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* Merge #11796: [tests] Functional test naming convention5fecd84
[tests] Remove redundant import in blocktools.py test (Anthony Towns)9b20bb4
[tests] Check tests conform to naming convention (Anthony Towns)7250b4e
[tests] README.md nit fixes (Anthony Towns)82b2712
[tests] move witness util functions to blocktools.py (John Newbery)1e10854
[tests] [docs] update README for new test naming scheme (John Newbery) Pull request description: Splitting #11774 into two parts -- this part updates the README with the proposed naming convention, and adds some checks to test_runner.py that the number of tests violating the naming convention doesn't increase too much. Idea is this part of the change should not introduce merge conflicts or require much rebasing, so reviews of the complicated bits won't become invalidated too often; while the second part will just be file renames, which will require regular rebasing and will introduce merge conflicts with pending PRs, but can be merged later, and should also be much easier to review, since it will only include relatively trivial changes. Tree-SHA512: b96557d41714addbbfe2aed62fb5a48639eaeb1eb3aba30ac1b3a86bb3cb8d796c6247f9c414c4695c4bf54c0ec9968ac88e2f88fb62483bc1a2f89368f7fc80 * update violation count Signed-off-by: pasta <pasta@dashboost.org> * Merge #11774: [tests] Rename functional tests6f881cc880
[tests] Remove EXPECTED_VIOLATION_COUNT (Anthony Towns)3150b3fea7
[tests] Rename misc functional tests. (Anthony Towns)81b79f2c39
[tests] Rename rpc_* functional tests. (Anthony Towns)61b8f7f273
[tests] Rename p2p_* functional tests. (Anthony Towns)90600bc7db
[tests] Rename wallet_* functional tests. (Anthony Towns)ca6523d0c8
[tests] Rename feature_* functional tests. (Anthony Towns) Pull request description: This PR changes the functional tests to have a consistent naming scheme: tests for individual RPC methods are named rpc_... tests for interfaces (REST, ZMQ, RPC features) are named interface_... tests that explicitly test the p2p interface are named p2p_... tests for wallet features are named wallet_... tests for mining features are named mining_... tests for mempool behaviour are named mempool_... tests for full features that aren't wallet/mining/mempool are named feature_... Rationale: it's sometimes difficult for new contributors to know what's already covered by existing tests and where new tests should be added. Naming in a consistent fashion makes it easier to see what's already covered at a glance. Tree-SHA512: 4246790552d42bbd95f6d5bdf67702b81b3b2c583ce7eaf1fe6d8e254721279b47315973c6e9ae82dad6e4c747f12188160764bf2624c0f8f3b4d39330ec8b16 * rename tests and edit associated strings to align test-suite with test name standards Signed-off-by: pasta <pasta@dashboost.org> * fix grammar in test/functional/test_runner.py Co-authored-by: dustinface <35775977+xdustinface@users.noreply.github.com> * ci: Fix excluded test names * rename feature_privatesend.py to rpc_privatesend.py Signed-off-by: pasta <pasta@dashboost.org> Co-authored-by: Wladimir J. van der Laan <laanwj@gmail.com> Co-authored-by: MarcoFalke <falke.marco@gmail.com> Co-authored-by: dustinface <35775977+xdustinface@users.noreply.github.com> Co-authored-by: xdustinface <xdustinfacex@gmail.com>
180 lines
13 KiB
Python
Executable File
180 lines
13 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2015-2016 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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"""Test decoding scripts via decodescript RPC command."""
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.util import *
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from test_framework.mininode import *
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from io import BytesIO
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class DecodeScriptTest(BitcoinTestFramework):
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def set_test_params(self):
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self.setup_clean_chain = True
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self.num_nodes = 1
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def decodescript_script_sig(self):
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signature = '304502207fa7a6d1e0ee81132a269ad84e68d695483745cde8b541e3bf630749894e342a022100c1f7ab20e13e22fb95281a870f3dcf38d782e53023ee313d741ad0cfbc0c509001'
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push_signature = '48' + signature
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public_key = '03b0da749730dc9b4b1f4a14d6902877a92541f5368778853d9c4a0cb7802dcfb2'
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push_public_key = '21' + public_key
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# below are test cases for all of the standard transaction types
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# 1) P2PK scriptSig
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# the scriptSig of a public key scriptPubKey simply pushes a signature onto the stack
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rpc_result = self.nodes[0].decodescript(push_signature)
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assert_equal(signature, rpc_result['asm'])
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# 2) P2PKH scriptSig
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rpc_result = self.nodes[0].decodescript(push_signature + push_public_key)
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assert_equal(signature + ' ' + public_key, rpc_result['asm'])
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# 3) multisig scriptSig
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# this also tests the leading portion of a P2SH multisig scriptSig
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# OP_0 <A sig> <B sig>
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rpc_result = self.nodes[0].decodescript('00' + push_signature + push_signature)
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assert_equal('0 ' + signature + ' ' + signature, rpc_result['asm'])
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# 4) P2SH scriptSig
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# an empty P2SH redeemScript is valid and makes for a very simple test case.
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# thus, such a spending scriptSig would just need to pass the outer redeemScript
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# hash test and leave true on the top of the stack.
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rpc_result = self.nodes[0].decodescript('5100')
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assert_equal('1 0', rpc_result['asm'])
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# 5) null data scriptSig - no such thing because null data scripts can not be spent.
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# thus, no test case for that standard transaction type is here.
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def decodescript_script_pub_key(self):
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public_key = '03b0da749730dc9b4b1f4a14d6902877a92541f5368778853d9c4a0cb7802dcfb2'
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push_public_key = '21' + public_key
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public_key_hash = '11695b6cd891484c2d49ec5aa738ec2b2f897777'
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push_public_key_hash = '14' + public_key_hash
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# below are test cases for all of the standard transaction types
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# 1) P2PK scriptPubKey
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# <pubkey> OP_CHECKSIG
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rpc_result = self.nodes[0].decodescript(push_public_key + 'ac')
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assert_equal(public_key + ' OP_CHECKSIG', rpc_result['asm'])
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# 2) P2PKH scriptPubKey
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# OP_DUP OP_HASH160 <PubKeyHash> OP_EQUALVERIFY OP_CHECKSIG
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rpc_result = self.nodes[0].decodescript('76a9' + push_public_key_hash + '88ac')
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assert_equal('OP_DUP OP_HASH160 ' + public_key_hash + ' OP_EQUALVERIFY OP_CHECKSIG', rpc_result['asm'])
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# 3) multisig scriptPubKey
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# <m> <A pubkey> <B pubkey> <C pubkey> <n> OP_CHECKMULTISIG
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# just imagine that the pub keys used below are different.
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# for our purposes here it does not matter that they are the same even though it is unrealistic.
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rpc_result = self.nodes[0].decodescript('52' + push_public_key + push_public_key + push_public_key + '53ae')
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assert_equal('2 ' + public_key + ' ' + public_key + ' ' + public_key + ' 3 OP_CHECKMULTISIG', rpc_result['asm'])
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# 4) P2SH scriptPubKey
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# OP_HASH160 <Hash160(redeemScript)> OP_EQUAL.
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# push_public_key_hash here should actually be the hash of a redeem script.
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# but this works the same for purposes of this test.
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rpc_result = self.nodes[0].decodescript('a9' + push_public_key_hash + '87')
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assert_equal('OP_HASH160 ' + public_key_hash + ' OP_EQUAL', rpc_result['asm'])
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# 5) null data scriptPubKey
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# use a signature look-alike here to make sure that we do not decode random data as a signature.
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# this matters if/when signature sighash decoding comes along.
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# would want to make sure that no such decoding takes place in this case.
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signature_imposter = '48304502207fa7a6d1e0ee81132a269ad84e68d695483745cde8b541e3bf630749894e342a022100c1f7ab20e13e22fb95281a870f3dcf38d782e53023ee313d741ad0cfbc0c509001'
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# OP_RETURN <data>
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rpc_result = self.nodes[0].decodescript('6a' + signature_imposter)
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assert_equal('OP_RETURN ' + signature_imposter[2:], rpc_result['asm'])
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# 6) a CLTV redeem script. redeem scripts are in-effect scriptPubKey scripts, so adding a test here.
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# OP_NOP2 is also known as OP_CHECKLOCKTIMEVERIFY.
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# just imagine that the pub keys used below are different.
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# for our purposes here it does not matter that they are the same even though it is unrealistic.
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#
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# OP_IF
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# <receiver-pubkey> OP_CHECKSIGVERIFY
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# OP_ELSE
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# <lock-until> OP_CHECKLOCKTIMEVERIFY OP_DROP
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# OP_ENDIF
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# <sender-pubkey> OP_CHECKSIG
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#
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# lock until block 500,000
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rpc_result = self.nodes[0].decodescript('63' + push_public_key + 'ad670320a107b17568' + push_public_key + 'ac')
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assert_equal('OP_IF ' + public_key + ' OP_CHECKSIGVERIFY OP_ELSE 500000 OP_CHECKLOCKTIMEVERIFY OP_DROP OP_ENDIF ' + public_key + ' OP_CHECKSIG', rpc_result['asm'])
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def decoderawtransaction_asm_sighashtype(self):
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"""Test decoding scripts via RPC command "decoderawtransaction".
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This test is in with the "decodescript" tests because they are testing the same "asm" script decodes.
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"""
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# this test case uses a random plain vanilla mainnet transaction with a single P2PKH input and output
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tx = '0100000001696a20784a2c70143f634e95227dbdfdf0ecd51647052e70854512235f5986ca010000008a47304402207174775824bec6c2700023309a168231ec80b82c6069282f5133e6f11cbb04460220570edc55c7c5da2ca687ebd0372d3546ebc3f810516a002350cac72dfe192dfb014104d3f898e6487787910a690410b7a917ef198905c27fb9d3b0a42da12aceae0544fc7088d239d9a48f2828a15a09e84043001f27cc80d162cb95404e1210161536ffffffff0100e1f505000000001976a914eb6c6e0cdb2d256a32d97b8df1fc75d1920d9bca88ac00000000'
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rpc_result = self.nodes[0].decoderawtransaction(tx)
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assert_equal('304402207174775824bec6c2700023309a168231ec80b82c6069282f5133e6f11cbb04460220570edc55c7c5da2ca687ebd0372d3546ebc3f810516a002350cac72dfe192dfb[ALL] 04d3f898e6487787910a690410b7a917ef198905c27fb9d3b0a42da12aceae0544fc7088d239d9a48f2828a15a09e84043001f27cc80d162cb95404e1210161536', rpc_result['vin'][0]['scriptSig']['asm'])
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# this test case uses a mainnet transaction that has a P2SH input and both P2PKH and P2SH outputs.
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# it's from James D'Angelo's awesome introductory videos about multisig: https://www.youtube.com/watch?v=zIbUSaZBJgU and https://www.youtube.com/watch?v=OSA1pwlaypc
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# verify that we have not altered scriptPubKey decoding.
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tx = '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'
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rpc_result = self.nodes[0].decoderawtransaction(tx)
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assert_equal('8e3730608c3b0bb5df54f09076e196bc292a8e39a78e73b44b6ba08c78f5cbb0', rpc_result['txid'])
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assert_equal('0 3045022100ae3b4e589dfc9d48cb82d41008dc5fa6a86f94d5c54f9935531924602730ab8002202f88cf464414c4ed9fa11b773c5ee944f66e9b05cc1e51d97abc22ce098937ea[ALL] 3045022100b44883be035600e9328a01b66c7d8439b74db64187e76b99a68f7893b701d5380220225bf286493e4c4adcf928c40f785422572eb232f84a0b83b0dea823c3a19c75[ALL] 5221020743d44be989540d27b1b4bbbcfd17721c337cb6bc9af20eb8a32520b393532f2102c0120a1dda9e51a938d39ddd9fe0ebc45ea97e1d27a7cbd671d5431416d3dd87210213820eb3d5f509d7438c9eeecb4157b2f595105e7cd564b3cdbb9ead3da41eed53ae', rpc_result['vin'][0]['scriptSig']['asm'])
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assert_equal('OP_DUP OP_HASH160 dc863734a218bfe83ef770ee9d41a27f824a6e56 OP_EQUALVERIFY OP_CHECKSIG', rpc_result['vout'][0]['scriptPubKey']['asm'])
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assert_equal('OP_HASH160 2a5edea39971049a540474c6a99edf0aa4074c58 OP_EQUAL', rpc_result['vout'][1]['scriptPubKey']['asm'])
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txSave = CTransaction()
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txSave.deserialize(BytesIO(hex_str_to_bytes(tx)))
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# make sure that a specifically crafted op_return value will not pass all the IsDERSignature checks and then get decoded as a sighash type
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tx = '01000000015ded05872fdbda629c7d3d02b194763ce3b9b1535ea884e3c8e765d42e316724020000006b48304502204c10d4064885c42638cbff3585915b322de33762598321145ba033fc796971e2022100bb153ad3baa8b757e30a2175bd32852d2e1cb9080f84d7e32fcdfd667934ef1b012103163c0ff73511ea1743fb5b98384a2ff09dd06949488028fd819f4d83f56264efffffffff0200000000000000000b6a0930060201000201000180380100000000001976a9141cabd296e753837c086da7a45a6c2fe0d49d7b7b88ac00000000'
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rpc_result = self.nodes[0].decoderawtransaction(tx)
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assert_equal('OP_RETURN 300602010002010001', rpc_result['vout'][0]['scriptPubKey']['asm'])
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# verify that we have not altered scriptPubKey processing even of a specially crafted P2PKH pubkeyhash and P2SH redeem script hash that is made to pass the der signature checks
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tx = '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'
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rpc_result = self.nodes[0].decoderawtransaction(tx)
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assert_equal('OP_DUP OP_HASH160 3011020701010101010101020601010101010101 OP_EQUALVERIFY OP_CHECKSIG', rpc_result['vout'][0]['scriptPubKey']['asm'])
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assert_equal('OP_HASH160 3011020701010101010101020601010101010101 OP_EQUAL', rpc_result['vout'][1]['scriptPubKey']['asm'])
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# some more full transaction tests of varying specific scriptSigs. used instead of
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# tests in decodescript_script_sig because the decodescript RPC is specifically
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# for working on scriptPubKeys (argh!).
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push_signature = bytes_to_hex_str(txSave.vin[0].scriptSig)[2:(0x48*2+4)]
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signature = push_signature[2:]
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der_signature = signature[:-2]
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signature_sighash_decoded = der_signature + '[ALL]'
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signature_2 = der_signature + '82'
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push_signature_2 = '48' + signature_2
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signature_2_sighash_decoded = der_signature + '[NONE|ANYONECANPAY]'
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# 1) P2PK scriptSig
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txSave.vin[0].scriptSig = hex_str_to_bytes(push_signature)
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rpc_result = self.nodes[0].decoderawtransaction(bytes_to_hex_str(txSave.serialize()))
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assert_equal(signature_sighash_decoded, rpc_result['vin'][0]['scriptSig']['asm'])
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# make sure that the sighash decodes come out correctly for a more complex / lesser used case.
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txSave.vin[0].scriptSig = hex_str_to_bytes(push_signature_2)
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rpc_result = self.nodes[0].decoderawtransaction(bytes_to_hex_str(txSave.serialize()))
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assert_equal(signature_2_sighash_decoded, rpc_result['vin'][0]['scriptSig']['asm'])
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# 2) multisig scriptSig
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txSave.vin[0].scriptSig = hex_str_to_bytes('00' + push_signature + push_signature_2)
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rpc_result = self.nodes[0].decoderawtransaction(bytes_to_hex_str(txSave.serialize()))
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assert_equal('0 ' + signature_sighash_decoded + ' ' + signature_2_sighash_decoded, rpc_result['vin'][0]['scriptSig']['asm'])
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# 3) test a scriptSig that contains more than push operations.
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# in fact, it contains an OP_RETURN with data specially crafted to cause improper decode if the code does not catch it.
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txSave.vin[0].scriptSig = hex_str_to_bytes('6a143011020701010101010101020601010101010101')
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rpc_result = self.nodes[0].decoderawtransaction(bytes_to_hex_str(txSave.serialize()))
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assert_equal('OP_RETURN 3011020701010101010101020601010101010101', rpc_result['vin'][0]['scriptSig']['asm'])
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def run_test(self):
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self.decodescript_script_sig()
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self.decodescript_script_pub_key()
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self.decoderawtransaction_asm_sighashtype()
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if __name__ == '__main__':
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DecodeScriptTest().main()
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