JNI Implementation in their own package

This commit is contained in:
Salomon BRYS 2020-07-01 12:46:04 +02:00
parent 1d9d57ca0a
commit 720637ec24
14 changed files with 114 additions and 793 deletions

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@ -11,6 +11,7 @@ kotlin {
val commonMain by sourceSets.getting {
dependencies {
api(rootProject)
implementation(kotlin("stdlib-common"))
}
}

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@ -1,12 +1,16 @@
package fr.acinq.secp256k1.jni
import fr.acinq.secp256k1.Secp256k1
import org.bitcoin.NativeSecp256k1
public actual object NativeSecp256k1Loader {
@JvmStatic
@Synchronized
@Throws(Exception::class)
actual fun load() {
actual fun load(): Secp256k1 {
System.loadLibrary("secp256k1-jni")
return NativeSecp256k1
}
}

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@ -1,10 +1,10 @@
package fr.acinq.secp256k1.jni
import kotlin.jvm.JvmStatic
import fr.acinq.secp256k1.Secp256k1
public expect object NativeSecp256k1Loader {
public fun load()
public fun load(): Secp256k1
}

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@ -16,6 +16,9 @@
*/
package org.bitcoin
import fr.acinq.secp256k1.PubKeyFormat
import fr.acinq.secp256k1.Secp256k1
import fr.acinq.secp256k1.SigFormat
import org.bitcoin.NativeSecp256k1Util.AssertFailException
import java.math.BigInteger
import java.nio.ByteBuffer
@ -37,7 +40,7 @@ import java.util.concurrent.locks.ReentrantReadWriteLock
* or point the JVM to the folder containing it with -Djava.library.path
*
*/
public object NativeSecp256k1 {
internal object NativeSecp256k1 : Secp256k1 {
private val rwl = ReentrantReadWriteLock()
private val r: Lock = rwl.readLock()
private val w: Lock = rwl.writeLock()
@ -71,9 +74,8 @@ public object NativeSecp256k1 {
* @return true if the signature is valid
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean {
override fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean {
require(data.size == 32 && signature.size <= 520 && pub.size <= 520)
val byteBuff = pack(data, signature, pub)
r.lock()
@ -98,9 +100,8 @@ public object NativeSecp256k1 {
* @return a signature, or an empty array is signing failed
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun sign(data: ByteArray, sec: ByteArray, compact: Boolean): ByteArray {
override fun sign(data: ByteArray, sec: ByteArray, format: SigFormat): ByteArray {
require(data.size == 32 && sec.size <= 32)
val byteBuff = pack(data, sec)
val retByteArray: Array<ByteArray>
@ -108,7 +109,7 @@ public object NativeSecp256k1 {
retByteArray = try {
secp256k1_ecdsa_sign(
byteBuff,
compact,
format == SigFormat.COMPACT,
Secp256k1Context.getContext()
)
} finally {
@ -125,9 +126,8 @@ public object NativeSecp256k1 {
return if (retVal == 0) ByteArray(0) else sigArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun signatureNormalize(sig: ByteArray, compact: Boolean): Pair<ByteArray, Boolean> {
override fun signatureNormalize(sig: ByteArray, format: SigFormat): Pair<ByteArray, Boolean> {
require(sig.size == 64 || sig.size in 70..73)
val byteBuff = pack(sig)
val retByteArray: Array<ByteArray>
@ -136,7 +136,7 @@ public object NativeSecp256k1 {
secp256k1_ecdsa_normalize(
byteBuff,
sig.size,
compact,
format == SigFormat.COMPACT,
Secp256k1Context.getContext()
)
} finally {
@ -160,8 +160,7 @@ public object NativeSecp256k1 {
* @param seckey ECDSA Secret key, 32 bytes
* @return true if seckey is valid
*/
@JvmStatic
public fun secKeyVerify(seckey: ByteArray): Boolean {
override fun secKeyVerify(seckey: ByteArray): Boolean {
require(seckey.size == 32)
val byteBuff = pack(seckey)
r.lock()
@ -183,9 +182,8 @@ public object NativeSecp256k1 {
* @return the corresponding public key (uncompressed)
*/
//TODO add a 'compressed' arg
@JvmStatic
@Throws(AssertFailException::class)
public fun computePubkey(seckey: ByteArray, compressed: Boolean): ByteArray {
override fun computePubkey(seckey: ByteArray, format: PubKeyFormat): ByteArray {
require(seckey.size == 32)
val byteBuff = pack(seckey)
val retByteArray: Array<ByteArray>
@ -193,7 +191,7 @@ public object NativeSecp256k1 {
retByteArray = try {
secp256k1_ec_pubkey_create(
byteBuff,
compressed,
format == PubKeyFormat.COMPRESSED,
Secp256k1Context.getContext()
)
} finally {
@ -211,9 +209,8 @@ public object NativeSecp256k1 {
* @return the input public key (uncompressed) if valid, or an empty array
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun parsePubkey(pubkey: ByteArray, compressed: Boolean): ByteArray {
override fun parsePubkey(pubkey: ByteArray, format: PubKeyFormat): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey)
val retByteArray: Array<ByteArray>
@ -223,7 +220,7 @@ public object NativeSecp256k1 {
byteBuff,
Secp256k1Context.getContext(),
pubkey.size,
compressed
format == PubKeyFormat.COMPRESSED
)
} finally {
r.unlock()
@ -231,7 +228,11 @@ public object NativeSecp256k1 {
val pubArr = retByteArray[0]
BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubArr.size, if (compressed) 33 else 65, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(
pubArr.size,
format.maxSize,
"Got bad pubkey length."
)
return if (retVal == 0) ByteArray(0) else pubArr
}
@ -239,9 +240,8 @@ public object NativeSecp256k1 {
* libsecp256k1 Cleanup - This destroys the secp256k1 context object
* This should be called at the end of the program for proper cleanup of the context.
*/
@JvmStatic
@Synchronized
public fun cleanup() {
override fun cleanup() {
w.lock()
try {
secp256k1_destroy_context(Secp256k1Context.getContext())
@ -250,9 +250,8 @@ public object NativeSecp256k1 {
}
}
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyNegate(privkey: ByteArray): ByteArray {
override fun privKeyNegate(privkey: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey)
val retByteArray: Array<ByteArray>
@ -285,9 +284,8 @@ public object NativeSecp256k1 {
* @return privkey * tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey, tweak)
val retByteArray: Array<ByteArray>
@ -320,9 +318,8 @@ public object NativeSecp256k1 {
* @return privkey + tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
override fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey, tweak)
val retByteArray: Array<ByteArray>
@ -343,9 +340,8 @@ public object NativeSecp256k1 {
return privArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyNegate(pubkey: ByteArray): ByteArray {
override fun pubKeyNegate(pubkey: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey)
val retByteArray: Array<ByteArray>
@ -375,9 +371,8 @@ public object NativeSecp256k1 {
* @return pubkey + tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
override fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey, tweak)
val retByteArray: Array<ByteArray>
@ -407,9 +402,8 @@ public object NativeSecp256k1 {
* @return pubkey * tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
override fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey, tweak)
val retByteArray: Array<ByteArray>
@ -431,9 +425,8 @@ public object NativeSecp256k1 {
return pubArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
override fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
require(pubkey1.size == 33 || pubkey1.size == 65)
require(pubkey2.size == 33 || pubkey2.size == 65)
val byteBuff = pack(pubkey1, pubkey2)
@ -465,9 +458,8 @@ public object NativeSecp256k1 {
* @return ecdh(sedckey, pubkey)
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray {
override fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray {
require(seckey.size <= 32 && pubkey.size <= 65)
val byteBuff = pack(seckey, pubkey)
val retByteArray: Array<ByteArray>
@ -488,9 +480,8 @@ public object NativeSecp256k1 {
return resArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, compressed: Boolean): ByteArray {
override fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, format: PubKeyFormat): ByteArray {
require(sig.size == 64)
require(message.size == 32)
val byteBuff = pack(sig, message)
@ -501,14 +492,18 @@ public object NativeSecp256k1 {
byteBuff,
Secp256k1Context.getContext(),
recid,
compressed
format == PubKeyFormat.COMPRESSED
)
} finally {
r.unlock()
}
val resArr = retByteArray[0]
val retVal = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
NativeSecp256k1Util.assertEquals(resArr.size, if (compressed) 33 else 65, "Got bad result length.")
NativeSecp256k1Util.assertEquals(
resArr.size,
format.maxSize,
"Got bad result length."
)
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return resArr
}
@ -520,10 +515,9 @@ public object NativeSecp256k1 {
* @return true if successful
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Synchronized
@Throws(AssertFailException::class)
public fun randomize(seed: ByteArray): Boolean {
override fun randomize(seed: ByteArray): Boolean {
require(seed.size == 32)
val byteBuff = pack(seed)
w.lock()

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@ -15,7 +15,6 @@
*/
package org.bitcoin
import kotlin.jvm.Throws
import java.lang.Exception
internal object NativeSecp256k1Util {

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@ -15,8 +15,6 @@
*/
package org.bitcoin
import kotlin.jvm.JvmStatic
/**
* This class holds the context reference used in native methods
* to handle ECDSA operations.
@ -35,6 +33,7 @@ public object Secp256k1Context {
init { //static initializer
isEnabled = true
context = secp256k1_init_context()
context =
secp256k1_init_context()
}
}

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@ -1,5 +1,7 @@
package fr.acinq.secp256k1.jni
import fr.acinq.secp256k1.Secp256k1
import org.bitcoin.NativeSecp256k1
import java.io.*
import java.util.*
@ -24,12 +26,13 @@ public actual object NativeSecp256k1Loader {
@JvmStatic
@Synchronized
@Throws(Exception::class)
public actual fun load() {
public actual fun load(): Secp256k1 {
// only cleanup before the first extract
if (!extracted) {
cleanup()
}
loadSecp256k1NativeLibrary()
return NativeSecp256k1
}
private val tempDir: File

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@ -18,60 +18,49 @@ package fr.acinq.secp256k1
import kotlin.jvm.JvmStatic
public enum class SigFormat(internal val size: Int) { COMPACT(64), DER(72) }
public enum class SigFormat(public val maxSize: Int) { COMPACT(64), DER(72) }
public enum class PubKeyFormat(internal val size: Int) { COMPRESSED(33), UNCOMPRESSED(65) }
public enum class PubKeyFormat(public val maxSize: Int) { COMPRESSED(33), UNCOMPRESSED(65) }
public expect object Secp256k1 {
public interface Secp256k1 {
@JvmStatic
public fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean
@JvmStatic
public fun sign(data: ByteArray, sec: ByteArray, format: SigFormat): ByteArray
@JvmStatic
public fun signatureNormalize(sig: ByteArray, format: SigFormat): Pair<ByteArray, Boolean>
@JvmStatic
public fun secKeyVerify(seckey: ByteArray): Boolean
@JvmStatic
public fun computePubkey(seckey: ByteArray, format: PubKeyFormat): ByteArray
@JvmStatic
public fun parsePubkey(pubkey: ByteArray, format: PubKeyFormat): ByteArray
@JvmStatic
public fun cleanup()
@JvmStatic
public fun privKeyNegate(privkey: ByteArray): ByteArray
@JvmStatic
public fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray
@JvmStatic
public fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray
@JvmStatic
public fun pubKeyNegate(pubkey: ByteArray): ByteArray
@JvmStatic
public fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray
@JvmStatic
public fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray
@JvmStatic
public fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray
@JvmStatic
public fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray
@JvmStatic
public fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, format: PubKeyFormat): ByteArray
@JvmStatic
public fun randomize(seed: ByteArray): Boolean
public companion object : Secp256k1 by getSecpk256k1() {
@JvmStatic public fun get(): Secp256k1 = this
}
}
internal expect fun getSecpk256k1(): Secp256k1

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@ -1,68 +0,0 @@
/*
* Copyright 2020 ACINQ SAS
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package fr.acinq.secp256k1
import org.bitcoin.NativeSecp256k1
import java.lang.IllegalStateException
public actual object Secp256k1 {
init {
try {
val cls = Class.forName("fr.acinq.secp256k1.jni.NativeSecp256k1Loader")
val load = cls.getMethod("load")
load.invoke(null)
} catch (ex: ClassNotFoundException) {
throw IllegalStateException("Could not load native Secp256k1 JNI library. Have you added the JNI dependency?", ex)
}
}
public actual fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean = NativeSecp256k1.verify(data, signature, pub)
public actual fun sign(data: ByteArray, sec: ByteArray, format: SigFormat): ByteArray = NativeSecp256k1.sign(data, sec, format == SigFormat.COMPACT)
public actual fun signatureNormalize(sig: ByteArray, format: SigFormat): Pair<ByteArray, Boolean> = NativeSecp256k1.signatureNormalize(sig, format == SigFormat.COMPACT)
public actual fun secKeyVerify(seckey: ByteArray): Boolean = NativeSecp256k1.secKeyVerify(seckey)
public actual fun computePubkey(seckey: ByteArray, format: PubKeyFormat): ByteArray = NativeSecp256k1.computePubkey(seckey, format == PubKeyFormat.COMPRESSED)
public actual fun parsePubkey(pubkey: ByteArray, format: PubKeyFormat): ByteArray = NativeSecp256k1.parsePubkey(pubkey, format == PubKeyFormat.COMPRESSED)
public actual fun cleanup(): Unit = NativeSecp256k1.cleanup()
public actual fun privKeyNegate(privkey: ByteArray): ByteArray = NativeSecp256k1.privKeyNegate(privkey)
public actual fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray = NativeSecp256k1.privKeyTweakMul(privkey, tweak)
public actual fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray = NativeSecp256k1.privKeyTweakAdd(privkey, tweak)
public actual fun pubKeyNegate(pubkey: ByteArray): ByteArray = NativeSecp256k1.pubKeyNegate(pubkey)
public actual fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray = NativeSecp256k1.pubKeyTweakAdd(pubkey, tweak)
public actual fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray = NativeSecp256k1.pubKeyTweakMul(pubkey, tweak)
public actual fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray = NativeSecp256k1.pubKeyAdd(pubkey1, pubkey2)
public actual fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray = NativeSecp256k1.createECDHSecret(seckey, pubkey)
public actual fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, format: PubKeyFormat): ByteArray = NativeSecp256k1.ecdsaRecover(sig, message, recid, format == PubKeyFormat.COMPRESSED)
public actual fun randomize(seed: ByteArray): Boolean = NativeSecp256k1.randomize(seed)
}

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@ -0,0 +1,30 @@
/*
* Copyright 2020 ACINQ SAS
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package fr.acinq.secp256k1
import java.lang.IllegalStateException
internal actual fun getSecpk256k1(): Secp256k1 {
try {
val cls = Class.forName("fr.acinq.secp256k1.jni.NativeSecp256k1Loader")
val load = cls.getMethod("load")
return load.invoke(null) as Secp256k1
} catch (ex: ClassNotFoundException) {
throw IllegalStateException("Could not load native Secp256k1 JNI library. Have you added the JNI dependency?", ex)
}
}

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@ -1,565 +0,0 @@
/*
* Copyright 2013 Google Inc.
* Copyright 2014-2016 the libsecp256k1 contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.bitcoin
import org.bitcoin.NativeSecp256k1Util.AssertFailException
import java.math.BigInteger
import java.nio.ByteBuffer
import java.nio.ByteOrder
import java.util.concurrent.locks.Lock
import java.util.concurrent.locks.ReentrantReadWriteLock
/**
*
* This class holds native methods to handle ECDSA verification.
*
*
* You can find an example library that can be used for this at https://github.com/bitcoin/secp256k1
*
*
* To build secp256k1 for use with bitcoinj, run
* `./configure --enable-jni --enable-experimental --enable-module-ecdh`
* and `make` then copy `.libs/libsecp256k1.so` to your system library path
* or point the JVM to the folder containing it with -Djava.library.path
*
*/
public object NativeSecp256k1 {
private val rwl = ReentrantReadWriteLock()
private val r: Lock = rwl.readLock()
private val w: Lock = rwl.writeLock()
private val nativeECDSABuffer = ThreadLocal<ByteBuffer?>()
private fun pack(vararg buffers: ByteArray): ByteBuffer {
var size = 0
for (i in buffers.indices) {
size += buffers[i].size
}
val byteBuff = nativeECDSABuffer.get()?.takeIf { it.capacity() >= size }
?: ByteBuffer.allocateDirect(size).also {
it.order(ByteOrder.nativeOrder())
nativeECDSABuffer.set(it)
}
byteBuff.rewind()
for (i in buffers.indices) {
byteBuff.put(buffers[i])
}
return byteBuff
}
/**
* Verifies the given secp256k1 signature in native code.
* Calling when enabled == false is undefined (probably library not loaded)
*
* @param data The data which was signed, must be exactly 32 bytes
* @param signature The signature
* @param pub The public key which did the signing
* @return true if the signature is valid
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean {
require(data.size == 32 && signature.size <= 520 && pub.size <= 520)
val byteBuff = pack(data, signature, pub)
r.lock()
return try {
secp256k1_ecdsa_verify(
byteBuff,
Secp256k1Context.getContext(),
signature.size,
pub.size
) == 1
} finally {
r.unlock()
}
}
/**
* libsecp256k1 Create an ECDSA signature.
*
* @param data Message hash, 32 bytes
* @param sec Secret key, 32 bytes
* @param compact True for compact signature, false for DER
* @return a signature, or an empty array is signing failed
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun sign(data: ByteArray, sec: ByteArray, compact: Boolean): ByteArray {
require(data.size == 32 && sec.size <= 32)
val byteBuff = pack(data, sec)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ecdsa_sign(
byteBuff,
compact,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val sigArr = retByteArray[0]
val sigLen = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(
sigArr.size,
sigLen,
"Got bad signature length."
)
return if (retVal == 0) ByteArray(0) else sigArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun signatureNormalize(sig: ByteArray, compact: Boolean): Pair<ByteArray, Boolean> {
require(sig.size == 64 || sig.size in 70..73)
val byteBuff = pack(sig)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ecdsa_normalize(
byteBuff,
sig.size,
compact,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val sigArr = retByteArray[0]
val sigLen = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
val retBool = BigInteger(byteArrayOf(retByteArray[1][2])).toInt()
NativeSecp256k1Util.assertEquals(
sigArr.size,
sigLen,
"Got bad signature length."
)
return (if (retVal == 0) ByteArray(0) else sigArr) to (retBool == 1)
}
/**
* libsecp256k1 Seckey Verify - returns 1 if valid, 0 if invalid
*
* @param seckey ECDSA Secret key, 32 bytes
* @return true if seckey is valid
*/
@JvmStatic
public fun secKeyVerify(seckey: ByteArray): Boolean {
require(seckey.size == 32)
val byteBuff = pack(seckey)
r.lock()
return try {
secp256k1_ec_seckey_verify(
byteBuff,
Secp256k1Context.getContext()
) == 1
} finally {
r.unlock()
}
}
/**
* libsecp256k1 Compute Pubkey - computes public key from secret key
*
* @param seckey ECDSA Secret key, 32 bytes
* @throws AssertFailException if parameters are not valid
* @return the corresponding public key (uncompressed)
*/
//TODO add a 'compressed' arg
@JvmStatic
@Throws(AssertFailException::class)
public fun computePubkey(seckey: ByteArray, compressed: Boolean): ByteArray {
require(seckey.size == 32)
val byteBuff = pack(seckey)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ec_pubkey_create(
byteBuff,
compressed,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
val pubLen = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubArr.size, pubLen, "Got bad pubkey length.")
return if (retVal == 0) ByteArray(0) else pubArr
}
/**
* @param pubkey public key
* @return the input public key (uncompressed) if valid, or an empty array
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun parsePubkey(pubkey: ByteArray, compressed: Boolean): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ec_pubkey_parse(
byteBuff,
Secp256k1Context.getContext(),
pubkey.size,
compressed
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(
pubArr.size,
if (compressed) 33 else 65,
"Got bad pubkey length."
)
return if (retVal == 0) ByteArray(0) else pubArr
}
/**
* libsecp256k1 Cleanup - This destroys the secp256k1 context object
* This should be called at the end of the program for proper cleanup of the context.
*/
@JvmStatic
@Synchronized
public fun cleanup() {
w.lock()
try {
secp256k1_destroy_context(Secp256k1Context.getContext())
} finally {
w.unlock()
}
}
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyNegate(privkey: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_privkey_negate(
byteBuff,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val privArr = retByteArray[0]
val privLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(
privArr.size,
privLen,
"Got bad privkey length."
)
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return privArr
}
/**
* libsecp256k1 PrivKey Tweak-Mul - Tweak privkey by multiplying to it
*
* @param privkey 32-byte seckey
* @param tweak some bytes to tweak with
* @return privkey * tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey, tweak)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_privkey_tweak_mul(
byteBuff,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val privArr = retByteArray[0]
val privLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(
privArr.size,
privLen,
"Got bad privkey length."
)
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return privArr
}
/**
* libsecp256k1 PrivKey Tweak-Add - Tweak privkey by adding to it
*
* @param privkey 32-byte seckey
* @param tweak some bytes to tweak with
* @return privkey + tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
val byteBuff = pack(privkey, tweak)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_privkey_tweak_add(
byteBuff,
Secp256k1Context.getContext()
)
} finally {
r.unlock()
}
val privArr = retByteArray[0]
val privLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(privArr.size, privLen, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return privArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyNegate(pubkey: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_pubkey_negate(
byteBuff,
Secp256k1Context.getContext(),
pubkey.size
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
val pubLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubArr.size, pubLen, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return pubArr
}
/**
* libsecp256k1 PubKey Tweak-Add - Tweak pubkey by adding to it
*
* @param tweak some bytes to tweak with
* @param pubkey 32-byte seckey
* @return pubkey + tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey, tweak)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_pubkey_tweak_add(
byteBuff,
Secp256k1Context.getContext(),
pubkey.size
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
val pubLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubArr.size, pubLen, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return pubArr
}
/**
* libsecp256k1 PubKey Tweak-Mul - Tweak pubkey by multiplying to it
*
* @param tweak some bytes to tweak with
* @param pubkey 32-byte seckey
* @return pubkey * tweak
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
val byteBuff = pack(pubkey, tweak)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_pubkey_tweak_mul(
byteBuff,
Secp256k1Context.getContext(),
pubkey.size
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
val pubLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubArr.size, pubLen, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return pubArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
require(pubkey1.size == 33 || pubkey1.size == 65)
require(pubkey2.size == 33 || pubkey2.size == 65)
val byteBuff = pack(pubkey1, pubkey2)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ec_pubkey_add(
byteBuff,
Secp256k1Context.getContext(),
pubkey1.size,
pubkey2.size
)
} finally {
r.unlock()
}
val pubArr = retByteArray[0]
val pubLen: Int = BigInteger(byteArrayOf(retByteArray[1][0])).toInt() and 0xFF
val retVal = BigInteger(byteArrayOf(retByteArray[1][1])).toInt()
NativeSecp256k1Util.assertEquals(pubkey1.size, pubLen, "Got bad pubkey length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return pubArr
}
/**
* libsecp256k1 create ECDH secret - constant time ECDH calculation
*
* @param seckey byte array of secret key used in exponentiaion
* @param pubkey byte array of public key used in exponentiaion
* @return ecdh(sedckey, pubkey)
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Throws(AssertFailException::class)
public fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray {
require(seckey.size <= 32 && pubkey.size <= 65)
val byteBuff = pack(seckey, pubkey)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ecdh(
byteBuff,
Secp256k1Context.getContext(),
pubkey.size
)
} finally {
r.unlock()
}
val resArr = retByteArray[0]
val retVal = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
NativeSecp256k1Util.assertEquals(resArr.size, 32, "Got bad result length.")
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return resArr
}
@JvmStatic
@Throws(AssertFailException::class)
public fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, compressed: Boolean): ByteArray {
require(sig.size == 64)
require(message.size == 32)
val byteBuff = pack(sig, message)
val retByteArray: Array<ByteArray>
r.lock()
retByteArray = try {
secp256k1_ecdsa_recover(
byteBuff,
Secp256k1Context.getContext(),
recid,
compressed
)
} finally {
r.unlock()
}
val resArr = retByteArray[0]
val retVal = BigInteger(byteArrayOf(retByteArray[1][0])).toInt()
NativeSecp256k1Util.assertEquals(
resArr.size,
if (compressed) 33 else 65,
"Got bad result length."
)
NativeSecp256k1Util.assertEquals(retVal, 1, "Failed return value check.")
return resArr
}
/**
* libsecp256k1 randomize - updates the context randomization
*
* @param seed 32-byte random seed
* @return true if successful
* @throws AssertFailException in case of failure
*/
@JvmStatic
@Synchronized
@Throws(AssertFailException::class)
public fun randomize(seed: ByteArray): Boolean {
require(seed.size == 32)
val byteBuff = pack(seed)
w.lock()
return try {
secp256k1_context_randomize(
byteBuff,
Secp256k1Context.getContext()
) == 1
} finally {
w.unlock()
}
}
@JvmStatic private external fun secp256k1_context_randomize(byteBuff: ByteBuffer, context: Long): Int
@JvmStatic private external fun secp256k1_privkey_negate(byteBuff: ByteBuffer, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_privkey_tweak_add(byteBuff: ByteBuffer, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_privkey_tweak_mul(byteBuff: ByteBuffer, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_pubkey_negate(byteBuff: ByteBuffer, context: Long, pubLen: Int): Array<ByteArray>
@JvmStatic private external fun secp256k1_pubkey_tweak_add(byteBuff: ByteBuffer, context: Long, pubLen: Int): Array<ByteArray>
@JvmStatic private external fun secp256k1_pubkey_tweak_mul(byteBuff: ByteBuffer, context: Long, pubLen: Int): Array<ByteArray>
@JvmStatic private external fun secp256k1_destroy_context(context: Long)
@JvmStatic private external fun secp256k1_ecdsa_verify(byteBuff: ByteBuffer, context: Long, sigLen: Int, pubLen: Int): Int
@JvmStatic private external fun secp256k1_ecdsa_sign(byteBuff: ByteBuffer, compact: Boolean, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_ecdsa_normalize(byteBuff: ByteBuffer, sigLen: Int, compact: Boolean, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_ec_seckey_verify(byteBuff: ByteBuffer, context: Long): Int
@JvmStatic private external fun secp256k1_ec_pubkey_create(byteBuff: ByteBuffer, compressed: Boolean, context: Long): Array<ByteArray>
@JvmStatic private external fun secp256k1_ec_pubkey_parse(byteBuff: ByteBuffer, context: Long, inputLen: Int, compressed: Boolean): Array<ByteArray>
@JvmStatic private external fun secp256k1_ec_pubkey_add(byteBuff: ByteBuffer, context: Long, lent1: Int, len2: Int): Array<ByteArray>
@JvmStatic private external fun secp256k1_ecdh(byteBuff: ByteBuffer, context: Long, inputLen: Int): Array<ByteArray>
@JvmStatic private external fun secp256k1_ecdsa_recover(byteBuff: ByteBuffer, context: Long, recid: Int, compressed: Boolean): Array<ByteArray>
}

View File

@ -1,28 +0,0 @@
/*
* Copyright 2014-2016 the libsecp256k1 contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.bitcoin
import kotlin.jvm.Throws
import java.lang.Exception
internal object NativeSecp256k1Util {
@Throws(AssertFailException::class)
fun assertEquals(val1: Int, val2: Int, message: String) {
if (val1 != val2) throw AssertFailException("FAIL: $message")
}
class AssertFailException(message: String?) : Exception(message)
}

View File

@ -1,39 +0,0 @@
/*
* Copyright 2014-2016 the libsecp256k1 contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.bitcoin
/**
* This class holds the context reference used in native methods
* to handle ECDSA operations.
*/
public object Secp256k1Context {
@JvmStatic
public val isEnabled: Boolean //true if the library is loaded
private val context: Long //ref to pointer to context obj
@JvmStatic
public fun getContext(): Long {
return if (!isEnabled) -1 else context //sanity check
}
@JvmStatic private external fun secp256k1_init_context(): Long
init { //static initializer
isEnabled = true
context =
secp256k1_init_context()
}
}

View File

@ -5,7 +5,7 @@ import platform.posix.size_tVar
import secp256k1.*
@OptIn(ExperimentalUnsignedTypes::class)
public actual object Secp256k1 {
public object Secp256k1Native : Secp256k1 {
private val ctx: CPointer<secp256k1_context> by lazy {
secp256k1_context_create((SECP256K1_FLAGS_TYPE_CONTEXT or SECP256K1_FLAGS_BIT_CONTEXT_SIGN or SECP256K1_FLAGS_BIT_CONTEXT_VERIFY).toUInt())
@ -28,7 +28,7 @@ public actual object Secp256k1 {
}
private fun MemScope.serializeSignature(signature: secp256k1_ecdsa_signature, format: SigFormat): ByteArray {
val natOutput = allocArray<UByteVar>(format.size)
val natOutput = allocArray<UByteVar>(format.maxSize)
when (format) {
SigFormat.DER -> {
val outputLen = alloc<size_tVar>()
@ -65,7 +65,7 @@ public actual object Secp256k1 {
return pinned.addressOf(0)
}
public actual fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean {
public override fun verify(data: ByteArray, signature: ByteArray, pub: ByteArray): Boolean {
require(data.size == 32)
require(pub.size == 33 || pub.size == 65)
memScoped {
@ -76,7 +76,7 @@ public actual object Secp256k1 {
}
}
public actual fun sign(data: ByteArray, sec: ByteArray, format: SigFormat): ByteArray {
public override fun sign(data: ByteArray, sec: ByteArray, format: SigFormat): ByteArray {
require(sec.size == 32)
require(data.size == 32)
memScoped {
@ -89,7 +89,7 @@ public actual object Secp256k1 {
}
}
public actual fun signatureNormalize(sig: ByteArray, format: SigFormat): Pair<ByteArray, Boolean> {
public override fun signatureNormalize(sig: ByteArray, format: SigFormat): Pair<ByteArray, Boolean> {
require(sig.size == 64 || sig.size in 70..73)
memScoped {
val nSig = allocSignature(sig)
@ -98,7 +98,7 @@ public actual object Secp256k1 {
}
}
public actual fun secKeyVerify(seckey: ByteArray): Boolean {
public override fun secKeyVerify(seckey: ByteArray): Boolean {
require(seckey.size == 32)
memScoped {
val nSec = toNat(seckey)
@ -106,30 +106,30 @@ public actual object Secp256k1 {
}
}
public actual fun computePubkey(seckey: ByteArray, format: PubKeyFormat): ByteArray {
public override fun computePubkey(seckey: ByteArray, format: PubKeyFormat): ByteArray {
require(seckey.size == 32)
memScoped {
val nSec = toNat(seckey)
val nPubkey = alloc<secp256k1_pubkey>()
val result = secp256k1_ec_pubkey_create(ctx, nPubkey.ptr, nSec)
if (result == 0) return ByteArray(0)
return serializePubkey(nPubkey, format.size)
return serializePubkey(nPubkey, format.maxSize)
}
}
public actual fun parsePubkey(pubkey: ByteArray, format: PubKeyFormat): ByteArray {
public override fun parsePubkey(pubkey: ByteArray, format: PubKeyFormat): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
memScoped {
val nPubkey = allocPublicKey(pubkey)
return serializePubkey(nPubkey, format.size)
return serializePubkey(nPubkey, format.maxSize)
}
}
public actual fun cleanup() {
public override fun cleanup() {
secp256k1_context_destroy(ctx)
}
public actual fun privKeyNegate(privkey: ByteArray): ByteArray {
public override fun privKeyNegate(privkey: ByteArray): ByteArray {
require(privkey.size == 32)
memScoped {
val negated = privkey.copyOf()
@ -139,7 +139,7 @@ public actual object Secp256k1 {
}
}
public actual fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
public override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
memScoped {
val multiplied = privkey.copyOf()
@ -150,7 +150,7 @@ public actual object Secp256k1 {
}
}
public actual fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
public override fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
require(privkey.size == 32)
memScoped {
val added = privkey.copyOf()
@ -161,7 +161,7 @@ public actual object Secp256k1 {
}
}
public actual fun pubKeyNegate(pubkey: ByteArray): ByteArray {
public override fun pubKeyNegate(pubkey: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
memScoped {
val nPubkey = allocPublicKey(pubkey)
@ -170,7 +170,7 @@ public actual object Secp256k1 {
}
}
public actual fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
public override fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
memScoped {
val nPubkey = allocPublicKey(pubkey)
@ -180,7 +180,7 @@ public actual object Secp256k1 {
}
}
public actual fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
public override fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
require(pubkey.size == 33 || pubkey.size == 65)
memScoped {
val nPubkey = allocPublicKey(pubkey)
@ -190,7 +190,7 @@ public actual object Secp256k1 {
}
}
public actual fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
public override fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
require(pubkey1.size == 33 || pubkey1.size == 65)
require(pubkey2.size == 33 || pubkey2.size == 65)
memScoped {
@ -202,7 +202,7 @@ public actual object Secp256k1 {
}
}
public actual fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray {
public override fun createECDHSecret(seckey: ByteArray, pubkey: ByteArray): ByteArray {
require(seckey.size == 32)
require(pubkey.size == 33 || pubkey.size == 65)
memScoped {
@ -214,7 +214,7 @@ public actual object Secp256k1 {
}
}
public actual fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, format: PubKeyFormat): ByteArray {
public override fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int, format: PubKeyFormat): ByteArray {
require(sig.size == 64)
require(message.size == 32)
memScoped {
@ -224,11 +224,11 @@ public actual object Secp256k1 {
val nMessage = toNat(message)
val pubkey = alloc<secp256k1_pubkey>()
secp256k1_ecdsa_recover(ctx, pubkey.ptr, rSig.ptr, nMessage).requireSuccess()
return serializePubkey(pubkey, format.size)
return serializePubkey(pubkey, format.maxSize)
}
}
public actual fun randomize(seed: ByteArray): Boolean {
public override fun randomize(seed: ByteArray): Boolean {
require(seed.size == 32)
memScoped {
val nSeed = toNat(seed)
@ -236,3 +236,5 @@ public actual object Secp256k1 {
}
}
}
internal actual fun getSecpk256k1(): Secp256k1 = Secp256k1Native