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181 lines
6.9 KiB
181 lines
6.9 KiB
#!/usr/bin/env python3
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""" Demonstration of eBPF limitations and the effect on USDT with the
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net:inbound_message and net:outbound_message tracepoints. """
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# This script shows a limitation of eBPF when data larger than 32kb is passed to
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# user-space. It uses BCC (https://github.com/iovisor/bcc) to load a sandboxed
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# eBPF program into the Linux kernel (root privileges are required). The eBPF
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# program attaches to two statically defined tracepoints. The tracepoint
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# 'net:inbound_message' is called when a new P2P message is received, and
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# 'net:outbound_message' is called on outbound P2P messages. The eBPF program
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# submits the P2P messages to this script via a BPF ring buffer. The submitted
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# messages are printed.
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# eBPF Limitations:
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#
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# Bitcoin P2P messages can be larger than 32kb (e.g. tx, block, ...). The eBPF
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# VM's stack is limited to 512 bytes, and we can't allocate more than about 32kb
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# for a P2P message in the eBPF VM. The message data is cut off when the message
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# is larger than MAX_MSG_DATA_LENGTH (see definition below). This can be detected
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# in user-space by comparing the data length to the message length variable. The
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# message is cut off when the data length is smaller than the message length.
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# A warning is included with the printed message data.
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#
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# Data is submitted to user-space (i.e. to this script) via a ring buffer. The
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# throughput of the ring buffer is limited. Each p2p_message is about 32kb in
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# size. In- or outbound messages submitted to the ring buffer in rapid
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# succession fill the ring buffer faster than it can be read. Some messages are
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# lost.
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#
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# BCC prints: "Possibly lost 2 samples" on lost messages.
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import sys
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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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#define MIN(a,b) ({ __typeof__ (a) _a = (a); __typeof__ (b) _b = (b); _a < _b ? _a : _b; })
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// Maximum possible allocation size
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// from include/linux/percpu.h in the Linux kernel
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#define PCPU_MIN_UNIT_SIZE (32 << 10)
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// Tor v3 addresses are 62 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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#define MAX_MSG_DATA_LENGTH PCPU_MIN_UNIT_SIZE - 200
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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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u8 msg[MAX_MSG_DATA_LENGTH];
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};
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// We can't store the p2p_message struct on the eBPF stack as it is limited to
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// 512 bytes and P2P message can be bigger than 512 bytes. However, we can use
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// an BPF-array with a length of 1 to allocate up to 32768 bytes (this is
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// defined by PCPU_MIN_UNIT_SIZE in include/linux/percpu.h in the Linux kernel).
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// Also see https://github.com/iovisor/bcc/issues/2306
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BPF_ARRAY(msg_arr, struct p2p_message, 1);
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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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int idx = 0;
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struct p2p_message *msg = msg_arr.lookup(&idx);
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// lookup() does not return a NULL pointer. However, the BPF verifier
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// requires an explicit check that that the `msg` pointer isn't a NULL
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// pointer. See https://github.com/iovisor/bcc/issues/2595
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if (msg == NULL) return 1;
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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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bpf_usdt_readarg_p(6, ctx, &msg->msg, MIN(msg->msg_size, MAX_MSG_DATA_LENGTH));
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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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int idx = 0;
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struct p2p_message *msg = msg_arr.lookup(&idx);
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// lookup() does not return a NULL pointer. However, the BPF verifier
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// requires an explicit check that that the `msg` pointer isn't a NULL
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// pointer. See https://github.com/iovisor/bcc/issues/2595
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if (msg == NULL) return 1;
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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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bpf_usdt_readarg_p(6, ctx, &msg->msg, MIN(msg->msg_size, MAX_MSG_DATA_LENGTH));
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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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def print_message(event, inbound):
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print(f"%s %s msg '%s' from peer %d (%s, %s) with %d bytes: %s" %
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(
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f"Warning: incomplete message (only %d out of %d bytes)!" % (
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len(event.msg), event.msg_size) if len(event.msg) < event.msg_size else "",
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"inbound" if inbound else "outbound",
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event.msg_type.decode("utf-8"),
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event.peer_id,
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event.peer_conn_type.decode("utf-8"),
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event.peer_addr.decode("utf-8"),
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event.msg_size,
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bytes(event.msg[:event.msg_size]).hex(),
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)
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)
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def main(bitcoind_path):
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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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print_message(event, 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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print_message(event, 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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print("Logging raw P2P messages.")
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print("Messages larger that about 32kb will be cut off!")
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print("Some messages might be lost!")
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while True:
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try:
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bpf.perf_buffer_poll()
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except KeyboardInterrupt:
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exit()
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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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