false); /** * Closure representing one script verification. * Note that this stores references to the spending transaction. */ class CScriptCheck { private: CScript scriptPubKey; Amount amount; const CTransaction *ptxTo; unsigned int nIn; uint32_t nFlags; bool cacheStore; ScriptError error; PrecomputedTransactionData txdata; public: CScriptCheck() : amount(), ptxTo(nullptr), nIn(0), nFlags(0), cacheStore(false), error(SCRIPT_ERR_UNKNOWN_ERROR), txdata() {} CScriptCheck(const CScript &scriptPubKeyIn, const Amount amountIn, const CTransaction &txToIn, unsigned int nInIn, uint32_t nFlagsIn, bool cacheIn, const PrecomputedTransactionData &txdataIn) : scriptPubKey(scriptPubKeyIn), amount(amountIn), ptxTo(&txToIn), nIn(nInIn), nFlags(nFlagsIn), cacheStore(cacheIn), error(SCRIPT_ERR_UNKNOWN_ERROR), txdata(txdataIn) {} bool operator()(); void swap(CScriptCheck &check) { scriptPubKey.swap(check.scriptPubKey); std::swap(ptxTo, check.ptxTo); std::swap(amount, check.amount); std::swap(nIn, check.nIn); std::swap(nFlags, check.nFlags); std::swap(cacheStore, check.cacheStore); std::swap(error, check.error); std::swap(txdata, check.txdata); } ScriptError GetScriptError() const { return error; } }; /** Functions for disk access for blocks */ bool ReadBlockFromDisk(CBlock &block, const CDiskBlockPos &pos, const Config &config); bool ReadBlockFromDisk(CBlock &block, const CBlockIndex *pindex, const Config &config); /** Functions for validating blocks and updating the block tree */ /** * Context-independent validity checks. * * Returns true if the provided block is valid (has valid header, * transactions are valid, block is a valid size, etc.) */ bool CheckBlock( const Config &Config, const CBlock &block, CValidationState &state, BlockValidationOptions validationOptions = BlockValidationOptions()); /** * This is a variant of ContextualCheckTransaction which computes the contextual * check for a transaction based on the chain tip. * * See consensus/consensus.h for flag definitions. */ bool ContextualCheckTransactionForCurrentBlock(const Config &config, const CTransaction &tx, CValidationState &state, int flags = -1); /** * Check a block is completely valid from start to finish (only works on top of * our current best block, with cs_main held) */ bool TestBlockValidity( const Config &config, CValidationState &state, const CBlock &block, CBlockIndex *pindexPrev, BlockValidationOptions validationOptions = BlockValidationOptions()); /** * When there are blocks in the active chain with missing data, rewind the * chainstate and remove them from the block index. */ bool RewindBlockIndex(const Config &config); /** * RAII wrapper for VerifyDB: Verify consistency of the block and coin * databases. */ class CVerifyDB { public: CVerifyDB(); ~CVerifyDB(); bool VerifyDB(const Config &config, CCoinsView *coinsview, int nCheckLevel, int nCheckDepth); }; /** Replay blocks that aren't fully applied to the database. */ bool ReplayBlocks(const Config &config, CCoinsView *view); /** Find the last common block between the parameter chain and a locator. */ CBlockIndex *FindForkInGlobalIndex(const CChain &chain, const CBlockLocator &locator); /** * Treats a block as if it were received before others with the same work, * making it the active chain tip if applicable. Successive calls to * PreciousBlock() will override the effects of earlier calls. The effects of * calls to PreciousBlock() are not retained across restarts. * * Returns true if the provided block index successfully became the chain tip. */ bool PreciousBlock(const Config &config, CValidationState &state, CBlockIndex *pindex); /** * Mark a block as finalized. * A finalized block can not be reorged in any way. */ bool FinalizeBlockAndInvalidate(const Config &config, CValidationState &state, CBlockIndex *pindex); /** Mark a block as invalid. */ bool InvalidateBlock(const Config &config, CValidationState &state, CBlockIndex *pindex); /** Park a block. */ bool ParkBlock(const Config &config, CValidationState &state, CBlockIndex *pindex); /** Remove invalidity status from a block and its descendants. */ bool ResetBlockFailureFlags(CBlockIndex *pindex); /** Remove parked status from a block and its descendants. */ bool UnparkBlockAndChildren(CBlockIndex *pindex); /** Remove parked status from a block. */ bool UnparkBlock(CBlockIndex *pindex); /** * Retrieve the topmost finalized block. */ const CBlockIndex *GetFinalizedBlock(); /** * Checks if a block is finalized. */ bool IsBlockFinalized(const CBlockIndex *pindex); /** The currently-connected chain of blocks (protected by cs_main). */ extern CChain chainActive; /** * Global variable that points to the coins database (protected by cs_main) */ extern std::unique_ptr pcoinsdbview; /** * Global variable that points to the active CCoinsView (protected by cs_main) */ extern std::unique_ptr pcoinsTip; /** * Global variable that points to the active block tree (protected by cs_main) */ extern std::unique_ptr pblocktree; /** * Return the spend height, which is one more than the inputs.GetBestBlock(). * While checking, GetBestBlock() refers to the parent block. (protected by * cs_main) * This is also true for mempool checks. */ int GetSpendHeight(const CCoinsViewCache &inputs); extern VersionBitsCache versionbitscache; /** * Determine what nVersion a new block should use. */ int32_t ComputeBlockVersion(const CBlockIndex *pindexPrev, const Consensus::Params ¶ms); /** * Reject codes greater or equal to this can be returned by AcceptToMemPool or * AcceptBlock for blocks/transactions, to signal internal conditions. They * cannot and should not be sent over the P2P network. */ static const unsigned int REJECT_INTERNAL = 0x100; /** Too high fee. Can not be triggered by P2P transactions */ static const unsigned int REJECT_HIGHFEE = 0x100; /** Transaction is already known (either in mempool or blockchain) */ static const unsigned int REJECT_ALREADY_KNOWN = 0x101; /** Transaction conflicts with a transaction already known */ static const unsigned int REJECT_CONFLICT = 0x102; /** Block conflicts with a transaction already known */ static const unsigned int REJECT_AGAINST_FINALIZED = 0x103; /** Get block file info entry for one block file */ CBlockFileInfo *GetBlockFileInfo(size_t n); /** Dump the mempool to disk. */ void DumpMempool(); /** Load the mempool from disk. */ bool LoadMempool(const Config &config); #endif // BITCOIN_VALIDATION_H diff --git a/src/wallet/crypter.h b/src/wallet/crypter.h index 2707cbf8c2..066ba42b42 100644 --- a/src/wallet/crypter.h +++ b/src/wallet/crypter.h @@ -1,187 +1,189 @@ // Copyright (c) 2009-2016 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_WALLET_CRYPTER_H #define BITCOIN_WALLET_CRYPTER_H #include "keystore.h" #include "serialize.h" #include "support/allocators/secure.h" +#include + class uint256; const unsigned int WALLET_CRYPTO_KEY_SIZE = 32; const unsigned int WALLET_CRYPTO_SALT_SIZE = 8; const unsigned int WALLET_CRYPTO_IV_SIZE = 16; /** * Private key encryption is done based on a CMasterKey, which holds a salt and * random encryption key. * * CMasterKeys are encrypted using AES-256-CBC using a key derived using * derivation method nDerivationMethod (0 == EVP_sha512()) and derivation * iterations nDeriveIterations. vchOtherDerivationParameters is provided for * alternative algorithms which may require more parameters (such as scrypt). * * Wallet Private Keys are then encrypted using AES-256-CBC with the * double-sha256 of the public key as the IV, and the master key's key as the * encryption key (see keystore.[ch]). */ /** Master key for wallet encryption */ class CMasterKey { public: std::vector vchCryptedKey; std::vector vchSalt; //! 0 = EVP_sha512() //! 1 = scrypt() unsigned int nDerivationMethod; unsigned int nDeriveIterations; //! Use this for more parameters to key derivation, such as the various //! parameters to scrypt std::vector vchOtherDerivationParameters; ADD_SERIALIZE_METHODS; template inline void SerializationOp(Stream &s, Operation ser_action) { READWRITE(vchCryptedKey); READWRITE(vchSalt); READWRITE(nDerivationMethod); READWRITE(nDeriveIterations); READWRITE(vchOtherDerivationParameters); } CMasterKey() { // 25000 rounds is just under 0.1 seconds on a 1.86 GHz Pentium M // ie slightly lower than the lowest hardware we need bother supporting nDeriveIterations = 25000; nDerivationMethod = 0; vchOtherDerivationParameters = std::vector(0); } }; typedef std::vector> CKeyingMaterial; namespace wallet_crypto { class TestCrypter; } /** Encryption/decryption context with key information */ class CCrypter { // for test access to chKey/chIV friend class wallet_crypto::TestCrypter; private: std::vector> vchKey; std::vector> vchIV; bool fKeySet; int BytesToKeySHA512AES(const std::vector &chSalt, const SecureString &strKeyData, int count, uint8_t *key, uint8_t *iv) const; public: bool SetKeyFromPassphrase(const SecureString &strKeyData, const std::vector &chSalt, const unsigned int nRounds, const unsigned int nDerivationMethod); bool Encrypt(const CKeyingMaterial &vchPlaintext, std::vector &vchCiphertext) const; bool Decrypt(const std::vector &vchCiphertext, CKeyingMaterial &vchPlaintext) const; bool SetKey(const CKeyingMaterial &chNewKey, const std::vector &chNewIV); void CleanKey() { memory_cleanse(vchKey.data(), vchKey.size()); memory_cleanse(vchIV.data(), vchIV.size()); fKeySet = false; } CCrypter() { fKeySet = false; vchKey.resize(WALLET_CRYPTO_KEY_SIZE); vchIV.resize(WALLET_CRYPTO_IV_SIZE); } ~CCrypter() { CleanKey(); } }; /** * Keystore which keeps the private keys encrypted. * It derives from the basic key store, which is used if no encryption is * active. */ class CCryptoKeyStore : public CBasicKeyStore { private: CKeyingMaterial vMasterKey; //! if fUseCrypto is true, mapKeys must be empty //! if fUseCrypto is false, vMasterKey must be empty - bool fUseCrypto; + std::atomic fUseCrypto; //! keeps track of whether Unlock has run a thorough check before bool fDecryptionThoroughlyChecked; protected: bool SetCrypted(); //! will encrypt previously unencrypted keys bool EncryptKeys(CKeyingMaterial &vMasterKeyIn); bool Unlock(const CKeyingMaterial &vMasterKeyIn); CryptedKeyMap mapCryptedKeys; public: CCryptoKeyStore() : fUseCrypto(false), fDecryptionThoroughlyChecked(false) {} bool IsCrypted() const { return fUseCrypto; } bool IsLocked() const { if (!IsCrypted()) return false; bool result; { LOCK(cs_KeyStore); result = vMasterKey.empty(); } return result; } bool Lock(); virtual bool AddCryptedKey(const CPubKey &vchPubKey, const std::vector &vchCryptedSecret); bool AddKeyPubKey(const CKey &key, const CPubKey &pubkey) override; bool HaveKey(const CKeyID &address) const override { LOCK(cs_KeyStore); if (!IsCrypted()) { return CBasicKeyStore::HaveKey(address); } return mapCryptedKeys.count(address) > 0; } bool GetKey(const CKeyID &address, CKey &keyOut) const override; bool GetPubKey(const CKeyID &address, CPubKey &vchPubKeyOut) const override; std::set GetKeys() const override { LOCK(cs_KeyStore); if (!IsCrypted()) { return CBasicKeyStore::GetKeys(); } std::set set_address; for (const auto &mi : mapCryptedKeys) { set_address.insert(mi.first); } return set_address; } /** * Wallet status (encrypted, locked) changed. * Note: Called without locks held. */ boost::signals2::signal NotifyStatusChanged; }; #endif // BITCOIN_WALLET_CRYPTER_H