Awesome
Contract ABI and Recursive Length Prefix made easy for the JVM.
ABI spec: https://solidity.readthedocs.io/en/latest/abi-spec.html
RLP spec: https://ethereum.org/en/developers/docs/data-structures-and-encoding/rlp
SHA-256 (headlong-12.3.3.jar): 9b577af538d30ffc05133425c8b0bff3a79bcba99955b3222dd2d825b27150cc
Usage
ABI package
Encoding Function Calls
Function baz = Function.parse("baz(uint32,bool)"); // canonicalizes and parses any signature
// or
Function f2 = Function.fromJson("{\"type\":\"function\",\"name\":\"foo\",\"inputs\":[{\"name\":\"complex_nums\",\"type\":\"tuple[]\",\"components\":[{\"name\":\"real\",\"type\":\"fixed168x10\"},{\"name\":\"imaginary\",\"type\":\"fixed168x10\"}]}]}");
Pair<Long, Boolean> bazArgs = Tuple.of(69L, true);
Tuple complexNums = Single.of(new Tuple[] { Tuple.of(new BigDecimal("0.0090000000"), new BigDecimal("1.9500000000")) });
// Two equivalent styles:
ByteBuffer bazCall = baz.encodeCall(bazArgs);
ByteBuffer bazCall2 = baz.encodeCallWithArgs(69L, true);
System.out.println("baz call hex:\n" + Strings.encode(bazCall) + "\n"); // hexadecimal encoding (without 0x prefix)
Tuple recoveredArgs = baz.decodeCall(bazCall2); // decode the encoding back to the original args
System.out.println("baz args:\n" + recoveredArgs + "\n"); // toString()
System.out.println("equal:\n" + recoveredArgs.equals(bazArgs) + "\n"); // test for equality
System.out.println("baz call debug:\n" + baz.annotateCall(bazCall.array()) + "\n"); // human-readable, for debugging function calls (expects input to start with 4-byte selector)
System.out.println("baz args debug:\n" + baz.getInputs().annotate(bazArgs) + "\n"); // human-readable, for debugging encodings without a selector
System.out.println("f2 call debug:\n" + f2.annotateCall(complexNums) + "\n");
System.out.println("f2 args debug:\n" + f2.getInputs().annotate(complexNums));
Decoding Return Values
Function foo = Function.parse("foo((fixed[],int8)[1][][5])", "(int,string)");
// decode return type (int256,string)
Tuple decoded = foo.decodeReturn(
FastHex.decode(
"000000000000000000000000000000000000000000000000000000000000002A"
+ "0000000000000000000000000000000000000000000000000000000000000040"
+ "000000000000000000000000000000000000000000000000000000000000000e"
+ "59616f62616e6745696768747939000000000000000000000000000000000000"
)
);
System.out.println(decoded.equals(Tuple.of(BigInteger.valueOf(42L), "YaobangEighty9")));
Function fooTwo = Function.parse("fooTwo()", "(uint8)");
int returned = fooTwo.decodeSingletonReturn(FastHex.decode("00000000000000000000000000000000000000000000000000000000000000FF")); // uint8 corresponds to int
System.out.println(returned);
Using TupleType
TupleType<Tuple> tt = TupleType.parse("(bool,address,int72[][])");
ByteBuffer b0 = tt.encode(Tuple.of(false, Address.wrap("0x52908400098527886E0F7030069857D2E4169EE7"), new BigInteger[0][]));
// Tuple t = tt.decode(b0); // decode the tuple (has the side effect of advancing the ByteBuffer's position)
// or...
Address a = tt.decode(b0, 1); // decode only index 1
System.out.println(a);
Tuple t2 = tt.decode(b0, 0, 2); // decode only indices 0 and 2
System.out.println(t2);
ByteBuffer b1 = tt.<ABIType<BigInteger[][]>>get(2).encode(new BigInteger[][] { }); // encode only int72[][]
Misc
Event<?> event = Event.fromJson("{\"type\":\"event\",\"name\":\"an_event\",\"inputs\":[{\"name\":\"a\",\"type\":\"bytes\",\"indexed\":true},{\"name\":\"b\",\"type\":\"uint256\",\"indexed\":false}],\"anonymous\":true}");
Tuple args = event.decodeArgs(new byte[][] { new byte[32] }, new byte[32]);
System.out.println(event);
System.out.println(args);
// create any type directly (advanced)
ArrayType<ABIType<Object>, ?, Object> at = TypeFactory.create("(address,int)[]");
ArrayType<TupleType<Tuple>, Tuple, Tuple[]> at2 = TypeFactory.create("(address,int)[]");
ArrayType<TupleType<Pair<Address, BigInteger>>, Pair<Address, BigInteger>, Pair<Address, BigInteger>[]> at3 = TypeFactory.create("(address,int)[]");
ABIType<Object> unknown = TypeFactory.create(at.getCanonicalType());
RLP package
// for an example class Student implementing some example interface
public Student(byte[] rlp) {
Iterator<RLPItem> iter = RLPDecoder.RLP_STRICT.sequenceIterator(rlp);
this.name = iter.next().asString(Strings.UTF_8);
this.gpa = iter.next().asFloat(false);
this.publicKey = iter.next().asBytes();
this.balance = new BigDecimal(iter.next().asBigInt(), iter.next().asInt());
}
@Override
public Object[] toObjectArray() {
return new Object[] {
// instances of byte[]
Strings.decode(name, Strings.UTF_8),
FloatingPoint.toBytes(gpa),
publicKey,
balance.unscaledValue().toByteArray(),
Integers.toBytes(balance.scale())
// include an Object[] or Iterable and its elements will be encoded as an RLP list (which may include other lists)
};
}
@Override
public byte[] toRLP() {
return RLPEncoder.sequence(toObjectArray());
}
Build
Now available in Maven Central Repository.
Or build locally:
Clone the project and install to your local maven repository using gradle publishToMavenLocal
or mvn install
, then declare it as a dependency:
implementation("com.esaulpaugh:headlong:12.3.4-SNAPSHOT")
<dependency>
<groupId>com.esaulpaugh</groupId>
<artifactId>headlong</artifactId>
<version>12.3.4-SNAPSHOT</version>
</dependency>
Alternatively:
- Run
gradle build
orgradle jar
which output tobuild/libs
- Use
mvn package
which outputs totarget
- Execute
ant all build-jar
which outputs tobuild/lib
- Add headlong as a project dependency
Benchmarks
GraalVM 20.0.2 on x86-64
Command line interface
https://github.com/esaulpaugh/headlong-cli
Example Android app
https://github.com/esaulpaugh/headlong-android
Misc
Also includes optimized implementations of:
- EIP-778 Ethereum Node Records
- EIP-55 Mixed-case checksum address encoding
- Keccak
- hexadecimal
headlong depends on gson v2.10.1 for the abi package. Test suite should take less than one minute to run. Test packages require junit. Jar size is ~128 KiB. Java 8+.
See the wiki for more, such as packed encoding (and decoding) and RLP Object Notation: https://github.com/esaulpaugh/headlong/wiki
Licensed under Apache 2.0 terms