mirror of
https://github.com/0glabs/0g-storage-node.git
synced 2024-11-20 15:05:19 +00:00
0bd9ef0ed8
* Separate script to build blockchain binaries * auto remove http_proxy env if configured * build bsc binary in run all process * auto install binary when run a single test * Add necessary output when build or download binary * create tmp dir if absent
336 lines
11 KiB
Python
336 lines
11 KiB
Python
import os
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import random
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import threading
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import time
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from config.node_config import BLOCK_SIZE_LIMIT, CONFLUX_CONFIG
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import eth_utils
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from test_framework.blockchain_node import BlockChainNodeType, BlockchainNode
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from utility.signature_utils import (
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encode_int32,
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get_nodeid,
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sha3,
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)
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from utility.simple_rpc_proxy import SimpleRpcProxy
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from utility.utils import (
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blockchain_p2p_port,
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blockchain_rpc_port,
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blockchain_rpc_port_core,
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wait_until,
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)
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from utility.build_binary import build_conflux
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from web3.exceptions import TransactionNotFound
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class ConfluxNode(BlockchainNode):
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def __init__(
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self,
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index,
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root_dir,
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binary,
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updated_config,
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contract_path,
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log,
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rpc_timeout=10,
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):
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if not os.path.exists(binary):
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build_conflux(os.path.dirname(binary))
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local_conf = CONFLUX_CONFIG.copy()
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indexed_config = {
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"jsonrpc_http_eth_port": blockchain_rpc_port(index),
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"jsonrpc_local_http_port": blockchain_rpc_port_core(index),
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"tcp_port": blockchain_p2p_port(index),
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}
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# Set configs for this specific node.
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local_conf.update(indexed_config)
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# Overwrite with personalized configs.
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local_conf.update(updated_config)
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data_dir = os.path.join(root_dir, "blockchain_node" + str(index))
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rpc_url = (
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"http://"
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+ local_conf["public_address"]
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+ ":"
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+ str(local_conf["jsonrpc_http_eth_port"])
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)
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self.ip = local_conf["public_address"]
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self.port = str(local_conf["tcp_port"])
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if "dev_block_interval_ms" in local_conf:
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self.auto_mining = True
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else:
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self.auto_mining = False
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# setup core space rpc
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core_space_rpc_url = (
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"http://"
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+ local_conf["public_address"]
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+ ":"
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+ str(local_conf["jsonrpc_local_http_port"])
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)
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self.core_space_rpc = SimpleRpcProxy(core_space_rpc_url, timeout=rpc_timeout)
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super().__init__(
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index,
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data_dir,
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rpc_url,
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binary,
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local_conf,
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contract_path,
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log,
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BlockChainNodeType.Conflux,
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rpc_timeout,
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)
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def __getattr__(self, name):
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"""Dispatches any unrecognised messages to the RPC connection."""
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assert self.rpc_connected and self.rpc is not None, self._node_msg(
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"Error: no RPC connection"
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)
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if name.startswith("eth_") or name.startswith("parity_"):
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return getattr(self.rpc, name)
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else:
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return getattr(self.core_space_rpc, name)
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def wait_for_transaction_receipt(self, w3, tx_hash, timeout=120, parent_hash=None):
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if self.auto_mining:
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return super().wait_for_transaction_receipt(w3, tx_hash, timeout)
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else:
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time_end = time.time() + timeout
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while time.time() < time_end:
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try:
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tx_receipt = w3.eth.get_transaction_receipt(tx_hash)
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except TransactionNotFound:
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tx_receipt = None
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if parent_hash:
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parent_hash = self.generatefixedblock(
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parent_hash, [], 1, False, None, None
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)
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else:
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self.generateoneblock(1, BLOCK_SIZE_LIMIT)
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time.sleep(0.5)
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if tx_receipt is not None:
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return tx_receipt
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raise TransactionNotFound
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def wait_for_nodeid(self):
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pubkey, x, y = get_nodeid(self)
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self.key = eth_utils.encode_hex(pubkey)
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addr_tmp = bytearray(sha3(encode_int32(x) + encode_int32(y))[12:])
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addr_tmp[0] &= 0x0F
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addr_tmp[0] |= 0x10
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self.addr = addr_tmp
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self.log.debug("Get node {} nodeid {}".format(self.index, self.key))
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def best_block_hash(self):
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return self.core_space_rpc.cfx_getBestBlockHash()
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def cfx_epochNumber(self, epoch_number=None):
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return self.core_space_rpc.cfx_epochNumber([epoch_number])
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def getblockcount(self):
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return self.core_space_rpc.getblockcount()
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def addnode(self, key, peer_addr):
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return self.core_space_rpc.addnode([key, peer_addr])
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def removenode(self, key, peer_addr):
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return self.core_space_rpc.removenode([key, peer_addr])
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def addlatency(self, node_id, latency_ms):
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return self.core_space_rpc.addlatency([node_id, latency_ms])
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def getnodeid(self, challenge):
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return self.core_space_rpc.getnodeid([challenge])
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def generate_empty_blocks(self, num_blocks):
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return self.core_space_rpc.generate_empty_blocks([num_blocks])
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def generateoneblock(self, num_txs, block_size_limit):
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return self.core_space_rpc.generateoneblock([num_txs, block_size_limit])
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def generatefixedblock(
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self, parent_hash, referee, num_txs, adaptive, difficulty, pos_reference
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):
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return self.core_space_rpc.generatefixedblock(
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[parent_hash, referee, num_txs, adaptive, difficulty, pos_reference]
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)
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def check_handshake(from_connection, target_node_id):
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"""
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Check whether node 'from_connection' has already
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added node 'target_node_id' into its peer set.
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"""
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peers = from_connection.getpeerinfo()
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for peer in peers:
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if peer["nodeid"] == target_node_id and len(peer["protocols"]) > 0:
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return True
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return False
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def get_peer_addr(connection):
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return "{}:{}".format(connection.ip, connection.port)
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def connect_nodes(nodes, a, node_num, timeout=60):
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"""
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Let node[a] connect to node[node_num]
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"""
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from_connection = nodes[a]
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to_connection = nodes[node_num]
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key = nodes[node_num].key
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peer_addr = get_peer_addr(to_connection)
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from_connection.addnode(key, peer_addr)
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# poll until hello handshake complete to avoid race conditions
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# with transaction relaying
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wait_until(
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lambda: check_handshake(from_connection, to_connection.key), timeout=timeout
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)
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def sync_blocks(rpc_connections, *, sync_count=True, wait=1, timeout=60):
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"""
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Wait until everybody has the same tip.
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sync_blocks needs to be called with an rpc_connections set that has least
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one node already synced to the latest, stable tip, otherwise there's a
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chance it might return before all nodes are stably synced.
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"""
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stop_time = time.time() + timeout
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while time.time() <= stop_time:
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best_hash = [x.best_block_hash() for x in rpc_connections]
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block_count = [x.getblockcount() for x in rpc_connections]
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if best_hash.count(best_hash[0]) == len(rpc_connections) and (
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not sync_count or block_count.count(block_count[0]) == len(rpc_connections)
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):
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return
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time.sleep(wait)
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raise AssertionError(
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"Block sync timed out:{}".format(
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"".join("\n {!r}".format(b) for b in best_hash + block_count)
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)
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)
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def disconnect_nodes(nodes, from_connection, node_num):
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try:
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nodes[from_connection].removenode(
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nodes[node_num].key, get_peer_addr(nodes[node_num])
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)
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nodes[node_num].removenode(
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nodes[from_connection].key, get_peer_addr(nodes[from_connection])
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)
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except Exception as e:
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# If this node is disconnected between calculating the peer id
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# and issuing the disconnect, don't worry about it.
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# This avoids a race condition if we're mass-disconnecting peers.
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if e.error["code"] != -29: # RPC_CLIENT_NODE_NOT_CONNECTED
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raise
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# wait to disconnect
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wait_until(
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lambda: [
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peer
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for peer in nodes[from_connection].getpeerinfo()
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if peer["nodeid"] == nodes[node_num].key
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]
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== [],
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timeout=5,
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)
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wait_until(
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lambda: [
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peer
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for peer in nodes[node_num].getpeerinfo()
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if peer["nodeid"] == nodes[from_connection].key
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]
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== [],
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timeout=5,
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)
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def connect_sample_nodes(
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nodes, log, sample=3, latency_min=0, latency_max=300, timeout=30
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):
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"""
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Establish connections among nodes with each node having 'sample' outgoing peers.
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It first lets all the nodes link as a loop, then randomly pick 'sample-1'
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outgoing peers for each node.
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"""
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peer = [[] for _ in nodes]
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latencies = [{} for _ in nodes]
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threads = []
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num_nodes = len(nodes)
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sample = min(num_nodes - 1, sample)
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for i in range(num_nodes):
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# make sure all nodes are reachable
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next = (i + 1) % num_nodes
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peer[i].append(next)
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lat = random.randint(latency_min, latency_max)
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latencies[i][next] = lat
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latencies[next][i] = lat
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for _ in range(sample - 1):
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while True:
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p = random.randint(0, num_nodes - 1)
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if p not in peer[i] and not p == i:
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peer[i].append(p)
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lat = random.randint(latency_min, latency_max)
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latencies[i][p] = lat
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latencies[p][i] = lat
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break
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for i in range(num_nodes):
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t = ConnectThread(nodes, i, peer[i], latencies, log, min_peers=sample)
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t.start()
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threads.append(t)
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for t in threads:
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t.join(timeout)
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assert (
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not t.is_alive()
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), "Node[{}] connect to other nodes timeout in {} seconds".format(t.a, timeout)
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assert not t.failed, "connect_sample_nodes failed."
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class ConnectThread(threading.Thread):
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def __init__(self, nodes, a, peers, latencies, log, min_peers=3, daemon=True):
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threading.Thread.__init__(self, daemon=daemon)
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self.nodes = nodes
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self.a = a
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self.peers = peers
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self.latencies = latencies
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self.log = log
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self.min_peers = min_peers
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self.failed = False
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def run(self):
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try:
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while True:
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for i in range(len(self.peers)):
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p = self.peers[i]
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connect_nodes(self.nodes, self.a, p)
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for p in self.latencies[self.a]:
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self.nodes[self.a].addlatency(
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self.nodes[p].key, self.latencies[self.a][p]
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)
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if len(self.nodes[self.a].getpeerinfo()) >= self.min_peers:
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break
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else:
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time.sleep(1)
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except Exception as e:
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node = self.nodes[self.a]
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self.log.error(
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"Node "
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+ str(self.a)
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+ " fails to be connected to "
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+ str(self.peers)
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+ ", ip={}, index={}".format(node.ip, node.index)
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)
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self.log.error(e)
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self.failed = True
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