// Copyright 2017 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . // callTracer is a full blown transaction tracer that extracts and reports all // the internal calls made by a transaction, along with any useful information. { // callstack is the current recursive call stack of the EVM execution. callstack: [{}], // descended tracks whether we've just descended from an outer transaction into // an inner call. descended: false, // step is invoked for every opcode that the VM executes. step: function(log, db) { // Capture any errors immediately var error = log.getError(); if (error !== undefined) { this.fault(log, db); return; } // We only care about system opcodes, faster if we pre-check once var syscall = (log.op.toNumber() & 0xf0) == 0xf0; if (syscall) { var op = log.op.toString(); } // If a new contract is being created, add to the call stack if (syscall && (op == 'CREATE' || op == "CREATE2")) { var inOff = log.stack.peek(1).valueOf(); var inEnd = inOff + log.stack.peek(2).valueOf(); // Assemble the internal call report and store for completion var call = { type: op, from: toHex(log.contract.getAddress()), input: toHex(log.memory.slice(inOff, inEnd)), gasIn: log.getGas(), gasCost: log.getCost(), value: '0x' + log.stack.peek(0).toString(16) }; this.callstack.push(call); this.descended = true return; } // If a contract is being self destructed, gather that as a subcall too if (syscall && op == 'SELFDESTRUCT') { var left = this.callstack.length; if (this.callstack[left-1].calls === undefined) { this.callstack[left-1].calls = []; } this.callstack[left-1].calls.push({type: op}); return } // If a new method invocation is being done, add to the call stack if (syscall && (op == 'CALL' || op == 'CALLCODE' || op == 'DELEGATECALL' || op == 'STATICCALL')) { // Skip any pre-compile invocations, those are just fancy opcodes var to = toAddress(log.stack.peek(1).toString(16)); if (isPrecompiled(to)) { return } var off = (op == 'DELEGATECALL' || op == 'STATICCALL' ? 0 : 1); var inOff = log.stack.peek(2 + off).valueOf(); var inEnd = inOff + log.stack.peek(3 + off).valueOf(); // Assemble the internal call report and store for completion var call = { type: op, from: toHex(log.contract.getAddress()), to: toHex(to), input: toHex(log.memory.slice(inOff, inEnd)), gasIn: log.getGas(), gasCost: log.getCost(), outOff: log.stack.peek(4 + off).valueOf(), outLen: log.stack.peek(5 + off).valueOf() }; if (op != 'DELEGATECALL' && op != 'STATICCALL') { call.value = '0x' + log.stack.peek(2).toString(16); } this.callstack.push(call); this.descended = true return; } // If we've just descended into an inner call, retrieve it's true allowance. We // need to extract if from within the call as there may be funky gas dynamics // with regard to requested and actually given gas (2300 stipend, 63/64 rule). if (this.descended) { if (log.getDepth() >= this.callstack.length) { this.callstack[this.callstack.length - 1].gas = log.getGas(); } else { // TODO(karalabe): The call was made to a plain account. We currently don't // have access to the true gas amount inside the call and so any amount will // mostly be wrong since it depends on a lot of input args. Skip gas for now. } this.descended = false; } // If an existing call is returning, pop off the call stack if (syscall && op == 'REVERT') { this.callstack[this.callstack.length - 1].error = "execution reverted"; return; } if (log.getDepth() == this.callstack.length - 1) { // Pop off the last call and get the execution results var call = this.callstack.pop(); if (call.type == 'CREATE' || call.type == "CREATE2") { // If the call was a CREATE, retrieve the contract address and output code call.gasUsed = '0x' + bigInt(call.gasIn - call.gasCost - log.getGas()).toString(16); delete call.gasIn; delete call.gasCost; var ret = log.stack.peek(0); if (!ret.equals(0)) { call.to = toHex(toAddress(ret.toString(16))); call.output = toHex(db.getCode(toAddress(ret.toString(16)))); } else if (call.error === undefined) { call.error = "internal failure"; // TODO(karalabe): surface these faults somehow } } else { // If the call was a contract call, retrieve the gas usage and output if (call.gas !== undefined) { call.gasUsed = '0x' + bigInt(call.gasIn - call.gasCost + call.gas - log.getGas()).toString(16); var ret = log.stack.peek(0); if (!ret.equals(0)) { call.output = toHex(log.memory.slice(call.outOff, call.outOff + call.outLen)); } else if (call.error === undefined) { call.error = "internal failure"; // TODO(karalabe): surface these faults somehow } } delete call.gasIn; delete call.gasCost; delete call.outOff; delete call.outLen; } if (call.gas !== undefined) { call.gas = '0x' + bigInt(call.gas).toString(16); } // Inject the call into the previous one var left = this.callstack.length; if (this.callstack[left-1].calls === undefined) { this.callstack[left-1].calls = []; } this.callstack[left-1].calls.push(call); } }, // fault is invoked when the actual execution of an opcode fails. fault: function(log, db) { // If the topmost call already reverted, don't handle the additional fault again if (this.callstack[this.callstack.length - 1].error !== undefined) { return; } // Pop off the just failed call var call = this.callstack.pop(); call.error = log.getError(); // Consume all available gas and clean any leftovers if (call.gas !== undefined) { call.gas = '0x' + bigInt(call.gas).toString(16); call.gasUsed = call.gas } delete call.gasIn; delete call.gasCost; delete call.outOff; delete call.outLen; // Flatten the failed call into its parent var left = this.callstack.length; if (left > 0) { if (this.callstack[left-1].calls === undefined) { this.callstack[left-1].calls = []; } this.callstack[left-1].calls.push(call); return; } // Last call failed too, leave it in the stack this.callstack.push(call); }, // result is invoked when all the opcodes have been iterated over and returns // the final result of the tracing. result: function(ctx, db) { var result = { type: ctx.type, from: toHex(ctx.from), to: toHex(ctx.to), value: '0x' + ctx.value.toString(16), gas: '0x' + bigInt(ctx.gas).toString(16), gasUsed: '0x' + bigInt(ctx.gasUsed).toString(16), input: toHex(ctx.input), output: toHex(ctx.output), time: ctx.time, }; if (this.callstack[0].calls !== undefined) { result.calls = this.callstack[0].calls; } if (this.callstack[0].error !== undefined) { result.error = this.callstack[0].error; } else if (ctx.error !== undefined) { result.error = ctx.error; } if (result.error !== undefined) { delete result.output; } return this.finalize(result); }, // finalize recreates a call object using the final desired field oder for json // serialization. This is a nicety feature to pass meaningfully ordered results // to users who don't interpret it, just display it. finalize: function(call) { var sorted = { type: call.type, from: call.from, to: call.to, value: call.value, gas: call.gas, gasUsed: call.gasUsed, input: call.input, output: call.output, error: call.error, time: call.time, calls: call.calls, } for (var key in sorted) { if (sorted[key] === undefined) { delete sorted[key]; } } if (sorted.calls !== undefined) { for (var i=0; i