Esempio n. 1
0
        protected override void UpdateCoinView(ContextInformation context, Transaction tx)
        {
            UnspentOutputSet view = context.Set;

            if (tx.IsCoinStake)
            {
                context.Stake.TotalCoinStakeValueIn = view.GetValueIn(tx);
            }

            base.UpdateCoinView(context, tx);
        }
        /// <inheritdoc />
        protected override void UpdateCoinView(RuleContext context, Transaction transaction)
        {
            this.logger.LogTrace("()");

            UnspentOutputSet view = context.Set;

            if (transaction.IsCoinStake)
            {
                context.Stake.TotalCoinStakeValueIn = view.GetValueIn(transaction);
            }

            base.UpdateCoinView(context, transaction);

            this.logger.LogTrace("(-)");
        }
Esempio n. 3
0
        /// <inheritdoc />
        public virtual void ExecuteBlock(RuleContext context, TaskScheduler taskScheduler = null)
        {
            this.logger.LogTrace("()");

            Block            block = context.BlockValidationContext.Block;
            ChainedBlock     index = context.BlockValidationContext.ChainedBlock;
            DeploymentFlags  flags = context.Flags;
            UnspentOutputSet view  = context.Set;

            this.PerformanceCounter.AddProcessedBlocks(1);
            taskScheduler = taskScheduler ?? TaskScheduler.Default;

            long  sigOpsCost  = 0;
            Money fees        = Money.Zero;
            var   checkInputs = new List <Task <bool> >();

            for (int txIndex = 0; txIndex < block.Transactions.Count; txIndex++)
            {
                this.PerformanceCounter.AddProcessedTransactions(1);
                Transaction tx = block.Transactions[txIndex];
                if (!context.SkipValidation)
                {
                    if (!tx.IsCoinBase && (!context.IsPoS || (context.IsPoS && !tx.IsCoinStake)))
                    {
                        int[] prevheights;

                        if (!view.HaveInputs(tx))
                        {
                            this.logger.LogTrace("(-)[BAD_TX_NO_INPUT]");
                            ConsensusErrors.BadTransactionMissingInput.Throw();
                        }

                        prevheights = new int[tx.Inputs.Count];
                        // Check that transaction is BIP68 final.
                        // BIP68 lock checks (as opposed to nLockTime checks) must
                        // be in ConnectBlock because they require the UTXO set.
                        for (int j = 0; j < tx.Inputs.Count; j++)
                        {
                            prevheights[j] = (int)view.AccessCoins(tx.Inputs[j].PrevOut.Hash).Height;
                        }

                        if (!tx.CheckSequenceLocks(prevheights, index, flags.LockTimeFlags))
                        {
                            this.logger.LogTrace("(-)[BAD_TX_NON_FINAL]");
                            ConsensusErrors.BadTransactionNonFinal.Throw();
                        }
                    }

                    // GetTransactionSignatureOperationCost counts 3 types of sigops:
                    // * legacy (always),
                    // * p2sh (when P2SH enabled in flags and excludes coinbase),
                    // * witness (when witness enabled in flags and excludes coinbase).
                    sigOpsCost += this.GetTransactionSignatureOperationCost(tx, view, flags);
                    if (sigOpsCost > this.ConsensusOptions.MaxBlockSigopsCost)
                    {
                        ConsensusErrors.BadBlockSigOps.Throw();
                    }

                    // TODO: Simplify this condition.
                    if (!tx.IsCoinBase && (!context.IsPoS || (context.IsPoS && !tx.IsCoinStake)))
                    {
                        this.CheckInputs(tx, view, index.Height);
                        fees += view.GetValueIn(tx) - tx.TotalOut;
                        var txData = new PrecomputedTransactionData(tx);
                        for (int inputIndex = 0; inputIndex < tx.Inputs.Count; inputIndex++)
                        {
                            this.PerformanceCounter.AddProcessedInputs(1);
                            TxIn  input          = tx.Inputs[inputIndex];
                            int   inputIndexCopy = inputIndex;
                            TxOut txout          = view.GetOutputFor(input);
                            var   checkInput     = new Task <bool>(() =>
                            {
                                var checker      = new TransactionChecker(tx, inputIndexCopy, txout.Value, txData);
                                var ctx          = new ScriptEvaluationContext();
                                ctx.ScriptVerify = flags.ScriptFlags;
                                return(ctx.VerifyScript(input.ScriptSig, txout.ScriptPubKey, checker));
                            });
                            checkInput.Start(taskScheduler);
                            checkInputs.Add(checkInput);
                        }
                    }
                }

                this.UpdateCoinView(context, tx);
            }

            if (!context.SkipValidation)
            {
                this.CheckBlockReward(context, fees, index.Height, block);

                bool passed = checkInputs.All(c => c.GetAwaiter().GetResult());
                if (!passed)
                {
                    this.logger.LogTrace("(-)[BAD_TX_SCRIPT]");
                    ConsensusErrors.BadTransactionScriptError.Throw();
                }
            }
            else
            {
                this.logger.LogTrace("BIP68, SigOp cost, and block reward validation skipped for block at height {0}.", index.Height);
            }

            this.logger.LogTrace("(-)");
        }
Esempio n. 4
0
        public virtual void ExecuteBlock(ContextInformation context, TaskScheduler taskScheduler)
        {
            Block            block = context.BlockResult.Block;
            ChainedBlock     index = context.BlockResult.ChainedBlock;
            ConsensusFlags   flags = context.Flags;
            UnspentOutputSet view  = context.Set;

            this.PerformanceCounter.AddProcessedBlocks(1);
            taskScheduler = taskScheduler ?? TaskScheduler.Default;
            if (flags.EnforceBIP30)
            {
                foreach (var tx in block.Transactions)
                {
                    var coins = view.AccessCoins(tx.GetHash());
                    if (coins != null && !coins.IsPrunable)
                    {
                        ConsensusErrors.BadTransactionBIP30.Throw();
                    }
                }
            }
            long  nSigOpsCost = 0;
            Money nFees       = Money.Zero;
            List <Task <bool> > checkInputs = new List <Task <bool> >();

            for (int i = 0; i < block.Transactions.Count; i++)
            {
                this.PerformanceCounter.AddProcessedTransactions(1);
                var tx = block.Transactions[i];
                if (!tx.IsCoinBase && (!context.IsPoS || (context.IsPoS && !tx.IsCoinStake)))
                {
                    int[] prevheights;

                    if (!view.HaveInputs(tx))
                    {
                        ConsensusErrors.BadTransactionMissingInput.Throw();
                    }

                    prevheights = new int[tx.Inputs.Count];
                    // Check that transaction is BIP68 final
                    // BIP68 lock checks (as opposed to nLockTime checks) must
                    // be in ConnectBlock because they require the UTXO set
                    for (var j = 0; j < tx.Inputs.Count; j++)
                    {
                        prevheights[j] = (int)view.AccessCoins(tx.Inputs[j].PrevOut.Hash).Height;
                    }

                    if (!tx.CheckSequenceLocks(prevheights, index, flags.LockTimeFlags))
                    {
                        ConsensusErrors.BadTransactionNonFinal.Throw();
                    }
                }
                // GetTransactionSigOpCost counts 3 types of sigops:
                // * legacy (always)
                // * p2sh (when P2SH enabled in flags and excludes coinbase)
                // * witness (when witness enabled in flags and excludes coinbase)
                nSigOpsCost += this.GetTransactionSigOpCost(tx, view, flags);
                if (nSigOpsCost > this.consensusOptions.MAX_BLOCK_SIGOPS_COST)
                {
                    ConsensusErrors.BadBlockSigOps.Throw();
                }

                if (!tx.IsCoinBase && (!context.IsPoS || (context.IsPoS && !tx.IsCoinStake)))
                {
                    this.CheckInputs(tx, view, index.Height);
                    nFees += view.GetValueIn(tx) - tx.TotalOut;
                    int ii      = i;
                    var localTx = tx;
                    PrecomputedTransactionData txData = new PrecomputedTransactionData(tx);
                    for (int iInput = 0; iInput < tx.Inputs.Count; iInput++)
                    {
                        this.PerformanceCounter.AddProcessedInputs(1);
                        var input      = tx.Inputs[iInput];
                        int iiIntput   = iInput;
                        var txout      = view.GetOutputFor(input);
                        var checkInput = new Task <bool>(() =>
                        {
                            if (this.UseConsensusLib)
                            {
                                Script.BitcoinConsensusError error;
                                return(Script.VerifyScriptConsensus(txout.ScriptPubKey, tx, (uint)iiIntput, flags.ScriptFlags, out error));
                            }
                            else
                            {
                                var checker      = new TransactionChecker(tx, iiIntput, txout.Value, txData);
                                var ctx          = new ScriptEvaluationContext();
                                ctx.ScriptVerify = flags.ScriptFlags;
                                return(ctx.VerifyScript(input.ScriptSig, txout.ScriptPubKey, checker));
                            }
                        });
                        checkInput.Start(taskScheduler);
                        checkInputs.Add(checkInput);
                    }
                }

                this.UpdateCoinView(context, tx);
            }

            this.CheckBlockReward(context, nFees, index, block);

            var passed = checkInputs.All(c => c.GetAwaiter().GetResult());

            if (!passed)
            {
                ConsensusErrors.BadTransactionScriptError.Throw();
            }
        }