import ethUtil = require('ethereumjs-util'); import CommunicationChatBubbleOutline from 'material-ui/SvgIcon'; var _ = require('lodash'); export interface DecodingRules { structsAsObjects: boolean; } export interface EncodingRules { optimize?: boolean; annotate?: boolean; } export abstract class CalldataBlock { private name: string; private signature: string; private offsetInBytes: number; private headerSizeInBytes: number; private bodySizeInBytes: number; private relocatable: boolean; private parentName: string; constructor(name: string, signature: string, parentName: string, /*offsetInBytes: number,*/ headerSizeInBytes: number, bodySizeInBytes: number, relocatable: boolean) { this.name = name; this.signature = signature; this.parentName = parentName; this.offsetInBytes = 0; this.headerSizeInBytes = headerSizeInBytes; this.bodySizeInBytes = bodySizeInBytes; this.relocatable = relocatable; } protected setHeaderSize(headerSizeInBytes: number) { this.headerSizeInBytes = headerSizeInBytes; } protected setBodySize(bodySizeInBytes: number) { this.bodySizeInBytes = bodySizeInBytes; } protected setName(name: string) { this.name = name; } public getName(): string { return this.name; } public getParentName(): string { return this.parentName; } public getSignature(): string { return this.signature; } public isRelocatable(): boolean { return this.relocatable; } public getHeaderSizeInBytes(): number { return this.headerSizeInBytes; } public getBodySizeInBytes(): number { return this.bodySizeInBytes; } public getSizeInBytes(): number { return this.headerSizeInBytes + this.bodySizeInBytes; } public getOffsetInBytes(): number { return this.offsetInBytes; } public setOffset(offsetInBytes: number) { this.offsetInBytes = offsetInBytes; } public computeHash(): Buffer { const rawData = this.getRawData(); const hash = ethUtil.sha3(rawData); return hash; } public abstract toBuffer(): Buffer; public abstract getRawData(): Buffer; } export class PayloadCalldataBlock extends CalldataBlock { private payload: Buffer; constructor(name: string, signature: string, parentName: string, /*offsetInBytes: number,*/ relocatable: boolean, payload: Buffer) { const headerSizeInBytes = 0; const bodySizeInBytes = payload.byteLength; super(name, signature, parentName, headerSizeInBytes, bodySizeInBytes, relocatable); this.payload = payload; } public toBuffer(): Buffer { return this.payload; } public getRawData(): Buffer { return this.payload; } } export class DependentCalldataBlock extends CalldataBlock { public static DEPENDENT_PAYLOAD_SIZE_IN_BYTES = 32; public static RAW_DATA_START = new Buffer('<'); public static RAW_DATA_END = new Buffer('>'); private parent: CalldataBlock; private dependency: CalldataBlock; private aliasFor: CalldataBlock | undefined; constructor(name: string, signature: string, parentName: string, relocatable: boolean, dependency: CalldataBlock, parent: CalldataBlock) { const headerSizeInBytes = 0; const bodySizeInBytes = DependentCalldataBlock.DEPENDENT_PAYLOAD_SIZE_IN_BYTES; super(name, signature, parentName, headerSizeInBytes, bodySizeInBytes, relocatable); this.parent = parent; this.dependency = dependency; this.aliasFor = undefined; } public toBuffer(): Buffer { const destinationOffset = (this.aliasFor !== undefined) ? this.aliasFor.getOffsetInBytes() : this.dependency.getOffsetInBytes(); const parentOffset = this.parent.getOffsetInBytes(); const parentHeaderSize = this.parent.getHeaderSizeInBytes(); const pointer: number = destinationOffset - (parentOffset + parentHeaderSize); const pointerBuf = ethUtil.toBuffer(`0x${pointer.toString(16)}`); const evmWordWidthInBytes = 32; const pointerBufPadded = ethUtil.setLengthLeft(pointerBuf, evmWordWidthInBytes); return pointerBufPadded; } public getDependency(): CalldataBlock { return this.dependency; } public setAlias(block: CalldataBlock) { this.aliasFor = block; this.setName(`${this.getName()} (alias for ${block.getName()})`); } public getAlias(): CalldataBlock | undefined { return this.aliasFor; } public getRawData(): Buffer { const dependencyRawData = this.dependency.getRawData(); const rawDataComponents: Buffer[] = []; rawDataComponents.push(DependentCalldataBlock.RAW_DATA_START); rawDataComponents.push(dependencyRawData); rawDataComponents.push(DependentCalldataBlock.RAW_DATA_END); const rawData = Buffer.concat(rawDataComponents); return rawData; } } export class MemberCalldataBlock extends CalldataBlock { private static DEPENDENT_PAYLOAD_SIZE_IN_BYTES = 32; private header: Buffer | undefined; private members: CalldataBlock[]; private contiguous: boolean; constructor(name: string, signature: string, parentName: string, relocatable: boolean, contiguous: boolean) { super(name, signature, parentName, 0, 0, relocatable); this.members = []; this.header = undefined; this.contiguous = contiguous; } public getRawData(): Buffer { const rawDataComponents: Buffer[] = []; if (this.header !== undefined) { rawDataComponents.push(this.header); } _.each(this.members, (member: CalldataBlock) => { const memberBuffer = member.getRawData(); rawDataComponents.push(memberBuffer); }); const rawData = Buffer.concat(rawDataComponents); return rawData; } public setMembers(members: CalldataBlock[]) { let bodySizeInBytes = 0; _.each(members, (member: CalldataBlock) => { bodySizeInBytes += member.getSizeInBytes(); }); this.members = members; this.setBodySize(0); } public isContiguous(): boolean { return true; } public setHeader(header: Buffer) { this.setHeaderSize(header.byteLength); this.header = header; } public toBuffer(): Buffer { if (this.header !== undefined) return this.header; return new Buffer(''); } public getMembers(): CalldataBlock[] { return this.members; } } class Queue { private store: T[] = []; push(val: T) { this.store.push(val); } pushFront(val: T) { this.store.unshift(val); } pop(): T | undefined { return this.store.shift(); } popBack(): T | undefined { if (this.store.length === 0) return undefined; const backElement = this.store.splice(-1, 1)[0]; return backElement; } merge(q: Queue) { this.store = this.store.concat(q.store); } mergeFront(q: Queue) { this.store = q.store.concat(this.store); } getStore(): T[] { return this.store; } peek(): T | undefined { return this.store.length >= 0 ? this.store[0] : undefined; } } export class Calldata { private selector: string; private rules: EncodingRules; private sizeInBytes: number; private root: MemberCalldataBlock | undefined; constructor(rules: EncodingRules) { this.selector = ''; this.rules = rules; this.sizeInBytes = 0; this.root = undefined; } private createQueue(memberBlock: MemberCalldataBlock): Queue { const blockQueue = new Queue(); _.eachRight(memberBlock.getMembers(), (member: CalldataBlock) => { if (member instanceof MemberCalldataBlock) { blockQueue.mergeFront(this.createQueue(member)); } else { blockQueue.pushFront(member); } }); // Children _.each(memberBlock.getMembers(), (member: CalldataBlock) => { if (member instanceof DependentCalldataBlock && member.getAlias() === undefined) { let dependency = member.getDependency(); if (dependency instanceof MemberCalldataBlock) { blockQueue.merge(this.createQueue(dependency)); } else { blockQueue.push(dependency); } } }); blockQueue.pushFront(memberBlock); return blockQueue; } private generateAnnotatedHexString(): string { let hexValue = `${this.selector}`; if (this.root === undefined) { throw new Error('expected root'); } const valueQueue = this.createQueue(this.root); let block: CalldataBlock | undefined; let offset = 0; const functionBlock = valueQueue.peek(); let functionName: string = functionBlock === undefined ? '' : functionBlock.getName(); while ((block = valueQueue.pop()) !== undefined) { // Set f // Process each block 1 word at a time const size = block.getSizeInBytes(); const name = block.getName(); const parentName = block.getParentName(); //const ancestrialNamesOffset = name.startsWith('ptr<') ? 4 : 0; //const parentOffset = name.lastIndexOf(parentName); const prettyName = name.replace(`${parentName}.`, '').replace(`${functionName}.`, '');//.replace(`${parentName}[`, '['); const signature = block.getSignature(); // Current offset let offsetStr = ''; // If this block is empty then it's a newline let value = ''; let nameStr = ''; let line = ''; if (size === 0) { offsetStr = ' '.repeat(10); value = ' '.repeat(74); nameStr = `### ${prettyName.padEnd(80)}`; line = `\n${offsetStr}${value}${nameStr}`; } else { offsetStr = `0x${offset.toString(16)}`.padEnd(10, ' '); value = ethUtil.stripHexPrefix(ethUtil.bufferToHex(block.toBuffer().slice(0, 32))).padEnd(74); if (block instanceof MemberCalldataBlock) { nameStr = `### ${prettyName.padEnd(80)}`; line = `\n${offsetStr}${value}${nameStr}`; } else { nameStr = ` ${prettyName.padEnd(80)}`; line = `${offsetStr}${value}${nameStr}`; } } for (let j = 32; j < size; j += 32) { offsetStr = `0x${(offset + j).toString(16)}`.padEnd(10, ' '); value = ethUtil.stripHexPrefix(ethUtil.bufferToHex(block.toBuffer().slice(j, j + 32))).padEnd(74); nameStr = ' '.repeat(40); line = `${line}\n${offsetStr}${value}${nameStr}`; } // Append to hex value hexValue = `${hexValue}\n${line}`; offset += size; } return hexValue; } private generateCondensedHexString(): string { let selectorBuffer = ethUtil.toBuffer(this.selector); if (this.root === undefined) { throw new Error('expected root'); } const valueQueue = this.createQueue(this.root); const valueBufs: Buffer[] = [selectorBuffer]; let block: CalldataBlock | undefined; while ((block = valueQueue.pop()) !== undefined) { valueBufs.push(block.toBuffer()); } const combinedBuffers = Buffer.concat(valueBufs); const hexValue = ethUtil.bufferToHex(combinedBuffers); return hexValue; } public optimize() { if (this.root === undefined) { throw new Error('expected root'); } const blocksByHash: { [key: string]: CalldataBlock } = {}; // 1. Create a queue of subtrees by hash // Note that they are ordered the same as const subtreeQueue = this.createQueue(this.root); let block: CalldataBlock | undefined; while ((block = subtreeQueue.popBack()) !== undefined) { if (block instanceof DependentCalldataBlock) { const blockHashBuf = block.getDependency().computeHash(); const blockHash = ethUtil.bufferToHex(blockHashBuf); if (blockHash in blocksByHash) { const blockWithSameHash = blocksByHash[blockHash]; if (blockWithSameHash !== block.getDependency()) { block.setAlias(blockWithSameHash); } } continue; } const blockHashBuf = block.computeHash(); const blockHash = ethUtil.bufferToHex(blockHashBuf); if (blockHash in blocksByHash === false) { blocksByHash[blockHash] = block; } } } public toHexString(): string { if (this.root === undefined) { throw new Error('expected root'); } if (this.rules.optimize) this.optimize(); const offsetQueue = this.createQueue(this.root); let block: CalldataBlock | undefined; let offset = 0; while ((block = offsetQueue.pop()) !== undefined) { block.setOffset(offset); offset += block.getSizeInBytes(); } const hexValue = this.rules.annotate ? this.generateAnnotatedHexString() : this.generateCondensedHexString(); return hexValue; } public getSelectorHex(): string { return this.selector; } public getSizeInBytes(): number { return this.sizeInBytes; } public toAnnotatedString(): string { return ""; } public setRoot(block: MemberCalldataBlock) { this.root = block; this.sizeInBytes += block.getSizeInBytes(); } public setSelector(selector: string) { // Ensure we have a 0x prefix if (selector.startsWith('0x')) { this.selector = selector; } else { this.selector = `$0x${selector}`; } // The selector must be 10 characters: '0x' followed by 4 bytes (two hex chars per byte) if (this.selector.length !== 10) { throw new Error(`Invalid selector '${this.selector}'`); } this.sizeInBytes += 8; } } export class RawCalldata { private value: Buffer; private offset: number; // tracks current offset into raw calldata; used for parsing private selector: string; private scopes: Queue; constructor(value: string | Buffer) { if (typeof value === 'string' && !value.startsWith('0x')) { throw new Error(`Expected raw calldata to start with '0x'`); } const valueBuf = ethUtil.toBuffer(value); this.selector = ethUtil.bufferToHex(valueBuf.slice(0, 4)); this.value = valueBuf.slice(4); // disregard selector this.offset = 0; this.scopes = new Queue(); this.scopes.push(0); } public popBytes(lengthInBytes: number): Buffer { const value = this.value.slice(this.offset, this.offset + lengthInBytes); this.setOffset(this.offset + lengthInBytes); return value; } public popWord(): Buffer { const wordInBytes = 32; return this.popBytes(wordInBytes); } public popWords(length: number): Buffer { const wordInBytes = 32; return this.popBytes(length * wordInBytes); } public readBytes(from: number, to: number): Buffer { const value = this.value.slice(from, to); return value; } public setOffset(offsetInBytes: number) { this.offset = offsetInBytes; } public startScope() { this.scopes.pushFront(this.offset); } public endScope() { this.scopes.pop(); } public getOffset(): number { return this.offset; } public toAbsoluteOffset(relativeOffset: number) { const scopeOffset = this.scopes.peek(); if (scopeOffset === undefined) { throw new Error(`Tried to access undefined scope.`); } const absoluteOffset = relativeOffset + scopeOffset; return absoluteOffset; } public getSelector(): string { return this.selector; } }