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biosnoop.py
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biosnoop.py
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#!/usr/bin/env python
# @lint-avoid-python-3-compatibility-imports
#
# biosnoop Trace block device I/O and print details including issuing PID.
# For Linux, uses BCC, eBPF.
#
# This uses in-kernel eBPF maps to cache process details (PID and comm) by I/O
# request, as well as a starting timestamp for calculating I/O latency.
#
# Copyright (c) 2015 Brendan Gregg.
# Licensed under the Apache License, Version 2.0 (the "License")
#
# 16-Sep-2015 Brendan Gregg Created this.
# 11-Feb-2016 Allan McAleavy updated for BPF_PERF_OUTPUT
# 21-Jun-2022 Rocky Xing Added disk filter support.
# 13-Oct-2022 Rocky Xing Added support for displaying block I/O pattern.
# 01-Aug-2023 Jerome Marchand Added support for block tracepoints
from __future__ import print_function
from bcc import BPF
import argparse
import os
# arguments
examples = """examples:
./biosnoop # trace all block I/O
./biosnoop -Q # include OS queued time
./biosnoop -d sdc # trace sdc only
./biosnoop -P # display block I/O pattern
"""
parser = argparse.ArgumentParser(
description="Trace block I/O",
formatter_class=argparse.RawDescriptionHelpFormatter,
epilog=examples)
parser.add_argument("-Q", "--queue", action="store_true",
help="include OS queued time")
parser.add_argument("-d", "--disk", type=str,
help="trace this disk only")
parser.add_argument("-P", "--pattern", action="store_true",
help="display block I/O pattern (sequential or random)")
parser.add_argument("--ebpf", action="store_true",
help=argparse.SUPPRESS)
args = parser.parse_args()
debug = 0
# define BPF program
bpf_text = """
#include <uapi/linux/ptrace.h>
#include <linux/blk-mq.h>
"""
if args.pattern:
bpf_text += "#define INCLUDE_PATTERN\n"
bpf_text += """
// for saving the timestamp and __data_len of each request
struct start_req_t {
u64 ts;
u64 data_len;
};
struct val_t {
u64 ts;
u32 pid;
char name[TASK_COMM_LEN];
};
struct tp_args {
u64 __unused__;
dev_t dev;
sector_t sector;
unsigned int nr_sector;
unsigned int bytes;
char rwbs[8];
char comm[16];
char cmd[];
};
struct hash_key {
dev_t dev;
u32 rwflag;
sector_t sector;
};
#ifdef INCLUDE_PATTERN
struct sector_key_t {
u32 dev_major;
u32 dev_minor;
};
enum bio_pattern {
UNKNOWN,
SEQUENTIAL,
RANDOM,
};
#endif
struct data_t {
u32 pid;
u32 dev;
u64 rwflag;
u64 delta;
u64 qdelta;
u64 sector;
u64 len;
#ifdef INCLUDE_PATTERN
enum bio_pattern pattern;
#endif
u64 ts;
char name[TASK_COMM_LEN];
};
#ifdef INCLUDE_PATTERN
BPF_HASH(last_sectors, struct sector_key_t, u64);
#endif
BPF_HASH(start, struct hash_key, struct start_req_t);
BPF_HASH(infobyreq, struct hash_key, struct val_t);
BPF_PERF_OUTPUT(events);
static dev_t ddevt(struct gendisk *disk) {
return (disk->major << 20) | disk->first_minor;
}
/*
* The following deals with a kernel version change (in mainline 4.7, although
* it may be backported to earlier kernels) with how block request write flags
* are tested. We handle both pre- and post-change versions here. Please avoid
* kernel version tests like this as much as possible: they inflate the code,
* test, and maintenance burden.
*/
static int get_rwflag(u32 cmd_flags) {
#ifdef REQ_WRITE
return !!(cmd_flags & REQ_WRITE);
#elif defined(REQ_OP_SHIFT)
return !!((cmd_flags >> REQ_OP_SHIFT) == REQ_OP_WRITE);
#else
return !!((cmd_flags & REQ_OP_MASK) == REQ_OP_WRITE);
#endif
}
#define RWBS_LEN 8
static int get_rwflag_tp(char *rwbs) {
for (int i = 0; i < RWBS_LEN; i++) {
if (rwbs[i] == 'W')
return 1;
if (rwbs[i] == '\\0')
return 0;
}
return 0;
}
// cache PID and comm by-req
static int __trace_pid_start(struct hash_key key)
{
DISK_FILTER
struct val_t val = {};
u64 ts;
if (bpf_get_current_comm(&val.name, sizeof(val.name)) == 0) {
val.pid = bpf_get_current_pid_tgid() >> 32;
if (##QUEUE##) {
val.ts = bpf_ktime_get_ns();
}
infobyreq.update(&key, &val);
}
return 0;
}
int trace_pid_start(struct pt_regs *ctx, struct request *req)
{
struct hash_key key = {
.dev = ddevt(req->__RQ_DISK__),
.rwflag = get_rwflag(req->cmd_flags),
.sector = req->__sector
};
return __trace_pid_start(key);
}
int trace_pid_start_tp(struct tp_args *args)
{
struct hash_key key = {
.dev = args->dev,
.rwflag = get_rwflag_tp(args->rwbs),
.sector = args->sector
};
return __trace_pid_start(key);
}
// time block I/O
int trace_req_start(struct pt_regs *ctx, struct request *req)
{
struct hash_key key = {
.dev = ddevt(req->__RQ_DISK__),
.rwflag = get_rwflag(req->cmd_flags),
.sector = req->__sector
};
DISK_FILTER
struct start_req_t start_req = {
.ts = bpf_ktime_get_ns(),
.data_len = req->__data_len
};
start.update(&key, &start_req);
return 0;
}
// output
static int __trace_req_completion(void *ctx, struct hash_key key)
{
struct start_req_t *startp;
struct val_t *valp;
struct data_t data = {};
//struct gendisk *rq_disk;
u64 ts;
// fetch timestamp and calculate delta
startp = start.lookup(&key);
if (startp == 0) {
// missed tracing issue
return 0;
}
ts = bpf_ktime_get_ns();
//rq_disk = req->__RQ_DISK__;
data.delta = ts - startp->ts;
data.ts = ts / 1000;
data.qdelta = 0;
data.len = startp->data_len;
valp = infobyreq.lookup(&key);
if (valp == 0) {
data.name[0] = '?';
data.name[1] = 0;
} else {
if (##QUEUE##) {
data.qdelta = startp->ts - valp->ts;
}
data.pid = valp->pid;
data.sector = key.sector;
data.dev = key.dev;
bpf_probe_read_kernel(&data.name, sizeof(data.name), valp->name);
}
#ifdef INCLUDE_PATTERN
data.pattern = UNKNOWN;
u64 *sector, last_sector;
struct sector_key_t sector_key = {
.dev_major = key.dev >> 20,
.dev_minor = key.dev & ((1 << 20) - 1)
};
sector = last_sectors.lookup(§or_key);
if (sector != 0) {
data.pattern = req->__sector == *sector ? SEQUENTIAL : RANDOM;
}
last_sector = req->__sector + data.len / 512;
last_sectors.update(§or_key, &last_sector);
#endif
data.rwflag = key.rwflag;
events.perf_submit(ctx, &data, sizeof(data));
start.delete(&key);
infobyreq.delete(&key);
return 0;
}
int trace_req_completion(struct pt_regs *ctx, struct request *req)
{
struct hash_key key = {
.dev = ddevt(req->__RQ_DISK__),
.rwflag = get_rwflag(req->cmd_flags),
.sector = req->__sector
};
return __trace_req_completion(ctx, key);
}
int trace_req_completion_tp(struct tp_args *args)
{
struct hash_key key = {
.dev = args->dev,
.rwflag = get_rwflag_tp(args->rwbs),
.sector = args->sector
};
return __trace_req_completion(args, key);
}
"""
if args.queue:
bpf_text = bpf_text.replace('##QUEUE##', '1')
else:
bpf_text = bpf_text.replace('##QUEUE##', '0')
if BPF.kernel_struct_has_field(b'request', b'rq_disk') == 1:
bpf_text = bpf_text.replace('__RQ_DISK__', 'rq_disk')
else:
bpf_text = bpf_text.replace('__RQ_DISK__', 'q->disk')
if args.disk is not None:
disk_path = os.path.join('/dev', args.disk)
if not os.path.exists(disk_path):
print("no such disk '%s'" % args.disk)
exit(1)
stat_info = os.stat(disk_path)
dev = os.major(stat_info.st_rdev) << 20 | os.minor(stat_info.st_rdev)
disk_filter_str = """
if(key.dev != %s) {
return 0;
}
""" % (dev)
bpf_text = bpf_text.replace('DISK_FILTER', disk_filter_str)
else:
bpf_text = bpf_text.replace('DISK_FILTER', '')
if debug or args.ebpf:
print(bpf_text)
if args.ebpf:
exit()
# initialize BPF
b = BPF(text=bpf_text)
if BPF.get_kprobe_functions(b'__blk_account_io_start'):
b.attach_kprobe(event="__blk_account_io_start", fn_name="trace_pid_start")
elif BPF.get_kprobe_functions(b'blk_account_io_start'):
b.attach_kprobe(event="blk_account_io_start", fn_name="trace_pid_start")
else:
b.attach_tracepoint(tp="block:block_io_start", fn_name="trace_pid_start_tp")
if BPF.get_kprobe_functions(b'blk_start_request'):
b.attach_kprobe(event="blk_start_request", fn_name="trace_req_start")
b.attach_kprobe(event="blk_mq_start_request", fn_name="trace_req_start")
if BPF.get_kprobe_functions(b'__blk_account_io_done'):
b.attach_kprobe(event="__blk_account_io_done", fn_name="trace_req_completion")
elif BPF.get_kprobe_functions(b'blk_account_io_done'):
b.attach_kprobe(event="blk_account_io_done", fn_name="trace_req_completion")
else:
b.attach_tracepoint(tp="block:block_io_done", fn_name="trace_req_completion_tp")
# header
print("%-11s %-14s %-7s %-9s %-1s %-10s %-7s" % ("TIME(s)", "COMM", "PID",
"DISK", "T", "SECTOR", "BYTES"), end="")
if args.pattern:
print("%-1s " % ("P"), end="")
if args.queue:
print("%7s " % ("QUE(ms)"), end="")
print("%7s" % "LAT(ms)")
# cache disk major,minor -> diskname
diskstats = "/proc/diskstats"
disklookup = {}
with open(diskstats) as stats:
for line in stats:
a = line.split()
disklookup[a[0] + "," + a[1]] = a[2]
def disk_print(d):
major = d >> 20
minor = d & ((1 << 20) - 1)
disk = str(major) + "," + str(minor)
if disk in disklookup:
diskname = disklookup[disk]
else:
diskname = "<unknown>"
return diskname
rwflg = ""
pattern = ""
start_ts = 0
prev_ts = 0
delta = 0
P_SEQUENTIAL = 1
P_RANDOM = 2
# process event
def print_event(cpu, data, size):
event = b["events"].event(data)
global start_ts
if start_ts == 0:
start_ts = event.ts
if event.rwflag == 1:
rwflg = "W"
else:
rwflg = "R"
delta = float(event.ts) - start_ts
disk_name = disk_print(event.dev)
print("%-11.6f %-14.14s %-7s %-9s %-1s %-10s %-7s" % (
delta / 1000000, event.name.decode('utf-8', 'replace'), event.pid,
disk_name, rwflg, event.sector, event.len), end="")
if args.pattern:
if event.pattern == P_SEQUENTIAL:
pattern = "S"
elif event.pattern == P_RANDOM:
pattern = "R"
else:
pattern = "?"
print("%-1s " % pattern, end="")
if args.queue:
print("%7.2f " % (float(event.qdelta) / 1000000), end="")
print("%7.2f" % (float(event.delta) / 1000000))
# loop with callback to print_event
b["events"].open_perf_buffer(print_event, page_cnt=64)
while 1:
try:
b.perf_buffer_poll()
except KeyboardInterrupt:
exit()