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docs/next/core/addresses.html

@@ -80,7 +80,7 @@ reason to keep using legacy transaction formats.</p>
 <span class="hljs-keyword">val</span> privkey = <span class="hljs-type">ECPrivateKey</span>()
 <span class="hljs-comment">// privkey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> pubkey = privkey.publicKey
-<span class="hljs-comment">// pubkey: org.bitcoins.crypto.ECPublicKey = ECPublicKey(02d2ae57e7a211ce965a77551523dc3c6e9743da3077fc09af251751c3768f535f)</span>
+<span class="hljs-comment">// pubkey: org.bitcoins.crypto.ECPublicKey = ECPublicKey(0347f7a959da99498ebb4055943be89ac97547c0da9bf8950b3f94434318cc637f)</span>
 
 <span class="hljs-keyword">val</span> segwitAddress = {
     <span class="hljs-comment">// see https://bitcoin.org/en/glossary/pubkey-script</span>
@@ -89,10 +89,10 @@ reason to keep using legacy transaction formats.</p>
     <span class="hljs-keyword">val</span> scriptPubKey = <span class="hljs-type">P2WPKHWitnessSPKV0</span>(pubkey)
     <span class="hljs-type">Bech32Address</span>(scriptPubKey, <span class="hljs-type">TestNet3</span>)
 }
-<span class="hljs-comment">// segwitAddress: Bech32Address = tb1qcsncf3eay9ktd9e4ztqgk2kyafl79u4easnt7k</span>
+<span class="hljs-comment">// segwitAddress: Bech32Address = tb1qydh5uum73t8q0dvs8nlkfnae2fas8epjjmg75q</span>
 
 println(segwitAddress.toString)
-<span class="hljs-comment">// tb1qcsncf3eay9ktd9e4ztqgk2kyafl79u4easnt7k</span>
+<span class="hljs-comment">// tb1qydh5uum73t8q0dvs8nlkfnae2fas8epjjmg75q</span>
 </code></pre>
 <h2><a class="anchor" aria-hidden="true" id="generating-legacy-base58-addresses"></a><a href="#generating-legacy-base58-addresses" aria-hidden="true" class="hash-link"><svg class="hash-link-icon" aria-hidden="true" height="16" version="1.1" viewBox="0 0 16 16" width="16"><path fill-rule="evenodd" d="M4 9h1v1H4c-1.5 0-3-1.69-3-3.5S2.55 3 4 3h4c1.45 0 3 1.69 3 3.5 0 1.41-.91 2.72-2 3.25V8.59c.58-.45 1-1.27 1-2.09C10 5.22 8.98 4 8 4H4c-.98 0-2 1.22-2 2.5S3 9 4 9zm9-3h-1v1h1c1 0 2 1.22 2 2.5S13.98 12 13 12H9c-.98 0-2-1.22-2-2.5 0-.83.42-1.64 1-2.09V6.25c-1.09.53-2 1.84-2 3.25C6 11.31 7.55 13 9 13h4c1.45 0 3-1.69 3-3.5S14.5 6 13 6z"></path></svg></a>Generating legacy (base58) addresses</h2>
 <p>If you need to generate legacy addresses for backwards
@@ -101,10 +101,10 @@ Take a look:</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">// we&#x27;re reusing the same private/public key pair</span>
 <span class="hljs-comment">// from before. don&#x27;t do this in an actual application!</span>
 <span class="hljs-keyword">val</span> legacyAddress = <span class="hljs-type">P2PKHAddress</span>(pubkey, <span class="hljs-type">TestNet3</span>)
-<span class="hljs-comment">// legacyAddress: P2PKHAddress = myQ85TWCyYdgiPKH2P5GDPCnvC9Da9fnNR</span>
+<span class="hljs-comment">// legacyAddress: P2PKHAddress = mikKHUYqmJkoCPdhKna6QYEhDRRLNn1PnM</span>
 
 println(legacyAddress.toString)
-<span class="hljs-comment">// myQ85TWCyYdgiPKH2P5GDPCnvC9Da9fnNR</span>
+<span class="hljs-comment">// mikKHUYqmJkoCPdhKna6QYEhDRRLNn1PnM</span>
 </code></pre>
 </span></div></article></div><div class="docs-prevnext"><a class="docs-prev button" href="/docs/next/core/core-intro"><span class="arrow-prev">← </span><span>Core Module</span></a><a class="docs-next button" href="/docs/next/core/hd-keys"><span>HD Key Generation</span><span class="arrow-next"> →</span></a></div></div></div><nav class="onPageNav"><ul class="toc-headings"><li><a href="#generating-segwit-bech32-addresses">Generating SegWit (bech32) addresses</a></li><li><a href="#generating-legacy-base58-addresses">Generating legacy (base58) addresses</a></li></ul></nav></div><footer class="nav-footer" id="footer"><section class="sitemap"><a href="/" class="nav-home"><img src="/img/favicon.ico" alt="bitcoin-s" width="66" height="58"/></a><div><h5>Docs</h5><a href="/docs/en/getting-started">Getting Started</a><a href="/docs/en/core/core-intro">Guides</a><a href="/api/org/bitcoins">API Reference</a></div><div><h5>Community</h5><a href="/en/users.html">User Showcase</a><a href="https://join.slack.com/t/suredbits/shared_invite/zt-eavycu0x-WQL7XOakzQo8tAy7jHHZUw" target="_blank" rel="noreferrer noopener">Slack</a><a href="https://gitter.im/bitcoin-s-core/">Gitter chat</a></div><div><h5>More</h5><a href="https://github.com/bitcoin-s/bitcoin-s">GitHub</a><a class="github-button" href="https://github.com/bitcoin-s/bitcoin-s" data-icon="octicon-star" data-count-href="/bitcoin-s/bitcoin-s-core/stargazers" data-show-count="true" data-count-aria-label="# stargazers on GitHub" aria-label="Star this project on GitHub">Star</a></div></section><section class="copyright">Copyright © 2020 Suredbits &amp; the bitcoin-s developers</section></footer></div><script type="text/javascript" src="https://cdn.jsdelivr.net/docsearch.js/1/docsearch.min.js"></script><script>
                 document.addEventListener('keyup', function(e) {

docs/next/core/addresses/index.html

@@ -80,7 +80,7 @@ reason to keep using legacy transaction formats.</p>
 <span class="hljs-keyword">val</span> privkey = <span class="hljs-type">ECPrivateKey</span>()
 <span class="hljs-comment">// privkey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> pubkey = privkey.publicKey
-<span class="hljs-comment">// pubkey: org.bitcoins.crypto.ECPublicKey = ECPublicKey(02d2ae57e7a211ce965a77551523dc3c6e9743da3077fc09af251751c3768f535f)</span>
+<span class="hljs-comment">// pubkey: org.bitcoins.crypto.ECPublicKey = ECPublicKey(0347f7a959da99498ebb4055943be89ac97547c0da9bf8950b3f94434318cc637f)</span>
 
 <span class="hljs-keyword">val</span> segwitAddress = {
     <span class="hljs-comment">// see https://bitcoin.org/en/glossary/pubkey-script</span>
@@ -89,10 +89,10 @@ reason to keep using legacy transaction formats.</p>
     <span class="hljs-keyword">val</span> scriptPubKey = <span class="hljs-type">P2WPKHWitnessSPKV0</span>(pubkey)
     <span class="hljs-type">Bech32Address</span>(scriptPubKey, <span class="hljs-type">TestNet3</span>)
 }
-<span class="hljs-comment">// segwitAddress: Bech32Address = tb1qcsncf3eay9ktd9e4ztqgk2kyafl79u4easnt7k</span>
+<span class="hljs-comment">// segwitAddress: Bech32Address = tb1qydh5uum73t8q0dvs8nlkfnae2fas8epjjmg75q</span>
 
 println(segwitAddress.toString)
-<span class="hljs-comment">// tb1qcsncf3eay9ktd9e4ztqgk2kyafl79u4easnt7k</span>
+<span class="hljs-comment">// tb1qydh5uum73t8q0dvs8nlkfnae2fas8epjjmg75q</span>
 </code></pre>
 <h2><a class="anchor" aria-hidden="true" id="generating-legacy-base58-addresses"></a><a href="#generating-legacy-base58-addresses" aria-hidden="true" class="hash-link"><svg class="hash-link-icon" aria-hidden="true" height="16" version="1.1" viewBox="0 0 16 16" width="16"><path fill-rule="evenodd" d="M4 9h1v1H4c-1.5 0-3-1.69-3-3.5S2.55 3 4 3h4c1.45 0 3 1.69 3 3.5 0 1.41-.91 2.72-2 3.25V8.59c.58-.45 1-1.27 1-2.09C10 5.22 8.98 4 8 4H4c-.98 0-2 1.22-2 2.5S3 9 4 9zm9-3h-1v1h1c1 0 2 1.22 2 2.5S13.98 12 13 12H9c-.98 0-2-1.22-2-2.5 0-.83.42-1.64 1-2.09V6.25c-1.09.53-2 1.84-2 3.25C6 11.31 7.55 13 9 13h4c1.45 0 3-1.69 3-3.5S14.5 6 13 6z"></path></svg></a>Generating legacy (base58) addresses</h2>
 <p>If you need to generate legacy addresses for backwards
@@ -101,10 +101,10 @@ Take a look:</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">// we&#x27;re reusing the same private/public key pair</span>
 <span class="hljs-comment">// from before. don&#x27;t do this in an actual application!</span>
 <span class="hljs-keyword">val</span> legacyAddress = <span class="hljs-type">P2PKHAddress</span>(pubkey, <span class="hljs-type">TestNet3</span>)
-<span class="hljs-comment">// legacyAddress: P2PKHAddress = myQ85TWCyYdgiPKH2P5GDPCnvC9Da9fnNR</span>
+<span class="hljs-comment">// legacyAddress: P2PKHAddress = mikKHUYqmJkoCPdhKna6QYEhDRRLNn1PnM</span>
 
 println(legacyAddress.toString)
-<span class="hljs-comment">// myQ85TWCyYdgiPKH2P5GDPCnvC9Da9fnNR</span>
+<span class="hljs-comment">// mikKHUYqmJkoCPdhKna6QYEhDRRLNn1PnM</span>
 </code></pre>
 </span></div></article></div><div class="docs-prevnext"><a class="docs-prev button" href="/docs/next/core/core-intro"><span class="arrow-prev">← </span><span>Core Module</span></a><a class="docs-next button" href="/docs/next/core/hd-keys"><span>HD Key Generation</span><span class="arrow-next"> →</span></a></div></div></div><nav class="onPageNav"><ul class="toc-headings"><li><a href="#generating-segwit-bech32-addresses">Generating SegWit (bech32) addresses</a></li><li><a href="#generating-legacy-base58-addresses">Generating legacy (base58) addresses</a></li></ul></nav></div><footer class="nav-footer" id="footer"><section class="sitemap"><a href="/" class="nav-home"><img src="/img/favicon.ico" alt="bitcoin-s" width="66" height="58"/></a><div><h5>Docs</h5><a href="/docs/en/getting-started">Getting Started</a><a href="/docs/en/core/core-intro">Guides</a><a href="/api/org/bitcoins">API Reference</a></div><div><h5>Community</h5><a href="/en/users.html">User Showcase</a><a href="https://join.slack.com/t/suredbits/shared_invite/zt-eavycu0x-WQL7XOakzQo8tAy7jHHZUw" target="_blank" rel="noreferrer noopener">Slack</a><a href="https://gitter.im/bitcoin-s-core/">Gitter chat</a></div><div><h5>More</h5><a href="https://github.com/bitcoin-s/bitcoin-s">GitHub</a><a class="github-button" href="https://github.com/bitcoin-s/bitcoin-s" data-icon="octicon-star" data-count-href="/bitcoin-s/bitcoin-s-core/stargazers" data-show-count="true" data-count-aria-label="# stargazers on GitHub" aria-label="Star this project on GitHub">Star</a></div></section><section class="copyright">Copyright © 2020 Suredbits &amp; the bitcoin-s developers</section></footer></div><script type="text/javascript" src="https://cdn.jsdelivr.net/docsearch.js/1/docsearch.min.js"></script><script>
                 document.addEventListener('keyup', function(e) {

docs/next/core/hd-keys.html

@@ -86,13 +86,13 @@ use that to generate further private and public keys:</p>
 <span class="hljs-comment">// how long our phrase ends up being</span>
 <span class="hljs-comment">// 256 bits of entropy results in 24 words</span>
 <span class="hljs-keyword">val</span> entropy: <span class="hljs-type">BitVector</span> = <span class="hljs-type">MnemonicCode</span>.getEntropy256Bits
-<span class="hljs-comment">// entropy: BitVector = BitVector(256 bits, 0x77bba16018f8cddd74033e1f327896427f0debd67849904a2807ff01813c0c33)</span>
+<span class="hljs-comment">// entropy: BitVector = BitVector(256 bits, 0xbbabeb6210b19c7fa5a43623bc2552cec1f786528f05cdc481db0d0dc8cefe56)</span>
 
 <span class="hljs-keyword">val</span> mnemonicCode = <span class="hljs-type">MnemonicCode</span>.fromEntropy(entropy)
 <span class="hljs-comment">// mnemonicCode: MnemonicCode = Masked(MnemonicCodeImpl)</span>
 
 mnemonicCode.words <span class="hljs-comment">// the phrase the user should write down</span>
-<span class="hljs-comment">// res0: Vector[String] = Vector(jeans, tackle, fix, cradle, mimic, upgrade, source, guitar, busy, need, cereal, lumber, valid, vote, fly, ankle, motion, eyebrow, acid, wrap, blossom, own, cotton, island) // the phrase the user should write down</span>
+<span class="hljs-comment">// res0: Vector[String] = Vector(roof, gap, sudden, cannon, border, divert, notable, man, casual, thrive, feed, outside, buyer, segment, enforce, thing, soccer, catch, item, borrow, symptom, guess, welcome, source) // the phrase the user should write down</span>
 
 <span class="hljs-comment">// the password argument is an optional, extra security</span>
 <span class="hljs-comment">// measure. all MnemonicCode instances will give you a</span>
@@ -108,7 +108,7 @@ mnemonicCode.words <span class="hljs-comment">// the phrase the user should writ
                                         bip39Seed)
 <span class="hljs-comment">// xpriv: ExtPrivateKey = Masked(ExtPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> xpub = xpriv.extPublicKey
-<span class="hljs-comment">// xpub: ExtPublicKey = zpub6jftahH18ngZwVJ9zzoEjHvs9vxSQJK91uFe75k3UTEgW11yB187xs42JvTW8KMgzdqumLG7gsUKsxUvWSWqTKVx1eCwt3Fjii8fPT8hsYj</span>
+<span class="hljs-comment">// xpub: ExtPublicKey = zpub6jftahH18ngZxbeBESfE3AG8ojPNGqFjHCx2yuJ9AKNAQzqTYBKNUp3apK2JUtBXx77MvFj4iXKk1BSd67oFN1DV6V5vQn2aHP9FSebGiF6</span>
 
 <span class="hljs-comment">// you can now use the generated xpriv to derive further</span>
 <span class="hljs-comment">// private or public keys</span>
@@ -154,7 +154,7 @@ spend or steal any of your money.</p>
     <span class="hljs-comment">// can generate addresses with it!</span>
     accountXpriv.extPublicKey
 }
-<span class="hljs-comment">// accountXpub: ExtPublicKey = zpub6rAKP4ZAifkd2FyzaDo6Kf1P7Zgvwyi8YCMSGV3jiHDXJJVonzXSupSjmQShsysXCoq3dGcTgTZeEDMFHexZzzxZQorLQ2p7gbkqxbBqWre</span>
+<span class="hljs-comment">// accountXpub: ExtPublicKey = zpub6r8uUVnezMcyUD3oTQ1MDF3RpPrqnakE9BdbhfEozV6MoeLA5fkuMLRSnXqpGLKGEXz5PBDT8Rmg66kXFDF64sPcbk2Vv7pCm6K4W5uLHWK</span>
 
                               <span class="hljs-comment">// address no. 0 ---------------┐</span>
                               <span class="hljs-comment">// external address ----------┐ |</span>
@@ -177,12 +177,12 @@ spend or steal any of your money.</p>
     <span class="hljs-keyword">val</span> scriptPubKey = <span class="hljs-type">P2WPKHWitnessSPKV0</span>(pubkey)
     <span class="hljs-type">Bech32Address</span>(scriptPubKey, <span class="hljs-type">TestNet3</span>)
 }
-<span class="hljs-comment">// firstAccountAddress: Bech32Address = tb1q2jg0pz57x3vczkuc0wzs5samvyj3xguedcwu3f</span>
+<span class="hljs-comment">// firstAccountAddress: Bech32Address = tb1qwqcjm6ql8lpxzx8ua8s8ac0shn7faamwvev6mh</span>
 
 <span class="hljs-comment">// tada! We just generated an address you can send money to,</span>
 <span class="hljs-comment">// without having access to the private key!</span>
 firstAccountAddress.value
-<span class="hljs-comment">// res2: String = tb1q2jg0pz57x3vczkuc0wzs5samvyj3xguedcwu3f</span>
+<span class="hljs-comment">// res2: String = tb1qwqcjm6ql8lpxzx8ua8s8ac0shn7faamwvev6mh</span>
 
 <span class="hljs-comment">// you can now continue deriving addresses from the same public</span>
 <span class="hljs-comment">// key, by imitating what we did above. To get the next</span>

docs/next/core/hd-keys/index.html

@@ -86,13 +86,13 @@ use that to generate further private and public keys:</p>
 <span class="hljs-comment">// how long our phrase ends up being</span>
 <span class="hljs-comment">// 256 bits of entropy results in 24 words</span>
 <span class="hljs-keyword">val</span> entropy: <span class="hljs-type">BitVector</span> = <span class="hljs-type">MnemonicCode</span>.getEntropy256Bits
-<span class="hljs-comment">// entropy: BitVector = BitVector(256 bits, 0x77bba16018f8cddd74033e1f327896427f0debd67849904a2807ff01813c0c33)</span>
+<span class="hljs-comment">// entropy: BitVector = BitVector(256 bits, 0xbbabeb6210b19c7fa5a43623bc2552cec1f786528f05cdc481db0d0dc8cefe56)</span>
 
 <span class="hljs-keyword">val</span> mnemonicCode = <span class="hljs-type">MnemonicCode</span>.fromEntropy(entropy)
 <span class="hljs-comment">// mnemonicCode: MnemonicCode = Masked(MnemonicCodeImpl)</span>
 
 mnemonicCode.words <span class="hljs-comment">// the phrase the user should write down</span>
-<span class="hljs-comment">// res0: Vector[String] = Vector(jeans, tackle, fix, cradle, mimic, upgrade, source, guitar, busy, need, cereal, lumber, valid, vote, fly, ankle, motion, eyebrow, acid, wrap, blossom, own, cotton, island) // the phrase the user should write down</span>
+<span class="hljs-comment">// res0: Vector[String] = Vector(roof, gap, sudden, cannon, border, divert, notable, man, casual, thrive, feed, outside, buyer, segment, enforce, thing, soccer, catch, item, borrow, symptom, guess, welcome, source) // the phrase the user should write down</span>
 
 <span class="hljs-comment">// the password argument is an optional, extra security</span>
 <span class="hljs-comment">// measure. all MnemonicCode instances will give you a</span>
@@ -108,7 +108,7 @@ mnemonicCode.words <span class="hljs-comment">// the phrase the user should writ
                                         bip39Seed)
 <span class="hljs-comment">// xpriv: ExtPrivateKey = Masked(ExtPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> xpub = xpriv.extPublicKey
-<span class="hljs-comment">// xpub: ExtPublicKey = zpub6jftahH18ngZwVJ9zzoEjHvs9vxSQJK91uFe75k3UTEgW11yB187xs42JvTW8KMgzdqumLG7gsUKsxUvWSWqTKVx1eCwt3Fjii8fPT8hsYj</span>
+<span class="hljs-comment">// xpub: ExtPublicKey = zpub6jftahH18ngZxbeBESfE3AG8ojPNGqFjHCx2yuJ9AKNAQzqTYBKNUp3apK2JUtBXx77MvFj4iXKk1BSd67oFN1DV6V5vQn2aHP9FSebGiF6</span>
 
 <span class="hljs-comment">// you can now use the generated xpriv to derive further</span>
 <span class="hljs-comment">// private or public keys</span>
@@ -154,7 +154,7 @@ spend or steal any of your money.</p>
     <span class="hljs-comment">// can generate addresses with it!</span>
     accountXpriv.extPublicKey
 }
-<span class="hljs-comment">// accountXpub: ExtPublicKey = zpub6rAKP4ZAifkd2FyzaDo6Kf1P7Zgvwyi8YCMSGV3jiHDXJJVonzXSupSjmQShsysXCoq3dGcTgTZeEDMFHexZzzxZQorLQ2p7gbkqxbBqWre</span>
+<span class="hljs-comment">// accountXpub: ExtPublicKey = zpub6r8uUVnezMcyUD3oTQ1MDF3RpPrqnakE9BdbhfEozV6MoeLA5fkuMLRSnXqpGLKGEXz5PBDT8Rmg66kXFDF64sPcbk2Vv7pCm6K4W5uLHWK</span>
 
                               <span class="hljs-comment">// address no. 0 ---------------┐</span>
                               <span class="hljs-comment">// external address ----------┐ |</span>
@@ -177,12 +177,12 @@ spend or steal any of your money.</p>
     <span class="hljs-keyword">val</span> scriptPubKey = <span class="hljs-type">P2WPKHWitnessSPKV0</span>(pubkey)
     <span class="hljs-type">Bech32Address</span>(scriptPubKey, <span class="hljs-type">TestNet3</span>)
 }
-<span class="hljs-comment">// firstAccountAddress: Bech32Address = tb1q2jg0pz57x3vczkuc0wzs5samvyj3xguedcwu3f</span>
+<span class="hljs-comment">// firstAccountAddress: Bech32Address = tb1qwqcjm6ql8lpxzx8ua8s8ac0shn7faamwvev6mh</span>
 
 <span class="hljs-comment">// tada! We just generated an address you can send money to,</span>
 <span class="hljs-comment">// without having access to the private key!</span>
 firstAccountAddress.value
-<span class="hljs-comment">// res2: String = tb1q2jg0pz57x3vczkuc0wzs5samvyj3xguedcwu3f</span>
+<span class="hljs-comment">// res2: String = tb1qwqcjm6ql8lpxzx8ua8s8ac0shn7faamwvev6mh</span>
 
 <span class="hljs-comment">// you can now continue deriving addresses from the same public</span>
 <span class="hljs-comment">// key, by imitating what we did above. To get the next</span>

docs/next/core/txbuilder.html

@@ -64,7 +64,7 @@
             });
         </script></nav></div><div class="container mainContainer docsContainer"><div class="wrapper"><div class="post"><header class="postHeader"><a class="edit-page-link button" href="https://github.com/bitcoin-s/bitcoin-s/blob/master/docs/core/txbuilder.md" target="_blank" rel="noreferrer noopener">Edit</a><h1 id="__docusaurus" class="postHeaderTitle">TxBuilder Example</h1></header><article><div><span><p>Bitcoin-S features a transaction building API that allows you to construct and sign Bitcoin transactions. Here's an example of how to use it</p>
 <pre><code class="hljs css language-scala"><span class="hljs-keyword">implicit</span> <span class="hljs-keyword">val</span> ec: <span class="hljs-type">ExecutionContext</span> = <span class="hljs-type">ExecutionContext</span>.<span class="hljs-type">Implicits</span>.global
-<span class="hljs-comment">// ec: ExecutionContext = scala.concurrent.impl.ExecutionContextImpl$$anon$3@3c48c292[Running, parallelism = 2, size = 2, active = 0, running = 0, steals = 35, tasks = 0, submissions = 0]</span>
+<span class="hljs-comment">// ec: ExecutionContext = scala.concurrent.impl.ExecutionContextImpl$$anon$3@1b94df5d[Running, parallelism = 2, size = 2, active = 0, running = 0, steals = 33, tasks = 0, submissions = 0]</span>
 
 <span class="hljs-comment">// Initialize a transaction builder</span>
 <span class="hljs-keyword">val</span> builder = <span class="hljs-type">RawTxBuilder</span>()
@@ -74,19 +74,19 @@
 <span class="hljs-keyword">val</span> privKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// privKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> pubKey = privKey.publicKey
-<span class="hljs-comment">// pubKey: ECPublicKey = ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)</span>
+<span class="hljs-comment">// pubKey: ECPublicKey = ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)</span>
 
 <span class="hljs-comment">// this is the script that the TxBuilder is going to create a</span>
 <span class="hljs-comment">// script signature that validly spends this scriptPubKey</span>
 <span class="hljs-keyword">val</span> creditingSpk = <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = privKey.publicKey)
-<span class="hljs-comment">// creditingSpk: P2PKHScriptPubKey = pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424)</span>
+<span class="hljs-comment">// creditingSpk: P2PKHScriptPubKey = pkh(29f3131e381531d1008e12ef349e8e300737ad69)</span>
 <span class="hljs-keyword">val</span> amount = <span class="hljs-number">10000.</span>satoshis
 <span class="hljs-comment">// amount: Satoshis = 10000 sats</span>
 
 <span class="hljs-comment">// this is the UTXO we are going to be spending</span>
 <span class="hljs-keyword">val</span> utxo =
   <span class="hljs-type">TransactionOutput</span>(value = amount, scriptPubKey = creditingSpk)
-<span class="hljs-comment">// utxo: TransactionOutput = TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))</span>
+<span class="hljs-comment">// utxo: TransactionOutput = TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))</span>
 
 <span class="hljs-comment">// the private key that locks the funds for the script we are spending too</span>
 <span class="hljs-keyword">val</span> destinationPrivKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
@@ -99,7 +99,7 @@
 <span class="hljs-comment">// the script that corresponds to destination private key, this is what is receiving the money</span>
 <span class="hljs-keyword">val</span> destinationSPK =
   <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = destinationPrivKey.publicKey)
-<span class="hljs-comment">// destinationSPK: P2PKHScriptPubKey = pkh(d53701833dcea337fa398cd447c870376dc0422b)</span>
+<span class="hljs-comment">// destinationSPK: P2PKHScriptPubKey = pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)</span>
 
 <span class="hljs-comment">// this is where we are sending money too</span>
 <span class="hljs-comment">// we could add more destinations here if we</span>
@@ -110,7 +110,7 @@
 
     <span class="hljs-type">Vector</span>(destination0)
 }
-<span class="hljs-comment">// destinations: Vector[TransactionOutput] = Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)))</span>
+<span class="hljs-comment">// destinations: Vector[TransactionOutput] = Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)))</span>
 
 <span class="hljs-comment">// Add the destinations to the tx builder</span>
 builder ++= destinations
@@ -123,17 +123,17 @@ builder ++= destinations
                                   inputs = <span class="hljs-type">Vector</span>.empty,
                                   outputs = <span class="hljs-type">Vector</span>(utxo),
                                   lockTime = <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// creditingTx: BaseTransaction = BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0))</span>
+<span class="hljs-comment">// creditingTx: BaseTransaction = BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0))</span>
 
 <span class="hljs-comment">// this is the information we need from the crediting TX</span>
 <span class="hljs-comment">// to properly &quot;link&quot; it in the transaction we are creating</span>
 <span class="hljs-keyword">val</span> outPoint = <span class="hljs-type">TransactionOutPoint</span>(creditingTx.txId, <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// outPoint: TransactionOutPoint = TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0)</span>
+<span class="hljs-comment">// outPoint: TransactionOutPoint = TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0)</span>
 <span class="hljs-keyword">val</span> input = <span class="hljs-type">TransactionInput</span>(
     outPoint,
     <span class="hljs-type">EmptyScriptSignature</span>,
     sequenceNumber = <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// input: TransactionInput = TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))</span>
+<span class="hljs-comment">// input: TransactionInput = TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))</span>
 
 <span class="hljs-comment">// Add a new input to our builder</span>
 builder += input
@@ -141,11 +141,11 @@ builder += input
 
 <span class="hljs-comment">// We can now generate a RawTxBuilderResult ready to be finalized</span>
 <span class="hljs-keyword">val</span> builderResult = builder.result()
-<span class="hljs-comment">// builderResult: RawTxBuilderResult = RawTxBuilderResult(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b))),UInt32Impl(0))</span>
+<span class="hljs-comment">// builderResult: RawTxBuilderResult = RawTxBuilderResult(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb))),UInt32Impl(0))</span>
 
 <span class="hljs-comment">// this contains the information needed to analyze our input during finalization</span>
 <span class="hljs-keyword">val</span> inputInfo = <span class="hljs-type">P2PKHInputInfo</span>(outPoint, amount, privKey.publicKey)
-<span class="hljs-comment">// inputInfo: P2PKHInputInfo = P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69))</span>
+<span class="hljs-comment">// inputInfo: P2PKHInputInfo = P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc))</span>
 
 <span class="hljs-comment">// this is how much we are going to pay as a fee to the network</span>
 <span class="hljs-comment">// for this example, we are going to pay 1 satoshi per byte</span>
@@ -155,18 +155,18 @@ builder += input
 <span class="hljs-keyword">val</span> changePrivKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// changePrivKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> changeSPK = <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = changePrivKey.publicKey)
-<span class="hljs-comment">// changeSPK: P2PKHScriptPubKey = pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2)</span>
+<span class="hljs-comment">// changeSPK: P2PKHScriptPubKey = pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a)</span>
 
 <span class="hljs-comment">// We chose a finalizer that adds a change output to our tx based on a fee rate</span>
 <span class="hljs-keyword">val</span> finalizer = <span class="hljs-type">StandardNonInteractiveFinalizer</span>(
     <span class="hljs-type">Vector</span>(inputInfo),
     feeRate,
     changeSPK)
-<span class="hljs-comment">// finalizer: StandardNonInteractiveFinalizer = StandardNonInteractiveFinalizer(Vector(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69))),1 sats/byte,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))</span>
+<span class="hljs-comment">// finalizer: StandardNonInteractiveFinalizer = StandardNonInteractiveFinalizer(Vector(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc))),1 sats/byte,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))</span>
 
 <span class="hljs-comment">// We can now finalize the tx builder result from earlier with this finalizer</span>
 <span class="hljs-keyword">val</span> unsignedTxF: <span class="hljs-type">Future</span>[<span class="hljs-type">Transaction</span>] = finalizer.buildTx(builderResult)
-<span class="hljs-comment">// unsignedTxF: Future[Transaction] = Future(Success(BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)), TransactionOutput(4775 sats,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))),UInt32Impl(0))))</span>
+<span class="hljs-comment">// unsignedTxF: Future[Transaction] = Future(Success(BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)), TransactionOutput(4775 sats,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))),UInt32Impl(0))))</span>
 
 <span class="hljs-comment">// We now turn to signing the unsigned transaction</span>
 <span class="hljs-comment">// this contains all the information we need to</span>
@@ -176,12 +176,12 @@ builder += input
                                      signers = <span class="hljs-type">Vector</span>(privKey),
                                      hashType =
                                          <span class="hljs-type">HashType</span>.sigHashAll)
-<span class="hljs-comment">// utxoInfo: ScriptSignatureParams[P2PKHInputInfo] = ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1)))</span>
+<span class="hljs-comment">// utxoInfo: ScriptSignatureParams[P2PKHInputInfo] = ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1)))</span>
 
 <span class="hljs-comment">// all of the UTXO spending information, since we only have</span>
 <span class="hljs-comment">// one input, this is just one element</span>
 <span class="hljs-keyword">val</span> utxoInfos: <span class="hljs-type">Vector</span>[<span class="hljs-type">ScriptSignatureParams</span>[<span class="hljs-type">InputInfo</span>]] = <span class="hljs-type">Vector</span>(utxoInfo)
-<span class="hljs-comment">// utxoInfos: Vector[ScriptSignatureParams[InputInfo]] = Vector(ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1))))</span>
+<span class="hljs-comment">// utxoInfos: Vector[ScriptSignatureParams[InputInfo]] = Vector(ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1))))</span>
 
 <span class="hljs-comment">// Yay! Now we use the RawTxSigner object to sign the tx.</span>
 <span class="hljs-comment">// The &#x27;sign&#x27; method is going produce a validly signed transaction</span>
@@ -201,7 +201,7 @@ builder += input
   }
   <span class="hljs-type">Await</span>.result(signedTxF, <span class="hljs-number">30.</span>seconds)
 }
-<span class="hljs-comment">// signedTx: Transaction = BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),P2PKHScriptSignature(ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69), ECDigitalSignature(30440220751bf747a5baafcf6587b18c5e6280dc24893a9e355a34dfc79ad6c99b513a930220471fe0dd4a3751c68ad332f85539f4a50b729fef918b09f4ba6324eefbaf46fa01)),UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)), TransactionOutput(4775 sats,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))),UInt32Impl(0))</span>
+<span class="hljs-comment">// signedTx: Transaction = BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),P2PKHScriptSignature(ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc), ECDigitalSignature(304402201c005c83e344f3b168c3e77be0ea6b717cc47eb816d9d85f71a2b704d31fec8f02206d7facf1204e53e9225bae7c6151386414758560afd21a2f6c3534dee2ae08b601)),UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)), TransactionOutput(4775 sats,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))),UInt32Impl(0))</span>
 </code></pre>
 <pre><code class="hljs css language-scala">signedTx.inputs.length
 <span class="hljs-comment">// res2: Int = 1</span>
@@ -211,7 +211,7 @@ signedTx.outputs.length
 
 <span class="hljs-comment">//remember, you can call .hex on any bitcoin-s data structure to get the hex representation!</span>
 signedTx.hex
-<span class="hljs-comment">// res4: String = 020000000156b57022294005893344f5a367ac5d6ffe24902262d601b2532204a05d75fe0f000000006a4730440220751bf747a5baafcf6587b18c5e6280dc24893a9e355a34dfc79ad6c99b513a930220471fe0dd4a3751c68ad332f85539f4a50b729fef918b09f4ba6324eefbaf46fa012102e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69000000000288130000000000001976a914d53701833dcea337fa398cd447c870376dc0422b88aca7120000000000001976a914e9b89e80376add5b6d011a333d76daf170c2d9c288ac00000000</span>
+<span class="hljs-comment">// res4: String = 020000000122e8c9091a0e695a26e69ece4a34949b2692192657f38aa1fcf82325e78cdc2e000000006a47304402201c005c83e344f3b168c3e77be0ea6b717cc47eb816d9d85f71a2b704d31fec8f02206d7facf1204e53e9225bae7c6151386414758560afd21a2f6c3534dee2ae08b601210279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc000000000288130000000000001976a914dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb88aca7120000000000001976a91471570e59c58e9959dcf729d1dc681dc6235d7d0a88ac00000000</span>
 </code></pre>
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docs/next/core/txbuilder/index.html

@@ -64,7 +64,7 @@
             });
         </script></nav></div><div class="container mainContainer docsContainer"><div class="wrapper"><div class="post"><header class="postHeader"><a class="edit-page-link button" href="https://github.com/bitcoin-s/bitcoin-s/blob/master/docs/core/txbuilder.md" target="_blank" rel="noreferrer noopener">Edit</a><h1 id="__docusaurus" class="postHeaderTitle">TxBuilder Example</h1></header><article><div><span><p>Bitcoin-S features a transaction building API that allows you to construct and sign Bitcoin transactions. Here's an example of how to use it</p>
 <pre><code class="hljs css language-scala"><span class="hljs-keyword">implicit</span> <span class="hljs-keyword">val</span> ec: <span class="hljs-type">ExecutionContext</span> = <span class="hljs-type">ExecutionContext</span>.<span class="hljs-type">Implicits</span>.global
-<span class="hljs-comment">// ec: ExecutionContext = scala.concurrent.impl.ExecutionContextImpl$$anon$3@3c48c292[Running, parallelism = 2, size = 2, active = 0, running = 0, steals = 35, tasks = 0, submissions = 0]</span>
+<span class="hljs-comment">// ec: ExecutionContext = scala.concurrent.impl.ExecutionContextImpl$$anon$3@1b94df5d[Running, parallelism = 2, size = 2, active = 0, running = 0, steals = 33, tasks = 0, submissions = 0]</span>
 
 <span class="hljs-comment">// Initialize a transaction builder</span>
 <span class="hljs-keyword">val</span> builder = <span class="hljs-type">RawTxBuilder</span>()
@@ -74,19 +74,19 @@
 <span class="hljs-keyword">val</span> privKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// privKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> pubKey = privKey.publicKey
-<span class="hljs-comment">// pubKey: ECPublicKey = ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)</span>
+<span class="hljs-comment">// pubKey: ECPublicKey = ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)</span>
 
 <span class="hljs-comment">// this is the script that the TxBuilder is going to create a</span>
 <span class="hljs-comment">// script signature that validly spends this scriptPubKey</span>
 <span class="hljs-keyword">val</span> creditingSpk = <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = privKey.publicKey)
-<span class="hljs-comment">// creditingSpk: P2PKHScriptPubKey = pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424)</span>
+<span class="hljs-comment">// creditingSpk: P2PKHScriptPubKey = pkh(29f3131e381531d1008e12ef349e8e300737ad69)</span>
 <span class="hljs-keyword">val</span> amount = <span class="hljs-number">10000.</span>satoshis
 <span class="hljs-comment">// amount: Satoshis = 10000 sats</span>
 
 <span class="hljs-comment">// this is the UTXO we are going to be spending</span>
 <span class="hljs-keyword">val</span> utxo =
   <span class="hljs-type">TransactionOutput</span>(value = amount, scriptPubKey = creditingSpk)
-<span class="hljs-comment">// utxo: TransactionOutput = TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))</span>
+<span class="hljs-comment">// utxo: TransactionOutput = TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))</span>
 
 <span class="hljs-comment">// the private key that locks the funds for the script we are spending too</span>
 <span class="hljs-keyword">val</span> destinationPrivKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
@@ -99,7 +99,7 @@
 <span class="hljs-comment">// the script that corresponds to destination private key, this is what is receiving the money</span>
 <span class="hljs-keyword">val</span> destinationSPK =
   <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = destinationPrivKey.publicKey)
-<span class="hljs-comment">// destinationSPK: P2PKHScriptPubKey = pkh(d53701833dcea337fa398cd447c870376dc0422b)</span>
+<span class="hljs-comment">// destinationSPK: P2PKHScriptPubKey = pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)</span>
 
 <span class="hljs-comment">// this is where we are sending money too</span>
 <span class="hljs-comment">// we could add more destinations here if we</span>
@@ -110,7 +110,7 @@
 
     <span class="hljs-type">Vector</span>(destination0)
 }
-<span class="hljs-comment">// destinations: Vector[TransactionOutput] = Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)))</span>
+<span class="hljs-comment">// destinations: Vector[TransactionOutput] = Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)))</span>
 
 <span class="hljs-comment">// Add the destinations to the tx builder</span>
 builder ++= destinations
@@ -123,17 +123,17 @@ builder ++= destinations
                                   inputs = <span class="hljs-type">Vector</span>.empty,
                                   outputs = <span class="hljs-type">Vector</span>(utxo),
                                   lockTime = <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// creditingTx: BaseTransaction = BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0))</span>
+<span class="hljs-comment">// creditingTx: BaseTransaction = BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0))</span>
 
 <span class="hljs-comment">// this is the information we need from the crediting TX</span>
 <span class="hljs-comment">// to properly &quot;link&quot; it in the transaction we are creating</span>
 <span class="hljs-keyword">val</span> outPoint = <span class="hljs-type">TransactionOutPoint</span>(creditingTx.txId, <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// outPoint: TransactionOutPoint = TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0)</span>
+<span class="hljs-comment">// outPoint: TransactionOutPoint = TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0)</span>
 <span class="hljs-keyword">val</span> input = <span class="hljs-type">TransactionInput</span>(
     outPoint,
     <span class="hljs-type">EmptyScriptSignature</span>,
     sequenceNumber = <span class="hljs-type">UInt32</span>.zero)
-<span class="hljs-comment">// input: TransactionInput = TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))</span>
+<span class="hljs-comment">// input: TransactionInput = TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))</span>
 
 <span class="hljs-comment">// Add a new input to our builder</span>
 builder += input
@@ -141,11 +141,11 @@ builder += input
 
 <span class="hljs-comment">// We can now generate a RawTxBuilderResult ready to be finalized</span>
 <span class="hljs-keyword">val</span> builderResult = builder.result()
-<span class="hljs-comment">// builderResult: RawTxBuilderResult = RawTxBuilderResult(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b))),UInt32Impl(0))</span>
+<span class="hljs-comment">// builderResult: RawTxBuilderResult = RawTxBuilderResult(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb))),UInt32Impl(0))</span>
 
 <span class="hljs-comment">// this contains the information needed to analyze our input during finalization</span>
 <span class="hljs-keyword">val</span> inputInfo = <span class="hljs-type">P2PKHInputInfo</span>(outPoint, amount, privKey.publicKey)
-<span class="hljs-comment">// inputInfo: P2PKHInputInfo = P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69))</span>
+<span class="hljs-comment">// inputInfo: P2PKHInputInfo = P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc))</span>
 
 <span class="hljs-comment">// this is how much we are going to pay as a fee to the network</span>
 <span class="hljs-comment">// for this example, we are going to pay 1 satoshi per byte</span>
@@ -155,18 +155,18 @@ builder += input
 <span class="hljs-keyword">val</span> changePrivKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// changePrivKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> changeSPK = <span class="hljs-type">P2PKHScriptPubKey</span>(pubKey = changePrivKey.publicKey)
-<span class="hljs-comment">// changeSPK: P2PKHScriptPubKey = pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2)</span>
+<span class="hljs-comment">// changeSPK: P2PKHScriptPubKey = pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a)</span>
 
 <span class="hljs-comment">// We chose a finalizer that adds a change output to our tx based on a fee rate</span>
 <span class="hljs-keyword">val</span> finalizer = <span class="hljs-type">StandardNonInteractiveFinalizer</span>(
     <span class="hljs-type">Vector</span>(inputInfo),
     feeRate,
     changeSPK)
-<span class="hljs-comment">// finalizer: StandardNonInteractiveFinalizer = StandardNonInteractiveFinalizer(Vector(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69))),1 sats/byte,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))</span>
+<span class="hljs-comment">// finalizer: StandardNonInteractiveFinalizer = StandardNonInteractiveFinalizer(Vector(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc))),1 sats/byte,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))</span>
 
 <span class="hljs-comment">// We can now finalize the tx builder result from earlier with this finalizer</span>
 <span class="hljs-keyword">val</span> unsignedTxF: <span class="hljs-type">Future</span>[<span class="hljs-type">Transaction</span>] = finalizer.buildTx(builderResult)
-<span class="hljs-comment">// unsignedTxF: Future[Transaction] = Future(Success(BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)), TransactionOutput(4775 sats,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))),UInt32Impl(0))))</span>
+<span class="hljs-comment">// unsignedTxF: Future[Transaction] = Future(Success(BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),EmptyScriptSignature,UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)), TransactionOutput(4775 sats,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))),UInt32Impl(0))))</span>
 
 <span class="hljs-comment">// We now turn to signing the unsigned transaction</span>
 <span class="hljs-comment">// this contains all the information we need to</span>
@@ -176,12 +176,12 @@ builder += input
                                      signers = <span class="hljs-type">Vector</span>(privKey),
                                      hashType =
                                          <span class="hljs-type">HashType</span>.sigHashAll)
-<span class="hljs-comment">// utxoInfo: ScriptSignatureParams[P2PKHInputInfo] = ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1)))</span>
+<span class="hljs-comment">// utxoInfo: ScriptSignatureParams[P2PKHInputInfo] = ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1)))</span>
 
 <span class="hljs-comment">// all of the UTXO spending information, since we only have</span>
 <span class="hljs-comment">// one input, this is just one element</span>
 <span class="hljs-keyword">val</span> utxoInfos: <span class="hljs-type">Vector</span>[<span class="hljs-type">ScriptSignatureParams</span>[<span class="hljs-type">InputInfo</span>]] = <span class="hljs-type">Vector</span>(utxoInfo)
-<span class="hljs-comment">// utxoInfos: Vector[ScriptSignatureParams[InputInfo]] = Vector(ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),10000 sats,ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(dec6ba28959c2598aab06e4d46ef6c66a2b27424))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1))))</span>
+<span class="hljs-comment">// utxoInfos: Vector[ScriptSignatureParams[InputInfo]] = Vector(ScriptSignatureParams(P2PKHInputInfo(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),10000 sats,ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc)),BaseTransaction(Int32Impl(1),Vector(),Vector(TransactionOutput(10000 sats,pkh(29f3131e381531d1008e12ef349e8e300737ad69))),UInt32Impl(0)),Vector(Masked(ECPrivateKeyImpl)),SIGHASH_ALL(Int32Impl(1))))</span>
 
 <span class="hljs-comment">// Yay! Now we use the RawTxSigner object to sign the tx.</span>
 <span class="hljs-comment">// The &#x27;sign&#x27; method is going produce a validly signed transaction</span>
@@ -201,7 +201,7 @@ builder += input
   }
   <span class="hljs-type">Await</span>.result(signedTxF, <span class="hljs-number">30.</span>seconds)
 }
-<span class="hljs-comment">// signedTx: Transaction = BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(0ffe755da0042253b201d662229024fe6f5dac67a3f54433890540292270b556:0),P2PKHScriptSignature(ECPublicKey(02e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69), ECDigitalSignature(30440220751bf747a5baafcf6587b18c5e6280dc24893a9e355a34dfc79ad6c99b513a930220471fe0dd4a3751c68ad332f85539f4a50b729fef918b09f4ba6324eefbaf46fa01)),UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(d53701833dcea337fa398cd447c870376dc0422b)), TransactionOutput(4775 sats,pkh(e9b89e80376add5b6d011a333d76daf170c2d9c2))),UInt32Impl(0))</span>
+<span class="hljs-comment">// signedTx: Transaction = BaseTransaction(Int32Impl(2),Vector(TransactionInputImpl(TransactionOutPoint(2edc8ce72523f8fca18af357261992269b94344ace9ee6265a690e1a09c9e822:0),P2PKHScriptSignature(ECPublicKey(0279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc), ECDigitalSignature(304402201c005c83e344f3b168c3e77be0ea6b717cc47eb816d9d85f71a2b704d31fec8f02206d7facf1204e53e9225bae7c6151386414758560afd21a2f6c3534dee2ae08b601)),UInt32Impl(0))),Vector(TransactionOutput(5000 sats,pkh(dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb)), TransactionOutput(4775 sats,pkh(71570e59c58e9959dcf729d1dc681dc6235d7d0a))),UInt32Impl(0))</span>
 </code></pre>
 <pre><code class="hljs css language-scala">signedTx.inputs.length
 <span class="hljs-comment">// res2: Int = 1</span>
@@ -211,7 +211,7 @@ signedTx.outputs.length
 
 <span class="hljs-comment">//remember, you can call .hex on any bitcoin-s data structure to get the hex representation!</span>
 signedTx.hex
-<span class="hljs-comment">// res4: String = 020000000156b57022294005893344f5a367ac5d6ffe24902262d601b2532204a05d75fe0f000000006a4730440220751bf747a5baafcf6587b18c5e6280dc24893a9e355a34dfc79ad6c99b513a930220471fe0dd4a3751c68ad332f85539f4a50b729fef918b09f4ba6324eefbaf46fa012102e55332d5a8fb367aaf5e5e6eafa5ac2729f2569da018eddb52aa3485da9bdc69000000000288130000000000001976a914d53701833dcea337fa398cd447c870376dc0422b88aca7120000000000001976a914e9b89e80376add5b6d011a333d76daf170c2d9c288ac00000000</span>
+<span class="hljs-comment">// res4: String = 020000000122e8c9091a0e695a26e69ece4a34949b2692192657f38aa1fcf82325e78cdc2e000000006a47304402201c005c83e344f3b168c3e77be0ea6b717cc47eb816d9d85f71a2b704d31fec8f02206d7facf1204e53e9225bae7c6151386414758560afd21a2f6c3534dee2ae08b601210279f5fe40684bff9e1a901564b969eb7072a5d39e6440198cf90c8d9c070567dc000000000288130000000000001976a914dd5ff253cec828c9681ce3d8ddae71dbc8cf5cbb88aca7120000000000001976a91471570e59c58e9959dcf729d1dc681dc6235d7d0a88ac00000000</span>
 </code></pre>
 </span></div></article></div><div class="docs-prevnext"><a class="docs-prev button" href="/docs/next/core/psbts"><span class="arrow-prev">← </span><span>Partially Signed Bitcoin Transactions</span></a><a class="docs-next button" href="/docs/next/core/lightning-network"><span>Lightning Network Data Types</span><span class="arrow-next"> →</span></a></div></div></div><nav class="onPageNav"></nav></div><footer class="nav-footer" id="footer"><section class="sitemap"><a href="/" class="nav-home"><img src="/img/favicon.ico" alt="bitcoin-s" width="66" height="58"/></a><div><h5>Docs</h5><a href="/docs/en/getting-started">Getting Started</a><a href="/docs/en/core/core-intro">Guides</a><a href="/api/org/bitcoins">API Reference</a></div><div><h5>Community</h5><a href="/en/users.html">User Showcase</a><a href="https://join.slack.com/t/suredbits/shared_invite/zt-eavycu0x-WQL7XOakzQo8tAy7jHHZUw" target="_blank" rel="noreferrer noopener">Slack</a><a href="https://gitter.im/bitcoin-s-core/">Gitter chat</a></div><div><h5>More</h5><a href="https://github.com/bitcoin-s/bitcoin-s">GitHub</a><a class="github-button" href="https://github.com/bitcoin-s/bitcoin-s" data-icon="octicon-star" data-count-href="/bitcoin-s/bitcoin-s-core/stargazers" data-show-count="true" data-count-aria-label="# stargazers on GitHub" aria-label="Star this project on GitHub">Star</a></div></section><section class="copyright">Copyright © 2020 Suredbits &amp; the bitcoin-s developers</section></footer></div><script type="text/javascript" src="https://cdn.jsdelivr.net/docsearch.js/1/docsearch.min.js"></script><script>
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docs/next/crypto/sign.html

@@ -96,13 +96,13 @@
 <span class="hljs-comment">// extPrivKey: ExtPrivateKey = Masked(ExtPrivateKeyImpl)</span>
 
 extPrivKey.sign(<span class="hljs-type">DoubleSha256Digest</span>.empty.bytes)
-<span class="hljs-comment">// res0: ECDigitalSignature = ECDigitalSignature(3045022100fa7528beaf0ecac9fb652c6d91eaf26409b0223e42bbaea7dbab16ae80ad949802202ab3c1d427db7319118feeef4a9a7144943a799ed6f28443c85c7be66e7b1acf)</span>
+<span class="hljs-comment">// res0: ECDigitalSignature = ECDigitalSignature(3045022100fe2e31bc1e7f39238835af3dbef15e3268249aeeb381f71325fdc0a58d7a79a7022049f772317a9eda4b360be1f6ed3816011f2168be7b527a7db6c635a0fb7369e5)</span>
 
 <span class="hljs-keyword">val</span> path = <span class="hljs-type">BIP32Path</span>(<span class="hljs-type">Vector</span>(<span class="hljs-type">BIP32Node</span>(<span class="hljs-number">0</span>,<span class="hljs-literal">false</span>)))
 <span class="hljs-comment">// path: BIP32Path = m/0</span>
 
 extPrivKey.sign(<span class="hljs-type">DoubleSha256Digest</span>.empty.bytes,path)
-<span class="hljs-comment">// res1: ECDigitalSignature = ECDigitalSignature(30440220044935bedaced0973523cbc5e44f4025d15c2c8b9741c1220c5fb52a0eaa00a302205a657d22fe760d0b0139e9333caf6ee4c10c03479cadf848521133d43fa38444)</span>
+<span class="hljs-comment">// res1: ECDigitalSignature = ECDigitalSignature(3045022100d5e73af3cce7df954f9ea6a56a99a40fcc6a47e13dd84be9ccb885d1d332145702200f7ffb12d354770529231d3179ca4adbe70795fd3997655d7995d67fd5522edf)</span>
 </code></pre>
 <p>With <code>ExtSign</code>, you can use <code>ExtPrivateKey</code> to sign transactions inside of <code>TxBuilder</code> since <code>UTXOSpendingInfo</code> takes in <code>Sign</code> as a parameter.</p>
 <p>You can also provide a <code>path</code> to use to derive a child <code>ExtPrivateKey</code>, and then sign with that child private key</p>

docs/next/crypto/sign/index.html

@@ -96,13 +96,13 @@
 <span class="hljs-comment">// extPrivKey: ExtPrivateKey = Masked(ExtPrivateKeyImpl)</span>
 
 extPrivKey.sign(<span class="hljs-type">DoubleSha256Digest</span>.empty.bytes)
-<span class="hljs-comment">// res0: ECDigitalSignature = ECDigitalSignature(3045022100fa7528beaf0ecac9fb652c6d91eaf26409b0223e42bbaea7dbab16ae80ad949802202ab3c1d427db7319118feeef4a9a7144943a799ed6f28443c85c7be66e7b1acf)</span>
+<span class="hljs-comment">// res0: ECDigitalSignature = ECDigitalSignature(3045022100fe2e31bc1e7f39238835af3dbef15e3268249aeeb381f71325fdc0a58d7a79a7022049f772317a9eda4b360be1f6ed3816011f2168be7b527a7db6c635a0fb7369e5)</span>
 
 <span class="hljs-keyword">val</span> path = <span class="hljs-type">BIP32Path</span>(<span class="hljs-type">Vector</span>(<span class="hljs-type">BIP32Node</span>(<span class="hljs-number">0</span>,<span class="hljs-literal">false</span>)))
 <span class="hljs-comment">// path: BIP32Path = m/0</span>
 
 extPrivKey.sign(<span class="hljs-type">DoubleSha256Digest</span>.empty.bytes,path)
-<span class="hljs-comment">// res1: ECDigitalSignature = ECDigitalSignature(30440220044935bedaced0973523cbc5e44f4025d15c2c8b9741c1220c5fb52a0eaa00a302205a657d22fe760d0b0139e9333caf6ee4c10c03479cadf848521133d43fa38444)</span>
+<span class="hljs-comment">// res1: ECDigitalSignature = ECDigitalSignature(3045022100d5e73af3cce7df954f9ea6a56a99a40fcc6a47e13dd84be9ccb885d1d332145702200f7ffb12d354770529231d3179ca4adbe70795fd3997655d7995d67fd5522edf)</span>
 </code></pre>
 <p>With <code>ExtSign</code>, you can use <code>ExtPrivateKey</code> to sign transactions inside of <code>TxBuilder</code> since <code>UTXOSpendingInfo</code> takes in <code>Sign</code> as a parameter.</p>
 <p>You can also provide a <code>path</code> to use to derive a child <code>ExtPrivateKey</code>, and then sign with that child private key</p>

docs/next/getting-started.html

@@ -120,7 +120,7 @@ libraryDependencies += <span class="hljs-string">&quot;org.bitcoin-s&quot;</span
 <h3><a class="anchor" aria-hidden="true" id="nightly-builds"></a><a href="#nightly-builds" aria-hidden="true" class="hash-link"><svg class="hash-link-icon" aria-hidden="true" height="16" version="1.1" viewBox="0 0 16 16" width="16"><path fill-rule="evenodd" d="M4 9h1v1H4c-1.5 0-3-1.69-3-3.5S2.55 3 4 3h4c1.45 0 3 1.69 3 3.5 0 1.41-.91 2.72-2 3.25V8.59c.58-.45 1-1.27 1-2.09C10 5.22 8.98 4 8 4H4c-.98 0-2 1.22-2 2.5S3 9 4 9zm9-3h-1v1h1c1 0 2 1.22 2 2.5S13.98 12 13 12H9c-.98 0-2-1.22-2-2.5 0-.83.42-1.64 1-2.09V6.25c-1.09.53-2 1.84-2 3.25C6 11.31 7.55 13 9 13h4c1.45 0 3-1.69 3-3.5S14.5 6 13 6z"></path></svg></a>Nightly builds</h3>
 <p>You can also run on the bleeding edge of Bitcoin-S, by
 adding a snapshot build to your <code>build.sbt</code>. The most
-recent snapshot published is <code>0.4.0+208-aba109de-SNAPSHOT</code>.</p>
+recent snapshot published is <code>0.4.0+209-313e9d6e-SNAPSHOT</code>.</p>
 <p>To fetch snapshots, you will need to add the correct
 resolver in your <code>build.sbt</code>:</p>
 <pre><code class="hljs css language-sbt">resolvers += Resolver.sonatypeRepo(<span class="hljs-string">&quot;snapshots&quot;</span>)

docs/next/getting-started/index.html

@@ -120,7 +120,7 @@ libraryDependencies += <span class="hljs-string">&quot;org.bitcoin-s&quot;</span
 <h3><a class="anchor" aria-hidden="true" id="nightly-builds"></a><a href="#nightly-builds" aria-hidden="true" class="hash-link"><svg class="hash-link-icon" aria-hidden="true" height="16" version="1.1" viewBox="0 0 16 16" width="16"><path fill-rule="evenodd" d="M4 9h1v1H4c-1.5 0-3-1.69-3-3.5S2.55 3 4 3h4c1.45 0 3 1.69 3 3.5 0 1.41-.91 2.72-2 3.25V8.59c.58-.45 1-1.27 1-2.09C10 5.22 8.98 4 8 4H4c-.98 0-2 1.22-2 2.5S3 9 4 9zm9-3h-1v1h1c1 0 2 1.22 2 2.5S13.98 12 13 12H9c-.98 0-2-1.22-2-2.5 0-.83.42-1.64 1-2.09V6.25c-1.09.53-2 1.84-2 3.25C6 11.31 7.55 13 9 13h4c1.45 0 3-1.69 3-3.5S14.5 6 13 6z"></path></svg></a>Nightly builds</h3>
 <p>You can also run on the bleeding edge of Bitcoin-S, by
 adding a snapshot build to your <code>build.sbt</code>. The most
-recent snapshot published is <code>0.4.0+208-aba109de-SNAPSHOT</code>.</p>
+recent snapshot published is <code>0.4.0+209-313e9d6e-SNAPSHOT</code>.</p>
 <p>To fetch snapshots, you will need to add the correct
 resolver in your <code>build.sbt</code>:</p>
 <pre><code class="hljs css language-sbt">resolvers += Resolver.sonatypeRepo(<span class="hljs-string">&quot;snapshots&quot;</span>)

docs/next/key-manager/key-manager.html

@@ -77,14 +77,14 @@
 
 <span class="hljs-comment">//get 256 bits of random entropy</span>
 <span class="hljs-keyword">val</span> entropy = <span class="hljs-type">MnemonicCode</span>.getEntropy256Bits
-<span class="hljs-comment">// entropy: scodec.bits.BitVector = BitVector(256 bits, 0x2fdba6ba932c66e9dcb984194d7efea4d70ad67e2254429545ee6befb2c8be64)</span>
+<span class="hljs-comment">// entropy: scodec.bits.BitVector = BitVector(256 bits, 0x8ec273f07929cbfabb96d02733f8294affe9c80c8873eeb78b8b08025f7f18b8)</span>
 
 <span class="hljs-keyword">val</span> mnemonic = <span class="hljs-type">MnemonicCode</span>.fromEntropy(entropy)
 <span class="hljs-comment">// mnemonic: MnemonicCode = Masked(MnemonicCodeImpl)</span>
 
 <span class="hljs-comment">//you can print that mnemonic seed with this</span>
 println(mnemonic.words)
-<span class="hljs-comment">// Vector(cool, tag, push, chaos, shoe, insane, indicate, correct, bone, hip, sausage, endless, idle, hen, weasel, enhance, dream, pretty, knee, style, will, gold, wet, muffin)</span>
+<span class="hljs-comment">// Vector(mom, bean, winter, venture, original, wool, unusual, sure, cheese, panther, apart, nominee, write, tomato, cram, attack, upgrade, rough, tissue, avoid, chalk, sauce, glass, alarm)</span>
 </code></pre>
 <p>Now that we have a <code>MnemonicCode</code> that was securely generated, we need to now create <code>KeyManagerParams</code> which tells us how to generate
 generate specific kinds of addresses for wallets.</p>
@@ -99,7 +99,7 @@ generate specific kinds of addresses for wallets.</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">//this will create a temp directory with the prefix &#x27;key-manager-example` that will</span>
 <span class="hljs-comment">//have a file in it called &quot;encrypted-bitcoin-s-seed.json&quot;</span>
 <span class="hljs-keyword">val</span> seedPath = <span class="hljs-type">Files</span>.createTempDirectory(<span class="hljs-string">&quot;key-manager-example&quot;</span>).resolve(<span class="hljs-type">WalletStorage</span>.<span class="hljs-type">ENCRYPTED_SEED_FILE_NAME</span>)
-<span class="hljs-comment">// seedPath: Path = /tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json</span>
+<span class="hljs-comment">// seedPath: Path = /tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json</span>
 
 <span class="hljs-comment">//let&#x27;s create a native segwit key manager</span>
 <span class="hljs-keyword">val</span> purpose = <span class="hljs-type">HDPurposes</span>.<span class="hljs-type">SegWit</span>
@@ -110,19 +110,19 @@ generate specific kinds of addresses for wallets.</p>
 <span class="hljs-comment">// network: RegTest.type = RegTest</span>
 
 <span class="hljs-keyword">val</span> kmParams = <span class="hljs-type">KeyManagerParams</span>(seedPath, purpose, network)
-<span class="hljs-comment">// kmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json,m/84&#x27;,RegTest)</span>
+<span class="hljs-comment">// kmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json,m/84&#x27;,RegTest)</span>
 
 <span class="hljs-keyword">val</span> aesPasswordOpt = <span class="hljs-type">Some</span>(<span class="hljs-type">AesPassword</span>.fromString(<span class="hljs-string">&quot;password&quot;</span>))
 <span class="hljs-comment">// aesPasswordOpt: Some[AesPassword] = Some(Masked(AesPassword))</span>
 
 <span class="hljs-keyword">val</span> km = <span class="hljs-type">BIP39KeyManager</span>.initializeWithMnemonic(aesPasswordOpt, mnemonic, <span class="hljs-type">None</span>, kmParams)
-<span class="hljs-comment">// km: Either[KeyManagerInitializeError, BIP39KeyManager] = Right(org.bitcoins.keymanager.bip39.BIP39KeyManager@252a7067)</span>
+<span class="hljs-comment">// km: Either[KeyManagerInitializeError, BIP39KeyManager] = Right(org.bitcoins.keymanager.bip39.BIP39KeyManager@711b0b1c)</span>
 
 <span class="hljs-keyword">val</span> rootXPub = km.right.get.getRootXPub
-<span class="hljs-comment">// rootXPub: ExtPublicKey = vpub5SLqN2bLY4WeYPorbG9fuCEHfC7zWE1wN3hYjuM6ZWg5zLmdRM1LWBjYz536PtCbbhxAqCbR8MfzrUNS5ZpswrfoSww5yFS1bCCVNUrSjjL</span>
+<span class="hljs-comment">// rootXPub: ExtPublicKey = vpub5SLqN2bLY4WeZxfSU9wF98RiAw8RT8GKrAZ2yNMuFQi7Wz1Pgk8VzZPMz1UaB3QzuVB13bapQcJPpKifaQRtBqr3XhZEzuo2sQeJszFGzHX</span>
 
 println(rootXPub)
-<span class="hljs-comment">// vpub5SLqN2bLY4WeYPorbG9fuCEHfC7zWE1wN3hYjuM6ZWg5zLmdRM1LWBjYz536PtCbbhxAqCbR8MfzrUNS5ZpswrfoSww5yFS1bCCVNUrSjjL</span>
+<span class="hljs-comment">// vpub5SLqN2bLY4WeZxfSU9wF98RiAw8RT8GKrAZ2yNMuFQi7Wz1Pgk8VzZPMz1UaB3QzuVB13bapQcJPpKifaQRtBqr3XhZEzuo2sQeJszFGzHX</span>
 </code></pre>
 <p>Which should print something that looks like this</p>
 <p><code>vpub5SLqN2bLY4WeXxMqwJHJFBEwxSscGB2uDUnsTS3edVjZEwTrQDFDNqoR2xLqARQPabGaXsHSTenTRcqm2EnB9MpuC4vSk3LqSgNmGGZtuq7</code></p>
@@ -131,17 +131,17 @@ println(rootXPub)
 again after initializing it once. You can use the same <code>mnemonic</code> for different networks, which you control <code>KeyManagerParams</code>.</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">//let&#x27;s create a nested segwit key manager for mainnet</span>
 <span class="hljs-keyword">val</span> mainnetKmParams = <span class="hljs-type">KeyManagerParams</span>(seedPath, <span class="hljs-type">HDPurposes</span>.<span class="hljs-type">SegWit</span>, <span class="hljs-type">MainNet</span>)
-<span class="hljs-comment">// mainnetKmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json,m/84&#x27;,MainNet)</span>
+<span class="hljs-comment">// mainnetKmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json,m/84&#x27;,MainNet)</span>
 
 <span class="hljs-comment">//we do not need to all `initializeWithMnemonic()` again as we have saved the seed to dis</span>
 <span class="hljs-keyword">val</span> mainnetKeyManager = <span class="hljs-type">BIP39KeyManager</span>.fromMnemonic(mnemonic, mainnetKmParams, <span class="hljs-type">None</span>, <span class="hljs-type">Instant</span>.now)
-<span class="hljs-comment">// mainnetKeyManager: BIP39KeyManager = org.bitcoins.keymanager.bip39.BIP39KeyManager@4248e6bf</span>
+<span class="hljs-comment">// mainnetKeyManager: BIP39KeyManager = org.bitcoins.keymanager.bip39.BIP39KeyManager@7a6493f5</span>
 
 <span class="hljs-keyword">val</span> mainnetXpub = mainnetKeyManager.getRootXPub
-<span class="hljs-comment">// mainnetXpub: ExtPublicKey = zpub6jftahH18ngZwaaKvhJAjYcJM4hnGhyw2VnRsUve5YBcCk2YRyfazSN74tsSPWpHEGRPq6yey16CPcpgxMUw8oQCvJinJthxg6T4vqQbEQ5</span>
+<span class="hljs-comment">// mainnetXpub: ExtPublicKey = zpub6jftahH18ngZy9Ruob5jyUoiroiDDcEKWcdv6wwSmSDdjPGJhNnkUp1v4qJvAg2gY3eE3Vy4FFibMUAvTC5wNnaT14LwLZ4yxJttSKir4aW</span>
 
 println(mainnetXpub)
-<span class="hljs-comment">// zpub6jftahH18ngZwaaKvhJAjYcJM4hnGhyw2VnRsUve5YBcCk2YRyfazSN74tsSPWpHEGRPq6yey16CPcpgxMUw8oQCvJinJthxg6T4vqQbEQ5</span>
+<span class="hljs-comment">// zpub6jftahH18ngZy9Ruob5jyUoiroiDDcEKWcdv6wwSmSDdjPGJhNnkUp1v4qJvAg2gY3eE3Vy4FFibMUAvTC5wNnaT14LwLZ4yxJttSKir4aW</span>
 </code></pre>
 <p>Which gives us something that looks like this</p>
 <p><code>zpub6jftahH18ngZw98KGjRo5XcxeKTQ2eztsvskb1dC9XF5TLimQquTs6Ry7nBBA425D9joXmfgJJCexmJ1u2SELJZJfRi95gcnXadLpZzYb5c</code></p>

docs/next/key-manager/key-manager/index.html

@@ -77,14 +77,14 @@
 
 <span class="hljs-comment">//get 256 bits of random entropy</span>
 <span class="hljs-keyword">val</span> entropy = <span class="hljs-type">MnemonicCode</span>.getEntropy256Bits
-<span class="hljs-comment">// entropy: scodec.bits.BitVector = BitVector(256 bits, 0x2fdba6ba932c66e9dcb984194d7efea4d70ad67e2254429545ee6befb2c8be64)</span>
+<span class="hljs-comment">// entropy: scodec.bits.BitVector = BitVector(256 bits, 0x8ec273f07929cbfabb96d02733f8294affe9c80c8873eeb78b8b08025f7f18b8)</span>
 
 <span class="hljs-keyword">val</span> mnemonic = <span class="hljs-type">MnemonicCode</span>.fromEntropy(entropy)
 <span class="hljs-comment">// mnemonic: MnemonicCode = Masked(MnemonicCodeImpl)</span>
 
 <span class="hljs-comment">//you can print that mnemonic seed with this</span>
 println(mnemonic.words)
-<span class="hljs-comment">// Vector(cool, tag, push, chaos, shoe, insane, indicate, correct, bone, hip, sausage, endless, idle, hen, weasel, enhance, dream, pretty, knee, style, will, gold, wet, muffin)</span>
+<span class="hljs-comment">// Vector(mom, bean, winter, venture, original, wool, unusual, sure, cheese, panther, apart, nominee, write, tomato, cram, attack, upgrade, rough, tissue, avoid, chalk, sauce, glass, alarm)</span>
 </code></pre>
 <p>Now that we have a <code>MnemonicCode</code> that was securely generated, we need to now create <code>KeyManagerParams</code> which tells us how to generate
 generate specific kinds of addresses for wallets.</p>
@@ -99,7 +99,7 @@ generate specific kinds of addresses for wallets.</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">//this will create a temp directory with the prefix &#x27;key-manager-example` that will</span>
 <span class="hljs-comment">//have a file in it called &quot;encrypted-bitcoin-s-seed.json&quot;</span>
 <span class="hljs-keyword">val</span> seedPath = <span class="hljs-type">Files</span>.createTempDirectory(<span class="hljs-string">&quot;key-manager-example&quot;</span>).resolve(<span class="hljs-type">WalletStorage</span>.<span class="hljs-type">ENCRYPTED_SEED_FILE_NAME</span>)
-<span class="hljs-comment">// seedPath: Path = /tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json</span>
+<span class="hljs-comment">// seedPath: Path = /tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json</span>
 
 <span class="hljs-comment">//let&#x27;s create a native segwit key manager</span>
 <span class="hljs-keyword">val</span> purpose = <span class="hljs-type">HDPurposes</span>.<span class="hljs-type">SegWit</span>
@@ -110,19 +110,19 @@ generate specific kinds of addresses for wallets.</p>
 <span class="hljs-comment">// network: RegTest.type = RegTest</span>
 
 <span class="hljs-keyword">val</span> kmParams = <span class="hljs-type">KeyManagerParams</span>(seedPath, purpose, network)
-<span class="hljs-comment">// kmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json,m/84&#x27;,RegTest)</span>
+<span class="hljs-comment">// kmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json,m/84&#x27;,RegTest)</span>
 
 <span class="hljs-keyword">val</span> aesPasswordOpt = <span class="hljs-type">Some</span>(<span class="hljs-type">AesPassword</span>.fromString(<span class="hljs-string">&quot;password&quot;</span>))
 <span class="hljs-comment">// aesPasswordOpt: Some[AesPassword] = Some(Masked(AesPassword))</span>
 
 <span class="hljs-keyword">val</span> km = <span class="hljs-type">BIP39KeyManager</span>.initializeWithMnemonic(aesPasswordOpt, mnemonic, <span class="hljs-type">None</span>, kmParams)
-<span class="hljs-comment">// km: Either[KeyManagerInitializeError, BIP39KeyManager] = Right(org.bitcoins.keymanager.bip39.BIP39KeyManager@252a7067)</span>
+<span class="hljs-comment">// km: Either[KeyManagerInitializeError, BIP39KeyManager] = Right(org.bitcoins.keymanager.bip39.BIP39KeyManager@711b0b1c)</span>
 
 <span class="hljs-keyword">val</span> rootXPub = km.right.get.getRootXPub
-<span class="hljs-comment">// rootXPub: ExtPublicKey = vpub5SLqN2bLY4WeYPorbG9fuCEHfC7zWE1wN3hYjuM6ZWg5zLmdRM1LWBjYz536PtCbbhxAqCbR8MfzrUNS5ZpswrfoSww5yFS1bCCVNUrSjjL</span>
+<span class="hljs-comment">// rootXPub: ExtPublicKey = vpub5SLqN2bLY4WeZxfSU9wF98RiAw8RT8GKrAZ2yNMuFQi7Wz1Pgk8VzZPMz1UaB3QzuVB13bapQcJPpKifaQRtBqr3XhZEzuo2sQeJszFGzHX</span>
 
 println(rootXPub)
-<span class="hljs-comment">// vpub5SLqN2bLY4WeYPorbG9fuCEHfC7zWE1wN3hYjuM6ZWg5zLmdRM1LWBjYz536PtCbbhxAqCbR8MfzrUNS5ZpswrfoSww5yFS1bCCVNUrSjjL</span>
+<span class="hljs-comment">// vpub5SLqN2bLY4WeZxfSU9wF98RiAw8RT8GKrAZ2yNMuFQi7Wz1Pgk8VzZPMz1UaB3QzuVB13bapQcJPpKifaQRtBqr3XhZEzuo2sQeJszFGzHX</span>
 </code></pre>
 <p>Which should print something that looks like this</p>
 <p><code>vpub5SLqN2bLY4WeXxMqwJHJFBEwxSscGB2uDUnsTS3edVjZEwTrQDFDNqoR2xLqARQPabGaXsHSTenTRcqm2EnB9MpuC4vSk3LqSgNmGGZtuq7</code></p>
@@ -131,17 +131,17 @@ println(rootXPub)
 again after initializing it once. You can use the same <code>mnemonic</code> for different networks, which you control <code>KeyManagerParams</code>.</p>
 <pre><code class="hljs css language-scala"><span class="hljs-comment">//let&#x27;s create a nested segwit key manager for mainnet</span>
 <span class="hljs-keyword">val</span> mainnetKmParams = <span class="hljs-type">KeyManagerParams</span>(seedPath, <span class="hljs-type">HDPurposes</span>.<span class="hljs-type">SegWit</span>, <span class="hljs-type">MainNet</span>)
-<span class="hljs-comment">// mainnetKmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6477474205304872243/encrypted-bitcoin-s-seed.json,m/84&#x27;,MainNet)</span>
+<span class="hljs-comment">// mainnetKmParams: KeyManagerParams = KeyManagerParams(/tmp/key-manager-example6606030982318766601/encrypted-bitcoin-s-seed.json,m/84&#x27;,MainNet)</span>
 
 <span class="hljs-comment">//we do not need to all `initializeWithMnemonic()` again as we have saved the seed to dis</span>
 <span class="hljs-keyword">val</span> mainnetKeyManager = <span class="hljs-type">BIP39KeyManager</span>.fromMnemonic(mnemonic, mainnetKmParams, <span class="hljs-type">None</span>, <span class="hljs-type">Instant</span>.now)
-<span class="hljs-comment">// mainnetKeyManager: BIP39KeyManager = org.bitcoins.keymanager.bip39.BIP39KeyManager@4248e6bf</span>
+<span class="hljs-comment">// mainnetKeyManager: BIP39KeyManager = org.bitcoins.keymanager.bip39.BIP39KeyManager@7a6493f5</span>
 
 <span class="hljs-keyword">val</span> mainnetXpub = mainnetKeyManager.getRootXPub
-<span class="hljs-comment">// mainnetXpub: ExtPublicKey = zpub6jftahH18ngZwaaKvhJAjYcJM4hnGhyw2VnRsUve5YBcCk2YRyfazSN74tsSPWpHEGRPq6yey16CPcpgxMUw8oQCvJinJthxg6T4vqQbEQ5</span>
+<span class="hljs-comment">// mainnetXpub: ExtPublicKey = zpub6jftahH18ngZy9Ruob5jyUoiroiDDcEKWcdv6wwSmSDdjPGJhNnkUp1v4qJvAg2gY3eE3Vy4FFibMUAvTC5wNnaT14LwLZ4yxJttSKir4aW</span>
 
 println(mainnetXpub)
-<span class="hljs-comment">// zpub6jftahH18ngZwaaKvhJAjYcJM4hnGhyw2VnRsUve5YBcCk2YRyfazSN74tsSPWpHEGRPq6yey16CPcpgxMUw8oQCvJinJthxg6T4vqQbEQ5</span>
+<span class="hljs-comment">// zpub6jftahH18ngZy9Ruob5jyUoiroiDDcEKWcdv6wwSmSDdjPGJhNnkUp1v4qJvAg2gY3eE3Vy4FFibMUAvTC5wNnaT14LwLZ4yxJttSKir4aW</span>
 </code></pre>
 <p>Which gives us something that looks like this</p>
 <p><code>zpub6jftahH18ngZw98KGjRo5XcxeKTQ2eztsvskb1dC9XF5TLimQquTs6Ry7nBBA425D9joXmfgJJCexmJ1u2SELJZJfRi95gcnXadLpZzYb5c</code></p>

docs/next/secp256k1/secp256k1.html

@@ -114,12 +114,12 @@ println(<span class="hljs-string">s&quot;Verified with NativeSecp256k1 again=<sp
 <pre><code class="hljs css language-scala"><span class="hljs-keyword">val</span> privKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// privKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> publicKey = privKey.publicKeyWithBouncyCastle
-<span class="hljs-comment">// publicKey: ECPublicKey = ECPublicKey(023e4391dfc7c7b19fea987299f89495651db57b036276ddecf629fc376a5fca55)</span>
+<span class="hljs-comment">// publicKey: ECPublicKey = ECPublicKey(025b47b4cdc355f987724fa4e54ce452edbc63114357282f63f316cbee86598f02)</span>
 <span class="hljs-keyword">val</span> dataToSign = <span class="hljs-type">DoubleSha256Digest</span>.empty
 <span class="hljs-comment">// dataToSign: DoubleSha256Digest = DoubleSha256Digest(0000000000000000000000000000000000000000000000000000000000000000)</span>
 
 <span class="hljs-keyword">val</span> signature = privKey.signWithBouncyCastle(dataToSign.bytes)
-<span class="hljs-comment">// signature: ECDigitalSignature = ECDigitalSignature(3045022100ae8c2a66ae0c82ff2f97522979346052b963f8746c0c5ca93ae6002097602a4202204623cf3690af8d03432843e86eca4c6d0ca9e46d8b161da3b874f3e69f586f54)</span>
+<span class="hljs-comment">// signature: ECDigitalSignature = ECDigitalSignature(304402200c681aabe58a7756f6bdac9953feee84e014a0f1f23eb4ceabe268cb78bbefb80220085ce68f5e270562edda8e2890d11f50fd43076a5ae23ce5949ce1a1ed8a0efb)</span>
 
 <span class="hljs-keyword">val</span> verified = publicKey.verifyWithBouncyCastle(dataToSign.bytes, signature)
 <span class="hljs-comment">// verified: Boolean = true</span>

docs/next/secp256k1/secp256k1/index.html

@@ -114,12 +114,12 @@ println(<span class="hljs-string">s&quot;Verified with NativeSecp256k1 again=<sp
 <pre><code class="hljs css language-scala"><span class="hljs-keyword">val</span> privKey = <span class="hljs-type">ECPrivateKey</span>.freshPrivateKey
 <span class="hljs-comment">// privKey: ECPrivateKey = Masked(ECPrivateKeyImpl)</span>
 <span class="hljs-keyword">val</span> publicKey = privKey.publicKeyWithBouncyCastle
-<span class="hljs-comment">// publicKey: ECPublicKey = ECPublicKey(023e4391dfc7c7b19fea987299f89495651db57b036276ddecf629fc376a5fca55)</span>
+<span class="hljs-comment">// publicKey: ECPublicKey = ECPublicKey(025b47b4cdc355f987724fa4e54ce452edbc63114357282f63f316cbee86598f02)</span>
 <span class="hljs-keyword">val</span> dataToSign = <span class="hljs-type">DoubleSha256Digest</span>.empty
 <span class="hljs-comment">// dataToSign: DoubleSha256Digest = DoubleSha256Digest(0000000000000000000000000000000000000000000000000000000000000000)</span>
 
 <span class="hljs-keyword">val</span> signature = privKey.signWithBouncyCastle(dataToSign.bytes)
-<span class="hljs-comment">// signature: ECDigitalSignature = ECDigitalSignature(3045022100ae8c2a66ae0c82ff2f97522979346052b963f8746c0c5ca93ae6002097602a4202204623cf3690af8d03432843e86eca4c6d0ca9e46d8b161da3b874f3e69f586f54)</span>
+<span class="hljs-comment">// signature: ECDigitalSignature = ECDigitalSignature(304402200c681aabe58a7756f6bdac9953feee84e014a0f1f23eb4ceabe268cb78bbefb80220085ce68f5e270562edda8e2890d11f50fd43076a5ae23ce5949ce1a1ed8a0efb)</span>
 
 <span class="hljs-keyword">val</span> verified = publicKey.verifyWithBouncyCastle(dataToSign.bytes, signature)
 <span class="hljs-comment">// verified: Boolean = true</span>