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-rw-r--r--packages/utils/src/abi_utils.ts153
1 files changed, 153 insertions, 0 deletions
diff --git a/packages/utils/src/abi_utils.ts b/packages/utils/src/abi_utils.ts
index 421dd405c..c9b70966c 100644
--- a/packages/utils/src/abi_utils.ts
+++ b/packages/utils/src/abi_utils.ts
@@ -1,7 +1,160 @@
import { AbiDefinition, AbiType, ContractAbi, DataItem, MethodAbi } from 'ethereum-types';
+import * as ethers from 'ethers';
import * as _ from 'lodash';
+import { BigNumber } from './configured_bignumber';
+
+// Note(albrow): This function is unexported in ethers.js. Copying it here for
+// now.
+// Source: https://github.com/ethers-io/ethers.js/blob/884593ab76004a808bf8097e9753fb5f8dcc3067/contracts/interface.js#L30
+function parseEthersParams(params: DataItem[]): { names: ethers.ParamName[]; types: string[] } {
+ const names: ethers.ParamName[] = [];
+ const types: string[] = [];
+
+ params.forEach((param: DataItem) => {
+ if (param.components != null) {
+ let suffix = '';
+ const arrayBracket = param.type.indexOf('[');
+ if (arrayBracket >= 0) {
+ suffix = param.type.substring(arrayBracket);
+ }
+
+ const result = parseEthersParams(param.components);
+ names.push({ name: param.name || null, names: result.names });
+ types.push('tuple(' + result.types.join(',') + ')' + suffix);
+ } else {
+ names.push(param.name || null);
+ types.push(param.type);
+ }
+ });
+
+ return {
+ names,
+ types,
+ };
+}
+
+// returns true if x is equal to y and false otherwise. Performs some minimal
+// type conversion and data massaging for x and y, depending on type. name and
+// type should typically be derived from parseEthersParams.
+function isAbiDataEqual(name: ethers.ParamName, type: string, x: any, y: any): boolean {
+ if (_.isUndefined(x) && _.isUndefined(y)) {
+ return true;
+ } else if (_.isUndefined(x) && !_.isUndefined(y)) {
+ return false;
+ } else if (!_.isUndefined(x) && _.isUndefined(y)) {
+ return false;
+ }
+ if (_.endsWith(type, '[]')) {
+ // For array types, we iterate through the elements and check each one
+ // individually. Strangely, name does not need to be changed in this
+ // case.
+ if (x.length !== y.length) {
+ return false;
+ }
+ const newType = _.trimEnd(type, '[]');
+ for (let i = 0; i < x.length; i++) {
+ if (!isAbiDataEqual(name, newType, x[i], y[i])) {
+ return false;
+ }
+ }
+ return true;
+ }
+ if (_.startsWith(type, 'tuple(')) {
+ if (_.isString(name)) {
+ throw new Error('Internal error: type was tuple but names was a string');
+ } else if (_.isNull(name)) {
+ throw new Error('Internal error: type was tuple but names was null');
+ }
+ // For tuples, we iterate through the underlying values and check each
+ // one individually.
+ const types = splitTupleTypes(type);
+ if (types.length !== name.names.length) {
+ throw new Error(
+ `Internal error: parameter types/names length mismatch (${types.length} != ${name.names.length})`,
+ );
+ }
+ for (let i = 0; i < types.length; i++) {
+ // For tuples, name is an object with a names property that is an
+ // array. As an example, for orders, name looks like:
+ //
+ // {
+ // name: 'orders',
+ // names: [
+ // 'makerAddress',
+ // // ...
+ // 'takerAssetData'
+ // ]
+ // }
+ //
+ const nestedName = _.isString(name.names[i])
+ ? (name.names[i] as string)
+ : ((name.names[i] as ethers.NestedParamName).name as string);
+ if (!isAbiDataEqual(name.names[i], types[i], x[nestedName], y[nestedName])) {
+ return false;
+ }
+ }
+ return true;
+ } else if (type === 'address' || type === 'bytes') {
+ // HACK(albrow): ethers.js returns the checksummed address even when
+ // initially passed in a non-checksummed address. To account for that,
+ // we convert to lowercase before comparing.
+ return _.isEqual(_.toLower(x), _.toLower(y));
+ } else if (_.startsWith(type, 'uint') || _.startsWith(type, 'int')) {
+ return new BigNumber(x).eq(new BigNumber(y));
+ }
+ return _.isEqual(x, y);
+}
+
+// splitTupleTypes splits a tuple type string (of the form `tuple(X)` where X is
+// any other type or list of types) into its component types. It works with
+// nested tuples, so, e.g., `tuple(tuple(uint256,address),bytes32)` will yield:
+// `['tuple(uint256,address)', 'bytes32']`. It expects exactly one tuple type as
+// an argument (not an array).
+function splitTupleTypes(type: string): string[] {
+ if (_.endsWith(type, '[]')) {
+ throw new Error('Internal error: array types are not supported');
+ } else if (!_.startsWith(type, 'tuple(')) {
+ throw new Error('Internal error: expected tuple type but got non-tuple type: ' + type);
+ }
+ // Trim the outtermost tuple().
+ const trimmedType = type.substring('tuple('.length, type.length - 1);
+ const types: string[] = [];
+ let currToken = '';
+ let parenCount = 0;
+ // Tokenize the type string while keeping track of parentheses.
+ for (const char of trimmedType) {
+ switch (char) {
+ case '(':
+ parenCount += 1;
+ currToken += char;
+ break;
+ case ')':
+ parenCount -= 1;
+ currToken += char;
+ break;
+ case ',':
+ if (parenCount === 0) {
+ types.push(currToken);
+ currToken = '';
+ break;
+ } else {
+ currToken += char;
+ break;
+ }
+ default:
+ currToken += char;
+ break;
+ }
+ }
+ types.push(currToken);
+ return types;
+}
+
export const abiUtils = {
+ parseEthersParams,
+ isAbiDataEqual,
+ splitTupleTypes,
parseFunctionParam(param: DataItem): string {
if (param.type === 'tuple') {
// Parse out tuple types into {type_1, type_2, ..., type_N}