| blob | 6638d63f0921dfb1a58a4ce822e89f5daba255d9 |
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3 * trace_hwlat.c - A simple Hardware Latency detector.
4 *
5 * Use this tracer to detect large system latencies induced by the behavior of
6 * certain underlying system hardware or firmware, independent of Linux itself.
7 * The code was developed originally to detect the presence of SMIs on Intel
8 * and AMD systems, although there is no dependency upon x86 herein.
9 *
10 * The classical example usage of this tracer is in detecting the presence of
11 * SMIs or System Management Interrupts on Intel and AMD systems. An SMI is a
12 * somewhat special form of hardware interrupt spawned from earlier CPU debug
13 * modes in which the (BIOS/EFI/etc.) firmware arranges for the South Bridge
14 * LPC (or other device) to generate a special interrupt under certain
15 * circumstances, for example, upon expiration of a special SMI timer device,
16 * due to certain external thermal readings, on certain I/O address accesses,
17 * and other situations. An SMI hits a special CPU pin, triggers a special
18 * SMI mode (complete with special memory map), and the OS is unaware.
19 *
20 * Although certain hardware-inducing latencies are necessary (for example,
21 * a modern system often requires an SMI handler for correct thermal control
22 * and remote management) they can wreak havoc upon any OS-level performance
23 * guarantees toward low-latency, especially when the OS is not even made
24 * aware of the presence of these interrupts. For this reason, we need a
25 * somewhat brute force mechanism to detect these interrupts. In this case,
26 * we do it by hogging all of the CPU(s) for configurable timer intervals,
27 * sampling the built-in CPU timer, looking for discontiguous readings.
28 *
29 * WARNING: This implementation necessarily introduces latencies. Therefore,
30 * you should NEVER use this tracer while running in a production
31 * environment requiring any kind of low-latency performance
32 * guarantee(s).
33 *
34 * Copyright (C) 2008-2009 Jon Masters, Red Hat, Inc. <jcm@redhat.com>
35 * Copyright (C) 2013-2016 Steven Rostedt, Red Hat, Inc. <srostedt@redhat.com>
36 *
37 * Includes useful feedback from Clark Williams <clark@redhat.com>
38 *
39 */
40 #include <linux/kthread.h>
41 #include <linux/tracefs.h>
42 #include <linux/uaccess.h>
43 #include <linux/cpumask.h>
44 #include <linux/delay.h>
45 #include <linux/sched/clock.h>
57 /* sampling thread*/
63 /* Save the previous tracing_thresh value */
66 /* NMI timestamp counters */
72 /* Tells NMIs to call back to the hwlat tracer to record timestamps */
75 /* If the user changed threshold, remember it */
78 /* Individual latency samples are stored here when detected. */
86 };
88 /* keep the global state somewhere. */
101 };
104 {
130 }
132 /* Macros to encapsulate the time capturing infrastructure */
133 #define time_type u64
134 #define time_get() trace_clock_local()
135 #define time_to_us(x) div_u64(x, 1000)
136 #define time_sub(a, b) ((a) - (b))
137 #define init_time(a, b) (a = b)
138 #define time_u64(a) a
141 {
145 /*
146 * Currently trace_clock_local() calls sched_clock() and the
147 * generic version is not NMI safe.
148 */
152 else
154 }
157 nmi_count++;
158 }
160 /**
161 * get_sample - sample the CPU TSC and look for likely hardware latencies
162 *
163 * Used to repeatedly capture the CPU TSC (or similar), looking for potential
164 * hardware-induced latency. Called with interrupts disabled and with
165 * hwlat_data.lock held.
166 */
168 {
182 /* Make sure NMIs see this first */
196 /* Check the delta from outer loop (t2 to next t1) */
198 /* This shouldn't happen */
202 }
205 }
210 /* Check for possible overflows */
214 }
217 /* This checks the inner loop (t1 to t2) */
220 /* This shouldn't happen */
224 }
237 /* If we exceed the threshold value, we have found a hardware latency */
240 u64 latency;
244 /* We read in microseconds */
259 /* Keep a running maximum ever recorded hardware latency */
263 }
264 }
266 out:
268 }
274 {
280 /*
281 * If for some reason the user modifies the CPU affinity
282 * of this thread, then stop migrating for the duration
283 * of the current test.
284 */
305 disable:
307 }
309 /*
310 * kthread_fn - The CPU time sampling/hardware latency detection kernel thread
311 *
312 * Used to periodically sample the CPU TSC via a call to get_sample. We
313 * disable interrupts, which does (intentionally) introduce latency since we
314 * need to ensure nothing else might be running (and thus preempting).
315 * Obviously this should never be used in production environments.
316 *
317 * Executes one loop interaction on each CPU in tracing_cpumask sysfs file.
318 */
320 {
321 u64 interval;
337 /* Always sleep for at least 1ms */
343 }
346 }
348 /**
349 * start_kthread - Kick off the hardware latency sampling/detector kthread
350 *
351 * This starts the kernel thread that will sit and sample the CPU timestamp
352 * counter (TSC or similar) and look for potential hardware latencies.
353 */
355 {
363 /* Just pick the first CPU on first iteration */
374 }
384 }
386 /**
387 * stop_kthread - Inform the hardware latency samping/detector kthread to stop
388 *
389 * This kicks the running hardware latency sampling/detector kernel thread and
390 * tells it to stop sampling now. Use this on unload and at system shutdown.
391 */
393 {
398 }
400 /*
401 * hwlat_read - Wrapper read function for reading both window and width
402 * @filp: The active open file structure
403 * @ubuf: The userspace provided buffer to read value into
404 * @cnt: The maximum number of bytes to read
405 * @ppos: The current "file" position
406 *
407 * This function provides a generic read implementation for the global state
408 * "hwlat_data" structure filesystem entries.
409 */
412 {
415 u64 val;
429 }
431 /**
432 * hwlat_width_write - Write function for "width" entry
433 * @filp: The active open file structure
434 * @ubuf: The user buffer that contains the value to write
435 * @cnt: The maximum number of bytes to write to "file"
436 * @ppos: The current position in @file
437 *
438 * This function provides a write implementation for the "width" interface
439 * to the hardware latency detector. It can be used to configure
440 * for how many us of the total window us we will actively sample for any
441 * hardware-induced latency periods. Obviously, it is not possible to
442 * sample constantly and have the system respond to a sample reader, or,
443 * worse, without having the system appear to have gone out to lunch. It
444 * is enforced that width is less that the total window size.
445 */
446 static ssize_t
449 {
450 u64 val;
460 else
468 }
470 /**
471 * hwlat_window_write - Write function for "window" entry
472 * @filp: The active open file structure
473 * @ubuf: The user buffer that contains the value to write
474 * @cnt: The maximum number of bytes to write to "file"
475 * @ppos: The current position in @file
476 *
477 * This function provides a write implementation for the "window" interface
478 * to the hardware latency detetector. The window is the total time
479 * in us that will be considered one sample period. Conceptually, windows
480 * occur back-to-back and contain a sample width period during which
481 * actual sampling occurs. Can be used to write a new total window size. It
482 * is enfoced that any value written must be greater than the sample width
483 * size, or an error results.
484 */
485 static ssize_t
488 {
489 u64 val;
499 else
507 }
513 };
519 };
521 /**
522 * init_tracefs - A function to initialize the tracefs interface files
523 *
524 * This function creates entries in tracefs for "hwlat_detector".
525 * It creates the hwlat_detector directory in the tracing directory,
526 * and within that directory is the count, width and window files to
527 * change and view those values.
528 */
530 {
543 top_dir,
550 top_dir,
558 err:
561 }
564 {
570 }
573 {
575 }
580 {
581 /* Only allow one instance to enable this */
592 /* tracing_thresh is in nsecs, we speak in usecs */
602 }
605 {
608 /* the tracing threshold is static between runs */
613 }
616 {
623 };
626 {
638 }