import { assert } from '@0xproject/assert';
import {
FallthroughResolver,
FSResolver,
NameResolver,
NPMResolver,
RelativeFSResolver,
Resolver,
URLResolver,
} from '@0xproject/sol-resolver';
import { fetchAsync, logUtils } from '@0xproject/utils';
import chalk from 'chalk';
import * as ethUtil from 'ethereumjs-util';
import * as fs from 'fs';
import * as _ from 'lodash';
import * as path from 'path';
import * as requireFromString from 'require-from-string';
import * as semver from 'semver';
import solc = require('solc');
import { compilerOptionsSchema } from './schemas/compiler_options_schema';
import { binPaths } from './solc/bin_paths';
import {
createDirIfDoesNotExistAsync,
getContractArtifactIfExistsAsync,
getNormalizedErrMsg,
parseDependencies,
parseSolidityVersionRange,
} from './utils/compiler';
import { constants } from './utils/constants';
import { fsWrapper } from './utils/fs_wrapper';
import { CompilerOptions, ContractArtifact, ContractVersionData } from './utils/types';
import { utils } from './utils/utils';
type TYPE_ALL_FILES_IDENTIFIER = '*';
const ALL_CONTRACTS_IDENTIFIER = '*';
const ALL_FILES_IDENTIFIER = '*';
const SOLC_BIN_DIR = path.join(__dirname, '..', '..', 'solc_bin');
const DEFAULT_CONTRACTS_DIR = path.resolve('contracts');
const DEFAULT_ARTIFACTS_DIR = path.resolve('artifacts');
// Solc compiler settings cannot be configured from the commandline.
// If you need this configured, please create a `compiler.json` config file
// with your desired configurations.
const DEFAULT_COMPILER_SETTINGS: solc.CompilerSettings = {
optimizer: {
enabled: false,
},
outputSelection: {
[ALL_FILES_IDENTIFIER]: {
[ALL_CONTRACTS_IDENTIFIER]: ['abi', 'evm.bytecode.object'],
},
},
};
const CONFIG_FILE = 'compiler.json';
interface VersionToInputs {
[solcVersion: string]: {
standardInput: solc.StandardInput;
contractsToCompile: string[];
};
}
interface ContractPathToData {
[contractPath: string]: ContractData;
}
interface ContractData {
currentArtifactIfExists: ContractArtifact | void;
sourceTreeHashHex: string;
contractName: string;
}
/**
* The Compiler facilitates compiling Solidity smart contracts and saves the results
* to artifact files.
*/
export class Compiler {
private readonly _resolver: Resolver;
private readonly _nameResolver: NameResolver;
private readonly _contractsDir: string;
private readonly _compilerSettings: solc.CompilerSettings;
private readonly _artifactsDir: string;
private readonly _solcVersionIfExists: string | undefined;
private readonly _specifiedContracts: string[] | TYPE_ALL_FILES_IDENTIFIER;
private static async _getSolcAsync(
solcVersion: string,
): Promise<{ solcInstance: solc.SolcInstance; fullSolcVersion: string }> {
const fullSolcVersion = binPaths[solcVersion];
if (_.isUndefined(fullSolcVersion)) {
throw new Error(`${solcVersion} is not a known compiler version`);
}
const compilerBinFilename = path.join(SOLC_BIN_DIR, fullSolcVersion);
let solcjs: string;
if (await fsWrapper.doesFileExistAsync(compilerBinFilename)) {
solcjs = (await fsWrapper.readFileAsync(compilerBinFilename)).toString();
} else {
logUtils.log(`Downloading ${fullSolcVersion}...`);
const url = `${constants.BASE_COMPILER_URL}${fullSolcVersion}`;
const response = await fetchAsync(url);
const SUCCESS_STATUS = 200;
if (response.status !== SUCCESS_STATUS) {
throw new Error(`Failed to load ${fullSolcVersion}`);
}
solcjs = await response.text();
await fsWrapper.writeFileAsync(compilerBinFilename, solcjs);
}
if (solcjs.length === 0) {
throw new Error('No compiler available');
}
const solcInstance = solc.setupMethods(requireFromString(solcjs, compilerBinFilename));
return { solcInstance, fullSolcVersion };
}
/**
* Instantiates a new instance of the Compiler class.
* @return An instance of the Compiler class.
*/
constructor(opts?: CompilerOptions) {
assert.doesConformToSchema('opts', opts, compilerOptionsSchema);
// TODO: Look for config file in parent directories if not found in current directory
const config: CompilerOptions = fs.existsSync(CONFIG_FILE)
? JSON.parse(fs.readFileSync(CONFIG_FILE).toString())
: {};
const passedOpts = opts || {};
assert.doesConformToSchema('compiler.json', config, compilerOptionsSchema);
this._contractsDir = passedOpts.contractsDir || config.contractsDir || DEFAULT_CONTRACTS_DIR;
this._solcVersionIfExists = passedOpts.solcVersion || config.solcVersion;
this._compilerSettings = passedOpts.compilerSettings || config.compilerSettings || DEFAULT_COMPILER_SETTINGS;
this._artifactsDir = passedOpts.artifactsDir || config.artifactsDir || DEFAULT_ARTIFACTS_DIR;
this._specifiedContracts = passedOpts.contracts || config.contracts || ALL_CONTRACTS_IDENTIFIER;
this._nameResolver = new NameResolver(path.resolve(this._contractsDir));
const resolver = new FallthroughResolver();
resolver.appendResolver(new URLResolver());
const packagePath = path.resolve('');
resolver.appendResolver(new NPMResolver(packagePath));
resolver.appendResolver(new RelativeFSResolver(this._contractsDir));
resolver.appendResolver(new FSResolver());
resolver.appendResolver(this._nameResolver);
this._resolver = resolver;
}
/**
* Compiles selected Solidity files found in `contractsDir` and writes JSON artifacts to `artifactsDir`.
*/
public async compileAsync(): Promise<void> {
await createDirIfDoesNotExistAsync(this._artifactsDir);
await createDirIfDoesNotExistAsync(SOLC_BIN_DIR);
let contractNamesToCompile: string[] = [];
if (this._specifiedContracts === ALL_CONTRACTS_IDENTIFIER) {
const allContracts = this._nameResolver.getAll();
contractNamesToCompile = _.map(allContracts, contractSource =>
path.basename(contractSource.path, constants.SOLIDITY_FILE_EXTENSION),
);
} else {
contractNamesToCompile = this._specifiedContracts;
}
await this._compileContractsAsync(contractNamesToCompile);
}
/**
* Compiles contract and saves artifact to artifactsDir.
* @param fileName Name of contract with '.sol' extension.
*/
private async _compileContractsAsync(contractNames: string[]): Promise<void> {
// batch input contracts together based on the version of the compiler that they require.
const versionToInputs: VersionToInputs = {};
// map contract paths to data about them for later verification and persistence
const contractPathToData: ContractPathToData = {};
for (const contractName of contractNames) {
const contractSource = this._resolver.resolve(contractName);
const contractData = {
contractName,
currentArtifactIfExists: await getContractArtifactIfExistsAsync(this._artifactsDir, contractName),
sourceTreeHashHex: `0x${this._getSourceTreeHash(
path.join(this._contractsDir, contractSource.path),
).toString('hex')}`,
};
if (!this._shouldCompile(contractData)) {
continue;
}
contractPathToData[contractSource.path] = contractData;
const solcVersion = _.isUndefined(this._solcVersionIfExists)
? semver.maxSatisfying(_.keys(binPaths), parseSolidityVersionRange(contractSource.source))
: this._solcVersionIfExists;
const isFirstContractWithThisVersion = _.isUndefined(versionToInputs[solcVersion]);
if (isFirstContractWithThisVersion) {
versionToInputs[solcVersion] = {
standardInput: {
language: 'Solidity',
sources: {},
settings: this._compilerSettings,
},
contractsToCompile: [],
};
}
// add input to the right version batch
versionToInputs[solcVersion].standardInput.sources[contractSource.path] = {
content: contractSource.source,
};
versionToInputs[solcVersion].contractsToCompile.push(contractSource.path);
}
const solcVersions = _.keys(versionToInputs);
for (const solcVersion of solcVersions) {
const input = versionToInputs[solcVersion];
logUtils.log(
`Compiling ${input.contractsToCompile.length} contracts (${
input.contractsToCompile
}) with Solidity v${solcVersion}...`,
);
const { solcInstance, fullSolcVersion } = await Compiler._getSolcAsync(solcVersion);
const compilerOutput = this._compile(solcInstance, input.standardInput);
for (const contractPath of input.contractsToCompile) {
await this._verifyAndPersistCompiledContractAsync(
contractPath,
contractPathToData[contractPath].currentArtifactIfExists,
contractPathToData[contractPath].sourceTreeHashHex,
contractPathToData[contractPath].contractName,
fullSolcVersion,
compilerOutput,
);
}
}
}
private _shouldCompile(contractData: ContractData): boolean {
if (_.isUndefined(contractData.currentArtifactIfExists)) {
return true;
} else {
const currentArtifact = contractData.currentArtifactIfExists as ContractArtifact;
const isUserOnLatestVersion = currentArtifact.schemaVersion === constants.LATEST_ARTIFACT_VERSION;
const didCompilerSettingsChange = !_.isEqual(currentArtifact.compiler.settings, this._compilerSettings);
const didSourceChange = currentArtifact.sourceTreeHashHex !== contractData.sourceTreeHashHex;
return !isUserOnLatestVersion || didCompilerSettingsChange || didSourceChange;
}
}
private async _verifyAndPersistCompiledContractAsync(
contractPath: string,
currentArtifactIfExists: ContractArtifact | void,
sourceTreeHashHex: string,
contractName: string,
fullSolcVersion: string,
compilerOutput: solc.StandardOutput,
): Promise<void> {
const compiledData = compilerOutput.contracts[contractPath][contractName];
if (_.isUndefined(compiledData)) {
throw new Error(
`Contract ${contractName} not found in ${contractPath}. Please make sure your contract has the same name as it's file name`,
);
}
if (!_.isUndefined(compiledData.evm)) {
if (!_.isUndefined(compiledData.evm.bytecode) && !_.isUndefined(compiledData.evm.bytecode.object)) {
compiledData.evm.bytecode.object = ethUtil.addHexPrefix(compiledData.evm.bytecode.object);
}
if (
!_.isUndefined(compiledData.evm.deployedBytecode) &&
!_.isUndefined(compiledData.evm.deployedBytecode.object)
) {
compiledData.evm.deployedBytecode.object = ethUtil.addHexPrefix(
compiledData.evm.deployedBytecode.object,
);
}
}
const sourceCodes = _.mapValues(
compilerOutput.sources,
(_1, sourceFilePath) => this._resolver.resolve(sourceFilePath).source,
);
const contractVersion: ContractVersionData = {
compilerOutput: compiledData,
sources: compilerOutput.sources,
sourceCodes,
sourceTreeHashHex,
compiler: {
name: 'solc',
version: fullSolcVersion,
settings: this._compilerSettings,
},
};
let newArtifact: ContractArtifact;
if (!_.isUndefined(currentArtifactIfExists)) {
const currentArtifact = currentArtifactIfExists as ContractArtifact;
newArtifact = {
...currentArtifact,
...contractVersion,
};
} else {
newArtifact = {
schemaVersion: constants.LATEST_ARTIFACT_VERSION,
contractName,
...contractVersion,
networks: {},
};
}
const artifactString = utils.stringifyWithFormatting(newArtifact);
const currentArtifactPath = `${this._artifactsDir}/${contractName}.json`;
await fsWrapper.writeFileAsync(currentArtifactPath, artifactString);
logUtils.log(`${contractName} artifact saved!`);
}
private _compile(solcInstance: solc.SolcInstance, standardInput: solc.StandardInput): solc.StandardOutput {
const compiled: solc.StandardOutput = JSON.parse(
solcInstance.compileStandardWrapper(JSON.stringify(standardInput), importPath => {
const sourceCodeIfExists = this._resolver.resolve(importPath);
return { contents: sourceCodeIfExists.source };
}),
);
if (!_.isUndefined(compiled.errors)) {
const SOLIDITY_WARNING = 'warning';
const errors = _.filter(compiled.errors, entry => entry.severity !== SOLIDITY_WARNING);
const warnings = _.filter(compiled.errors, entry => entry.severity === SOLIDITY_WARNING);
if (!_.isEmpty(errors)) {
errors.forEach(error => {
const normalizedErrMsg = getNormalizedErrMsg(error.formattedMessage || error.message);
logUtils.log(chalk.red(normalizedErrMsg));
});
throw new Error('Compilation errors encountered');
} else {
warnings.forEach(warning => {
const normalizedWarningMsg = getNormalizedErrMsg(warning.formattedMessage || warning.message);
logUtils.log(chalk.yellow(normalizedWarningMsg));
});
}
}
return compiled;
}
/**
* Gets the source tree hash for a file and its dependencies.
* @param fileName Name of contract file.
*/
private _getSourceTreeHash(importPath: string): Buffer {
const contractSource = this._resolver.resolve(importPath);
const dependencies = parseDependencies(contractSource);
const sourceHash = ethUtil.sha3(contractSource.source);
if (dependencies.length === 0) {
return sourceHash;
} else {
const dependencySourceTreeHashes = _.map(dependencies, (dependency: string) =>
this._getSourceTreeHash(dependency),
);
const sourceTreeHashesBuffer = Buffer.concat([sourceHash, ...dependencySourceTreeHashes]);
const sourceTreeHash = ethUtil.sha3(sourceTreeHashesBuffer);
return sourceTreeHash;
}
}
}