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#!/usr/bin/env python3
# Copyright (c) 2014-2022 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Test the REST API."""
from decimal import Decimal
from enum import Enum
import http.client
from io import BytesIO
import json
from struct import pack, unpack
import typing
import urllib.parse
from test_framework.messages import (
BLOCK_HEADER_SIZE,
COIN,
)
from test_framework.test_framework import BitcoinTestFramework
from test_framework.util import (
assert_equal,
assert_greater_than,
assert_greater_than_or_equal,
)
from test_framework.wallet import (
MiniWallet,
getnewdestination,
)
INVALID_PARAM = "abc"
UNKNOWN_PARAM = "0000000000000000000000000000000000000000000000000000000000000000"
class ReqType(Enum):
JSON = 1
BIN = 2
HEX = 3
class RetType(Enum):
OBJ = 1
BYTES = 2
JSON = 3
def filter_output_indices_by_value(vouts, value):
for vout in vouts:
if vout['value'] == value:
yield vout['n']
class RESTTest (BitcoinTestFramework):
def set_test_params(self):
self.num_nodes = 2
self.extra_args = [["-rest", "-blockfilterindex=1"], []]
# whitelist peers to speed up tx relay / mempool sync
for args in self.extra_args:
args.append("-whitelist=noban@127.0.0.1")
self.supports_cli = False
def test_rest_request(
self,
uri: str,
http_method: str = 'GET',
req_type: ReqType = ReqType.JSON,
body: str = '',
status: int = 200,
ret_type: RetType = RetType.JSON,
query_params: typing.Dict[str, typing.Any] = None,
) -> typing.Union[http.client.HTTPResponse, bytes, str, None]:
rest_uri = '/rest' + uri
if req_type in ReqType:
rest_uri += f'.{req_type.name.lower()}'
if query_params:
rest_uri += f'?{urllib.parse.urlencode(query_params)}'
conn = http.client.HTTPConnection(self.url.hostname, self.url.port)
self.log.debug(f'{http_method} {rest_uri} {body}')
if http_method == 'GET':
conn.request('GET', rest_uri)
elif http_method == 'POST':
conn.request('POST', rest_uri, body)
resp = conn.getresponse()
assert_equal(resp.status, status)
if ret_type == RetType.OBJ:
return resp
elif ret_type == RetType.BYTES:
return resp.read()
elif ret_type == RetType.JSON:
return json.loads(resp.read().decode('utf-8'), parse_float=Decimal)
return None
def run_test(self):
self.url = urllib.parse.urlparse(self.nodes[0].url)
self.wallet = MiniWallet(self.nodes[0])
self.wallet.rescan_utxos()
self.log.info("Broadcast test transaction and sync nodes")
txid, _ = self.wallet.send_to(from_node=self.nodes[0], scriptPubKey=getnewdestination()[1], amount=int(0.1 * COIN))
self.sync_all()
self.log.info("Test the /tx URI")
json_obj = self.test_rest_request(f"/tx/{txid}")
assert_equal(json_obj['txid'], txid)
# Check hex format response
hex_response = self.test_rest_request(f"/tx/{txid}", req_type=ReqType.HEX, ret_type=RetType.OBJ)
assert_greater_than_or_equal(int(hex_response.getheader('content-length')),
json_obj['size']*2)
spent = (json_obj['vin'][0]['txid'], json_obj['vin'][0]['vout']) # get the vin to later check for utxo (should be spent by then)
# get n of 0.1 outpoint
n, = filter_output_indices_by_value(json_obj['vout'], Decimal('0.1'))
spending = (txid, n)
# Test /tx with an invalid and an unknown txid
resp = self.test_rest_request(uri=f"/tx/{INVALID_PARAM}", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), f"Invalid hash: {INVALID_PARAM}")
resp = self.test_rest_request(uri=f"/tx/{UNKNOWN_PARAM}", ret_type=RetType.OBJ, status=404)
assert_equal(resp.read().decode('utf-8').rstrip(), f"{UNKNOWN_PARAM} not found")
self.log.info("Query an unspent TXO using the /getutxos URI")
self.generate(self.wallet, 1)
bb_hash = self.nodes[0].getbestblockhash()
# Check chainTip response
json_obj = self.test_rest_request(f"/getutxos/{spending[0]}-{spending[1]}")
assert_equal(json_obj['chaintipHash'], bb_hash)
# Make sure there is one utxo
assert_equal(len(json_obj['utxos']), 1)
assert_equal(json_obj['utxos'][0]['value'], Decimal('0.1'))
self.log.info("Query a spent TXO using the /getutxos URI")
json_obj = self.test_rest_request(f"/getutxos/{spent[0]}-{spent[1]}")
# Check chainTip response
assert_equal(json_obj['chaintipHash'], bb_hash)
# Make sure there is no utxo in the response because this outpoint has been spent
assert_equal(len(json_obj['utxos']), 0)
# Check bitmap
assert_equal(json_obj['bitmap'], "0")
self.log.info("Query two TXOs using the /getutxos URI")
json_obj = self.test_rest_request(f"/getutxos/{spending[0]}-{spending[1]}/{spent[0]}-{spent[1]}")
assert_equal(len(json_obj['utxos']), 1)
assert_equal(json_obj['bitmap'], "10")
self.log.info("Query the TXOs using the /getutxos URI with a binary response")
bin_request = b'\x01\x02'
for txid, n in [spending, spent]:
bin_request += bytes.fromhex(txid)
bin_request += pack("i", n)
bin_response = self.test_rest_request("/getutxos", http_method='POST', req_type=ReqType.BIN, body=bin_request, ret_type=RetType.BYTES)
output = BytesIO(bin_response)
chain_height, = unpack("<i", output.read(4))
response_hash = output.read(32)[::-1].hex()
assert_equal(bb_hash, response_hash) # check if getutxo's chaintip during calculation was fine
assert_equal(chain_height, 201) # chain height must be 201 (pre-mined chain [200] + generated block [1])
self.log.info("Test the /getutxos URI with and without /checkmempool")
# Create a transaction, check that it's found with /checkmempool, but
# not found without. Then confirm the transaction and check that it's
# found with or without /checkmempool.
# do a tx and don't sync
txid, _ = self.wallet.send_to(from_node=self.nodes[0], scriptPubKey=getnewdestination()[1], amount=int(0.1 * COIN))
json_obj = self.test_rest_request(f"/tx/{txid}")
# get the spent output to later check for utxo (should be spent by then)
spent = (json_obj['vin'][0]['txid'], json_obj['vin'][0]['vout'])
# get n of 0.1 outpoint
n, = filter_output_indices_by_value(json_obj['vout'], Decimal('0.1'))
spending = (txid, n)
json_obj = self.test_rest_request(f"/getutxos/{spending[0]}-{spending[1]}")
assert_equal(len(json_obj['utxos']), 0)
json_obj = self.test_rest_request(f"/getutxos/checkmempool/{spending[0]}-{spending[1]}")
assert_equal(len(json_obj['utxos']), 1)
json_obj = self.test_rest_request(f"/getutxos/{spent[0]}-{spent[1]}")
assert_equal(len(json_obj['utxos']), 1)
json_obj = self.test_rest_request(f"/getutxos/checkmempool/{spent[0]}-{spent[1]}")
assert_equal(len(json_obj['utxos']), 0)
self.generate(self.nodes[0], 1)
json_obj = self.test_rest_request(f"/getutxos/{spending[0]}-{spending[1]}")
assert_equal(len(json_obj['utxos']), 1)
json_obj = self.test_rest_request(f"/getutxos/checkmempool/{spending[0]}-{spending[1]}")
assert_equal(len(json_obj['utxos']), 1)
# Do some invalid requests
self.test_rest_request("/getutxos", http_method='POST', req_type=ReqType.JSON, body='{"checkmempool', status=400, ret_type=RetType.OBJ)
self.test_rest_request("/getutxos", http_method='POST', req_type=ReqType.BIN, body='{"checkmempool', status=400, ret_type=RetType.OBJ)
self.test_rest_request("/getutxos/checkmempool", http_method='POST', req_type=ReqType.JSON, status=400, ret_type=RetType.OBJ)
# Test limits
long_uri = '/'.join([f"{txid}-{n_}" for n_ in range(20)])
self.test_rest_request(f"/getutxos/checkmempool/{long_uri}", http_method='POST', status=400, ret_type=RetType.OBJ)
long_uri = '/'.join([f'{txid}-{n_}' for n_ in range(15)])
self.test_rest_request(f"/getutxos/checkmempool/{long_uri}", http_method='POST', status=200)
self.generate(self.nodes[0], 1) # generate block to not affect upcoming tests
self.log.info("Test the /block, /blockhashbyheight, /headers, and /blockfilterheaders URIs")
bb_hash = self.nodes[0].getbestblockhash()
# Check result if block does not exists
assert_equal(self.test_rest_request(f"/headers/{UNKNOWN_PARAM}", query_params={"count": 1}), [])
self.test_rest_request(f"/block/{UNKNOWN_PARAM}", status=404, ret_type=RetType.OBJ)
# Check result if block is not in the active chain
self.nodes[0].invalidateblock(bb_hash)
assert_equal(self.test_rest_request(f'/headers/{bb_hash}', query_params={'count': 1}), [])
self.test_rest_request(f'/block/{bb_hash}')
self.nodes[0].reconsiderblock(bb_hash)
# Check binary format
response = self.test_rest_request(f"/block/{bb_hash}", req_type=ReqType.BIN, ret_type=RetType.OBJ)
assert_greater_than(int(response.getheader('content-length')), BLOCK_HEADER_SIZE)
response_bytes = response.read()
# Compare with block header
response_header = self.test_rest_request(f"/headers/{bb_hash}", req_type=ReqType.BIN, ret_type=RetType.OBJ, query_params={"count": 1})
assert_equal(int(response_header.getheader('content-length')), BLOCK_HEADER_SIZE)
response_header_bytes = response_header.read()
assert_equal(response_bytes[:BLOCK_HEADER_SIZE], response_header_bytes)
# Check block hex format
response_hex = self.test_rest_request(f"/block/{bb_hash}", req_type=ReqType.HEX, ret_type=RetType.OBJ)
assert_greater_than(int(response_hex.getheader('content-length')), BLOCK_HEADER_SIZE*2)
response_hex_bytes = response_hex.read().strip(b'\n')
assert_equal(response_bytes.hex().encode(), response_hex_bytes)
# Compare with hex block header
response_header_hex = self.test_rest_request(f"/headers/{bb_hash}", req_type=ReqType.HEX, ret_type=RetType.OBJ, query_params={"count": 1})
assert_greater_than(int(response_header_hex.getheader('content-length')), BLOCK_HEADER_SIZE*2)
response_header_hex_bytes = response_header_hex.read(BLOCK_HEADER_SIZE*2)
assert_equal(response_bytes[:BLOCK_HEADER_SIZE].hex().encode(), response_header_hex_bytes)
# Check json format
block_json_obj = self.test_rest_request(f"/block/{bb_hash}")
assert_equal(block_json_obj['hash'], bb_hash)
assert_equal(self.test_rest_request(f"/blockhashbyheight/{block_json_obj['height']}")['blockhash'], bb_hash)
# Check hex/bin format
resp_hex = self.test_rest_request(f"/blockhashbyheight/{block_json_obj['height']}", req_type=ReqType.HEX, ret_type=RetType.OBJ)
assert_equal(resp_hex.read().decode('utf-8').rstrip(), bb_hash)
resp_bytes = self.test_rest_request(f"/blockhashbyheight/{block_json_obj['height']}", req_type=ReqType.BIN, ret_type=RetType.BYTES)
blockhash = resp_bytes[::-1].hex()
assert_equal(blockhash, bb_hash)
# Check invalid blockhashbyheight requests
resp = self.test_rest_request(f"/blockhashbyheight/{INVALID_PARAM}", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), f"Invalid height: {INVALID_PARAM}")
resp = self.test_rest_request("/blockhashbyheight/1000000", ret_type=RetType.OBJ, status=404)
assert_equal(resp.read().decode('utf-8').rstrip(), "Block height out of range")
resp = self.test_rest_request("/blockhashbyheight/-1", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), "Invalid height: -1")
self.test_rest_request("/blockhashbyheight/", ret_type=RetType.OBJ, status=400)
# Compare with json block header
json_obj = self.test_rest_request(f"/headers/{bb_hash}", query_params={"count": 1})
assert_equal(len(json_obj), 1) # ensure that there is one header in the json response
assert_equal(json_obj[0]['hash'], bb_hash) # request/response hash should be the same
# Compare with normal RPC block response
rpc_block_json = self.nodes[0].getblock(bb_hash)
for key in ['hash', 'confirmations', 'height', 'version', 'merkleroot', 'time', 'nonce', 'bits', 'difficulty', 'chainwork', 'previousblockhash']:
assert_equal(json_obj[0][key], rpc_block_json[key])
# See if we can get 5 headers in one response
self.generate(self.nodes[1], 5)
expected_filter = {
'basic block filter index': {'synced': True, 'best_block_height': 208},
}
self.wait_until(lambda: self.nodes[0].getindexinfo() == expected_filter)
json_obj = self.test_rest_request(f"/headers/{bb_hash}", query_params={"count": 5})
assert_equal(len(json_obj), 5) # now we should have 5 header objects
json_obj = self.test_rest_request(f"/blockfilterheaders/basic/{bb_hash}", query_params={"count": 5})
first_filter_header = json_obj[0]
assert_equal(len(json_obj), 5) # now we should have 5 filter header objects
json_obj = self.test_rest_request(f"/blockfilter/basic/{bb_hash}")
# Compare with normal RPC blockfilter response
rpc_blockfilter = self.nodes[0].getblockfilter(bb_hash)
assert_equal(first_filter_header, rpc_blockfilter['header'])
assert_equal(json_obj['filter'], rpc_blockfilter['filter'])
# Test blockfilterheaders with an invalid hash and filtertype
resp = self.test_rest_request(f"/blockfilterheaders/{INVALID_PARAM}/{bb_hash}", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), f"Unknown filtertype {INVALID_PARAM}")
resp = self.test_rest_request(f"/blockfilterheaders/basic/{INVALID_PARAM}", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), f"Invalid hash: {INVALID_PARAM}")
# Test number parsing
for num in ['5a', '-5', '0', '2001', '99999999999999999999999999999999999']:
assert_equal(
bytes(f'Header count is invalid or out of acceptable range (1-2000): {num}\r\n', 'ascii'),
self.test_rest_request(f"/headers/{bb_hash}", ret_type=RetType.BYTES, status=400, query_params={"count": num}),
)
self.log.info("Test tx inclusion in the /mempool and /block URIs")
# Make 3 chained txs and mine them on node 1
txs = []
input_txid = txid
for _ in range(3):
utxo_to_spend = self.wallet.get_utxo(txid=input_txid)
txs.append(self.wallet.send_self_transfer(from_node=self.nodes[0], utxo_to_spend=utxo_to_spend)['txid'])
input_txid = txs[-1]
self.sync_all()
# Check that there are exactly 3 transactions in the TX memory pool before generating the block
json_obj = self.test_rest_request("/mempool/info")
assert_equal(json_obj['size'], 3)
# the size of the memory pool should be greater than 3x ~100 bytes
assert_greater_than(json_obj['bytes'], 300)
mempool_info = self.nodes[0].getmempoolinfo()
assert_equal(json_obj, mempool_info)
# Check that there are our submitted transactions in the TX memory pool
json_obj = self.test_rest_request("/mempool/contents")
raw_mempool_verbose = self.nodes[0].getrawmempool(verbose=True)
assert_equal(json_obj, raw_mempool_verbose)
for i, tx in enumerate(txs):
assert tx in json_obj
assert_equal(json_obj[tx]['spentby'], txs[i + 1:i + 2])
assert_equal(json_obj[tx]['depends'], txs[i - 1:i])
# Now mine the transactions
newblockhash = self.generate(self.nodes[1], 1)
# Check if the 3 tx show up in the new block
json_obj = self.test_rest_request(f"/block/{newblockhash[0]}")
non_coinbase_txs = {tx['txid'] for tx in json_obj['tx']
if 'coinbase' not in tx['vin'][0]}
assert_equal(non_coinbase_txs, set(txs))
# Verify that the non-coinbase tx has "prevout" key set
for tx_obj in json_obj["tx"]:
for vin in tx_obj["vin"]:
if "coinbase" not in vin:
assert "prevout" in vin
assert_equal(vin["prevout"]["generated"], False)
else:
assert "prevout" not in vin
# Check the same but without tx details
json_obj = self.test_rest_request(f"/block/notxdetails/{newblockhash[0]}")
for tx in txs:
assert tx in json_obj['tx']
self.log.info("Test the /chaininfo URI")
bb_hash = self.nodes[0].getbestblockhash()
json_obj = self.test_rest_request("/chaininfo")
assert_equal(json_obj['bestblockhash'], bb_hash)
# Compare with normal RPC getblockchaininfo response
blockchain_info = self.nodes[0].getblockchaininfo()
assert_equal(blockchain_info, json_obj)
# Test compatibility of deprecated and newer endpoints
self.log.info("Test compatibility of deprecated and newer endpoints")
assert_equal(self.test_rest_request(f"/headers/{bb_hash}", query_params={"count": 1}), self.test_rest_request(f"/headers/1/{bb_hash}"))
assert_equal(self.test_rest_request(f"/blockfilterheaders/basic/{bb_hash}", query_params={"count": 1}), self.test_rest_request(f"/blockfilterheaders/basic/5/{bb_hash}"))
self.log.info("Test the /deploymentinfo URI")
deployment_info = self.nodes[0].getdeploymentinfo()
assert_equal(deployment_info, self.test_rest_request('/deploymentinfo'))
non_existing_blockhash = '42759cde25462784395a337460bde75f58e73d3f08bd31fdc3507cbac856a2c4'
resp = self.test_rest_request(f'/deploymentinfo/{non_existing_blockhash}', ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), "Block not found")
resp = self.test_rest_request(f"/deploymentinfo/{INVALID_PARAM}", ret_type=RetType.OBJ, status=400)
assert_equal(resp.read().decode('utf-8').rstrip(), f"Invalid hash: {INVALID_PARAM}")
if __name__ == '__main__':
RESTTest().main()
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