Use local secp256k1 callbacks in kotlin native code

Set version to 0.12.0-SNAPSHOT
Implement custom secp256k1 error callbacks
2023-12-12 12:08:13 +01:00 · 2023-12-11 19:08:54 +01:00 · 2023-12-11 19:05:46 +01:00 · 2023-12-11 11:54:07 +01:00 · 2023-12-11 10:46:43 +01:00 · 2023-09-28 09:50:24 +02:00
37 changed files with 1900 additions and 1146 deletions
--- a/.github/workflows/release.yml
+++ b/.github/workflows/release.yml
@@ -29,11 +29,13 @@ jobs:
          key: ${{ runner.os }}-gradle-${{ hashFiles('**/*.gradle*') }}-${{ hashFiles('**/gradle/wrapper/gradle-wrapper.properties') }}
          restore-keys: ${{ runner.os }}-gradle-
      - name: Android environment
        if: matrix.os != 'windows-latest'
        shell: bash
        run: |
          echo "ANDROID_HOME=$ANDROID_HOME" >> $GITHUB_ENV
-          echo "ANDROID_NDK_VERSION=21.4.7075529" >> $GITHUB_ENV
+          echo "ANDROID_NDK_VERSION=25.2.9519653" >> $GITHUB_ENV
      - name: Cached Android NDK
        if: matrix.os != 'windows-latest'
        uses: actions/cache@v2
        with:
          path: ${{ format('{0}/ndk/{1}', env.ANDROID_HOME, env.ANDROID_NDK_VERSION) }}
@@ -43,6 +45,19 @@ jobs:
        run: |
          echo "C:\msys64\usr\bin" | Out-File -FilePath $env:GITHUB_PATH -Encoding utf8 -Append
          rm.exe "C:/WINDOWS/system32/bash.EXE"
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Install Automake (windows)
        if: matrix.os == 'windows-latest'
        uses: msys2/setup-msys2@v2
        with:
          path-type: minimal
          update: true
          install: >-
            base-devel
            autotools
            mingw-w64-x86_64-gcc
      - name: Set up JDK 8
        uses: actions/setup-java@v1
        with:
@@ -54,18 +69,19 @@ jobs:
          $ANDROID_HOME/tools/bin/sdkmanager "ndk;$ANDROID_NDK_VERSION"
      - name: Setup Android
        if: matrix.os == 'windows-latest'
-        shell: bash
+        shell: msys2 {0}
        run: |
-          $ANDROID_HOME\\tools\\bin\\sdkmanager.bat "ndk;$ANDROID_NDK_VERSION"
+          echo "skip.android=true" > local.properties
      - name: Set up JDK 11
        uses: actions/setup-java@v1
        with:
          java-version: 11
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Check JVM
-        shell: bash
+        if: matrix.os != 'windows-latest'
        run: ./gradlew jvmTest
      - name: Check JVM (Windows)
        if: matrix.os == 'windows-latest'
        shell: msys2 {0}
        run: ./gradlew jvmTest
      - name: Check Linux
        if: matrix.os == 'ubuntu-latest'
@@ -79,35 +95,22 @@ jobs:
        if: matrix.os == 'macOS-latest'
        uses: reactivecircus/android-emulator-runner@v2
        with:
-          api-level: 29
+          api-level: 27
          emulator-build: 7425822  # workaround to emulator bug: https://github.com/ReactiveCircus/android-emulator-runner/issues/160
          emulator-options: -no-snapshot-save -no-window -gpu swiftshader_indirect -noaudio -no-boot-anim -camera-back none
          ndk: ${{ env.ANDROID_NDK_VERSION }}
-          cmake: 3.10.2.4988404
+          cmake: 3.22.1
          script: ./gradlew connectedCheck
      - name: Publish Linux
        if: matrix.os == 'ubuntu-latest'
        env:
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew publishLinuxPublicationToBintrayRepository :jni:jvm:linux:publishJvmPublicationToBintrayRepository
        run: ./gradlew publishLinuxPublicationToMavenLocal :jni:jvm:linux:publishJvmPublicationToMavenLocal
      - name: Publish Windows
        if: matrix.os == 'windows-latest'
-        env:
+        shell: msys2 {0}
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew :jni:jvm:mingw:publishJvmPublicationToBintrayRepository
        run: ./gradlew :jni:jvm:mingw:publishToMavenLocal
      - name: Publish MacOS
        if: matrix.os == 'macOS-latest'
        env:
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew publish
        run: ./gradlew publishToMavenLocal
      - name: Copy artifact files
        run: |
@@ -120,9 +123,3 @@ jobs:
          path: |
            maven-local
            !maven-local/**/maven-metadata-local.xml
 #      - name: Discard
 #        if: ${{ failure() || cancelled() }}
 #        env:
 #          BINTRAY_USER: ${{ secrets.bintray_user }}
 #          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
 #        run: ./gradlew postBintrayDiscard
--- a/.github/workflows/snapshot.yml
+++ b/.github/workflows/snapshot.yml
@@ -38,11 +38,13 @@ jobs:
          key: ${{ runner.os }}-gradle-${{ hashFiles('**/*.gradle*') }}-${{ hashFiles('**/gradle/wrapper/gradle-wrapper.properties') }}
          restore-keys: ${{ runner.os }}-gradle-
      - name: Android environment
        if: matrix.os != 'windows-latest'
        shell: bash
        run: |
          echo "ANDROID_HOME=$ANDROID_HOME" >> $GITHUB_ENV
-          echo "ANDROID_NDK_VERSION=21.4.7075529" >> $GITHUB_ENV
+          echo "ANDROID_NDK_VERSION=25.2.9519653" >> $GITHUB_ENV
      - name: Cached Android NDK
        if: matrix.os != 'windows-latest'
        uses: actions/cache@v2
        with:
          path: ${{ format('{0}/ndk/{1}', env.ANDROID_HOME, env.ANDROID_NDK_VERSION) }}
@@ -52,6 +54,19 @@ jobs:
        run: |
          echo "C:\msys64\usr\bin" | Out-File -FilePath $env:GITHUB_PATH -Encoding utf8 -Append
          rm.exe "C:/WINDOWS/system32/bash.EXE"
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Install Automake (windows)
        if: matrix.os == 'windows-latest'
        uses: msys2/setup-msys2@v2
        with:
          path-type: minimal
          update: true
          install: >-
            base-devel
            autotools
            mingw-w64-x86_64-gcc
      - name: Set up JDK 8
        uses: actions/setup-java@v1
        with:
@@ -63,18 +78,19 @@ jobs:
          $ANDROID_HOME/tools/bin/sdkmanager "ndk;$ANDROID_NDK_VERSION"
      - name: Setup Android
        if: matrix.os == 'windows-latest'
-        shell: bash
+        shell: msys2 {0}
        run: |
-          $ANDROID_HOME\\tools\\bin\\sdkmanager.bat "ndk;$ANDROID_NDK_VERSION"
+          echo "skip.android=true" > local.properties
      - name: Set up JDK 11
        uses: actions/setup-java@v1
        with:
          java-version: 11
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Check JVM
-        shell: bash
+        if: matrix.os != 'windows-latest'
        run: ./gradlew jvmTest
      - name: Check JVM (Windows)
        if: matrix.os == 'windows-latest'
        shell: msys2 {0}
        run: ./gradlew jvmTest
      - name: Check Linux
        if: matrix.os == 'ubuntu-latest'
@@ -88,35 +104,22 @@ jobs:
        if: matrix.os == 'macOS-latest'
        uses: reactivecircus/android-emulator-runner@v2
        with:
-          api-level: 29
+          api-level: 27
          -build: 7425822  # workaround to emulator bug: https://github.com/ReactiveCircus/android-emulator-runner/issues/160
          emulator-options: -no-snapshot-save -no-window -gpu swiftshader_indirect -noaudio -no-boot-anim -camera-back none
          ndk: ${{ env.ANDROID_NDK_VERSION }}
-          cmake: 3.10.2.4988404
+          cmake: 3.22.1
          script: ./gradlew connectedCheck
      - name: Publish Linux
        if: matrix.os == 'ubuntu-latest'
        env:
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew publishLinuxPublicationToBintrayRepository :jni:jvm:linux:publishJvmPublicationToBintrayRepository -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
        run: ./gradlew publishLinuxPublicationToMavenLocal :jni:jvm:linux:publishJvmPublicationToMavenLocal -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
      - name: Publish Windows
        if: matrix.os == 'windows-latest'
-        env:
+        shell: msys2 {0}
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew :jni:jvm:mingw:publishJvmPublicationToBintrayRepository -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
        run: ./gradlew :jni:jvm:mingw:publishToMavenLocal -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
      - name: Publish MacOS
        if: matrix.os == 'macOS-latest'
        env:
          BINTRAY_USER: ${{ secrets.bintray_user }}
          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
        shell: bash
 #          ./gradlew publish -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
        run: ./gradlew publishToMavenLocal -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
      - name: Copy artifact files
        run: |
@@ -129,34 +132,4 @@ jobs:
          path: |
            maven-local
            !maven-local/**/maven-metadata-local.xml
 #      - name: Discard
 #        if: ${{ failure() || cancelled() }}
 #        env:
 #          BINTRAY_USER: ${{ secrets.bintray_user }}
 #          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
 #        run: ./gradlew postBintrayDiscard -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
 #  publish:
 #    name: Publish
 #    needs: upload
 #    runs-on: ubuntu-latest
 #    steps:
 #      - name: Check out
 #        uses: actions/checkout@v2
 #        with:
 #          submodules: 'true'
 #      - name: Cached Gradle
 #        uses: actions/cache@v2
 #        with:
 #          path: ~/.gradle
 #          key: ${{ runner.os }}-gradle-${{ hashFiles('**/*.gradle*') }}-${{ hashFiles('**/gradle/wrapper/gradle-wrapper.properties') }}
 #          restore-keys: ${{ runner.os }}-gradle-
 #      - name: Set up JDK 11
 #        uses: actions/setup-java@v1
 #        with:
 #          java-version: 11
 #      - name: Publish
 #        env:
 #          BINTRAY_USER: ${{ secrets.bintray_user }}
 #          BINTRAY_APIKEY: ${{ secrets.bintray_apikey }}
 #        run: ./gradlew postBintrayPublish -PsnapshotNumber=${{ github.run_number }} -PgitRef=${{ github.ref }}
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -44,11 +44,13 @@ jobs:
          key: ${{ runner.os }}-gradle-${{ hashFiles('**/*.gradle*') }}-${{ hashFiles('**/gradle/wrapper/gradle-wrapper.properties') }}
          restore-keys: ${{ runner.os }}-gradle-
      - name: Android environment
        if: matrix.os != 'windows-latest'
        shell: bash
        run: |
          echo "ANDROID_HOME=$ANDROID_HOME" >> $GITHUB_ENV
-          echo "ANDROID_NDK_VERSION=21.4.7075529" >> $GITHUB_ENV
+          echo "ANDROID_NDK_VERSION=25.2.9519653" >> $GITHUB_ENV
      - name: Cached Android NDK
        if: matrix.os != 'windows-latest'
        uses: actions/cache@v2
        with:
          path: ${{ format('{0}/ndk/{1}', env.ANDROID_HOME, env.ANDROID_NDK_VERSION) }}
@@ -58,6 +60,19 @@ jobs:
        run: |
          echo "C:\msys64\usr\bin" | Out-File -FilePath $env:GITHUB_PATH -Encoding utf8 -Append
          rm.exe "C:/WINDOWS/system32/bash.EXE"
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Install Automake (windows)
        if: matrix.os == 'windows-latest'
        uses: msys2/setup-msys2@v2
        with:
          path-type: minimal
          update: true
          install: >-
            base-devel
            autotools
            mingw-w64-x86_64-gcc
      - name: Set up JDK 8
        uses: actions/setup-java@v1
        with:
@@ -69,18 +84,19 @@ jobs:
          $ANDROID_HOME/tools/bin/sdkmanager "ndk;$ANDROID_NDK_VERSION"
      - name: Setup Android
        if: matrix.os == 'windows-latest'
-        shell: bash
+        shell: msys2 {0}
        run: |
-          $ANDROID_HOME\\tools\\bin\\sdkmanager.bat "ndk;$ANDROID_NDK_VERSION"
+          echo "skip.android=true" > local.properties
      - name: Set up JDK 11
        uses: actions/setup-java@v1
        with:
          java-version: 11
      - name: Install Automake
        if: matrix.os == 'macOS-latest'
        run: brew install automake
      - name: Check JVM
-        shell: bash
+        if: matrix.os != 'windows-latest'
        run: ./gradlew jvmTest
      - name: Check JVM (Windows)
        if: matrix.os == 'windows-latest'
        shell: msys2 {0}
        run: ./gradlew jvmTest
      - name: Check Linux
        if: matrix.os == 'ubuntu-latest'
@@ -94,9 +110,8 @@ jobs:
        if: matrix.os == 'macOS-latest'
        uses: reactivecircus/android-emulator-runner@v2
        with:
-          api-level: 29
+          api-level: 27
          emulator-build: 7425822  # workaround to emulator bug: https://github.com/ReactiveCircus/android-emulator-runner/issues/160
          emulator-options: -no-snapshot-save -no-window -gpu swiftshader_indirect -noaudio -no-boot-anim -camera-back none
          ndk: ${{ env.ANDROID_NDK_VERSION }}
-          cmake: 3.10.2.4988404
+          cmake: 3.22.1
          script: ./gradlew connectedCheck
--- a/README.md
+++ b/README.md
@@ -1,4 +1,4 @@
-[![Kotlin](https://img.shields.io/badge/Kotlin-1.4.31-blue.svg?style=flat&logo=kotlin)](http://kotlinlang.org)
+[![Kotlin](https://img.shields.io/badge/Kotlin-1.8.21-blue.svg?style=flat&logo=kotlin)](http://kotlinlang.org)
 [![Maven Central](https://img.shields.io/maven-central/v/fr.acinq.secp256k1/secp256k1-kmp)](https://search.maven.org/search?q=g:fr.acinq.secp256k1%20a:secp256k1-kmp*)
 ![Github Actions](https://github.com/ACINQ/secp256k1-kmp/actions/workflows/test.yml/badge.svg)
 [![License](https://img.shields.io/badge/License-Apache%202.0-blue.svg)](https://github.com/ACINQ/secp256k1-kmp/blob/master/LICENSE)
@@ -30,19 +30,19 @@ kotlin {
        val commonMain by getting {
            dependencies {
                implementation(kotlin("stdlib-common"))
-                implementation(kotlin("fr.acinq.secp256k1:secp256k1:$secp256k1_version"))
+                implementation("fr.acinq.secp256k1:secp256k1-kmp:$secp256k1_version")
            }
        }
        val jvmMain by getting {
            dependencies {
                implementation(kotlin("stdlib"))
-                implementation(kotlin("fr.acinq.secp256k1:secp256k1-jni-jvm:$secp256k1_version"))
+                implementation("fr.acinq.secp256k1:secp256k1-kmp-jni-jvm:$secp256k1_version")
            }
        }
        val androidMain by getting {
            dependencies {
                implementation(kotlin("stdlib"))
-                implementation(kotlin("fr.acinq.secp256k1:secp256k1-jni-android:$secp256k1_version"))
+                implementation("fr.acinq.secp256k1:secp256k1-kmp-jni-android:$secp256k1_version")
            }
        }
    }
@@ -58,22 +58,22 @@ Native targets include libsecp256k1, called through KMP's c-interop, simply add
 The JVM library uses JNI bindings for libsecp256k1, which is much faster than BouncyCastle. It will extract and load native bindings for your operating system in a temporary directory.
 JNI libraries are included for:
- Linux 64 bits
+- Linux 64 bits (x86_64 and arm64)
- Windows 64 bits
+- Windows 64 bits (x86_64)
- Macos 64 bits
+- Macos 64 bits (x86_64 and arm64)
 Along this library, you **must** specify which JNI native library to use in your dependency manager:
 * **For desktop or server JVMs**, you must add the dependency:
-  * Either the `fr.acinq.secp256k1:secp256k1-jni-jvm` dependency which imports all supported platforms.
+  * Either the `fr.acinq.secp256k1:secp256k1-kmp-jni-jvm` dependency which imports all supported platforms.
  * Or the platform specific dependencies (note that you can add multiple as they do not conflict):
-    * `fr.acinq.secp256k1:secp256k1-jni-jvm-linux` for Linux
+    * `fr.acinq.secp256k1:secp256k1-kmp-jni-jvm-linux` for Linux
-    * `fr.acinq.secp256k1:secp256k1-jni-jvm-darwin` for Mac OS X
+    * `fr.acinq.secp256k1:secp256k1-kmp-jni-jvm-darwin` for Mac OS X
-    * `fr.acinq.secp256k1:secp256k1-jni-jvm-mingw` for Windows
+    * `fr.acinq.secp256k1:secp256k1-kmp-jni-jvm-mingw` for Windows
-* **For Android**, you must add the `fr.acinq.secp256k1:secp256k1-jni-android` dependency
+* **For Android**, you must add the `fr.acinq.secp256k1:secp256k1-kmp-jni-android` dependency
 If you are using the JVM on an OS for which we don't provide JNI bindings (32 bits OS for example), you can use your own library native library by
-adding the `fr.acinq.secp256k1:secp256k1-jni-jvm` dependency and specifying its path with `-Dfr.acinq.secp256k1.lib.path` and optionally its name with `-Dfr.acinq.secp256k1.lib.name`
+adding the `fr.acinq.secp256k1:secp256k1-kmp-jni-jvm` dependency and specifying its path with `-Dfr.acinq.secp256k1.lib.path` and optionally its name with `-Dfr.acinq.secp256k1.lib.name`
 (if unspecified bitcoink use the standard name for your OS i.e. libsecp256k1.so on Linux, secp256k1.dll on Windows, ...).
 To compile your own JNI bindings, have a look add the `native/build.sh` and `jni/build.sh` scripts.
@@ -84,3 +84,58 @@ You can also specify the temporary directory where the library will be extracted
 ## Usage
 Please have a look at unit tests, more samples will be added soon.
 ## Building
 **secp256k1-kmp** is a [Kotlin Multiplatform](https://kotlinlang.org/docs/multiplatform.html) wrapper for Bitcoin Core's [secp256k1 library](https://github.com/bitcoin-core/secp256k1).
 To build the library you need the following:
 - Window 64 bits, Linux 64 bits, or MacOs 64 Bits
 - OpenJDK11 (we recommend using packages provided by https://adoptopenjdk.net/ but there are other options)
 - (optional) Android SDK
 It may work with other Operating Systems and JDKs, but then you're on your own (in particular we don't plan to support 32 bits Operating Systems).
 To build the library and publish compiled artefacts locally (so they can be used by other projects):
 ```sh
 ./gradlew :build
 ./gradlew :publishToMavenLocal
 ```
 To run all tests on all platforms:
 ```sh
 ./gradlew allTests
 ```
 To run tests on a single platform, for example the JVM:
 ```sh
 ./gradlew jvmTest
 ```
 If you want to skip building Android artefacts create a `local.properties` file in the project's root directory and add the following line:
 ```
 skip.android=true
 ```
 ## Contributing to and extending the library
 secp256k1-kmp follows 2 simples rules:
 - copy as literally as possible what the original [secp256k1 library](https://github.com/bitcoin-core/secp256k1) does: use the same function names, parameters, options, ... 
 - follow JNI best practices (memory allocation, error handling, ...)
 "Porting" C/C++ code that uses [secp256k1](https://github.com/bitcoin-core/secp256k1) should be a no-brainer and we should not have to document secp256k1-kmp
 To extend this library and support methods that have been added to specific versions of [secp256k1](https://github.com/bitcoin-core/secp256k1) you have to:
 - add new methods to the Secp256k1 interface src/commonMain/kotlin/fr/acinq/secp256k1/Secp256k1.kt (please follow rule #1 above and try and match secp256k1's interface as much as possible)
 - implement these new methods in jni/src/main/kotlin/fr/acinq/secp256k1/NativeSecp256k1.kt (JNI implementation) and src/nativeMain/kotlin/fr/acinq/secp256k1/Secp256k1Native.kt (native linux/ios/... implementation)
 - update the JNI interface src/main/java/fr/acinq/secp256k1/Secp256k1CFunctions.java (NativeSecp256k1 calls Secp256k1CFunctions)
 - generate a new JNI header file jni/c/headers/java/fr_acinq_secp256k1_Secp256k1CFunctions.h with `javac -h jni/c/headers/java jni/src/main/java/fr/acinq/secp256k1/Secp256k1CFunctions.java`
 - implement the new methods in jni/c/src/fr_acinq_secp256k1_Secp256k1CFunctions.c
 You may also need to modify build files if you need to compile [secp256k1](https://github.com/bitcoin-core/secp256k1) with custom options
 We use [secp256k1](https://github.com/bitcoin-core/secp256k1) through git submodules so you may also need to change what they point to
--- a/build.gradle.kts
+++ b/build.gradle.kts
@@ -1,16 +1,10 @@
 import org.apache.http.impl.client.HttpClients
 import org.apache.http.client.methods.HttpPost
 import org.apache.http.entity.ContentType
 import org.apache.http.entity.StringEntity
 import org.apache.http.impl.auth.BasicScheme
 import org.apache.http.auth.UsernamePasswordCredentials
 import org.gradle.internal.os.OperatingSystem
 import org.jetbrains.kotlin.gradle.plugin.mpp.KotlinNativeTarget
 import org.jetbrains.dokka.Platform
 plugins {
-    kotlin("multiplatform") version "1.4.32"
+    kotlin("multiplatform") version "1.8.21"
-    id("org.jetbrains.dokka") version "1.4.30"
+    id("org.jetbrains.dokka") version "1.8.10"
    `maven-publish`
 }
@@ -18,21 +12,19 @@ buildscript {
    repositories {
        google()
        mavenCentral()
        jcenter()
    }
    dependencies {
-        classpath("com.android.tools.build:gradle:4.0.2")
+        classpath("com.android.tools.build:gradle:7.3.1")
-        classpath("org.jetbrains.dokka:dokka-gradle-plugin:1.4.30")
+        classpath("org.jetbrains.dokka:dokka-gradle-plugin:1.8.10")
    }
 }
 allprojects {
    group = "fr.acinq.secp256k1"
-    version = "0.5.2"
+    version = "0.12.0-SNAPSHOT"
    repositories {
        jcenter()
        google()
        mavenCentral()
    }
@@ -77,9 +69,8 @@ kotlin {
    }
    sourceSets.all {
-        languageSettings.useExperimentalAnnotation("kotlin.RequiresOptIn")
+        languageSettings.optIn("kotlin.RequiresOptIn")
    }
 }
 // Disable cross compilation
@@ -166,6 +157,7 @@ allprojects {
                            Platform.js -> "js"
                            Platform.native -> "native"
                            Platform.common -> "common"
                            Platform.wasm -> "wasm"
                        }
                        displayName.set(platformName)
--- a/gradle.properties
+++ b/gradle.properties
@@ -4,14 +4,8 @@ org.gradle.parallel = true
 # kotlin
 kotlin.code.style = official
 kotlin.incremental.multiplatform = true
 kotlin.parallel.tasks.in.project = true
 #kotlin.mpp.enableGranularSourceSetsMetadata = true
 kotlin.native.enableDependencyPropagation = false
 kotlin.native.ignoreDisabledTargets = true
-
+kotlin.mpp.enableCInteropCommonization=true
 # https://github.com/gradle/gradle/issues/11412
 systemProp.org.gradle.internal.publish.checksums.insecure = true
 # Android
 android.useAndroidX = true
--- a/gradle/wrapper/gradle-wrapper.jar
+++ b/gradle/wrapper/gradle-wrapper.jar
--- a/gradle/wrapper/gradle-wrapper.properties
+++ b/gradle/wrapper/gradle-wrapper.properties
@@ -1,5 +1,6 @@
 distributionBase=GRADLE_USER_HOME
 distributionPath=wrapper/dists
-distributionUrl=https\://services.gradle.org/distributions/gradle-6.8.3-all.zip
+distributionUrl=https\://services.gradle.org/distributions/gradle-7.5.1-bin.zip
 distributionSha256Sum=f6b8596b10cce501591e92f229816aa4046424f3b24d771751b06779d58c8ec4
 zipStoreBase=GRADLE_USER_HOME
 zipStorePath=wrapper/dists
--- a/2
+++ b/2
@@ -82,6 +82,7 @@ esac
 CLASSPATH=$APP_HOME/gradle/wrapper/gradle-wrapper.jar
 # Determine the Java command to use to start the JVM.
 if [ -n "$JAVA_HOME" ] ; then
    if [ -x "$JAVA_HOME/jre/sh/java" ] ; then
@@ -129,6 +130,7 @@ fi
 if [ "$cygwin" = "true" -o "$msys" = "true" ] ; then
    APP_HOME=`cygpath --path --mixed "$APP_HOME"`
    CLASSPATH=`cygpath --path --mixed "$CLASSPATH"`
    JAVACMD=`cygpath --unix "$JAVACMD"`
    # We build the pattern for arguments to be converted via cygpath
--- a/gradlew.bat
+++ b/gradlew.bat
@@ -1,103 +1,89 @@
-@rem
+@rem
-@rem Copyright 2015 the original author or authors.
+@rem Copyright 2015 the original author or authors.
-@rem
+@rem
-@rem Licensed under the Apache License, Version 2.0 (the "License");
+@rem Licensed under the Apache License, Version 2.0 (the "License");
-@rem you may not use this file except in compliance with the License.
+@rem you may not use this file except in compliance with the License.
-@rem You may obtain a copy of the License at
+@rem You may obtain a copy of the License at
-@rem
+@rem
-@rem      https://www.apache.org/licenses/LICENSE-2.0
+@rem      https://www.apache.org/licenses/LICENSE-2.0
-@rem
+@rem
-@rem Unless required by applicable law or agreed to in writing, software
+@rem Unless required by applicable law or agreed to in writing, software
-@rem distributed under the License is distributed on an "AS IS" BASIS,
+@rem distributed under the License is distributed on an "AS IS" BASIS,
-@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+@rem WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-@rem See the License for the specific language governing permissions and
+@rem See the License for the specific language governing permissions and
-@rem limitations under the License.
+@rem limitations under the License.
-@rem
+@rem
-
+
-@if "%DEBUG%" == "" @echo off
+@if "%DEBUG%" == "" @echo off
-@rem ##########################################################################
+@rem ##########################################################################
-@rem
+@rem
-@rem  Gradle startup script for Windows
+@rem  Gradle startup script for Windows
-@rem
+@rem
-@rem ##########################################################################
+@rem ##########################################################################
-
+
-@rem Set local scope for the variables with windows NT shell
+@rem Set local scope for the variables with windows NT shell
-if "%OS%"=="Windows_NT" setlocal
+if "%OS%"=="Windows_NT" setlocal
-
+
-set DIRNAME=%~dp0
+set DIRNAME=%~dp0
-if "%DIRNAME%" == "" set DIRNAME=.
+if "%DIRNAME%" == "" set DIRNAME=.
-set APP_BASE_NAME=%~n0
+set APP_BASE_NAME=%~n0
-set APP_HOME=%DIRNAME%
+set APP_HOME=%DIRNAME%
-
+
-@rem Resolve any "." and ".." in APP_HOME to make it shorter.
+@rem Resolve any "." and ".." in APP_HOME to make it shorter.
-for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi
+for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi
-
+
-@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
+@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
-set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m"
+set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m"
-
+
-@rem Find java.exe
+@rem Find java.exe
-if defined JAVA_HOME goto findJavaFromJavaHome
+if defined JAVA_HOME goto findJavaFromJavaHome
-
+
-set JAVA_EXE=java.exe
+set JAVA_EXE=java.exe
-%JAVA_EXE% -version >NUL 2>&1
+%JAVA_EXE% -version >NUL 2>&1
-if "%ERRORLEVEL%" == "0" goto init
+if "%ERRORLEVEL%" == "0" goto execute
-
+
-echo.
+echo.
-echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
+echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
-echo.
+echo.
-echo Please set the JAVA_HOME variable in your environment to match the
+echo Please set the JAVA_HOME variable in your environment to match the
-echo location of your Java installation.
+echo location of your Java installation.
-
+
-goto fail
+goto fail
-
+
-:findJavaFromJavaHome
+:findJavaFromJavaHome
-set JAVA_HOME=%JAVA_HOME:"=%
+set JAVA_HOME=%JAVA_HOME:"=%
-set JAVA_EXE=%JAVA_HOME%/bin/java.exe
+set JAVA_EXE=%JAVA_HOME%/bin/java.exe
-
+
-if exist "%JAVA_EXE%" goto init
+if exist "%JAVA_EXE%" goto execute
-
+
-echo.
+echo.
-echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME%
+echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME%
-echo.
+echo.
-echo Please set the JAVA_HOME variable in your environment to match the
+echo Please set the JAVA_HOME variable in your environment to match the
-echo location of your Java installation.
+echo location of your Java installation.
-
+
-goto fail
+goto fail
-
+
-:init
+:execute
-@rem Get command-line arguments, handling Windows variants
+@rem Setup the command line
-
+
-if not "%OS%" == "Windows_NT" goto win9xME_args
+set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar
-
+
-:win9xME_args
+
-@rem Slurp the command line arguments.
+@rem Execute Gradle
-set CMD_LINE_ARGS=
+"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %*
-set _SKIP=2
+
-
+:end
-:win9xME_args_slurp
+@rem End local scope for the variables with windows NT shell
-if "x%~1" == "x" goto execute
+if "%ERRORLEVEL%"=="0" goto mainEnd
-
+
-set CMD_LINE_ARGS=%*
+:fail
-
+rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of
-:execute
+rem the _cmd.exe /c_ return code!
-@rem Setup the command line
+if  not "" == "%GRADLE_EXIT_CONSOLE%" exit 1
-
+exit /b 1
-set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar
+
-
+:mainEnd
-@rem Execute Gradle
+if "%OS%"=="Windows_NT" endlocal
-"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %CMD_LINE_ARGS%
+
-
+:omega
 :end
@rem End local scope for the variables with windows NT shell
 if "%ERRORLEVEL%"=="0" goto mainEnd
 :fail
 rem Set variable GRADLE_EXIT_CONSOLE if you need the _script_ return code instead of
 rem the _cmd.exe /c_ return code!
 if  not "" == "%GRADLE_EXIT_CONSOLE%" exit 1
 exit /b 1
 :mainEnd
 if "%OS%"=="Windows_NT" endlocal
 :omega
--- a/jni/android/build.gradle.kts
+++ b/jni/android/build.gradle.kts
@@ -1,5 +1,3 @@
 import org.jetbrains.dokka.Platform
 plugins {
    id("com.android.library")
    kotlin("android")
@@ -17,12 +15,9 @@ dependencies {
 android {
    defaultConfig {
-        compileSdkVersion(30)
+        compileSdk = 33
-        minSdkVersion(21)
+        minSdk = 21
        testInstrumentationRunner = "androidx.test.runner.AndroidJUnitRunner"
        externalNativeBuild {
            cmake {}
        }
    }
    compileOptions {
@@ -32,10 +27,12 @@ android {
    externalNativeBuild {
        cmake {
-            setPath("src/main/CMakeLists.txt")
+            version = "3.22.1"
            path("src/main/CMakeLists.txt")
        }
    }
-    ndkVersion = "21.4.7075529"
+
    ndkVersion = "25.2.9519653"
    afterEvaluate {
        tasks.withType<com.android.build.gradle.tasks.factory.AndroidUnitTest>().all {
@@ -45,8 +42,8 @@ android {
 }
 afterEvaluate {
-    configure(listOf("Debug", "Release").map { tasks["externalNativeBuild$it"] }) {
+    tasks.filter { it.name.startsWith("configureCMake") }.forEach {
-        dependsOn(":native:buildSecp256k1Android")
+        it.dependsOn(":native:buildSecp256k1Android")
    }
 }
--- a/jni/android/src/main/CMakeLists.txt
+++ b/jni/android/src/main/CMakeLists.txt
@@ -1,5 +1,7 @@
 cmake_minimum_required(VERSION 3.10.0)
 project(secp256k1jni)
 add_library( secp256k1-jni SHARED
    ${CMAKE_CURRENT_LIST_DIR}/../../../c/src/fr_acinq_secp256k1_Secp256k1CFunctions.c
 )
--- a/jni/build.gradle.kts
+++ b/jni/build.gradle.kts
@@ -1,5 +1,3 @@
 import org.jetbrains.dokka.Platform
 plugins {
    kotlin("jvm")
    id("org.jetbrains.dokka")
@@ -22,7 +20,7 @@ dependencies {
 val generateHeaders by tasks.creating(JavaCompile::class) {
    group = "build"
    classpath = sourceSets["main"].compileClasspath
-    destinationDir = file("${buildDir}/generated/jni")
+    destinationDirectory.set(file("${buildDir}/generated/jni"))
    source = sourceSets["main"].java
    options.compilerArgs = listOf(
        "-h", file("${buildDir}/generated/jni").absolutePath,
--- a/jni/c/headers/java/fr_acinq_secp256k1_Secp256k1CFunctions.h
+++ b/jni/c/headers/java/fr_acinq_secp256k1_Secp256k1CFunctions.h
@@ -119,14 +119,6 @@ JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256
 JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256k1_1ec_1pubkey_1tweak_1mul
  (JNIEnv *, jclass, jlong, jbyteArray, jbyteArray);
 /*
 * Class:     fr_acinq_secp256k1_Secp256k1CFunctions
 * Method:    secp256k1_ec_pubkey_add
 * Signature: (J[B[B)[B
 */
 JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256k1_1ec_1pubkey_1add
  (JNIEnv *, jclass, jlong, jbyteArray, jbyteArray);
 /*
 * Class:     fr_acinq_secp256k1_Secp256k1CFunctions
 * Method:    secp256k1_ec_pubkey_combine
@@ -159,6 +151,22 @@ JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256
 JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256k1_1compact_1to_1der
  (JNIEnv *, jclass, jlong, jbyteArray);
 /*
 * Class:     fr_acinq_secp256k1_Secp256k1CFunctions
 * Method:    secp256k1_schnorrsig_sign
 * Signature: (J[B[B[B)[B
 */
 JNIEXPORT jbyteArray JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256k1_1schnorrsig_1sign
  (JNIEnv *, jclass, jlong, jbyteArray, jbyteArray, jbyteArray);
 /*
 * Class:     fr_acinq_secp256k1_Secp256k1CFunctions
 * Method:    secp256k1_schnorrsig_verify
 * Signature: (J[B[B[B)I
 */
 JNIEXPORT jint JNICALL Java_fr_acinq_secp256k1_Secp256k1CFunctions_secp256k1_1schnorrsig_1verify
  (JNIEnv *, jclass, jlong, jbyteArray, jbyteArray, jbyteArray);
 #ifdef __cplusplus
 }
 #endif
--- a/jni/c/src/fr_acinq_secp256k1_Secp256k1CFunctions.c
+++ b/jni/c/src/fr_acinq_secp256k1_Secp256k1CFunctions.c
--- a/jni/jvm/darwin/build.gradle.kts
+++ b/jni/jvm/darwin/build.gradle.kts
@@ -12,8 +12,12 @@ dependencies {
 val copyJni by tasks.creating(Sync::class) {
    onlyIf { org.gradle.internal.os.OperatingSystem.current().isMacOsX }
    dependsOn(":jni:jvm:buildNativeHost")
    val arch = when (System.getProperty("os.arch")) {
        "aarch64" -> "aarch64"
        else -> "x86_64"
    }
    from(rootDir.resolve("jni/jvm/build/darwin/libsecp256k1-jni.dylib"))
-    into(buildDir.resolve("jniResources/fr/acinq/secp256k1/jni/native/darwin-x86_64"))
+    into(buildDir.resolve("jniResources/fr/acinq/secp256k1/jni/native/darwin-$arch"))
 }
 (tasks["processResources"] as ProcessResources).apply {
--- a/jni/jvm/src/main/kotlin/fr/acinq/secp256k1/jni/OSInfo.kt
+++ b/jni/jvm/src/main/kotlin/fr/acinq/secp256k1/jni/OSInfo.kt
@@ -154,7 +154,7 @@ internal object OSInfo {
               if (systemOsArch.startsWith("arm")) {
                   resolveArmArchType()
               } else {
-                   val lc = systemOsArch.toLowerCase(Locale.US)
+                   val lc = systemOsArch.lowercase(Locale.US)
                   if (archMapping.containsKey(lc)) return archMapping[lc]
                   systemOsArch
               }
--- a/jni/src/main/java/fr/acinq/secp256k1/Secp256k1CFunctions.java
+++ b/jni/src/main/java/fr/acinq/secp256k1/Secp256k1CFunctions.java
@@ -5,29 +5,29 @@ public class Secp256k1CFunctions {
     * All flags' lower 8 bits indicate what they're for. Do not use directly.
     */
    public static int SECP256K1_FLAGS_TYPE_MASK = ((1 << 8) - 1);
-    public static int SECP256K1_FLAGS_TYPE_CONTEXT = (1 << 0);
+    public static final int SECP256K1_FLAGS_TYPE_CONTEXT = (1 << 0);
-    public static int SECP256K1_FLAGS_TYPE_COMPRESSION = (1 << 1);
+    public static final int SECP256K1_FLAGS_TYPE_COMPRESSION = (1 << 1);
    /**
     * The higher bits contain the actual data. Do not use directly.
     */
-    public static int SECP256K1_FLAGS_BIT_CONTEXT_VERIFY = (1 << 8);
+    public static final int SECP256K1_FLAGS_BIT_CONTEXT_VERIFY = (1 << 8);
-    public static int SECP256K1_FLAGS_BIT_CONTEXT_SIGN = (1 << 9);
+    public static final int SECP256K1_FLAGS_BIT_CONTEXT_SIGN = (1 << 9);
-    public static int SECP256K1_FLAGS_BIT_COMPRESSION = (1 << 8);
+    public static final int SECP256K1_FLAGS_BIT_COMPRESSION = (1 << 8);
    /**
     * Flags to pass to secp256k1_context_create, secp256k1_context_preallocated_size, and
     * secp256k1_context_preallocated_create.
     */
-    public static int SECP256K1_CONTEXT_VERIFY = (SECP256K1_FLAGS_TYPE_CONTEXT | SECP256K1_FLAGS_BIT_CONTEXT_VERIFY);
+    public static final int SECP256K1_CONTEXT_VERIFY = (SECP256K1_FLAGS_TYPE_CONTEXT | SECP256K1_FLAGS_BIT_CONTEXT_VERIFY);
-    public static int SECP256K1_CONTEXT_SIGN = (SECP256K1_FLAGS_TYPE_CONTEXT | SECP256K1_FLAGS_BIT_CONTEXT_SIGN);
+    public static final int SECP256K1_CONTEXT_SIGN = (SECP256K1_FLAGS_TYPE_CONTEXT | SECP256K1_FLAGS_BIT_CONTEXT_SIGN);
-    public static int SECP256K1_CONTEXT_NONE = (SECP256K1_FLAGS_TYPE_CONTEXT);
+    public static final int SECP256K1_CONTEXT_NONE = (SECP256K1_FLAGS_TYPE_CONTEXT);
    /**
     * Flag to pass to secp256k1_ec_pubkey_serialize.
     */
-    public static int SECP256K1_EC_COMPRESSED = (SECP256K1_FLAGS_TYPE_COMPRESSION | SECP256K1_FLAGS_BIT_COMPRESSION);
+    public static final int SECP256K1_EC_COMPRESSED = (SECP256K1_FLAGS_TYPE_COMPRESSION | SECP256K1_FLAGS_BIT_COMPRESSION);
-    public static int SECP256K1_EC_UNCOMPRESSED = (SECP256K1_FLAGS_TYPE_COMPRESSION);
+    public static final int SECP256K1_EC_UNCOMPRESSED = (SECP256K1_FLAGS_TYPE_COMPRESSION);
    public static native long secp256k1_context_create(int flags);
@@ -57,8 +57,6 @@ public class Secp256k1CFunctions {
    public static native byte[] secp256k1_ec_pubkey_tweak_mul(long ctx, byte[] pubkey, byte[] tweak);
    public static native byte[] secp256k1_ec_pubkey_add(long ctx, byte[] pubkey1, byte[] pubkey2);
    public static native byte[] secp256k1_ec_pubkey_combine(long ctx, byte[][] pubkeys);
    public static native byte[] secp256k1_ecdh(long ctx, byte[] seckey, byte[] pubkey);
@@ -66,4 +64,8 @@ public class Secp256k1CFunctions {
    public static native byte[] secp256k1_ecdsa_recover(long ctx, byte[] sig, byte[] msg32, int recid);
    public static native byte[] secp256k1_compact_to_der(long ctx, byte[] sig);
    public static native byte[] secp256k1_schnorrsig_sign(long ctx, byte[] msg, byte[] seckey, byte[] aux_rand32);
    public static native int secp256k1_schnorrsig_verify(long ctx, byte[] sig, byte[] msg, byte[] pubkey);
 }
--- a/jni/src/main/kotlin/fr/acinq/secp256k1/NativeSecp256k1.kt
+++ b/jni/src/main/kotlin/fr/acinq/secp256k1/NativeSecp256k1.kt
@@ -14,15 +14,16 @@
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
 package fr.acinq.secp256k1
 public object NativeSecp256k1 : Secp256k1 {
-    override fun verify(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean {
+    override fun verify(signature: ByteArray, message: ByteArray, pubkey: ByteArray): Boolean {
-        return Secp256k1CFunctions.secp256k1_ecdsa_verify(Secp256k1Context.getContext(), signature, data, pub) == 1
+        return Secp256k1CFunctions.secp256k1_ecdsa_verify(Secp256k1Context.getContext(), signature, message, pubkey) == 1
    }
-    override fun sign(data: ByteArray, sec: ByteArray): ByteArray {
+    override fun sign(message: ByteArray, privkey: ByteArray): ByteArray {
-        return Secp256k1CFunctions.secp256k1_ecdsa_sign(Secp256k1Context.getContext(), data, sec)
+        return Secp256k1CFunctions.secp256k1_ecdsa_sign(Secp256k1Context.getContext(), message, privkey)
    }
    override fun signatureNormalize(sig: ByteArray): Pair<ByteArray, Boolean> {
@@ -31,35 +32,30 @@ public object NativeSecp256k1 : Secp256k1 {
        return Pair(sigout, result == 1)
    }
-    override fun secKeyVerify(seckey: ByteArray): Boolean {
+    override fun secKeyVerify(privkey: ByteArray): Boolean {
-        val result = Secp256k1CFunctions.secp256k1_ec_seckey_verify(Secp256k1Context.getContext(), seckey);
+        return Secp256k1CFunctions.secp256k1_ec_seckey_verify(Secp256k1Context.getContext(), privkey) == 1
        return result == 1;
    }
-    override fun pubkeyCreate(seckey: ByteArray): ByteArray {
+    override fun pubkeyCreate(privkey: ByteArray): ByteArray {
-        return Secp256k1CFunctions.secp256k1_ec_pubkey_create(Secp256k1Context.getContext(), seckey)
+        return Secp256k1CFunctions.secp256k1_ec_pubkey_create(Secp256k1Context.getContext(), privkey)
    }
    override fun pubkeyParse(pubkey: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_pubkey_parse(Secp256k1Context.getContext(), pubkey)
    }
    override fun cleanup() {
        return Secp256k1CFunctions.secp256k1_context_destroy(Secp256k1Context.getContext())
    }
    override fun privKeyNegate(privkey: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_privkey_negate(Secp256k1Context.getContext(), privkey)
    }
    override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_privkey_tweak_mul(Secp256k1Context.getContext(), privkey, tweak)
    }
    override fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_privkey_tweak_add(Secp256k1Context.getContext(), privkey, tweak)
    }
    override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_privkey_tweak_mul(Secp256k1Context.getContext(), privkey, tweak)
    }
    override fun pubKeyNegate(pubkey: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_ec_pubkey_negate(Secp256k1Context.getContext(), pubkey)
    }
@@ -72,12 +68,12 @@ public object NativeSecp256k1 : Secp256k1 {
        return Secp256k1CFunctions.secp256k1_ec_pubkey_tweak_mul(Secp256k1Context.getContext(), pubkey, tweak)
    }
-    override fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
+    override fun pubKeyCombine(pubkeys: Array<ByteArray>): ByteArray {
-        return Secp256k1CFunctions.secp256k1_ec_pubkey_add(Secp256k1Context.getContext(), pubkey1, pubkey2)
+        return Secp256k1CFunctions.secp256k1_ec_pubkey_combine(Secp256k1Context.getContext(), pubkeys)
    }
-    override fun ecdh(seckey: ByteArray, pubkey: ByteArray): ByteArray {
+    override fun ecdh(privkey: ByteArray, pubkey: ByteArray): ByteArray {
-        return Secp256k1CFunctions.secp256k1_ecdh(Secp256k1Context.getContext(), seckey, pubkey)
+        return Secp256k1CFunctions.secp256k1_ecdh(Secp256k1Context.getContext(), privkey, pubkey)
    }
    override fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int): ByteArray {
@@ -87,4 +83,16 @@ public object NativeSecp256k1 : Secp256k1 {
    override fun compact2der(sig: ByteArray): ByteArray {
        return Secp256k1CFunctions.secp256k1_compact_to_der(Secp256k1Context.getContext(), sig)
    }
    override fun verifySchnorr(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean {
        return Secp256k1CFunctions.secp256k1_schnorrsig_verify(Secp256k1Context.getContext(), signature, data, pub) == 1
    }
    override fun signSchnorr(data: ByteArray, sec: ByteArray, auxrand32: ByteArray?): ByteArray {
        return Secp256k1CFunctions.secp256k1_schnorrsig_sign(Secp256k1Context.getContext(), data, sec, auxrand32)
    }
    override fun cleanup() {
        return Secp256k1CFunctions.secp256k1_context_destroy(Secp256k1Context.getContext())
    }
 }
--- a/native/build-android.sh
+++ b/native/build-android.sh
@@ -19,23 +19,21 @@ else
 fi
 TARGET=$SYS-linux-android
 TOOLTARGET=$TARGET
 if [ "$SYS" == "armv7a" ]; then
  TARGET=armv7a-linux-androideabi
  TOOLTARGET=arm-linux-androideabi
 fi
 export CC=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/${TARGET}21-clang
-export LD=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/$TOOLTARGET-ld
+export LD=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/ld
-export AR=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/$TOOLTARGET-ar
+export AR=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/llvm-ar
-export AS=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/$TOOLTARGET-as
+export AS=$CC
-export RANLIB=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/$TOOLTARGET-ranlib
+export RANLIB=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/llvm-ranlib
-export STRIP=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/$TOOLTARGET-strip
+export STRIP=$ANDROID_NDK/toolchains/llvm/prebuilt/$TOOLCHAIN/bin/llvm-strip
 cd secp256k1
 ./autogen.sh
-./configure CFLAGS=-fpic --host=$TARGET --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
+./configure CFLAGS=-fpic --host=$TARGET --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-module-schnorrsig --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
 make clean
 make
--- a/native/build-ios.sh
+++ b/native/build-ios.sh
@@ -6,7 +6,7 @@ cp xconfigure.sh secp256k1
 cd secp256k1
 ./autogen.sh
-sh xconfigure.sh --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
+sh xconfigure.sh --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-module-schnorrsig --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
 mkdir -p ../build/ios
 cp -v _build/universal/* ../build/ios/
--- a/native/build.gradle.kts
+++ b/native/build.gradle.kts
@@ -1,9 +1,13 @@
 import org.gradle.internal.os.OperatingSystem
-evaluationDependsOn(":jni:android")
+val includeAndroid = System.getProperty("includeAndroid")?.toBoolean() ?: true
 if (includeAndroid) {
    evaluationDependsOn(":jni:android")
 }
 val currentOs = OperatingSystem.current()
-val bash = if (currentOs.isWindows) "bash.exe" else "bash"
+val bash = "bash"
 val buildSecp256k1 by tasks.creating { group = "build" }
@@ -23,7 +27,7 @@ val buildSecp256k1Host by tasks.creating(Exec::class) {
    workingDir = projectDir
    environment("TARGET", target)
-    commandLine(bash, "build.sh")
+    commandLine(bash, "-l", "build.sh")
 }
 val buildSecp256k1Ios by tasks.creating(Exec::class) {
@@ -39,34 +43,39 @@ val buildSecp256k1Ios by tasks.creating(Exec::class) {
    commandLine(bash, "build-ios.sh")
 }
-val buildSecp256k1Android by tasks.creating {
+if (includeAndroid) {
    group = "build"
    buildSecp256k1.dependsOn(this)
 }
 fun creatingBuildSecp256k1Android(arch: String) = tasks.creating(Exec::class) {
    group = "build"
    buildSecp256k1Android.dependsOn(this)
-    inputs.files(projectDir.resolve("build-android.sh"))
+    val buildSecp256k1Android by tasks.creating {
-    outputs.dir(projectDir.resolve("build/android/$arch"))
+        group = "build"
-
+        buildSecp256k1.dependsOn(this)
    workingDir = projectDir
    val toolchain = when {
        currentOs.isLinux -> "linux-x86_64"
        currentOs.isMacOsX -> "darwin-x86_64"
        currentOs.isWindows -> "windows-x86_64"
        else -> error("No Android toolchain defined for this OS: $currentOs")
    }
-    environment("TOOLCHAIN", toolchain)
+
-    environment("ARCH", arch)
+    fun creatingBuildSecp256k1Android(arch: String) = tasks.creating(Exec::class) {
-    environment("ANDROID_NDK", (project(":jni:android").extensions["android"] as com.android.build.gradle.LibraryExtension).ndkDirectory)
+        group = "build"
-    commandLine(bash, "build-android.sh")
+        buildSecp256k1Android.dependsOn(this)
        inputs.files(projectDir.resolve("build-android.sh"))
        outputs.dir(projectDir.resolve("build/android/$arch"))
        workingDir = projectDir
        val toolchain = when {
            currentOs.isLinux -> "linux-x86_64"
            currentOs.isMacOsX -> "darwin-x86_64"
            currentOs.isWindows -> "windows-x86_64"
            else -> error("No Android toolchain defined for this OS: $currentOs")
        }
        environment("TOOLCHAIN", toolchain)
        environment("ARCH", arch)
        environment("ANDROID_NDK", (project(":jni:android").extensions["android"] as com.android.build.gradle.LibraryExtension).ndkDirectory)
        commandLine(bash, "build-android.sh")
    }
    val buildSecp256k1AndroidX86_64 by creatingBuildSecp256k1Android("x86_64")
    val buildSecp256k1AndroidX86 by creatingBuildSecp256k1Android("x86")
    val buildSecp256k1AndroidArm64v8a by creatingBuildSecp256k1Android("arm64-v8a")
    val buildSecp256k1AndroidArmeabiv7a by creatingBuildSecp256k1Android("armeabi-v7a")
 }
 val buildSecp256k1AndroidX86_64 by creatingBuildSecp256k1Android("x86_64")
 val buildSecp256k1AndroidX86 by creatingBuildSecp256k1Android("x86")
 val buildSecp256k1AndroidArm64v8a by creatingBuildSecp256k1Android("arm64-v8a")
 val buildSecp256k1AndroidArmeabiv7a by creatingBuildSecp256k1Android("armeabi-v7a")
 val clean by tasks.creating {
    group = "build"
--- a/native/build.sh
+++ b/native/build.sh
@@ -16,14 +16,14 @@ if [ "$TARGET" == "mingw" ]; then
 elif [ "$TARGET" == "linux" ]; then
  CONF_OPTS="CFLAGS=-fPIC"
 elif [ "$TARGET" == "darwin" ]; then
-  CONF_OPTS="--host=x86_64-w64-darwin"
+  CONF_OPTS=""
 else
  echo "Unknown TARGET=$TARGET"
  exit 1
 fi
 ./autogen.sh
-./configure $CONF_OPTS --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
+./configure $CONF_OPTS --enable-experimental --enable-module_ecdh --enable-module-recovery --enable-module-schnorrsig --enable-benchmark=no --enable-shared=no --enable-exhaustive-tests=no --enable-tests=no
 make clean
 make
--- a/native/secp256k1
+++ b/native/secp256k1
--- a/publishing/PUBLISHING.md
+++ b/publishing/PUBLISHING.md
@@ -0,0 +1,57 @@
 # Publishing secp256k1-kmp artifacts
 ## snapshots
 Snapshots are published to the Sonatype snapshot repository (https://oss.sonatype.org/content/repositories/snapshots/).
 To publish snapshot, you must add your sonatype credentials for the `ossrh` server to your local maven settings (typically in $HOME/.m2/settings.xml)
 - Download `snapshot.zip` generated by the `Publish snapshot` github action
 - unzip `snapshot.zip` in the `publishing` directory
 - add additional JNI bindings (optional, see below)
 - edit `secp256k1-kmp-snapshot-deploy.sh` and update the `VERSION` environment variable if needed
 - run `secp256k1-kmp-snapshot-deploy.sh`
 ## releases
 Releases are published to the Sonatype staging repository. If all items are valid they will be published to `maven central` repository.
 You must edit `secp256k1-kmp-staging-upload.sh` and add your sonatype credentials. You must also have a valid GPG key.
 - Download `release.zip` generated by the `Publish release` github action (which is triggered every time you publish a github release)
 - unzip `release.zip` in the `publishing` directory
 - add additional JNI bindings (optional, see below)
 - edit `secp256k1-kmp-staging-upload.sh` and update the `VERSION` environment variable if needed
 - sign all artifacts with a valid gpg key: `find release -type f -print -exec gpg -ab {} \;`
 - run `secp256k1-kmp-staging-upload.sh`
 - log into sonatype, close and publish your staging repository. Artifacts will be available on Maven Central within a few hours.
 ## Adding custom JNI bindings
 Github CI currently generates JNI bindings for Windows x64, Linux x64 and iOS x64. But it is possible to add custom bindings to JNI packages before 
 they are published to maven central. 
 This is how we add linux arm64 bindings:
 - compile JNI bindings for Linux Arm64 (on a Linux Arm64 machine, cross-compilation is not supported)
  - git clone --recursive https://github.com/ACINQ/secp256k1-kmp.git
  - cd secp256k1-kmp 
  - TARGET=linux ./native/build.sh 
  - mkdir -p jni/jvm/build/linux 
  - TARGET=linux ./jni/jvm/build.sh 
  - JNI library is: jni/jvm/build/linux/libsecp256k1-jni.so
 - copy libsecp256k1-jni.so to fr/acinq/secp256k1/jni/native/linux-aarch64/libsecp256k1-jni.so
 - run `secp256k1-kmp-add-linuxarm64.sh` and specify either `release` or `snapshot` and the `VERSION` environment variable, for example:
  - VERSION=0.9.0-SNAPSHOT ./secp256k1-kmp-add-linuxarm64.sh snapshot
  - VERSION=0.9.0 ./secp256k1-kmp-add-linuxarm64.sh release
 This is how we add macos arm64 (M1/M2) bindings:
 - compile JNI bindings for macos Arm64 (on a macos Arm64 machine, cross-compilation is not supported)
  - git clone --recursive https://github.com/ACINQ/secp256k1-kmp.git
  - cd secp256k1-kmp
  - TARGET=darwin ./native/build.sh
  - mkdir -p jni/jvm/build/darwin
  - TARGET=darwin ./jni/jvm/build.sh
  - JNI library is: jni/jvm/build/darwin/libsecp256k1-jni.dylib
 - copy libsecp256k1-jni.dylib to fr/acinq/secp256k1/jni/native/darwin-aarch64/libsecp256k1-jni.dylib
 - run `secp256k1-kmp-add-darwinaarch64.sh` and specify either `release` or `snapshot` and the `VERSION` environment variable, for example:
  - VERSION=0.9.0-SNAPSHOT ./secp256k1-kmp-add-darwinaarch64.sh snapshot
  - VERSION=0.9.0 ./secp256k1-kmp-add-darwinaarch64.sh release
--- a/publishing/secp256k1-kmp-add-darwinaarch64.sh
+++ b/publishing/secp256k1-kmp-add-darwinaarch64.sh
@@ -0,0 +1,17 @@
 #!/bin/bash -x
 if [ $# -eq 0 ]
  then
    echo "specify either snapshot or release"
    exit 1
 fi
 # add aarch64 (ARM64) library to the darwin jar
 if [ -e fr/acinq/secp256k1/jni/native/darwin-aarch64/libsecp256k1-jni.dylib ]
 then
    jar -uf $1/fr/acinq/secp256k1/secp256k1-kmp-jni-jvm-darwin/$VERSION/secp256k1-kmp-jni-jvm-darwin-$VERSION.jar fr || exit
 else
    libsecp256k1-jni.dylib for arch64 is missing
    exit 1
 fi
--- a/publishing/secp256k1-kmp-add-linuxarm64.sh
+++ b/publishing/secp256k1-kmp-add-linuxarm64.sh
@@ -0,0 +1,17 @@
 #!/bin/bash -x
 if [ $# -eq 0 ]
  then
    echo "specify either snapshot or release"
    exit 1
 fi
 # add aarch64 (ARM64) library to the linux jar
 if [ -e fr/acinq/secp256k1/jni/native/linux-aarch64/libsecp256k1-jni.so ]
 then
    jar -uf $1/fr/acinq/secp256k1/secp256k1-kmp-jni-jvm-linux/$VERSION/secp256k1-kmp-jni-jvm-linux-$VERSION.jar fr || exit
 else
    libsecp256k1-jni.so for arch64 is missing
    exit 1
 fi
--- a/publishing/secp256k1-kmp-snapshot-deploy.sh
+++ b/publishing/secp256k1-kmp-snapshot-deploy.sh
@@ -0,0 +1,65 @@
 #!/bin/bash -x
 GROUP_ID=fr.acinq.secp256k1
 ARTIFACT_ID_BASE=secp256k1-kmp
 if [[ -z "${VERSION}" ]]; then
  echo "VERSION is not defined"
  exit 1
 fi
 cd snapshot
 pushd .
 cd fr/acinq/secp256k1/secp256k1-kmp/$VERSION
 mvn deploy:deploy-file -DrepositoryId=ossrh -Durl=https://oss.sonatype.org/content/repositories/snapshots/ \
  -DpomFile=$ARTIFACT_ID_BASE-$VERSION.pom \
  -Dfile=$ARTIFACT_ID_BASE-$VERSION.jar \
  -Dfiles=$ARTIFACT_ID_BASE-$VERSION.module,$ARTIFACT_ID_BASE-$VERSION-kotlin-tooling-metadata.json \
  -Dtypes=module,json \
  -Dclassifiers=,kotlin-tooling-metadata \
  -Dsources=$ARTIFACT_ID_BASE-$VERSION-sources.jar \
  -Djavadoc=$ARTIFACT_ID_BASE-$VERSION-javadoc.jar
 popd
 pushd .
 for i in iosarm64 iosx64 jni-android jni-common jni-jvm-darwin jni-jvm-extract jni-jvm-linux jni-jvm-mingw jni-jvm jvm linux; do
  cd fr/acinq/secp256k1/secp256k1-kmp-$i/$VERSION
  if [ $i == iosarm64 ] || [ $i == iosx64 ]; then
    mvn deploy:deploy-file -DrepositoryId=ossrh -Durl=https://oss.sonatype.org/content/repositories/snapshots/ \
      -DpomFile=$ARTIFACT_ID_BASE-$i-$VERSION.pom \
      -Dfile=$ARTIFACT_ID_BASE-$i-$VERSION.klib \
      -Dfiles=$ARTIFACT_ID_BASE-$i-$VERSION-metadata.jar,$ARTIFACT_ID_BASE-$i-$VERSION.module,$ARTIFACT_ID_BASE-$i-$VERSION-cinterop-libsecp256k1.klib \
      -Dtypes=jar,module,klib \
      -Dclassifiers=metadata,,cinterop-libsecp256k1 \
      -Dsources=$ARTIFACT_ID_BASE-$i-$VERSION-sources.jar \
      -Djavadoc=$ARTIFACT_ID_BASE-$i-$VERSION-javadoc.jar
  elif [ $i == linux ]; then
    mvn deploy:deploy-file -DrepositoryId=ossrh -Durl=https://oss.sonatype.org/content/repositories/snapshots/ \
      -DpomFile=$ARTIFACT_ID_BASE-$i-$VERSION.pom \
      -Dfile=$ARTIFACT_ID_BASE-$i-$VERSION.klib \
      -Dfiles=$ARTIFACT_ID_BASE-$i-$VERSION.module,$ARTIFACT_ID_BASE-$i-$VERSION-cinterop-libsecp256k1.klib \
      -Dtypes=module,klib \
      -Dclassifiers=,cinterop-libsecp256k1 \
      -Dsources=$ARTIFACT_ID_BASE-$i-$VERSION-sources.jar \
      -Djavadoc=$ARTIFACT_ID_BASE-$i-$VERSION-javadoc.jar
  elif [ $i == jni-android ]; then
    mvn deploy:deploy-file -DrepositoryId=ossrh -Durl=https://oss.sonatype.org/content/repositories/snapshots/ \
      -DpomFile=$ARTIFACT_ID_BASE-$i-$VERSION.pom \
      -Dfile=$ARTIFACT_ID_BASE-$i-$VERSION.aar \
      -Dfiles=$ARTIFACT_ID_BASE-$i-$VERSION.module \
      -Dtypes=module \
      -Dclassifiers= \
      -Dsources=$ARTIFACT_ID_BASE-$i-$VERSION-sources.jar \
      -Djavadoc=$ARTIFACT_ID_BASE-$i-$VERSION-javadoc.jar
  else
    mvn deploy:deploy-file -DrepositoryId=ossrh -Durl=https://oss.sonatype.org/content/repositories/snapshots/ \
      -DpomFile=$ARTIFACT_ID_BASE-$i-$VERSION.pom \
      -Dfile=$ARTIFACT_ID_BASE-$i-$VERSION.jar \
      -Dfiles=$ARTIFACT_ID_BASE-$i-$VERSION.module \
      -Dtypes=module \
      -Dclassifiers= \
      -Dsources=$ARTIFACT_ID_BASE-$i-$VERSION-sources.jar \
      -Djavadoc=$ARTIFACT_ID_BASE-$i-$VERSION-javadoc.jar
  fi
  popd
  pushd .
 done
--- a/publishing/secp256k1-kmp-staging-upload.sh
+++ b/publishing/secp256k1-kmp-staging-upload.sh
@@ -0,0 +1,28 @@
 #!/bin/bash -x
 #
 # first you must sign all files:
 # find release -type f -print -exec gpg -ab {} \;
 VERSION=0.6.2
 for i in 	secp256k1-kmp \
 		secp256k1-kmp-iosarm64 \
 		secp256k1-kmp-iosx64 \
 		secp256k1-kmp-jni-android \
 		secp256k1-kmp-jni-common \
 		secp256k1-kmp-jni-jvm \
 		secp256k1-kmp-jni-jvm-darwin \
 		secp256k1-kmp-jni-jvm-extract \
 		secp256k1-kmp-jni-jvm-linux \
 		secp256k1-kmp-jni-jvm-mingw \
 		secp256k1-kmp-jvm \
 		secp256k1-kmp-linux
 do
 	pushd .
 	cd release/fr/acinq/secp256k1/$i/$VERSION
 	pwd
 	jar -cvf bundle.jar *
 	# use correct sonatype credentials here
  curl -v -XPOST -u USER:PASSWORD --upload-file bundle.jar https://oss.sonatype.org/service/local/staging/bundle_upload
  popd
 done
--- a/settings.gradle.kts
+++ b/settings.gradle.kts
@@ -2,15 +2,30 @@ pluginManagement {
    repositories {
        google()
        gradlePluginPortal()
-        jcenter()
+    }
    resolutionStrategy {
        eachPlugin {
            if (requested.id.namespace == "com.android" || requested.id.name == "kotlin-android-extensions") {
                useModule("com.android.tools.build:gradle:7.3.1")
            }
        }
    }
 }
 rootProject.name = "secp256k1-kmp"
 // We use a property defined in `local.properties` to know whether we should build the android application or not.
 // For example, iOS developers may want to skip that most of the time.
 val skipAndroid = File("$rootDir/local.properties").takeIf { it.exists() }
    ?.inputStream()?.use { java.util.Properties().apply { load(it) } }
    ?.run { getProperty("skip.android", "false")?.toBoolean() }
    ?: false
 // Use system properties to inject the property in other gradle build files.
 System.setProperty("includeAndroid", (!skipAndroid).toString())
 include(
    ":native",
    ":jni",
    ":jni:android",
    ":jni:jvm",
    ":jni:jvm:darwin",
    ":jni:jvm:linux",
@@ -18,3 +33,10 @@ include(
    ":jni:jvm:all",
    ":tests"
 )
 if (!skipAndroid) {
    print("building android library")
    include(":jni:android")
 } else {
    print("skipping android build")
 }
--- a/src/commonMain/kotlin/fr/acinq/secp256k1/Secp256k1.kt
+++ b/src/commonMain/kotlin/fr/acinq/secp256k1/Secp256k1.kt
@@ -20,60 +20,163 @@ import kotlin.jvm.JvmStatic
 public interface Secp256k1 {
-    public fun verify(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean
+    /**
     * Verify an ECDSA signature.
     *
     * @param signature signature using either compact encoding (64 bytes) or der-encoding.
     * @param message message signed.
     * @param pubkey signer's public key.
     */
    public fun verify(signature: ByteArray, message: ByteArray, pubkey: ByteArray): Boolean
-    public fun sign(data: ByteArray, sec: ByteArray): ByteArray
+    /**
     * Create a normalized ECDSA signature.
     *
     * @param message message to sign.
     * @param privkey signer's private key.
     */
    public fun sign(message: ByteArray, privkey: ByteArray): ByteArray
    /**
     * Verify a Schnorr signature.
     *
     * @param signature 64 bytes signature.
     * @param data message signed.
     * @param pub signer's x-only public key (32 bytes).
     */
    public fun verifySchnorr(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean
    /**
     * Create a Schnorr signature.
     *
     * @param data message to sign.
     * @param sec signer's private key.
     * @param auxrand32 32 bytes of fresh randomness (optional).
     */
    public fun signSchnorr(data: ByteArray, sec: ByteArray, auxrand32: ByteArray?): ByteArray
   /**
     * Convert an ECDSA signature to a normalized lower-S form (bitcoin standardness rule).
     * Returns the normalized signature and a boolean set to true if the input signature was not normalized.
     *
     * @param sig signature that should be normalized.
     */
    public fun signatureNormalize(sig: ByteArray): Pair<ByteArray, Boolean>
-    public fun secKeyVerify(seckey: ByteArray): Boolean
+    /**
     * Verify the validity of a private key.
     */
    public fun secKeyVerify(privkey: ByteArray): Boolean
-    public fun pubkeyCreate(seckey: ByteArray): ByteArray
+    /**
     * Get the public key corresponding to the given private key.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubkeyCreate(privkey: ByteArray): ByteArray
    /**
     * Parse a serialized public key.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubkeyParse(pubkey: ByteArray): ByteArray
-    public fun cleanup()
+    /**
-
+     * Negate the given private key.
     */
    public fun privKeyNegate(privkey: ByteArray): ByteArray
-    public fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray
+    /**
-
+     * Tweak a private key by adding tweak to it.
     */
    public fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray
    /**
     * Tweak a private key by multiplying it by a tweak.
     */
    public fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray
    /**
     * Negate the given public key.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubKeyNegate(pubkey: ByteArray): ByteArray
    /**
     * Tweak a public key by adding tweak times the generator to it.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray
    /**
     * Tweak a public key by multiplying it by a tweak value.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray
-    public fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray
+    /**
     * Add a number of public keys together.
     * Returns the uncompressed public key (65 bytes).
     */
    public fun pubKeyCombine(pubkeys: Array<ByteArray>): ByteArray
-    public fun ecdh(seckey: ByteArray, pubkey: ByteArray): ByteArray
+    /**
     * Compute an elliptic curve Diffie-Hellman secret.
     */
    public fun ecdh(privkey: ByteArray, pubkey: ByteArray): ByteArray
    /**
     * Recover a public key from an ECDSA signature.
     *
     * @param sig ecdsa compact signature (64 bytes).
     * @param message message signed.
     * @param recid recoveryId (should have been provided with the signature to allow recovery).
     */
    public fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int): ByteArray
    /**
     * Convert a compact ECDSA signature (64 bytes) to a der-encoded ECDSA signature.
     */
    public fun compact2der(sig: ByteArray): ByteArray
-    public fun pubKeyCompress(pubkey: ByteArray) : ByteArray {
+    /**
     * Serialize a public key to compact form (33 bytes).
     */
    public fun pubKeyCompress(pubkey: ByteArray): ByteArray {
        return when {
            pubkey.size == 33 && (pubkey[0] == 2.toByte() || pubkey[0] == 3.toByte()) -> pubkey
            pubkey.size == 65 && pubkey[0] == 4.toByte() -> {
-                val pub1 = pubkey.copyOf(33)
+                val compressed = pubkey.copyOf(33)
-                pub1[0] = if (pubkey.last() % 2 == 0) 2.toByte() else 3.toByte()
+                compressed[0] = if (pubkey.last() % 2 == 0) 2.toByte() else 3.toByte()
-                pub1
+                compressed
            }
            else -> throw Secp256k1Exception("invalid public key")
        }
    }
    /**
     * Delete the secp256k1 context from dynamic memory.
     */
    public fun cleanup()
    public companion object : Secp256k1 by getSecpk256k1() {
-        @JvmStatic public fun get(): Secp256k1 = this
+        @JvmStatic
        public fun get(): Secp256k1 = this
    }
 }
 internal expect fun getSecpk256k1(): Secp256k1
-public class Secp256k1Exception : RuntimeException {
+public open class Secp256k1Exception : RuntimeException {
-    public constructor() : super() {}
+    public constructor() : super()
-    public constructor(message: String?) : super(message) {}
+    public constructor(message: String?) : super(message)
 }
 public class Secp256k1ErrorCallbackException : Secp256k1Exception {
    public constructor() : super()
    public constructor(message: String?) : super(message)
 }
 public class Secp256k1IllegalCallbackException : Secp256k1Exception {
    public constructor() : super()
    public constructor(message: String?) : super(message)
 }
--- a/src/jvmMain/kotlin/fr/acinq/secp256k1/Secp256k1Jvm.kt
+++ b/src/jvmMain/kotlin/fr/acinq/secp256k1/Secp256k1Jvm.kt
@@ -20,12 +20,12 @@ import java.util.*
 private fun tryLoad(platform: String): Secp256k1? {
-    try {
+    return try {
-        val cls = Class.forName("fr.acinq.secp256k1.jni.NativeSecp256k1${platform.capitalize(Locale.ROOT)}Loader")
+        val cls = Class.forName("fr.acinq.secp256k1.jni.NativeSecp256k1${platform.replaceFirstChar { if (it.isLowerCase()) it.titlecase(Locale.ROOT) else it.toString() }}Loader")
        val load = cls.getMethod("load")
-        return load.invoke(null) as Secp256k1
+        load.invoke(null) as Secp256k1
    } catch (ex: ClassNotFoundException) {
-        return null
+        null
    }
 }
--- a/src/nativeInterop/cinterop/libsecp256k1.def
+++ b/src/nativeInterop/cinterop/libsecp256k1.def
@@ -1,7 +1,7 @@
 package = secp256k1
-headers = secp256k1.h secp256k1_ecdh.h secp256k1_recovery.h
+headers = secp256k1.h secp256k1_ecdh.h secp256k1_recovery.h secp256k1_extrakeys.h secp256k1_schnorrsig.h
-headerFilter = secp256k1/** secp256k1_ecdh.h secp256k1_recovery.h secp256k1.h
+headerFilter = secp256k1/** secp256k1_ecdh.h secp256k1_recovery.h secp256k1_extrakeys.h secp256k1_schnorrsig.h secp256k1.h
 libraryPaths.linux = c/secp256k1/build/linux/
 linkerOpts.linux = -L/usr/lib64 -L/usr/lib/x86_64-linux-gnu -L/usr/local/lib
--- a/src/nativeMain/kotlin/fr/acinq/secp256k1/Secp256k1Native.kt
+++ b/src/nativeMain/kotlin/fr/acinq/secp256k1/Secp256k1Native.kt
@@ -4,15 +4,67 @@ import kotlinx.cinterop.*
 import platform.posix.size_tVar
 import secp256k1.*
-@OptIn(ExperimentalUnsignedTypes::class)
+private typealias Secp256k1CallbackHandler = (String) -> Unit
@OptIn(ExperimentalStdlibApi::class)
 private class CallbackHandler(ctx: CPointer<secp256k1_context>) : AutoCloseable {
    var illegalCallBackMessage: String? = null
    val illegalHandler: Secp256k1CallbackHandler = { x: String -> illegalCallBackMessage = x }
    val illegalCallbackRef = StableRef.create(illegalHandler)
    var errorCallBackMessage: String? = null
    val errorHandler: Secp256k1CallbackHandler = { x: String -> errorCallBackMessage = x }
    val errorCallbackRef = StableRef.create(errorHandler)
    init {
        secp256k1_context_set_error_callback(
            ctx, staticCFunction { buffer: CPointer<ByteVar>?, data: COpaquePointer? ->
                if (data != null) {
                    val callback = data.asStableRef<Secp256k1CallbackHandler>().get()
                    callback(buffer?.toKString() ?: "error callback triggered")
                }
            },
            errorCallbackRef.asCPointer()
        )
        secp256k1_context_set_illegal_callback(
            ctx, staticCFunction { buffer: CPointer<ByteVar>?, data: COpaquePointer? ->
                if (data != null) {
                    val callback = data.asStableRef<Secp256k1CallbackHandler>().get()
                    callback(buffer?.toKString() ?: "illegal callback triggered")
                }
            },
            illegalCallbackRef.asCPointer()
        )
    }
    fun checkForErrors() {
        errorCallBackMessage?.let { throw Secp256k1ErrorCallbackException(it) }
        illegalCallBackMessage?.let { throw Secp256k1IllegalCallbackException(it) }
    }
    override fun close() {
        // StableRef instances have to be disposed of manually
        illegalCallbackRef.dispose()
        errorCallbackRef.dispose()
    }
 }
@OptIn(ExperimentalUnsignedTypes::class, ExperimentalStdlibApi::class)
 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())
-            ?: error("Could not create segp256k1 context")
+            ?: error("Could not create secp256k1 context")
    }
-    private fun Int.requireSuccess(message: String): Int = if (this != 1) throw Secp256k1Exception(message) else this
+    private fun Int.requireSuccess(message: String): Int {
        return if (this != 1) throw Secp256k1Exception(message) else this
    }
    private fun Int.requireSuccess(callbackHandler: CallbackHandler, message: String): Int {
        callbackHandler.checkForErrors()
        return if (this != 1) throw Secp256k1Exception(message) else this
    }
    private fun MemScope.allocSignature(input: ByteArray): secp256k1_ecdsa_signature {
        val sig = alloc<secp256k1_ecdsa_signature>()
@@ -55,178 +107,254 @@ public object Secp256k1Native : Secp256k1 {
        return pinned.addressOf(0)
    }
-    public override fun verify(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean {
+    public override fun verify(signature: ByteArray, message: ByteArray, pubkey: ByteArray): Boolean {
-        require(data.size == 32)
+        require(message.size == 32)
-        require(pub.size == 33 || pub.size == 65)
+        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pub)
+            memScoped {
-            val nData = toNat(data)
+                val nPubkey = allocPublicKey(pubkey)
-            val nSig = allocSignature(signature)
+                val nMessage = toNat(message)
-            return secp256k1_ecdsa_verify(ctx, nSig.ptr, nData, nPubkey.ptr) == 1
+                val nSig = allocSignature(signature)
                val verify = secp256k1_ecdsa_verify(ctx, nSig.ptr, nMessage, nPubkey.ptr)
                callbackHandler.checkForErrors()
                return verify == 1
            }
        }
    }
-    public override fun sign(data: ByteArray, sec: ByteArray): ByteArray {
+    public override fun sign(message: ByteArray, privkey: ByteArray): ByteArray {
-        require(sec.size == 32)
+        require(privkey.size == 32)
-        require(data.size == 32)
+        require(message.size == 32)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nSec = toNat(sec)
+            memScoped {
-            val nData = toNat(data)
+                val nPrivkey = toNat(privkey)
-            val nSig = alloc<secp256k1_ecdsa_signature>()
+                val nMessage = toNat(message)
-            secp256k1_ecdsa_sign(ctx, nSig.ptr, nData, nSec, null, null).requireSuccess("secp256k1_ecdsa_sign() failed")
+                val nSig = alloc<secp256k1_ecdsa_signature>()
-            return serializeSignature(nSig)
+                secp256k1_ecdsa_sign(ctx, nSig.ptr, nMessage, nPrivkey, null, null).requireSuccess(callbackHandler, "secp256k1_ecdsa_sign() failed")
                return serializeSignature(nSig)
            }
        }
    }
    public override fun signatureNormalize(sig: ByteArray): Pair<ByteArray, Boolean> {
-        require(sig.size >= 64){ "invalid signature ${Hex.encode(sig)}" }
+        require(sig.size >= 64) { "invalid signature ${Hex.encode(sig)}" }
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nSig = allocSignature(sig)
+            memScoped {
-            val isHighS = secp256k1_ecdsa_signature_normalize(ctx, nSig.ptr, nSig.ptr)
+                val nSig = allocSignature(sig)
-            return Pair(serializeSignature(nSig), isHighS == 1)
+                val isHighS = secp256k1_ecdsa_signature_normalize(ctx, nSig.ptr, nSig.ptr)
                callbackHandler.checkForErrors()
                return Pair(serializeSignature(nSig), isHighS == 1)
            }
        }
    }
-    public override fun secKeyVerify(seckey: ByteArray): Boolean {
+    public override fun secKeyVerify(privkey: ByteArray): Boolean {
-        require(seckey.size == 32)
+        if (privkey.size != 32) return false
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nSec = toNat(seckey)
+            memScoped {
-            return secp256k1_ec_seckey_verify(ctx, nSec) == 1
+                val nPrivkey = toNat(privkey)
                val result = secp256k1_ec_seckey_verify(ctx, nPrivkey) == 1
                callbackHandler.checkForErrors()
                return result
            }
        }
    }
-    public override fun pubkeyCreate(seckey: ByteArray): ByteArray {
+    public override fun pubkeyCreate(privkey: ByteArray): ByteArray {
-        require(seckey.size == 32)
+        require(privkey.size == 32)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nSec = toNat(seckey)
+            memScoped {
-            val nPubkey = alloc<secp256k1_pubkey>()
+                val nPrivkey = toNat(privkey)
-            secp256k1_ec_pubkey_create(ctx, nPubkey.ptr, nSec).requireSuccess("secp256k1_ec_pubkey_create() failed")
+                val nPubkey = alloc<secp256k1_pubkey>()
-            return serializePubkey(nPubkey)
+                secp256k1_ec_pubkey_create(ctx, nPubkey.ptr, nPrivkey).requireSuccess(callbackHandler, "secp256k1_ec_pubkey_create() failed")
                return serializePubkey(nPubkey)
            }
        }
    }
    public override fun pubkeyParse(pubkey: ByteArray): ByteArray {
        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pubkey)
+            memScoped {
-            return serializePubkey(nPubkey)
+                val nPubkey = allocPublicKey(pubkey)
                val result = serializePubkey(nPubkey)
                callbackHandler.checkForErrors()
                return result
            }
        }
    }
    public override fun cleanup() {
        secp256k1_context_destroy(ctx)
    }
    public override fun privKeyNegate(privkey: ByteArray): ByteArray {
        require(privkey.size == 32)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val negated = privkey.copyOf()
+            memScoped {
-            val negPriv = toNat(negated)
+                val negated = privkey.copyOf()
-            secp256k1_ec_privkey_negate(ctx, negPriv).requireSuccess("secp256k1_ec_privkey_negate() failed")
+                val negPriv = toNat(negated)
-            return negated
+                secp256k1_ec_seckey_negate(ctx, negPriv).requireSuccess(callbackHandler, "secp256k1_ec_seckey_negate() failed")
-        }
+                return negated
-    }
+            }
    public override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
        require(privkey.size == 32)
        memScoped {
            val multiplied = privkey.copyOf()
            val natMul = toNat(multiplied)
            val natTweak = toNat(tweak)
            secp256k1_ec_privkey_tweak_mul(ctx, natMul, natTweak).requireSuccess("secp256k1_ec_privkey_tweak_mul() failed")
            return multiplied
        }
    }
    public override fun privKeyTweakAdd(privkey: ByteArray, tweak: ByteArray): ByteArray {
        require(privkey.size == 32)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val added = privkey.copyOf()
+            memScoped {
-            val natAdd = toNat(added)
+                val added = privkey.copyOf()
-            val natTweak = toNat(tweak)
+                val natAdd = toNat(added)
-            secp256k1_ec_privkey_tweak_add(ctx, natAdd, natTweak).requireSuccess("secp256k1_ec_privkey_tweak_add() failed")
+                val natTweak = toNat(tweak)
-            return added
+                secp256k1_ec_seckey_tweak_add(ctx, natAdd, natTweak).requireSuccess(callbackHandler, "secp256k1_ec_seckey_tweak_add() failed")
                return added
            }
        }
    }
    public override fun privKeyTweakMul(privkey: ByteArray, tweak: ByteArray): ByteArray {
        require(privkey.size == 32)
        CallbackHandler(ctx).use { callbackHandler ->
            memScoped {
                val multiplied = privkey.copyOf()
                val natMul = toNat(multiplied)
                val natTweak = toNat(tweak)
                secp256k1_ec_privkey_tweak_mul(ctx, natMul, natTweak).requireSuccess(callbackHandler, "secp256k1_ec_privkey_tweak_mul() failed")
                return multiplied
            }
        }
    }
    public override fun pubKeyNegate(pubkey: ByteArray): ByteArray {
        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pubkey)
+            memScoped {
-            secp256k1_ec_pubkey_negate(ctx, nPubkey.ptr).requireSuccess("secp256k1_ec_pubkey_negate() failed")
+                val nPubkey = allocPublicKey(pubkey)
-            return serializePubkey(nPubkey)
+                secp256k1_ec_pubkey_negate(ctx, nPubkey.ptr).requireSuccess(callbackHandler, "secp256k1_ec_pubkey_negate() failed")
                return serializePubkey(nPubkey)
            }
        }
    }
    public override fun pubKeyTweakAdd(pubkey: ByteArray, tweak: ByteArray): ByteArray {
        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pubkey)
+            memScoped {
-            val nTweak = toNat(tweak)
+                val nPubkey = allocPublicKey(pubkey)
-            secp256k1_ec_pubkey_tweak_add(ctx, nPubkey.ptr, nTweak).requireSuccess("secp256k1_ec_pubkey_tweak_add() failed")
+                val nTweak = toNat(tweak)
-            return serializePubkey(nPubkey)
+                secp256k1_ec_pubkey_tweak_add(ctx, nPubkey.ptr, nTweak).requireSuccess(callbackHandler, "secp256k1_ec_pubkey_tweak_add() failed")
                return serializePubkey(nPubkey)
            }
        }
    }
    public override fun pubKeyTweakMul(pubkey: ByteArray, tweak: ByteArray): ByteArray {
        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pubkey)
+            memScoped {
-            val nTweak = toNat(tweak)
+                val nPubkey = allocPublicKey(pubkey)
-            secp256k1_ec_pubkey_tweak_mul(ctx, nPubkey.ptr, nTweak).requireSuccess("secp256k1_ec_pubkey_tweak_mul() failed")
+                val nTweak = toNat(tweak)
-            return serializePubkey(nPubkey)
+                secp256k1_ec_pubkey_tweak_mul(ctx, nPubkey.ptr, nTweak).requireSuccess(callbackHandler, "secp256k1_ec_pubkey_tweak_mul() failed")
                return serializePubkey(nPubkey)
            }
        }
    }
-    public override fun pubKeyAdd(pubkey1: ByteArray, pubkey2: ByteArray): ByteArray {
+    public override fun pubKeyCombine(pubkeys: Array<ByteArray>): ByteArray {
-        require(pubkey1.size == 33 || pubkey1.size == 65)
+        pubkeys.forEach { require(it.size == 33 || it.size == 65) }
-        require(pubkey2.size == 33 || pubkey2.size == 65)
+        CallbackHandler(ctx).use { callbackHandler ->
-        memScoped {
+            memScoped {
-            val nPubkey1 = allocPublicKey(pubkey1)
+                val nPubkeys = pubkeys.map { allocPublicKey(it).ptr }
-            val nPubkey2 = allocPublicKey(pubkey2)
+                val combined = alloc<secp256k1_pubkey>()
-            val combined = alloc<secp256k1_pubkey>()
+                secp256k1_ec_pubkey_combine(ctx, combined.ptr, nPubkeys.toCValues(), pubkeys.size.convert()).requireSuccess(callbackHandler, "secp256k1_ec_pubkey_combine() failed")
-            secp256k1_ec_pubkey_combine(ctx, combined.ptr, cValuesOf(nPubkey1.ptr, nPubkey2.ptr), 2.convert()).requireSuccess("secp256k1_ec_pubkey_combine() failed")
+                return serializePubkey(combined)
-            return serializePubkey(combined)
+            }
        }
    }
-    public override fun ecdh(seckey: ByteArray, pubkey: ByteArray): ByteArray {
+    public override fun ecdh(privkey: ByteArray, pubkey: ByteArray): ByteArray {
-        require(seckey.size == 32)
+        require(privkey.size == 32)
        require(pubkey.size == 33 || pubkey.size == 65)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nPubkey = allocPublicKey(pubkey)
+            memScoped {
-            val nSeckey = toNat(seckey)
+                val nPubkey = allocPublicKey(pubkey)
-            val output = allocArray<UByteVar>(32)
+                val nPrivkey = toNat(privkey)
-            secp256k1_ecdh(ctx, output, nPubkey.ptr, nSeckey, null, null).requireSuccess("secp256k1_ecdh() failed")
+                val output = allocArray<UByteVar>(32)
-            return output.readBytes(32)
+                secp256k1_ecdh(ctx, output, nPubkey.ptr, nPrivkey, null, null).requireSuccess(callbackHandler, "secp256k1_ecdh() failed")
                return output.readBytes(32)
            }
        }
    }
    public override fun ecdsaRecover(sig: ByteArray, message: ByteArray, recid: Int): ByteArray {
        require(sig.size == 64)
        require(message.size == 32)
-        memScoped {
+        // we do not check that recid is valid, which should trigger our illegal callback handler to throw a Secp256k1IllegalCallbackException
-            val nSig = toNat(sig)
+        // require(recid in 0..3)
-            val rSig = alloc<secp256k1_ecdsa_recoverable_signature>()
+
-            secp256k1_ecdsa_recoverable_signature_parse_compact(ctx, rSig.ptr, nSig, recid).requireSuccess("secp256k1_ecdsa_recoverable_signature_parse_compact() failed")
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nMessage = toNat(message)
+            memScoped {
-            val pubkey = alloc<secp256k1_pubkey>()
+                val nSig = toNat(sig)
-            secp256k1_ecdsa_recover(ctx, pubkey.ptr, rSig.ptr, nMessage).requireSuccess("secp256k1_ecdsa_recover() failed")
+                val rSig = alloc<secp256k1_ecdsa_recoverable_signature>()
-            return serializePubkey(pubkey)
+                secp256k1_ecdsa_recoverable_signature_parse_compact(ctx, rSig.ptr, nSig, recid).requireSuccess(callbackHandler, "secp256k1_ecdsa_recoverable_signature_parse_compact() failed")
                val nMessage = toNat(message)
                val pubkey = alloc<secp256k1_pubkey>()
                secp256k1_ecdsa_recover(ctx, pubkey.ptr, rSig.ptr, nMessage).requireSuccess(callbackHandler, "secp256k1_ecdsa_recover() failed")
                return serializePubkey(pubkey)
            }
        }
    }
    public override fun compact2der(sig: ByteArray): ByteArray {
        require(sig.size == 64)
-        memScoped {
+        CallbackHandler(ctx).use { callbackHandler ->
-            val nSig = allocSignature(sig)
+            memScoped {
-            val natOutput = allocArray<UByteVar>(73)
+                val nSig = allocSignature(sig)
-            val len = alloc<size_tVar>()
+                val natOutput = allocArray<UByteVar>(73)
-            len.value = 73.convert()
+                val len = alloc<size_tVar>()
-            secp256k1_ecdsa_signature_serialize_der(ctx, natOutput, len.ptr, nSig.ptr).requireSuccess("secp256k1_ecdsa_signature_serialize_der() failed")
+                len.value = 73.convert()
-            return natOutput.readBytes(len.value.toInt())
+                secp256k1_ecdsa_signature_serialize_der(ctx, natOutput, len.ptr, nSig.ptr).requireSuccess(callbackHandler, "secp256k1_ecdsa_signature_serialize_der() failed")
                return natOutput.readBytes(len.value.toInt())
            }
        }
    }
    override fun verifySchnorr(signature: ByteArray, data: ByteArray, pub: ByteArray): Boolean {
        require(signature.size == 64)
        require(data.size == 32)
        require(pub.size == 32)
        CallbackHandler(ctx).use { callbackHandler ->
            memScoped {
                val nPub = toNat(pub)
                val pubkey = alloc<secp256k1_xonly_pubkey>()
                secp256k1_xonly_pubkey_parse(ctx, pubkey.ptr, nPub).requireSuccess(callbackHandler, "secp256k1_xonly_pubkey_parse() failed")
                val nData = toNat(data)
                val nSig = toNat(signature)
                return secp256k1_schnorrsig_verify(ctx, nSig, nData, 32u, pubkey.ptr) == 1
            }
        }
    }
    override fun signSchnorr(data: ByteArray, sec: ByteArray, auxrand32: ByteArray?): ByteArray {
        require(sec.size == 32)
        require(data.size == 32)
        auxrand32?.let { require(it.size == 32) }
        CallbackHandler(ctx).use { callbackHandler ->
            memScoped {
                val nSec = toNat(sec)
                val nData = toNat(data)
                val nAuxrand32 = auxrand32?.let { toNat(it) }
                val nSig = allocArray<UByteVar>(64)
                val keypair = alloc<secp256k1_keypair>()
                secp256k1_keypair_create(ctx, keypair.ptr, nSec).requireSuccess(callbackHandler, "secp256k1_keypair_create() failed")
                secp256k1_schnorrsig_sign32(ctx, nSig, nData, keypair.ptr, nAuxrand32).requireSuccess(callbackHandler, "secp256k1_ecdsa_sign() failed")
                return nSig.readBytes(64)
            }
        }
    }
    public override fun cleanup() {
        secp256k1_context_destroy(ctx)
    }
 }
 internal actual fun getSecpk256k1(): Secp256k1 = Secp256k1Native
--- a/tests/build.gradle.kts
+++ b/tests/build.gradle.kts
@@ -1,11 +1,16 @@
 plugins {
    kotlin("multiplatform")
-    id("com.android.library")
+    if (System.getProperty("includeAndroid")?.toBoolean() == true) {
        id("com.android.library")
    }
 }
 kotlin {
    explicitApi()
    val includeAndroid = System.getProperty("includeAndroid")?.toBoolean() ?: true
    val commonMain by sourceSets.getting {
        dependencies {
            implementation(rootProject)
@@ -13,6 +18,7 @@ kotlin {
    }
    val commonTest by sourceSets.getting {
        dependencies {
            implementation(kotlin("test-common"))
            implementation(kotlin("test-annotations-common"))
        }
    }
@@ -29,17 +35,19 @@ kotlin {
        }
    }
-    android {
+    if (includeAndroid) {
-        compilations.all {
+        android {
-            kotlinOptions.jvmTarget = "1.8"
+            compilations.all {
-        }
+                kotlinOptions.jvmTarget = "1.8"
-        sourceSets["androidMain"].dependencies {
+            }
-            implementation(project(":jni:android"))
+            sourceSets["androidMain"].dependencies {
-        }
+                implementation(project(":jni:android"))
-        sourceSets["androidTest"].dependencies {
+            }
-            implementation(kotlin("test-junit"))
+            sourceSets["androidTest"].dependencies {
-            implementation("androidx.test.ext:junit:1.1.2")
+                implementation(kotlin("test-junit"))
-            implementation("androidx.test.espresso:espresso-core:3.3.0")
+                implementation("androidx.test.ext:junit:1.1.2")
                implementation("androidx.test.espresso:espresso-core:3.3.0")
            }
        }
    }
@@ -48,23 +56,26 @@ kotlin {
    ios()
 }
-android {
+val includeAndroid = System.getProperty("includeAndroid")?.toBoolean() ?: true
-    defaultConfig {
+if (includeAndroid) {
-        compileSdkVersion(30)
+    extensions.configure<com.android.build.gradle.LibraryExtension>("android") {
-        minSdkVersion(21)
+        defaultConfig {
-        testInstrumentationRunner = "androidx.test.runner.AndroidJUnitRunner"
+            compileSdkVersion(30)
-    }
+            minSdkVersion(21)
            testInstrumentationRunner = "androidx.test.runner.AndroidJUnitRunner"
        }
-    compileOptions {
+        compileOptions {
-        sourceCompatibility = JavaVersion.VERSION_1_8
+            sourceCompatibility = JavaVersion.VERSION_1_8
-        targetCompatibility = JavaVersion.VERSION_1_8
+            targetCompatibility = JavaVersion.VERSION_1_8
-    }
+        }
-    sourceSets["main"].manifest.srcFile("src/androidMain/AndroidManifest.xml")
+        sourceSets["main"].manifest.srcFile("src/androidMain/AndroidManifest.xml")
-    afterEvaluate {
+        afterEvaluate {
-        tasks.withType<com.android.build.gradle.tasks.factory.AndroidUnitTest>().all {
+            tasks.withType<com.android.build.gradle.tasks.factory.AndroidUnitTest>().all {
-            enabled = false
+                enabled = false
            }
        }
    }
-}
+}
--- a/tests/src/androidTest/java/fr/acinq/secp256k1/AndroidTest.kt
+++ b/tests/src/androidTest/java/fr/acinq/secp256k1/AndroidTest.kt
@@ -1,7 +0,0 @@
 package fr.acinq.secp256k1
 import org.junit.Test
 import kotlin.test.assertEquals
 class AndroidTest {}
--- a/tests/src/commonTest/kotlin/fr/acinq/secp256k1/Secp256k1Test.kt
+++ b/tests/src/commonTest/kotlin/fr/acinq/secp256k1/Secp256k1Test.kt
@@ -3,272 +3,362 @@ package fr.acinq.secp256k1
 import kotlin.random.Random
 import kotlin.test.*
 /**
 * This class holds test cases defined for testing this library.
 */
 class Secp256k1Test {
    //TODO improve comments/add more tests
    @Test
-    fun testVerifyPos() {
+    fun verifyValidPrivateKey() {
-        var result: Boolean
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".toLowerCase()) //sha256hash of "testing"
+        assertTrue(Secp256k1.secKeyVerify(priv))
        val sig: ByteArray = Hex.decode("3044022079BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F817980220294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".toLowerCase())
        val pub: ByteArray = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".toLowerCase())
        result = Secp256k1.verify(sig, data, pub)
        assertTrue(result, "testVerifyPos")
        val sigCompact: ByteArray = Hex.decode("79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".toLowerCase())
        result = Secp256k1.verify(sigCompact, data, pub)
        assertTrue(result, "testVerifyPos")
    }
    @Test
-    fun testVerifyNeg() {
+    fun verifyInvalidPrivateKey() {
-        var result: Boolean
+        val invalidSize = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A106353001")
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A91".toLowerCase()) //sha256hash of "testing"
+        assertFalse(Secp256k1.secKeyVerify(invalidSize))
-        val sig: ByteArray = Hex.decode("3044022079BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F817980220294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".toLowerCase())
+        val curveOrder = Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141".lowercase())
-        val pub: ByteArray = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".toLowerCase())
+        assertFalse(Secp256k1.secKeyVerify(curveOrder))
-        result = Secp256k1.verify(sig, data, pub)
+        val zero = Hex.decode("0000000000000000000000000000000000000000000000000000000000000000".lowercase())
-        assertFalse(result, "testVerifyNeg")
+        assertFalse(Secp256k1.secKeyVerify(zero))
    }
    @Test
-    fun testSecKeyVerifyPos() {
+    fun createValidPublicKey() {
-        var result: Boolean
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val pub = Secp256k1.pubkeyCreate(priv)
        result = Secp256k1.secKeyVerify(sec)
        assertTrue(result, "testSecKeyVerifyPos")
    }
    @Test
    fun testSecKeyVerifyNeg() {
        var result: Boolean
        val sec: ByteArray = Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".toLowerCase())
        result = Secp256k1.secKeyVerify(sec)
        assertFalse(result, "testSecKeyVerifyNeg")
    }
    @Test
    fun testPubKeyCreatePos() {
        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
        val resultArr: ByteArray = Secp256k1.pubkeyCreate(sec)
        val pubkeyString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6",
-            pubkeyString,
+            Hex.encode(pub).uppercase(),
            "testPubKeyCreatePos"
        )
    }
    @Test
-    fun testPubKeyCreateNeg() {
+    fun createInvalidPublicKey() {
-        val sec: ByteArray = Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".toLowerCase())
+        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyCreate(Hex.decode("0000000000000000000000000000000000000000000000000000000000000000".lowercase())) }
-        assertFailsWith<Secp256k1Exception> {
+        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyCreate(Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141".lowercase())) }
-            Secp256k1.pubkeyCreate(sec)
+        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyCreate(Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".lowercase())) }
        }
    }
    @Test
-    fun testPubkeyCompress() {
+    fun compressPublicKey() {
        val pub = Hex.decode("04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6")
        val compressed = Secp256k1.pubKeyCompress(pub)
-        assertEquals("02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D", Hex.encode(compressed).toUpperCase())
+        assertEquals("02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D", Hex.encode(compressed).uppercase())
    }
    @Test
-    fun testPubKeyNegatePos() {
+    fun negatePublicKey() {
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val pubkey: ByteArray = Secp256k1.pubkeyCreate(sec)
+        val pub = Secp256k1.pubkeyCreate(priv)
        val pubkeyString: String = Hex.encode(pubkey).toUpperCase()
        assertEquals(
            "04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6",
-            pubkeyString,
+            Hex.encode(pub).uppercase(),
            "testPubKeyCreatePos"
        )
-        val pubkey1: ByteArray = Secp256k1.pubKeyNegate(pubkey)
+        assertEquals(
-        val pubkeyString1: String = Hex.encode(pubkey1).toUpperCase()
+            "02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D",
            Hex.encode(Secp256k1.pubKeyCompress(pub)).uppercase()
        )
        val npub = Secp256k1.pubKeyNegate(pub)
        assertEquals(
            "04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2DDEFC12B6B8E73968536514302E69ED1DDB24B999EFEE79C12D03AB17E79E1989",
-            pubkeyString1,
+            Hex.encode(npub).uppercase(),
            "testPubKeyNegatePos"
        )
        assertEquals(
            "03C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D",
            Hex.encode(Secp256k1.pubKeyCompress(npub)).uppercase()
        )
        val nnpub = Secp256k1.pubKeyNegate(npub)
        assertContentEquals(pub, nnpub)
    }
    @Test
-    fun testPubKeyParse() {
+    fun parsePublicKey() {
-        val pub: ByteArray = Hex.decode("02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D".toLowerCase())
+        val pub = Hex.decode("02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D".lowercase())
-        val resultArr: ByteArray = Secp256k1.pubkeyParse(pub)
+        val parsed1 = Secp256k1.pubkeyParse(pub)
        val pubkeyString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6",
-            pubkeyString,
+            Hex.encode(parsed1).uppercase(),
            "testPubKeyAdd"
        )
        val parsed2 = Secp256k1.pubkeyParse(parsed1)
        assertContentEquals(parsed1, parsed2)
    }
    @Test
-    fun testPubKeyAdd() {
+    fun parseInvalidPublicKey() {
-        val pub1: ByteArray = Hex.decode("041b84c5567b126440995d3ed5aaba0565d71e1834604819ff9c17f5e9d5dd078f70beaf8f588b541507fed6a642c5ab42dfdf8120a7f639de5122d47a69a8e8d1".toLowerCase())
+        // Not a valid curve point.
-        val pub2: ByteArray = Hex.decode("044d4b6cd1361032ca9bd2aeb9d900aa4d45d9ead80ac9423374c451a7254d07662a3eada2d0fe208b6d257ceb0f064284662e857f57b66b54c198bd310ded36d0".toLowerCase())
+        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("02FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".lowercase())) }
-        val pub3: ByteArray = Secp256k1.pubKeyAdd(pub1, pub2)
+        // Invalid first byte.
-        val pubkeyString: String = Hex.encode(pub3).toUpperCase()
+        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("02C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6".lowercase())) }
        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("03C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6".lowercase())) }
        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("05C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D2103ED494718C697AC9AEBCFD19612E224DB46661011863ED2FC54E71861E2A6".lowercase())) }
        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("01C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D".lowercase())) }
        assertFailsWith<Secp256k1Exception> { Secp256k1.pubkeyParse(Hex.decode("04C591A8FF19AC9C4E4E5793673B83123437E975285E7B442F4EE2654DFFCA5E2D".lowercase())) }
    }
    @Test
    fun combinePublicKeys() {
        // Mixture of compressed and uncompressed public keys.
        val pub1 = Hex.decode("041b84c5567b126440995d3ed5aaba0565d71e1834604819ff9c17f5e9d5dd078f70beaf8f588b541507fed6a642c5ab42dfdf8120a7f639de5122d47a69a8e8d1")
        val pub2 = Hex.decode("044d4b6cd1361032ca9bd2aeb9d900aa4d45d9ead80ac9423374c451a7254d07662a3eada2d0fe208b6d257ceb0f064284662e857f57b66b54c198bd310ded36d0")
        val pub3 = Hex.decode("02eec7245d6b7d2ccb30380bfbe2a3648cd7a942653f5aa340edcea1f283686619")
        val pub4 = Secp256k1.pubKeyCombine(arrayOf(pub1, pub2, pub3))
        assertEquals(
-            "04531FE6068134503D2723133227C867AC8FA6C83C537E9A44C3C5BDBDCB1FE3379E92C265E71E481BA82A84675A47AC705A200FCD524E92D93B0E7386F26A5458",
+            "042C0B7CF95324A07D05398B240174DC0C2BE444D96B159AA6C7F7B1E668680991AE31A9C671A36543F46CEA8FCE6984608AA316AA0472A7EED08847440218CB2F",
-            pubkeyString,
+            Hex.encode(pub4).uppercase(),
            "testPubKeyAdd"
        )
    }
    @Test
-    fun testSignPos() {
+    fun createEcdsaSignature() {
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".toLowerCase()) //sha256hash of "testing"
+        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".lowercase()) //sha256hash of "testing"
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val resultArr: ByteArray = Secp256k1.sign(data, sec)
+        val sig = Secp256k1.sign(message, priv)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
-            sigString,
+            Hex.encode(sig).uppercase(),
            "testSignPos"
        )
    }
    @Test
-    fun testSignatureNormalize() {
+    fun normalizeEcdsaSignature() {
-        val data: ByteArray = Hex.decode("30440220182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A202201C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9".toLowerCase())
+        val normalizedDerSig = Hex.decode("30440220182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A202201C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9".lowercase())
-        val (resultArr, isHighS) = Secp256k1.signatureNormalize(data)
+        val (normalizedCompactSig1, wasNotNormalized1) = Secp256k1.signatureNormalize(normalizedDerSig)
-        val sigString: String = Hex.encode(resultArr).toUpperCase()
+        assertFalse(wasNotNormalized1)
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
-            sigString,
+            Hex.encode(normalizedCompactSig1).uppercase(),
-            "testSignPos"
+        )
        val notNormalizedDerSig = Hex.decode("30450220182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A2022100E3990C925DEE3F780C50774AF120B062E0080D86D8C721C6E32F10DBACA57A58".lowercase())
        val (normalizedCompactSig2, wasNotNormalized2) = Secp256k1.signatureNormalize(notNormalizedDerSig)
        assertTrue(wasNotNormalized2)
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
            Hex.encode(normalizedCompactSig2).uppercase(),
        )
        val normalizedCompactSig = Hex.decode("182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9".lowercase())
        val (normalizedCompactSig3, wasNotNormalized3) = Secp256k1.signatureNormalize(normalizedCompactSig)
        assertFalse(wasNotNormalized3)
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
            Hex.encode(normalizedCompactSig3).uppercase(),
        )
        val notNormalizedCompactSig = Hex.decode("182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A2E3990C925DEE3F780C50774AF120B062E0080D86D8C721C6E32F10DBACA57A58".lowercase())
        val (normalizedCompactSig4, wasNotNormalized4) = Secp256k1.signatureNormalize(notNormalizedCompactSig)
        assertTrue(wasNotNormalized4)
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
            Hex.encode(normalizedCompactSig4).uppercase(),
        )
        assertFalse(isHighS, "isHighS")
    }
    @Test
-    fun testSignNeg() {
+    fun failToCreateEcdsaSignature() {
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".toLowerCase()) //sha256hash of "testing"
+        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".lowercase()) //sha256hash of "testing"
-        val sec: ByteArray = Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".toLowerCase())
+        val priv = Hex.decode("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF".lowercase())
        assertFailsWith<Secp256k1Exception> {
-            Secp256k1.sign(data, sec)
+            Secp256k1.sign(message, priv)
        }
    }
    @Test
-    fun testSignCompactPos() {
+    fun createCompactEcdsaSignature() {
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".toLowerCase()) //sha256hash of "testing"
+        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".lowercase()) //sha256hash of "testing"
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val resultArr: ByteArray = Secp256k1.sign(data, sec)
+        val sig = Secp256k1.sign(message, priv)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
-            sigString,
+            Hex.encode(sig).uppercase(),
            "testSignCompactPos"
        )
    }
    @Test
-    fun testPrivKeyTweakNegate() {
+    fun verifyValidEcdsaSignatures() {
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".lowercase()) //sha256hash of "testing"
-        val sec1: ByteArray = Secp256k1.privKeyNegate(sec)
+        val sig = Hex.decode("3044022079BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F817980220294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".lowercase())
        val pub = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".lowercase())
        assertTrue(Secp256k1.verify(sig, message, pub))
        val sigCompact = Hex.decode("79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".lowercase())
        assertTrue(Secp256k1.verify(sigCompact, message, pub))
    }
    @Test
    fun verifyInvalidEcdsaSignatures() {
        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A91".lowercase()) //sha256hash of "testing"
        val sig = Hex.decode("3044022079BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F817980220294F14E883B3F525B5367756C2A11EF6CF84B730B36C17CB0C56F0AAB2C98589".lowercase())
        val pub = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".lowercase())
        assertFalse(Secp256k1.verify(sig, message, pub))
    }
    @Test
    fun negatePrivateKey() {
        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
        val npriv = Secp256k1.privKeyNegate(priv)
        assertEquals(
            "981A9A7DD677A622518DA068D66D5F824E5F22F084B8A0E2F195B5662F300C11",
-            Hex.encode(sec1).toUpperCase(),
+            Hex.encode(npriv).uppercase(),
            "testPrivKeyNegate"
        )
-        val sec2: ByteArray = Secp256k1.privKeyNegate(sec1)
+        val nnpriv: ByteArray = Secp256k1.privKeyNegate(npriv)
-        assertTrue(sec.contentEquals(sec2))
+        assertContentEquals(priv, nnpriv)
    }
    @Test
-    fun testPrivKeyTweakAdd_1() {
+    fun addTweakToPrivateKey() {
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val data: ByteArray = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".toLowerCase()) //sha256hash of "tweak"
+        val tweak = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".lowercase())
-        val resultArr: ByteArray = Secp256k1.privKeyTweakAdd(sec, data)
+        val tweakedPriv = Secp256k1.privKeyTweakAdd(priv, tweak)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "A168571E189E6F9A7E2D657A4B53AE99B909F7E712D1C23CED28093CD57C88F3",
-            sigString,
+            Hex.encode(tweakedPriv).uppercase(),
            "testPrivKeyAdd_1"
        )
    }
    @Test
-    fun testPrivKeyTweakMul_1() {
+    fun multiplyPrivateKeyWithTweak() {
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val data: ByteArray = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".toLowerCase()) //sha256hash of "tweak"
+        val tweak = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".lowercase())
-        val resultArr: ByteArray = Secp256k1.privKeyTweakMul(sec, data)
+        val tweakedPriv = Secp256k1.privKeyTweakMul(priv, tweak)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "97F8184235F101550F3C71C927507651BD3F1CDB4A5A33B8986ACF0DEE20FFFC",
-            sigString,
+            Hex.encode(tweakedPriv).uppercase(),
            "testPrivKeyMul_1"
        )
    }
    @Test
-    fun testPrivKeyTweakAdd_2() {
+    fun addTweakToPublicKey() {
-        val pub: ByteArray = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".toLowerCase())
+        val pub = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".lowercase())
-        val data: ByteArray = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".toLowerCase()) //sha256hash of "tweak"
+        val tweak = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".lowercase())
-        val resultArr: ByteArray = Secp256k1.pubKeyTweakAdd(pub, data)
+        val tweakedPub = Secp256k1.pubKeyTweakAdd(pub, tweak)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "0411C6790F4B663CCE607BAAE08C43557EDC1A4D11D88DFCB3D841D0C6A941AF525A268E2A863C148555C48FB5FBA368E88718A46E205FABC3DBA2CCFFAB0796EF",
-            sigString,
+            Hex.encode(tweakedPub).uppercase(),
            "testPrivKeyAdd_2"
        )
    }
    @Test
-    fun testPrivKeyTweakMul_2() {
+    fun multiplyPublicKeyWithTweak() {
-        val pub: ByteArray = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".toLowerCase())
+        val pub = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".lowercase())
-        val data: ByteArray = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".toLowerCase()) //sha256hash of "tweak"
+        val tweak = Hex.decode("3982F19BEF1615BCCFBB05E321C10E1D4CBA3DF0E841C2E41EEB6016347653C3".lowercase())
-        val resultArr: ByteArray = Secp256k1.pubKeyTweakMul(pub, data)
+        val tweakedPub = Secp256k1.pubKeyTweakMul(pub, tweak)
        val sigString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "04E0FE6FE55EBCA626B98A807F6CAF654139E14E5E3698F01A9A658E21DC1D2791EC060D4F412A794D5370F672BC94B722640B5F76914151CFCA6E712CA48CC589",
-            sigString,
+            Hex.encode(tweakedPub).uppercase(),
            "testPrivKeyMul_2"
        )
    }
    @Test
-    fun testCreateECDHSecret() {
+    fun createEcdhSecret() {
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
-        val pub: ByteArray = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".toLowerCase())
+        val pub = Hex.decode("040A629506E1B65CD9D2E0BA9C75DF9C4FED0DB16DC9625ED14397F0AFC836FAE595DC53F8B0EFE61E703075BD9B143BAC75EC0E19F82A2208CAEB32BE53414C40".lowercase())
-        val resultArr: ByteArray = Secp256k1.ecdh(sec, pub)
+        val secret = Secp256k1.ecdh(priv, pub)
        val ecdhString: String = Hex.encode(resultArr).toUpperCase()
        assertEquals(
            "2A2A67007A926E6594AF3EB564FC74005B37A9C8AEF2033C4552051B5C87F043",
-            ecdhString,
+            Hex.encode(secret).uppercase(),
            "testCreateECDHSecret"
        )
    }
    @Test
-    fun testEcdsaRecover() {
+    fun createSymmetricEcdhSecret() {
-        val data: ByteArray = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".toLowerCase()) //sha256hash of "testing"
+        val priv1 = Hex.decode("3580a881ac24eb00530a51235c42bcb65424ba121e2e7d910a70fa531a578d21")
-        val sec: ByteArray = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".toLowerCase())
+        val pub1 = Secp256k1.pubkeyCreate(priv1)
-        val pub: ByteArray = Secp256k1.pubkeyCreate(sec)
+        val priv2 = Hex.decode("f6a353f7a5de654501c3495acde7450293f74d09086c2b7c9a4e524248d0daac")
-        val sig: ByteArray = Secp256k1.sign(data, sec)
+        val pub2 = Secp256k1.pubkeyCreate(priv2)
-        val pub0: ByteArray = Secp256k1.ecdsaRecover(sig, data, 0)
+        val secret1 = Secp256k1.ecdh(priv1, pub2)
-        val pub1: ByteArray = Secp256k1.ecdsaRecover(sig, data, 1)
+        val secret2 = Secp256k1.ecdh(priv2, pub1)
-        assertTrue(pub.contentEquals(pub0) || pub.contentEquals(pub1), "testEcdsaRecover")
+        assertContentEquals(secret1, secret2)
    }
    @Test
-    fun testCompactToDER() {
+    fun recoverPublicKeyFromEcdsaSignature() {
-        val sig: ByteArray = Hex.decode("182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9".toLowerCase()) //sha256hash of "testing"
+        val message = Hex.decode("CF80CD8AED482D5D1527D7DC72FCEFF84E6326592848447D2DC0B0E87DFC9A90".lowercase()) //sha256hash of "testing"
-        val der: ByteArray = Secp256k1.compact2der(sig)
+        val priv = Hex.decode("67E56582298859DDAE725F972992A07C6C4FB9F62A8FFF58CE3CA926A1063530".lowercase())
        val pub = Secp256k1.pubkeyCreate(priv)
        val sig = Secp256k1.sign(message, priv)
        val pub0 = Secp256k1.ecdsaRecover(sig, message, 0)
        val pub1 = Secp256k1.ecdsaRecover(sig, message, 1)
        assertTrue(pub.contentEquals(pub0) || pub.contentEquals(pub1))
        // this is a special case, ecdsaRecover explicitly does not check that recid is valid, which triggers our illegal callback handler
        assertFailsWith(Secp256k1IllegalCallbackException::class) {
            Secp256k1.ecdsaRecover(sig, message, 4)
        }
    }
    @Test
    fun convertCompactEcdsaSignatureToDer() {
        val compact = Hex.decode("182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A21C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9".lowercase()) //sha256hash of "testing"
        val der = Secp256k1.compact2der(compact)
        assertEquals(
            "30440220182A108E1448DC8F1FB467D06A0F3BB8EA0533584CB954EF8DA112F1D60E39A202201C66F36DA211C087F3AF88B50EDF4F9BDAA6CF5FD6817E74DCA34DB12390C6E9",
-            Hex.encode(der).toUpperCase(),
+            Hex.encode(der).uppercase(),
        )
    }
    @Test
-    fun testFormatConversion() {
+    fun testSchnorrSignature() {
        val seckey = Hex.decode("0000000000000000000000000000000000000000000000000000000000000003")
        val msg = Hex.decode("0000000000000000000000000000000000000000000000000000000000000000")
        val auxrand32 = Hex.decode("0000000000000000000000000000000000000000000000000000000000000000")
        val sig = Secp256k1.signSchnorr(msg, seckey, auxrand32)
        assertEquals(
            "E907831F80848D1069A5371B402410364BDF1C5F8307B0084C55F1CE2DCA821525F66A4A85EA8B71E482A74F382D2CE5EBEEE8FDB2172F477DF4900D310536C0",
            Hex.encode(sig).uppercase(),
        )
        val pubkey = Secp256k1.pubkeyCreate(seckey).drop(1).take(32).toByteArray()
        assertEquals(
            "F9308A019258C31049344F85F89D5229B531C845836F99B08601F113BCE036F9",
            Hex.encode(pubkey).uppercase()
        )
        assertTrue(Secp256k1.verifySchnorr(sig, msg, pubkey))
    }
    @Test
    fun testSchnorrTestVectors() {
        // BIP340 test vectors copied from https://github.com/bitcoin/bips/blob/master/bip-0340/test-vectors.csv
        val bip340TestVectors = """index,secret key,public key,aux_rand,message,signature,verification result,comment
 0,0000000000000000000000000000000000000000000000000000000000000003,F9308A019258C31049344F85F89D5229B531C845836F99B08601F113BCE036F9,0000000000000000000000000000000000000000000000000000000000000000,0000000000000000000000000000000000000000000000000000000000000000,E907831F80848D1069A5371B402410364BDF1C5F8307B0084C55F1CE2DCA821525F66A4A85EA8B71E482A74F382D2CE5EBEEE8FDB2172F477DF4900D310536C0,TRUE,
 1,B7E151628AED2A6ABF7158809CF4F3C762E7160F38B4DA56A784D9045190CFEF,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,0000000000000000000000000000000000000000000000000000000000000001,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,6896BD60EEAE296DB48A229FF71DFE071BDE413E6D43F917DC8DCF8C78DE33418906D11AC976ABCCB20B091292BFF4EA897EFCB639EA871CFA95F6DE339E4B0A,TRUE,
 2,C90FDAA22168C234C4C6628B80DC1CD129024E088A67CC74020BBEA63B14E5C9,DD308AFEC5777E13121FA72B9CC1B7CC0139715309B086C960E18FD969774EB8,C87AA53824B4D7AE2EB035A2B5BBBCCC080E76CDC6D1692C4B0B62D798E6D906,7E2D58D8B3BCDF1ABADEC7829054F90DDA9805AAB56C77333024B9D0A508B75C,5831AAEED7B44BB74E5EAB94BA9D4294C49BCF2A60728D8B4C200F50DD313C1BAB745879A5AD954A72C45A91C3A51D3C7ADEA98D82F8481E0E1E03674A6F3FB7,TRUE,
 3,0B432B2677937381AEF05BB02A66ECD012773062CF3FA2549E44F58ED2401710,25D1DFF95105F5253C4022F628A996AD3A0D95FBF21D468A1B33F8C160D8F517,FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF,FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF,7EB0509757E246F19449885651611CB965ECC1A187DD51B64FDA1EDC9637D5EC97582B9CB13DB3933705B32BA982AF5AF25FD78881EBB32771FC5922EFC66EA3,TRUE,test fails if msg is reduced modulo p or n
 4,,D69C3509BB99E412E68B0FE8544E72837DFA30746D8BE2AA65975F29D22DC7B9,,4DF3C3F68FCC83B27E9D42C90431A72499F17875C81A599B566C9889B9696703,00000000000000000000003B78CE563F89A0ED9414F5AA28AD0D96D6795F9C6376AFB1548AF603B3EB45C9F8207DEE1060CB71C04E80F593060B07D28308D7F4,TRUE,
 5,,EEFDEA4CDB677750A420FEE807EACF21EB9898AE79B9768766E4FAA04A2D4A34,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,6CFF5C3BA86C69EA4B7376F31A9BCB4F74C1976089B2D9963DA2E5543E17776969E89B4C5564D00349106B8497785DD7D1D713A8AE82B32FA79D5F7FC407D39B,FALSE,public key not on the curve
 6,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,FFF97BD5755EEEA420453A14355235D382F6472F8568A18B2F057A14602975563CC27944640AC607CD107AE10923D9EF7A73C643E166BE5EBEAFA34B1AC553E2,FALSE,has_even_y(R) is false
 7,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,1FA62E331EDBC21C394792D2AB1100A7B432B013DF3F6FF4F99FCB33E0E1515F28890B3EDB6E7189B630448B515CE4F8622A954CFE545735AAEA5134FCCDB2BD,FALSE,negated message
 8,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,6CFF5C3BA86C69EA4B7376F31A9BCB4F74C1976089B2D9963DA2E5543E177769961764B3AA9B2FFCB6EF947B6887A226E8D7C93E00C5ED0C1834FF0D0C2E6DA6,FALSE,negated s value
 9,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,0000000000000000000000000000000000000000000000000000000000000000123DDA8328AF9C23A94C1FEECFD123BA4FB73476F0D594DCB65C6425BD186051,FALSE,sG - eP is infinite. Test fails in single verification if has_even_y(inf) is defined as true and x(inf) as 0
 10,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,00000000000000000000000000000000000000000000000000000000000000017615FBAF5AE28864013C099742DEADB4DBA87F11AC6754F93780D5A1837CF197,FALSE,sG - eP is infinite. Test fails in single verification if has_even_y(inf) is defined as true and x(inf) as 1
 11,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,4A298DACAE57395A15D0795DDBFD1DCB564DA82B0F269BC70A74F8220429BA1D69E89B4C5564D00349106B8497785DD7D1D713A8AE82B32FA79D5F7FC407D39B,FALSE,sig[0:32] is not an X coordinate on the curve
 12,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F69E89B4C5564D00349106B8497785DD7D1D713A8AE82B32FA79D5F7FC407D39B,FALSE,sig[0:32] is equal to field size
 13,,DFF1D77F2A671C5F36183726DB2341BE58FEAE1DA2DECED843240F7B502BA659,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,6CFF5C3BA86C69EA4B7376F31A9BCB4F74C1976089B2D9963DA2E5543E177769FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141,FALSE,sig[32:64] is equal to curve order
 14,,FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC30,,243F6A8885A308D313198A2E03707344A4093822299F31D0082EFA98EC4E6C89,6CFF5C3BA86C69EA4B7376F31A9BCB4F74C1976089B2D9963DA2E5543E17776969E89B4C5564D00349106B8497785DD7D1D713A8AE82B32FA79D5F7FC407D39B,FALSE,public key is not a valid X coordinate because it exceeds the field size"""
        bip340TestVectors.split('\n').drop(1).forEach {
            val testData = it.split(',')
            val index = testData[0]
            val seckey = Hex.decode(testData[1])
            val pubkey = Hex.decode(testData[2])
            val auxrand = if (testData[3].isEmpty()) null else Hex.decode(testData[3])
            val msg = Hex.decode(testData[4])
            val sig = testData[5]
            val expected = when (testData[6]) {
                "FALSE" -> false
                else -> true
            }
            val comment = testData[7]
            if (seckey.isNotEmpty()) {
                val ourSig = Secp256k1.signSchnorr(msg, seckey, auxrand)
                assertEquals(Hex.encode(ourSig).uppercase(), sig)
            }
            val result = try {
                Secp256k1.verifySchnorr(Hex.decode(sig), msg, pubkey)
            } catch (t: Throwable) {
                false
            }
            assertEquals(expected, result, "test [$index, $comment] failed")
        }
    }
    @Test
    fun fuzzEcdsaSignVerify() {
        val random = Random.Default
        fun randomBytes(length: Int): ByteArray {
@@ -279,11 +369,13 @@ class Secp256k1Test {
        repeat(200) {
            val priv = randomBytes(32)
            assertTrue(Secp256k1.secKeyVerify(priv))
            val pub = Secp256k1.pubkeyCreate(priv)
-            val data = randomBytes(32)
+            val message = randomBytes(32)
-            val sig = Secp256k1.sign(data, priv)
+            val sig = Secp256k1.sign(message, priv)
            assertTrue(Secp256k1.verify(sig, message, pub))
            val der = Secp256k1.compact2der(sig)
-            Secp256k1.verify(der, data, pub)
+            assertTrue(Secp256k1.verify(der, message, pub))
        }
    }
 }
Author	SHA1	Message	Date
sstone	0364ec762e	Use local secp256k1 callbacks in kotlin native code	2023-12-12 12:08:13 +01:00
sstone	aadffabe42	Set version to 0.12.0-SNAPSHOT	2023-12-11 19:08:54 +01:00
sstone	8e17e7030a	Implement custom secp256k1 error callbacks These callbacks are only triggered either by arguments do not match explicit rquirements of the sepc256k1 library, or by hardware failures, memory corruption or bug in secp256k1, and not by misuse of the library. In theory we do not need to implement them, except to find bugs in our own code, but the default callbacks print a message to stderr and call abort() which is not nice especially on mobile apps. => Here we introduce 2 specific exceptions, Secp256k1ErrorCallbackException and Secp256k1IllegalCallbackException, which are thrown when the error callback or illegal callback are called.	2023-12-11 19:05:46 +01:00
sstone	929e2cda40	Check that the recovery id is valid It must be 0,1,2 or 3, this is an explicit requirement of the secp256k1 library.	2023-12-11 11:54:07 +01:00
sstone	41eac9273f	Reformat JNI c code (no functional changes)	2023-12-11 10:46:43 +01:00
Fabrice Drouin	161da89ee1	Set version to 0.11.0 (#86 )	2023-09-28 09:50:24 +02:00
Fabrice Drouin	3706a546a2	Use secp256k1 0.4.0 (#85 )	2023-09-18 14:05:36 +02:00
Fabrice Drouin	ffcaaf1b64	Set version to 0.10.1 (#84 )	2023-06-28 13:03:19 +02:00
Fabrice Drouin	6ef94df247	Use secp256k1 0.3.2 (#83 )	2023-06-28 10:43:05 +02:00
Fabrice Drouin	5169073a92	Update README.md	2023-05-15 11:15:30 +02:00
Fabrice Drouin	317e086cba	Set version to 0.10.0 (#82 )	2023-05-11 18:29:50 +02:00
Fabrice Drouin	7c7aabba80	Upgrade to Kotlin 1.8 (#81 ) * Upgrade to Kotlin 1.8 * Update snapshot deployment script Kotlin 1.8 creates a new metadata jar for ios modules.	2023-05-11 17:53:41 +02:00
Fabrice Drouin	b6823cbda6	Update CI build (#80 )	2023-04-25 09:55:48 +02:00
Fabrice Drouin	d50d9060c2	Set version to 0.9.0 (#78 )	2023-04-13 09:36:07 +02:00
Fabrice Drouin	6fedb1577c	Update build for macos M1 (#77 )	2023-04-13 09:15:43 +02:00
Fabrice Drouin	94bb2d67cf	Use secp256k1 0.3.1 (#76 )	2023-04-11 19:10:51 +02:00
Fabrice Drouin	bf05a001fe	Update Android build plugin and tools (#75 )	2023-04-11 18:42:06 +02:00
Fabrice Drouin	d9e5fda600	Set version to 0.8.0 (#73 )	2023-03-09 11:41:08 +01:00
Fabrice Drouin	8c984678be	Use secp256k1 0.3.0 (#72 ) * Use secp256k1 0.3.0 * Set version to 0.8.0-SNAPSHOT	2023-03-09 11:10:41 +01:00
gandlafbtc	840de25c5f	remove kotlin from dependencies in readme example (#71 ) The dependencies wouldn't resolve unless I removed kotlin(...)	2023-02-01 17:49:51 +01:00
Fabrice Drouin	cec3fb385f	Set version to 0.7.1 (#70 )	2023-01-04 15:33:55 +01:00
Fabrice Drouin	d59def1c79	Use secp256k1 0.2.0 (#67 )	2022-12-13 19:33:28 +01:00
Fabrice Drouin	52d73951e6	Set version to 0.7.1-SNAPSHOT (#68 )	2022-12-13 19:33:06 +01:00
Fabrice Drouin	08669500b6	Update README.md Upgrade to a kotlin 1.6.21 badge	2022-09-22 10:29:21 +02:00
thunderbiscuit	68e77c70be	Fix artifact names in README (#65 )	2022-09-21 17:17:16 +02:00
Fabrice Drouin	5e59132e2a	Set version to 0.7.0 (#64 )	2022-09-21 16:25:50 +02:00
Fabrice Drouin	d4eba9fb96	Update to kotlin 1.6 (#63 ) Use kotlin 1.6 (and gradle 7.5.1)	2022-09-21 16:00:19 +02:00
Fabrice Drouin	d01a067159	Update secp256k1 sources (#60 ) * Set version to 0.6.5-SNAPSHOT * Update secp256k1 sources We use 44c2452fd387f7ca604ab42d73746e7d3a44d8a2, same as bitcoin core at c41bfd1070176efcaae7fa33313cb4c3e88b44b0	2022-08-03 10:01:40 +02:00
Fabrice Drouin	75f45e9191	Set version to 0.6.4 (#53 )	2022-04-11 15:17:42 +02:00
Fabrice Drouin	118c72064c	Update secp256k1 sources (#52 ) We're now at 8746600eec5e7fcd35dabd480839a3a4bdfee87b, same as bitcoin core at 747cdf1d652d8587e9f2e3d4436c3ecdbf56d0a5	2022-04-11 13:34:59 +02:00
Fabrice Drouin	7af7b7760e	Document how to add custom JNI bindings (#50 ) This is how we add Linux Arm64 JNI bindings.	2022-04-04 11:26:18 +02:00
Fabrice Drouin	4df49dd8f6	Document publishing process (#46 ) Document publishing process	2022-03-29 18:42:01 +02:00
Fabrice Drouin	48c3e4723b	Set version to 0.6.4-SNAPSHOT (#49 )	2022-03-24 16:26:17 +01:00
Fabrice Drouin	df183e88b2	Set version to 0.6.3 (#45 )	2022-03-23 19:15:00 +01:00
Fabrice Drouin	de3fc7fe11	CI: fix windows tests (#48 ) Github Actions modified their windows runners which broke our build. As recommended, we now uses `msys2` on windows and install the packages that we need.	2022-03-23 15:45:45 +01:00
sstone	d074a03f2d	Set version to 0.6.3-SNAPSHOT	2022-01-04 13:52:26 +01:00
Fabrice Drouin	5942ccc977	Set version to 0.6.2 (#41 )	2022-01-04 11:27:49 +01:00
Fabrice Drouin	c3602dc649	Update secp256k1 sources (#40 ) We're now at 0559fc6e41b65af6e52c32eb9b1286494412a162, same as bitcoin core at 98a2ddcd6ed01a38cd0dad7c1abc7023a60d3fd0	2021-12-20 19:35:23 +01:00
Fabrice Drouin	ac7d4983d5	Export Schnorr signature API (#32 ) Implement Schnorr signatures (BIP 340)	2021-11-23 17:38:46 +01:00
sstone	5ee01ea526	Set version to 0.6.2-SNAPSHOT	2021-11-08 17:05:20 +01:00
Fabrice Drouin	050cc83dd0	Set version to 0.6.1 (#38 ) * Set version to 0.6.1 * Don't set up Android CI env on windows It's useless as we just run Android CI checks on Android.	2021-11-07 20:37:50 +01:00
Bastien Teinturier	2ae6abcf93	Clarify public key encoding and enrich tests (#37 ) Don't throw in `seckey_verify`: it's inconsistent to have this function throw for some invalid inputs and return false for other invalid inputs. Document public key compression and add tests.	2021-11-05 10:45:49 +01:00
Bastien Teinturier	f695e7453d	Clean up and enrich tests (#35 ) * Harmonize parameter names * Document methods * Replace pubKeyAdd with pubKeyCombine * Clean-up tests	2021-10-26 17:16:36 +02:00
Fabrice Drouin	3389795a52	Update build instructions (#34 )	2021-10-26 16:28:04 +02:00
Fabrice Drouin	6955c7416a	Add option to skip building and testing Android libraries (#33 ) * Add otpion to skip building and testing Android libraries Add `skip.android=true` to the local.properties files at the project's root to skip Android builds.	2021-10-25 14:27:02 +02:00
sstone	e378bb04b1	Set version to 0.6.1-SNAPSHOT	2021-09-23 13:37:05 +02:00
Fabrice Drouin	32ef659f82	Update README	2021-09-22 17:48:15 +02:00
Fabrice Drouin	60801787f9	Release 0.6.0 (#30 )	2021-09-22 15:51:58 +02:00
Fabrice Drouin	e7644b7ddb	Upgrade to kotlin 1.5 (#27 ) * Upgrade to kotlin 1.5.31 * Upgrade dokka gradle plugins to 1.5.30	2021-09-22 15:22:05 +02:00
Fabrice Drouin	3a394cdddc	Update secp256k1 sources to be8d9c262f (#29 )	2021-09-22 15:03:20 +02:00
Fabrice Drouin	4aa4dc2a50	Set version to 0.5.3-SNASPHOT (#25 ) * Set version to 0.5.3-SNAPSHOT * Use Android API level 27	2021-08-10 09:48:31 +02:00