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-BEGIN VERIFY SCRIPT- ./contrib/devtools/copyright_header.py insert contrib/guix/libexec/build.sh ./contrib/devtools/copyright_header.py insert contrib/guix/libexec/codesign.sh ./contrib/devtools/copyright_header.py insert contrib/tracing/log_raw_p2p_msgs.py ./contrib/devtools/copyright_header.py insert contrib/tracing/log_utxocache_flush.py ./contrib/devtools/copyright_header.py insert contrib/tracing/p2p_monitor.py ./contrib/devtools/copyright_header.py insert test/lint/lint-files.sh -END VERIFY SCRIPT-
254 lines
9.2 KiB
Python
Executable File
254 lines
9.2 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2021 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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""" Interactive bitcoind P2P network traffic monitor utilizing USDT and the
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net:inbound_message and net:outbound_message tracepoints. """
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# This script demonstrates what USDT for Bitcoin Core can enable. It uses BCC
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# (https://github.com/iovisor/bcc) to load a sandboxed eBPF program into the
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# Linux kernel (root privileges are required). The eBPF program attaches to two
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# statically defined tracepoints. The tracepoint 'net:inbound_message' is called
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# when a new P2P message is received, and 'net:outbound_message' is called on
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# outbound P2P messages. The eBPF program submits the P2P messages to
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# this script via a BPF ring buffer.
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import sys
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import curses
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from curses import wrapper, panel
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from bcc import BPF, USDT
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# BCC: The C program to be compiled to an eBPF program (by BCC) and loaded into
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# a sandboxed Linux kernel VM.
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program = """
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#include <uapi/linux/ptrace.h>
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// Tor v3 addresses are 62 chars + 6 chars for the port (':12345').
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// I2P addresses are 60 chars + 6 chars for the port (':12345').
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#define MAX_PEER_ADDR_LENGTH 62 + 6
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#define MAX_PEER_CONN_TYPE_LENGTH 20
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#define MAX_MSG_TYPE_LENGTH 20
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struct p2p_message
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{
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u64 peer_id;
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char peer_addr[MAX_PEER_ADDR_LENGTH];
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char peer_conn_type[MAX_PEER_CONN_TYPE_LENGTH];
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char msg_type[MAX_MSG_TYPE_LENGTH];
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u64 msg_size;
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};
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// Two BPF perf buffers for pushing data (here P2P messages) to user space.
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BPF_PERF_OUTPUT(inbound_messages);
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BPF_PERF_OUTPUT(outbound_messages);
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int trace_inbound_message(struct pt_regs *ctx) {
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struct p2p_message msg = {};
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bpf_usdt_readarg(1, ctx, &msg.peer_id);
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bpf_usdt_readarg_p(2, ctx, &msg.peer_addr, MAX_PEER_ADDR_LENGTH);
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bpf_usdt_readarg_p(3, ctx, &msg.peer_conn_type, MAX_PEER_CONN_TYPE_LENGTH);
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bpf_usdt_readarg_p(4, ctx, &msg.msg_type, MAX_MSG_TYPE_LENGTH);
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bpf_usdt_readarg(5, ctx, &msg.msg_size);
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inbound_messages.perf_submit(ctx, &msg, sizeof(msg));
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return 0;
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};
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int trace_outbound_message(struct pt_regs *ctx) {
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struct p2p_message msg = {};
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bpf_usdt_readarg(1, ctx, &msg.peer_id);
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bpf_usdt_readarg_p(2, ctx, &msg.peer_addr, MAX_PEER_ADDR_LENGTH);
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bpf_usdt_readarg_p(3, ctx, &msg.peer_conn_type, MAX_PEER_CONN_TYPE_LENGTH);
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bpf_usdt_readarg_p(4, ctx, &msg.msg_type, MAX_MSG_TYPE_LENGTH);
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bpf_usdt_readarg(5, ctx, &msg.msg_size);
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outbound_messages.perf_submit(ctx, &msg, sizeof(msg));
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return 0;
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};
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"""
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class Message:
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""" A P2P network message. """
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msg_type = ""
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size = 0
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data = bytes()
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inbound = False
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def __init__(self, msg_type, size, inbound):
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self.msg_type = msg_type
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self.size = size
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self.inbound = inbound
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class Peer:
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""" A P2P network peer. """
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id = 0
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address = ""
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connection_type = ""
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last_messages = list()
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total_inbound_msgs = 0
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total_inbound_bytes = 0
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total_outbound_msgs = 0
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total_outbound_bytes = 0
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def __init__(self, id, address, connection_type):
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self.id = id
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self.address = address
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self.connection_type = connection_type
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self.last_messages = list()
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def add_message(self, message):
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self.last_messages.append(message)
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if len(self.last_messages) > 25:
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self.last_messages.pop(0)
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if message.inbound:
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self.total_inbound_bytes += message.size
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self.total_inbound_msgs += 1
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else:
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self.total_outbound_bytes += message.size
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self.total_outbound_msgs += 1
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def main(bitcoind_path):
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peers = dict()
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bitcoind_with_usdts = USDT(path=str(bitcoind_path))
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# attaching the trace functions defined in the BPF program to the tracepoints
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bitcoind_with_usdts.enable_probe(
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probe="inbound_message", fn_name="trace_inbound_message")
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bitcoind_with_usdts.enable_probe(
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probe="outbound_message", fn_name="trace_outbound_message")
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bpf = BPF(text=program, usdt_contexts=[bitcoind_with_usdts])
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# BCC: perf buffer handle function for inbound_messages
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def handle_inbound(_, data, size):
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""" Inbound message handler.
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Called each time a message is submitted to the inbound_messages BPF table."""
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event = bpf["inbound_messages"].event(data)
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if event.peer_id not in peers:
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peer = Peer(event.peer_id, event.peer_addr.decode(
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"utf-8"), event.peer_conn_type.decode("utf-8"))
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peers[peer.id] = peer
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peers[event.peer_id].add_message(
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Message(event.msg_type.decode("utf-8"), event.msg_size, True))
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# BCC: perf buffer handle function for outbound_messages
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def handle_outbound(_, data, size):
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""" Outbound message handler.
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Called each time a message is submitted to the outbound_messages BPF table."""
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event = bpf["outbound_messages"].event(data)
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if event.peer_id not in peers:
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peer = Peer(event.peer_id, event.peer_addr.decode(
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"utf-8"), event.peer_conn_type.decode("utf-8"))
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peers[peer.id] = peer
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peers[event.peer_id].add_message(
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Message(event.msg_type.decode("utf-8"), event.msg_size, False))
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# BCC: add handlers to the inbound and outbound perf buffers
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bpf["inbound_messages"].open_perf_buffer(handle_inbound)
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bpf["outbound_messages"].open_perf_buffer(handle_outbound)
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wrapper(loop, bpf, peers)
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def loop(screen, bpf, peers):
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screen.nodelay(1)
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cur_list_pos = 0
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win = curses.newwin(30, 70, 2, 7)
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win.erase()
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win.border(ord("|"), ord("|"), ord("-"), ord("-"),
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ord("-"), ord("-"), ord("-"), ord("-"))
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info_panel = panel.new_panel(win)
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info_panel.hide()
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ROWS_AVALIABLE_FOR_LIST = curses.LINES - 5
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scroll = 0
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while True:
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try:
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# BCC: poll the perf buffers for new events or timeout after 50ms
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bpf.perf_buffer_poll(timeout=50)
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ch = screen.getch()
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if (ch == curses.KEY_DOWN or ch == ord("j")) and cur_list_pos < len(
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peers.keys()) -1 and info_panel.hidden():
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cur_list_pos += 1
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if cur_list_pos >= ROWS_AVALIABLE_FOR_LIST:
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scroll += 1
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if (ch == curses.KEY_UP or ch == ord("k")) and cur_list_pos > 0 and info_panel.hidden():
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cur_list_pos -= 1
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if scroll > 0:
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scroll -= 1
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if ch == ord('\n') or ch == ord(' '):
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if info_panel.hidden():
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info_panel.show()
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else:
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info_panel.hide()
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screen.erase()
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render(screen, peers, cur_list_pos, scroll, ROWS_AVALIABLE_FOR_LIST, info_panel)
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curses.panel.update_panels()
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screen.refresh()
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except KeyboardInterrupt:
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exit()
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def render(screen, peers, cur_list_pos, scroll, ROWS_AVALIABLE_FOR_LIST, info_panel):
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""" renders the list of peers and details panel
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This code is unrelated to USDT, BCC and BPF.
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"""
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header_format = "%6s %-20s %-20s %-22s %-67s"
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row_format = "%6s %-5d %9d byte %-5d %9d byte %-22s %-67s"
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screen.addstr(0, 1, (" P2P Message Monitor "), curses.A_REVERSE)
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screen.addstr(
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1, 0, (" Navigate with UP/DOWN or J/K and select a peer with ENTER or SPACE to see individual P2P messages"), curses.A_NORMAL)
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screen.addstr(3, 0,
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header_format % ("PEER", "OUTBOUND", "INBOUND", "TYPE", "ADDR"), curses.A_BOLD | curses.A_UNDERLINE)
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peer_list = sorted(peers.keys())[scroll:ROWS_AVALIABLE_FOR_LIST+scroll]
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for i, peer_id in enumerate(peer_list):
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peer = peers[peer_id]
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screen.addstr(i + 4, 0,
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row_format % (peer.id, peer.total_outbound_msgs, peer.total_outbound_bytes,
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peer.total_inbound_msgs, peer.total_inbound_bytes,
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peer.connection_type, peer.address),
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curses.A_REVERSE if i + scroll == cur_list_pos else curses.A_NORMAL)
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if i + scroll == cur_list_pos:
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info_window = info_panel.window()
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info_window.erase()
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info_window.border(
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ord("|"), ord("|"), ord("-"), ord("-"),
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ord("-"), ord("-"), ord("-"), ord("-"))
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info_window.addstr(
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1, 1, f"PEER {peer.id} ({peer.address})".center(68), curses.A_REVERSE | curses.A_BOLD)
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info_window.addstr(
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2, 1, f" OUR NODE{peer.connection_type:^54}PEER ",
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curses.A_BOLD)
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for i, msg in enumerate(peer.last_messages):
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if msg.inbound:
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info_window.addstr(
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i + 3, 1, "%68s" %
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(f"<--- {msg.msg_type} ({msg.size} bytes) "), curses.A_NORMAL)
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else:
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info_window.addstr(
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i + 3, 1, " %s (%d byte) --->" %
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(msg.msg_type, msg.size), curses.A_NORMAL)
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if __name__ == "__main__":
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if len(sys.argv) < 2:
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print("USAGE:", sys.argv[0], "path/to/bitcoind")
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exit()
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path = sys.argv[1]
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main(path)
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