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// SPDX-License-Identifier: GPL-2.0-only
/*
* BTS PMU driver for perf
* Copyright (c) 2013-2014, Intel Corporation.
*/
#undef DEBUG
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/bitops.h>
#include <linux/types.h>
#include <linux/slab.h>
#include <linux/debugfs.h>
#include <linux/device.h>
#include <linux/coredump.h>
#include <linux/sizes.h>
#include <asm/perf_event.h>
#include "../perf_event.h"
struct bts_ctx {
struct perf_output_handle handle;
struct debug_store ds_back;
int state;
};
/* BTS context states: */
enum {
/* no ongoing AUX transactions */
BTS_STATE_STOPPED = 0,
/* AUX transaction is on, BTS tracing is disabled */
BTS_STATE_INACTIVE,
/* AUX transaction is on, BTS tracing is running */
BTS_STATE_ACTIVE,
};
static DEFINE_PER_CPU(struct bts_ctx, bts_ctx);
#define BTS_RECORD_SIZE 24
#define BTS_SAFETY_MARGIN 4080
struct bts_phys {
struct page *page;
unsigned long size;
unsigned long offset;
unsigned long displacement;
};
struct bts_buffer {
size_t real_size; /* multiple of BTS_RECORD_SIZE */
unsigned int nr_pages;
unsigned int nr_bufs;
unsigned int cur_buf;
bool snapshot;
local_t data_size;
local_t head;
unsigned long end;
void **data_pages;
struct bts_phys buf[];
};
static struct pmu bts_pmu;
static int buf_nr_pages(struct page *page)
{
if (!PagePrivate(page))
return 1;
return 1 << page_private(page);
}
static size_t buf_size(struct page *page)
{
return buf_nr_pages(page) * PAGE_SIZE;
}
static void *
bts_buffer_setup_aux(struct perf_event *event, void **pages,
int nr_pages, bool overwrite)
{
struct bts_buffer *buf;
struct page *page;
int cpu = event->cpu;
int node = (cpu == -1) ? cpu : cpu_to_node(cpu);
unsigned long offset;
size_t size = nr_pages << PAGE_SHIFT;
int pg, nbuf, pad;
/* count all the high order buffers */
for (pg = 0, nbuf = 0; pg < nr_pages;) {
page = virt_to_page(pages[pg]);
pg += buf_nr_pages(page);
nbuf++;
}
/*
* to avoid interrupts in overwrite mode, only allow one physical
*/
if (overwrite && nbuf > 1)
return NULL;
buf = kzalloc_node(offsetof(struct bts_buffer, buf[nbuf]), GFP_KERNEL, node);
if (!buf)
return NULL;
buf->nr_pages = nr_pages;
buf->nr_bufs = nbuf;
buf->snapshot = overwrite;
buf->data_pages = pages;
buf->real_size = size - size % BTS_RECORD_SIZE;
for (pg = 0, nbuf = 0, offset = 0, pad = 0; nbuf < buf->nr_bufs; nbuf++) {
unsigned int __nr_pages;
page = virt_to_page(pages[pg]);
__nr_pages = buf_nr_pages(page);
buf->buf[nbuf].page = page;
buf->buf[nbuf].offset = offset;
buf->buf[nbuf].displacement = (pad ? BTS_RECORD_SIZE - pad : 0);
buf->buf[nbuf].size = buf_size(page) - buf->buf[nbuf].displacement;
pad = buf->buf[nbuf].size % BTS_RECORD_SIZE;
buf->buf[nbuf].size -= pad;
pg += __nr_pages;
offset += __nr_pages << PAGE_SHIFT;
}
return buf;
}
static void bts_buffer_free_aux(void *data)
{
kfree(data);
}
static unsigned long bts_buffer_offset(struct bts_buffer *buf, unsigned int idx)
{
return buf->buf[idx].offset + buf->buf[idx].displacement;
}
static void
bts_config_buffer(struct bts_buffer *buf)
{
int cpu = raw_smp_processor_id();
struct debug_store *ds = per_cpu(cpu_hw_events, cpu).ds;
struct bts_phys *phys = &buf->buf[buf->cur_buf];
unsigned long index, thresh = 0, end = phys->size;
struct page *page = phys->page;
index = local_read(&buf->head);
if (!buf->snapshot) {
if (buf->end < phys->offset + buf_size(page))
end = buf->end - phys->offset - phys->displacement;
index -= phys->offset + phys->displacement;
if (end - index > BTS_SAFETY_MARGIN)
thresh = end - BTS_SAFETY_MARGIN;
else if (end - index > BTS_RECORD_SIZE)
thresh = end - BTS_RECORD_SIZE;
else
thresh = end;
}
ds->bts_buffer_base = (u64)(long)page_address(page) + phys->displacement;
ds->bts_index = ds->bts_buffer_base + index;
ds->bts_absolute_maximum = ds->bts_buffer_base + end;
ds->bts_interrupt_threshold = !buf->snapshot
? ds->bts_buffer_base + thresh
: ds->bts_absolute_maximum + BTS_RECORD_SIZE;
}
static void bts_buffer_pad_out(struct bts_phys *phys, unsigned long head)
{
unsigned long index = head - phys->offset;
memset(page_address(phys->page) + index, 0, phys->size - index);
}
static void bts_update(struct bts_ctx *bts)
{
int cpu = raw_smp_processor_id();
struct debug_store *ds = per_cpu(cpu_hw_events, cpu).ds;
struct bts_buffer *buf = perf_get_aux(&bts->handle);
unsigned long index = ds->bts_index - ds->bts_buffer_base, old, head;
if (!buf)
return;
head = index + bts_buffer_offset(buf, buf->cur_buf);
old = local_xchg(&buf->head, head);
if (!buf->snapshot) {
if (old == head)
return;
if (ds->bts_index >= ds->bts_absolute_maximum)
perf_aux_output_flag(&bts->handle,
PERF_AUX_FLAG_TRUNCATED);
/*
* old and head are always in the same physical buffer, so we
* can subtract them to get the data size.
*/
local_add(head - old, &buf->data_size);
} else {
local_set(&buf->data_size, head);
}
/*
* Since BTS is coherent, just add compiler barrier to ensure
* BTS updating is ordered against bts::handle::event.
*/
barrier();
}
static int
bts_buffer_reset(struct bts_buffer *buf, struct perf_output_handle *handle);
/*
* Ordering PMU callbacks wrt themselves and the PMI is done by means
* of bts::state, which:
* - is set when bts::handle::event is valid, that is, between
* perf_aux_output_begin() and perf_aux_output_end();
* - is zero otherwise;
* - is ordered against bts::handle::event with a compiler barrier.
*/
static void __bts_event_start(struct perf_event *event)
{
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
struct bts_buffer *buf = perf_get_aux(&bts->handle);
u64 config = 0;
if (!buf->snapshot)
config |= ARCH_PERFMON_EVENTSEL_INT;
if (!event->attr.exclude_kernel)
config |= ARCH_PERFMON_EVENTSEL_OS;
if (!event->attr.exclude_user)
config |= ARCH_PERFMON_EVENTSEL_USR;
bts_config_buffer(buf);
/*
* local barrier to make sure that ds configuration made it
* before we enable BTS and bts::state goes ACTIVE
*/
wmb();
/* INACTIVE/STOPPED -> ACTIVE */
WRITE_ONCE(bts->state, BTS_STATE_ACTIVE);
intel_pmu_enable_bts(config);
}
static void bts_event_start(struct perf_event *event, int flags)
{
struct cpu_hw_events *cpuc = this_cpu_ptr(&cpu_hw_events);
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
struct bts_buffer *buf;
buf = perf_aux_output_begin(&bts->handle, event);
if (!buf)
goto fail_stop;
if (bts_buffer_reset(buf, &bts->handle))
goto fail_end_stop;
bts->ds_back.bts_buffer_base = cpuc->ds->bts_buffer_base;
bts->ds_back.bts_absolute_maximum = cpuc->ds->bts_absolute_maximum;
bts->ds_back.bts_interrupt_threshold = cpuc->ds->bts_interrupt_threshold;
perf_event_itrace_started(event);
event->hw.state = 0;
__bts_event_start(event);
return;
fail_end_stop:
perf_aux_output_end(&bts->handle, 0);
fail_stop:
event->hw.state = PERF_HES_STOPPED;
}
static void __bts_event_stop(struct perf_event *event, int state)
{
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
/* ACTIVE -> INACTIVE(PMI)/STOPPED(->stop()) */
WRITE_ONCE(bts->state, state);
/*
* No extra synchronization is mandated by the documentation to have
* BTS data stores globally visible.
*/
intel_pmu_disable_bts();
}
static void bts_event_stop(struct perf_event *event, int flags)
{
struct cpu_hw_events *cpuc = this_cpu_ptr(&cpu_hw_events);
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
struct bts_buffer *buf = NULL;
int state = READ_ONCE(bts->state);
if (state == BTS_STATE_ACTIVE)
__bts_event_stop(event, BTS_STATE_STOPPED);
if (state != BTS_STATE_STOPPED)
buf = perf_get_aux(&bts->handle);
event->hw.state |= PERF_HES_STOPPED;
if (flags & PERF_EF_UPDATE) {
bts_update(bts);
if (buf) {
if (buf->snapshot)
bts->handle.head =
local_xchg(&buf->data_size,
buf->nr_pages << PAGE_SHIFT);
perf_aux_output_end(&bts->handle,
local_xchg(&buf->data_size, 0));
}
cpuc->ds->bts_index = bts->ds_back.bts_buffer_base;
cpuc->ds->bts_buffer_base = bts->ds_back.bts_buffer_base;
cpuc->ds->bts_absolute_maximum = bts->ds_back.bts_absolute_maximum;
cpuc->ds->bts_interrupt_threshold = bts->ds_back.bts_interrupt_threshold;
}
}
void intel_bts_enable_local(void)
{
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
int state = READ_ONCE(bts->state);
/*
* Here we transition from INACTIVE to ACTIVE;
* if we instead are STOPPED from the interrupt handler,
* stay that way. Can't be ACTIVE here though.
*/
if (WARN_ON_ONCE(state == BTS_STATE_ACTIVE))
return;
if (state == BTS_STATE_STOPPED)
return;
if (bts->handle.event)
__bts_event_start(bts->handle.event);
}
void intel_bts_disable_local(void)
{
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
/*
* Here we transition from ACTIVE to INACTIVE;
* do nothing for STOPPED or INACTIVE.
*/
if (READ_ONCE(bts->state) != BTS_STATE_ACTIVE)
return;
if (bts->handle.event)
__bts_event_stop(bts->handle.event, BTS_STATE_INACTIVE);
}
static int
bts_buffer_reset(struct bts_buffer *buf, struct perf_output_handle *handle)
{
unsigned long head, space, next_space, pad, gap, skip, wakeup;
unsigned int next_buf;
struct bts_phys *phys, *next_phys;
int ret;
if (buf->snapshot)
return 0;
head = handle->head & ((buf->nr_pages << PAGE_SHIFT) - 1);
phys = &buf->buf[buf->cur_buf];
space = phys->offset + phys->displacement + phys->size - head;
pad = space;
if (space > handle->size) {
space = handle->size;
space -= space % BTS_RECORD_SIZE;
}
if (space <= BTS_SAFETY_MARGIN) {
/* See if next phys buffer has more space */
next_buf = buf->cur_buf + 1;
if (next_buf >= buf->nr_bufs)
next_buf = 0;
next_phys = &buf->buf[next_buf];
gap = buf_size(phys->page) - phys->displacement - phys->size +
next_phys->displacement;
skip = pad + gap;
if (handle->size >= skip) {
next_space = next_phys->size;
if (next_space + skip > handle->size) {
next_space = handle->size - skip;
next_space -= next_space % BTS_RECORD_SIZE;
}
if (next_space > space || !space) {
if (pad)
bts_buffer_pad_out(phys, head);
ret = perf_aux_output_skip(handle, skip);
if (ret)
return ret;
/* Advance to next phys buffer */
phys = next_phys;
space = next_space;
head = phys->offset + phys->displacement;
/*
* After this, cur_buf and head won't match ds
* anymore, so we must not be racing with
* bts_update().
*/
buf->cur_buf = next_buf;
local_set(&buf->head, head);
}
}
}
/* Don't go far beyond wakeup watermark */
wakeup = BTS_SAFETY_MARGIN + BTS_RECORD_SIZE + handle->wakeup -
handle->head;
if (space > wakeup) {
space = wakeup;
space -= space % BTS_RECORD_SIZE;
}
buf->end = head + space;
/*
* If we have no space, the lost notification would have been sent when
* we hit absolute_maximum - see bts_update()
*/
if (!space)
return -ENOSPC;
return 0;
}
int intel_bts_interrupt(void)
{
struct debug_store *ds = this_cpu_ptr(&cpu_hw_events)->ds;
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
struct perf_event *event = bts->handle.event;
struct bts_buffer *buf;
s64 old_head;
int err = -ENOSPC, handled = 0;
/*
* The only surefire way of knowing if this NMI is ours is by checking
* the write ptr against the PMI threshold.
*/
if (ds && (ds->bts_index >= ds->bts_interrupt_threshold))
handled = 1;
/*
* this is wrapped in intel_bts_enable_local/intel_bts_disable_local,
* so we can only be INACTIVE or STOPPED
*/
if (READ_ONCE(bts->state) == BTS_STATE_STOPPED)
return handled;
buf = perf_get_aux(&bts->handle);
if (!buf)
return handled;
/*
* Skip snapshot counters: they don't use the interrupt, but
* there's no other way of telling, because the pointer will
* keep moving
*/
if (buf->snapshot)
return 0;
old_head = local_read(&buf->head);
bts_update(bts);
/* no new data */
if (old_head == local_read(&buf->head))
return handled;
perf_aux_output_end(&bts->handle, local_xchg(&buf->data_size, 0));
buf = perf_aux_output_begin(&bts->handle, event);
if (buf)
err = bts_buffer_reset(buf, &bts->handle);
if (err) {
WRITE_ONCE(bts->state, BTS_STATE_STOPPED);
if (buf) {
/*
* BTS_STATE_STOPPED should be visible before
* cleared handle::event
*/
barrier();
perf_aux_output_end(&bts->handle, 0);
}
}
return 1;
}
static void bts_event_del(struct perf_event *event, int mode)
{
bts_event_stop(event, PERF_EF_UPDATE);
}
static int bts_event_add(struct perf_event *event, int mode)
{
struct bts_ctx *bts = this_cpu_ptr(&bts_ctx);
struct cpu_hw_events *cpuc = this_cpu_ptr(&cpu_hw_events);
struct hw_perf_event *hwc = &event->hw;
event->hw.state = PERF_HES_STOPPED;
if (test_bit(INTEL_PMC_IDX_FIXED_BTS, cpuc->active_mask))
return -EBUSY;
if (bts->handle.event)
return -EBUSY;
if (mode & PERF_EF_START) {
bts_event_start(event, 0);
if (hwc->state & PERF_HES_STOPPED)
return -EINVAL;
}
return 0;
}
static void bts_event_destroy(struct perf_event *event)
{
x86_release_hardware();
x86_del_exclusive(x86_lbr_exclusive_bts);
}
static int bts_event_init(struct perf_event *event)
{
int ret;
if (event->attr.type != bts_pmu.type)
return -ENOENT;
/*
* BTS leaks kernel addresses even when CPL0 tracing is
* disabled, so disallow intel_bts driver for unprivileged
* users on paranoid systems since it provides trace data
* to the user in a zero-copy fashion.
*/
if (event->attr.exclude_kernel) {
ret = perf_allow_kernel(&event->attr);
if (ret)
return ret;
}
if (x86_add_exclusive(x86_lbr_exclusive_bts))
return -EBUSY;
ret = x86_reserve_hardware();
if (ret) {
x86_del_exclusive(x86_lbr_exclusive_bts);
return ret;
}
event->destroy = bts_event_destroy;
return 0;
}
static void bts_event_read(struct perf_event *event)
{
}
static __init int bts_init(void)
{
if (!boot_cpu_has(X86_FEATURE_DTES64) || !x86_pmu.bts)
return -ENODEV;
if (boot_cpu_has(X86_FEATURE_PTI)) {
/*
* BTS hardware writes through a virtual memory map we must
* either use the kernel physical map, or the user mapping of
* the AUX buffer.
*
* However, since this driver supports per-CPU and per-task inherit
* we cannot use the user mapping since it will not be available
* if we're not running the owning process.
*
* With PTI we can't use the kernel map either, because its not
* there when we run userspace.
*
* For now, disable this driver when using PTI.
*/
return -ENODEV;
}
bts_pmu.capabilities = PERF_PMU_CAP_AUX_NO_SG | PERF_PMU_CAP_ITRACE |
PERF_PMU_CAP_EXCLUSIVE;
bts_pmu.task_ctx_nr = perf_sw_context;
bts_pmu.event_init = bts_event_init;
bts_pmu.add = bts_event_add;
bts_pmu.del = bts_event_del;
bts_pmu.start = bts_event_start;
bts_pmu.stop = bts_event_stop;
bts_pmu.read = bts_event_read;
bts_pmu.setup_aux = bts_buffer_setup_aux;
bts_pmu.free_aux = bts_buffer_free_aux;
return perf_pmu_register(&bts_pmu, "intel_bts", -1);
}
arch_initcall(bts_init);
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