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tcpcong.py
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tcpcong.py
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#!/usr/bin/env python
# @lint-avoid-python-3-compatibility-imports
#
# tcpcong Measure tcp congestion control status duration.
# For Linux, uses BCC, eBPF.
#
# USAGE: tcpcong [-h] [-T] [-L] [-R] [-m] [-d] [interval] [outputs]
#
# Copyright (c) Ping Gan.
#
# 27-Jan-2022 Ping Gan Created this.
from __future__ import print_function
from bcc import BPF
from time import sleep, strftime
from struct import pack
from socket import inet_ntop, AF_INET, AF_INET6
from struct import pack
import argparse
examples = """examples:
./tcpcong # show tcp congestion status duration
./tcpcong 1 10 # show 1 second summaries, 10 times
./tcpcong -L 3000-3006 1 # 1s summaries, local port 3000-3006
./tcpcong -R 5000-5005 1 # 1s summaries, remote port 5000-5005
./tcpcong -uT 1 # 1s summaries, microseconds, and timestamps
./tcpcong -d # show the duration as histograms
"""
parser = argparse.ArgumentParser(
description="Summarize tcp socket congestion control status duration",
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog=examples)
parser.add_argument("-L", "--localport",
help="trace local ports only")
parser.add_argument("-R", "--remoteport",
help="trace the dest ports only")
parser.add_argument("-T", "--timestamp", action="store_true",
help="include timestamp on output")
parser.add_argument("-d", "--dist", action="store_true",
help="show distributions as histograms")
parser.add_argument("-u", "--microseconds", action="store_true",
help="output in microseconds")
parser.add_argument("interval", nargs="?", default=99999999,
help="output interval, in seconds")
parser.add_argument("outputs", nargs="?", default=99999999,
help="number of outputs")
parser.add_argument("--ebpf", action="store_true",
help=argparse.SUPPRESS)
args = parser.parse_args()
countdown = int(args.outputs)
debug = 0
start_rport = end_rport = -1
if args.remoteport:
rports = args.remoteport.split("-")
if (len(rports) != 2) and (len(rports) != 1):
print("unrecognized remote port range")
exit(1)
if len(rports) == 2:
start_rport = int(rports[0])
end_rport = int(rports[1])
else:
start_rport = int(rports[0])
end_rport = int(rports[0])
if start_rport > end_rport:
tmp = start_rport
start_rport = end_rport
end_rport = tmp
start_lport = end_lport = -1
if args.localport:
lports = args.localport.split("-")
if (len(lports) != 2) and (len(lports) != 1):
print("unrecognized local port range")
exit(1)
if len(lports) == 2:
start_lport = int(lports[0])
end_lport = int(lports[1])
else:
start_lport = int(lports[0])
end_lport = int(lports[0])
if start_lport > end_lport:
tmp = start_lport
start_lport = end_lport
end_lport = tmp
# define BPF program
bpf_head_text = """
#include <uapi/linux/ptrace.h>
#include <net/sock.h>
#include <bcc/proto.h>
#include <net/tcp.h>
#include <net/inet_connection_sock.h>
typedef struct ipv4_flow_key {
u32 saddr;
u32 daddr;
u16 lport;
u16 dport;
} ipv4_flow_key_t;
typedef struct ipv6_flow_key {
unsigned __int128 saddr;
unsigned __int128 daddr;
u16 lport;
u16 dport;
} ipv6_flow_key_t;
typedef struct data_val {
DEF_TEXT
u64 last_ts;
u16 last_cong_stat;
} data_val_t;
BPF_HASH(ipv4_stat, ipv4_flow_key_t, data_val_t);
BPF_HASH(ipv6_stat, ipv6_flow_key_t, data_val_t);
HIST_TABLE
"""
bpf_extra_head = """
typedef struct process_key {
char comm[TASK_COMM_LEN];
u32 tid;
} process_key_t;
typedef struct ipv4_flow_val {
ipv4_flow_key_t ipv4_key;
u16 cong_state;
} ipv4_flow_val_t;
typedef struct ipv6_flow_val {
ipv6_flow_key_t ipv6_key;
u16 cong_state;
} ipv6_flow_val_t;
BPF_HASH(start_ipv4, process_key_t, ipv4_flow_val_t);
BPF_HASH(start_ipv6, process_key_t, ipv6_flow_val_t);
SOCK_STORE_DEF
typedef struct cong {
u8 cong_stat:5,
ca_inited:1,
ca_setsockopt:1,
ca_dstlocked:1;
} cong_status_t;
"""
bpf_no_ca_tp_body_text = """
static int entry_state_update_func(struct sock *sk)
{
u16 dport = 0, lport = 0;
u32 tid = bpf_get_current_pid_tgid();
process_key_t key = {0};
bpf_get_current_comm(&key.comm, sizeof(key.comm));
key.tid = tid;
u64 family = sk->__sk_common.skc_family;
struct inet_connection_sock *icsk = inet_csk(sk);
cong_status_t cong_status;
bpf_probe_read_kernel(&cong_status, sizeof(cong_status),
(void *)((long)&icsk->icsk_retransmits) - 1);
if (family == AF_INET) {
ipv4_flow_val_t ipv4_val = {0};
ipv4_val.ipv4_key.saddr = sk->__sk_common.skc_rcv_saddr;
ipv4_val.ipv4_key.daddr = sk->__sk_common.skc_daddr;
ipv4_val.ipv4_key.lport = sk->__sk_common.skc_num;
dport = sk->__sk_common.skc_dport;
dport = ntohs(dport);
lport = ipv4_val.ipv4_key.lport;
FILTER_LPORT
FILTER_DPORT
ipv4_val.ipv4_key.dport = dport;
ipv4_val.cong_state = cong_status.cong_stat + 1;
start_ipv4.update(&key, &ipv4_val);
} else if (family == AF_INET6) {
ipv6_flow_val_t ipv6_val = {0};
bpf_probe_read_kernel(&ipv6_val.ipv6_key.saddr,
sizeof(ipv6_val.ipv6_key.saddr),
&sk->__sk_common.skc_v6_rcv_saddr.in6_u.u6_addr32);
bpf_probe_read_kernel(&ipv6_val.ipv6_key.daddr,
sizeof(ipv6_val.ipv6_key.daddr),
&sk->__sk_common.skc_v6_daddr.in6_u.u6_addr32);
ipv6_val.ipv6_key.lport = sk->__sk_common.skc_num;
dport = sk->__sk_common.skc_dport;
dport = ntohs(dport);
lport = ipv6_val.ipv6_key.lport;
FILTER_LPORT
FILTER_DPORT
ipv6_val.ipv6_key.dport = dport;
ipv6_val.cong_state = cong_status.cong_stat + 1;
start_ipv6.update(&key, &ipv6_val);
}
SOCK_STORE_ADD
return 0;
}
static int ret_state_update_func(struct sock *sk)
{
u64 ts, ts1;
u16 family, last_cong_state;
u16 dport = 0, lport = 0;
u32 tid = bpf_get_current_pid_tgid();
process_key_t key = {0};
bpf_get_current_comm(&key.comm, sizeof(key.comm));
key.tid = tid;
struct inet_connection_sock *icsk = inet_csk(sk);
cong_status_t cong_status;
bpf_probe_read_kernel(&cong_status, sizeof(cong_status),
(void *)((long)&icsk->icsk_retransmits) - 1);
data_val_t *datap, data = {0};
STATE_KEY
bpf_probe_read_kernel(&family, sizeof(family),
&sk->__sk_common.skc_family);
if (family == AF_INET) {
ipv4_flow_val_t *val4 = start_ipv4.lookup(&key);
if (val4 == 0) {
SOCK_STORE_DEL
return 0; //missed
}
ipv4_flow_key_t keyv4 = {0};
bpf_probe_read_kernel(&keyv4, sizeof(ipv4_flow_key_t),
&(val4->ipv4_key));
dport = keyv4.dport;
lport = keyv4.lport;
FILTER_LPORT
FILTER_DPORT
datap = ipv4_stat.lookup(&keyv4);
if (datap == 0) {
data.last_ts = bpf_ktime_get_ns();
data.last_cong_stat = val4->cong_state;
ipv4_stat.update(&keyv4, &data);
} else {
last_cong_state = val4->cong_state;
if ((cong_status.cong_stat + 1) != last_cong_state) {
ts1 = bpf_ktime_get_ns();
ts = ts1 - datap->last_ts;
datap->last_ts = ts1;
datap->last_cong_stat = cong_status.cong_stat + 1;
ts /= 1000;
STORE
}
}
start_ipv4.delete(&key);
} else if (family == AF_INET6) {
ipv6_flow_val_t *val6 = start_ipv6.lookup(&key);
if (val6 == 0) {
SOCK_STORE_DEL
return 0; //missed
}
ipv6_flow_key_t keyv6 = {0};
bpf_probe_read_kernel(&keyv6, sizeof(ipv6_flow_key_t),
&(val6->ipv6_key));
dport = keyv6.dport;
lport = keyv6.lport;
FILTER_LPORT
FILTER_DPORT
datap = ipv6_stat.lookup(&keyv6);
if (datap == 0) {
data.last_ts = bpf_ktime_get_ns();
data.last_cong_stat = val6->cong_state;
ipv6_stat.update(&keyv6, &data);
} else {
last_cong_state = val6->cong_state;
if ((cong_status.cong_stat + 1) != last_cong_state) {
ts1 = bpf_ktime_get_ns();
ts = ts1 - datap->last_ts;
datap->last_ts = ts1;
datap->last_cong_stat = (cong_status.cong_stat + 1);
ts /= 1000;
STORE
}
}
start_ipv6.delete(&key);
}
SOCK_STORE_DEL
return 0;
}
"""
bpf_ca_tp_body_text = """
TRACEPOINT_PROBE(tcp, tcp_cong_state_set)
{
u64 ts, ts1;
u16 family, last_cong_state, dport = 0, lport = 0;
u8 cong_state;
const struct sock *sk = (const struct sock *)args->skaddr;
data_val_t *datap, data = {0};
family = sk->__sk_common.skc_family;
dport = args->dport;
lport = args->sport;
cong_state = args->cong_state;
STATE_KEY
if (family == AF_INET) {
ipv4_flow_key_t key4 = {0};
key4.saddr = sk->__sk_common.skc_rcv_saddr;
key4.daddr = sk->__sk_common.skc_daddr;
FILTER_LPORT
FILTER_DPORT
key4.lport = lport;
key4.dport = dport;
datap = ipv4_stat.lookup(&key4);
if (datap == 0) {
data.last_ts = bpf_ktime_get_ns();
data.last_cong_stat = cong_state + 1;
ipv4_stat.update(&key4, &data);
} else {
last_cong_state = datap->last_cong_stat;
if ((cong_state + 1) != last_cong_state) {
ts1 = bpf_ktime_get_ns();
ts = ts1 - datap->last_ts;
datap->last_ts = ts1;
datap->last_cong_stat = cong_state + 1;
ts /= 1000;
STORE
}
}
} else if (family == AF_INET6) {
ipv6_flow_key_t key6 = {0};
bpf_probe_read_kernel(&key6.saddr, sizeof(key6.saddr),
&sk->__sk_common.skc_v6_rcv_saddr.in6_u.u6_addr32);
bpf_probe_read_kernel(&key6.daddr, sizeof(key6.daddr),
&sk->__sk_common.skc_v6_daddr.in6_u.u6_addr32);
FILTER_LPORT
FILTER_DPORT
key6.lport = lport;
key6.dport = dport;
datap = ipv6_stat.lookup(&key6);
if (datap == 0) {
data.last_ts = bpf_ktime_get_ns();
data.last_cong_stat = cong_state + 1;
ipv6_stat.update(&key6, &data);
} else {
last_cong_state = datap->last_cong_stat;
if ((cong_state + 1) != last_cong_state) {
ts1 = bpf_ktime_get_ns();
ts = ts1 - datap->last_ts;
datap->last_ts = ts1;
datap->last_cong_stat = cong_state + 1;
ts /= 1000;
STORE
}
}
}
return 0;
}
"""
kprobe_program = """
int entry_func(struct pt_regs *ctx, struct sock *sk)
{
return entry_state_update_func(sk);
}
int ret_func(struct pt_regs *ctx)
{
u32 tid = bpf_get_current_pid_tgid();
process_key_t key = {0};
bpf_get_current_comm(&key.comm, sizeof(key.comm));
key.tid = tid;
struct sock **sockpp;
sockpp = sock_store.lookup(&key);
if (sockpp == 0) {
return 0; //miss the entry
}
struct sock *sk = *sockpp;
return ret_state_update_func(sk);
}
"""
kfunc_program = """
KFUNC_PROBE(tcp_fastretrans_alert, struct sock *sk)
{
return entry_state_update_func(sk);
}
KRETFUNC_PROBE(tcp_fastretrans_alert, struct sock *sk)
{
return ret_state_update_func(sk);
}
KFUNC_PROBE(tcp_enter_cwr, struct sock *sk)
{
return entry_state_update_func(sk);
}
KRETFUNC_PROBE(tcp_enter_cwr, struct sock *sk)
{
return ret_state_update_func(sk);
}
KFUNC_PROBE(tcp_enter_loss, struct sock *sk)
{
return entry_state_update_func(sk);
}
KRETFUNC_PROBE(tcp_enter_loss, struct sock *sk)
{
return ret_state_update_func(sk);
}
KFUNC_PROBE(tcp_enter_recovery, struct sock *sk)
{
return entry_state_update_func(sk);
}
KRETFUNC_PROBE(tcp_enter_recovery, struct sock *sk)
{
return ret_state_update_func(sk);
}
KFUNC_PROBE(tcp_process_tlp_ack, struct sock *sk)
{
return entry_state_update_func(sk);
}
KRETFUNC_PROBE(tcp_process_tlp_ack, struct sock *sk)
{
return ret_state_update_func(sk);
}
"""
# code replace
is_support_tp_ca = BPF.tracepoint_exists("tcp", "tcp_cong_state_set")
if is_support_tp_ca:
bpf_text = bpf_head_text + bpf_ca_tp_body_text
else:
bpf_text = bpf_head_text + bpf_extra_head
bpf_text += bpf_no_ca_tp_body_text
is_support_kfunc = BPF.support_kfunc()
if is_support_kfunc:
bpf_text += kfunc_program
bpf_text = bpf_text.replace('SOCK_STORE_DEF', '')
bpf_text = bpf_text.replace('SOCK_STORE_ADD', '')
bpf_text = bpf_text.replace('SOCK_STORE_DEL', '')
else:
bpf_text += kprobe_program
bpf_text = bpf_text.replace('SOCK_STORE_DEF',
'BPF_HASH(sock_store, process_key_t, struct sock *);')
bpf_text = bpf_text.replace('SOCK_STORE_ADD',
'sock_store.update(&key, &sk);')
bpf_text = bpf_text.replace('SOCK_STORE_DEL',
'sock_store.delete(&key);')
if args.localport:
bpf_text = bpf_text.replace('FILTER_LPORT',
'if (lport < %d || lport > %d) { return 0; }'
% (start_lport, end_lport))
else:
bpf_text = bpf_text.replace('FILTER_LPORT', '')
if args.remoteport:
bpf_text = bpf_text.replace('FILTER_DPORT',
'if (dport < %d || dport > %d) { return 0; }'
% (start_rport, end_rport))
else:
bpf_text = bpf_text.replace('FILTER_DPORT', '')
table_def_text = """
u64 open_dura;
u64 loss_dura;
u64 disorder_dura;
u64 recover_dura;
u64 cwr_dura;
u64 total_changes;
"""
store_text = """
datap->total_changes += 1;
if (last_cong_state == (TCP_CA_Open + 1)) {
datap->open_dura += ts;
} else if (last_cong_state == (TCP_CA_Disorder + 1)) {
datap->disorder_dura += ts;
} else if (last_cong_state == (TCP_CA_CWR + 1)) {
datap->cwr_dura += ts;
} else if (last_cong_state == (TCP_CA_Recovery + 1)) {
datap->recover_dura += ts;
} else if (last_cong_state == (TCP_CA_Loss + 1)) {
datap->loss_dura += ts;
}
"""
store_dist_text = """
if (last_cong_state == (TCP_CA_Open + 1)) {
key_s.state = TCP_CA_Open;
} else if (last_cong_state == (TCP_CA_Disorder + 1)) {
key_s.state = TCP_CA_Disorder;
} else if (last_cong_state == (TCP_CA_CWR + 1)) {
key_s.state = TCP_CA_CWR;
} else if (last_cong_state == (TCP_CA_Recovery + 1)) {
key_s.state = TCP_CA_Recovery;
} else if (last_cong_state == (TCP_CA_Loss + 1)) {
key_s.state = TCP_CA_Loss;
}
TIME_UNIT
key_s.slot = bpf_log2l(ts);
dist.atomic_increment(key_s);
"""
hist_table_text = """
typedef struct congest_state_key {
u32 state;
u64 slot;
}congest_state_key_t;
BPF_HISTOGRAM(dist, congest_state_key_t);
"""
if args.dist:
bpf_text = bpf_text.replace('DEF_TEXT', '')
bpf_text = bpf_text.replace('STORE', store_dist_text)
bpf_text = bpf_text.replace('STATE_KEY',
'congest_state_key_t key_s = {0};')
bpf_text = bpf_text.replace('HIST_TABLE', hist_table_text)
if args.microseconds:
bpf_text = bpf_text.replace('TIME_UNIT', '')
else:
bpf_text = bpf_text.replace('TIME_UNIT', 'ts /= 1000;')
else:
bpf_text = bpf_text.replace('DEF_TEXT', table_def_text)
bpf_text = bpf_text.replace('STORE', store_text)
bpf_text = bpf_text.replace('STATE_KEY', '')
bpf_text = bpf_text.replace('HIST_TABLE', '')
if debug or args.ebpf:
print(bpf_text)
if args.ebpf:
exit()
# load BPF program
b = BPF(text=bpf_text)
if not is_support_tp_ca and not is_support_kfunc:
# all the tcp congestion control status update functions
# are called by below 5 functions.
b.attach_kprobe(event="tcp_fastretrans_alert", fn_name="entry_func")
b.attach_kretprobe(event="tcp_fastretrans_alert", fn_name="ret_func")
b.attach_kprobe(event="tcp_enter_cwr", fn_name="entry_func")
b.attach_kretprobe(event="tcp_enter_cwr", fn_name="ret_func")
b.attach_kprobe(event="tcp_process_tlp_ack", fn_name="entry_func")
b.attach_kretprobe(event="tcp_process_tlp_ack", fn_name="ret_func")
b.attach_kprobe(event="tcp_enter_loss", fn_name="entry_func")
b.attach_kretprobe(event="tcp_enter_loss", fn_name="ret_func")
b.attach_kprobe(event="tcp_enter_recovery", fn_name="entry_func")
b.attach_kretprobe(event="tcp_enter_recovery", fn_name="ret_func")
print("Tracing tcp congestion control status duration... Hit Ctrl-C to end.")
def cong_state_to_name(state):
# this need to match with kernel state
state_name = ["open", "disorder", "cwr", "recovery", "loss"]
return state_name[state]
# output
exiting = 0 if args.interval else 1
ipv6_stat = b.get_table("ipv6_stat")
ipv4_stat = b.get_table("ipv4_stat")
if args.dist:
dist = b.get_table("dist")
label = "ms"
if args.microseconds:
label = "us"
while (1):
try:
sleep(int(args.interval))
except KeyboardInterrupt:
exiting = 1
print()
if args.timestamp:
print("%-8s\n" % strftime("%H:%M:%S"), end="")
if args.dist:
if args.microseconds:
dist.print_log2_hist("usecs", "tcp_congest_state",
section_print_fn=cong_state_to_name)
else:
dist.print_log2_hist("msecs", "tcp_congest_state",
section_print_fn=cong_state_to_name)
dist.clear()
else:
if ipv4_stat:
print("%-21s% -21s %-7s %-6s %-7s %-7s %-6s %-5s" % ("LAddrPort",
"RAddrPort", "Open_" + label, "Dod_" + label,
"Rcov_" + label, "Cwr_" + label, "Los_" + label, "Chgs"))
laddr = ""
raddr = ""
for k, v in sorted(ipv4_stat.items(), key=lambda ipv4_stat: ipv4_stat[0].lport):
laddr = inet_ntop(AF_INET, pack("I", k.saddr))
raddr = inet_ntop(AF_INET, pack("I", k.daddr))
open_dura = v.open_dura
disorder_dura = v.disorder_dura
recover_dura = v.recover_dura
cwr_dura = v.cwr_dura
loss_dura = v.loss_dura
if not args.microseconds:
open_dura /= 1000
disorder_dura /= 1000
recover_dura /= 1000
cwr_dura /= 1000
loss_dura /= 1000
if v.total_changes != 0:
print("%-21s %-21s %-7d %-6d %-7d %-7d %-6d %-5d" % (laddr +
"/" + str(k.lport), raddr + "/" + str(k.dport), open_dura,
disorder_dura, recover_dura, cwr_dura, loss_dura,
v.total_changes))
if ipv6_stat:
print("%-32s %-32s %-7s %-6s %-7s %-7s %-6s %-5s" % ("LAddrPort6",
"RAddrPort6", "Open_" + label, "Dod_" + label, "Rcov_" + label,
"Cwr_" + label, "Los_" + label, "Chgs"))
for k, v in sorted(ipv6_stat.items(), key=lambda ipv6_stat: ipv6_stat[0].lport):
laddr = inet_ntop(AF_INET6, bytes(k.saddr))
raddr = inet_ntop(AF_INET6, bytes(k.daddr))
open_dura = v.open_dura
disorder_dura = v.disorder_dura
recover_dura = v.recover_dura
cwr_dura = v.cwr_dura
loss_dura = v.loss_dura
if not args.microseconds:
open_dura /= 1000
disorder_dura /= 1000
recover_dura /= 1000
cwr_dura /= 1000
loss_dura /= 1000
if v.total_changes != 0:
print("%-32s %-32s %-7d %-7d %-7d %-6d %-6d %-5d" % (laddr +
"/" + str(k.lport), raddr + "/" + str(k.dport), open_dura,
disorder_dura, recover_dura, cwr_dura, loss_dura,
v.total_changes))
ipv4_stat.clear()
ipv6_stat.clear()
countdown -= 1
if exiting or countdown == 0:
exit()