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|
// SPDX-License-Identifier: GPL-2.0
/*
* This driver enables Trace Buffer Extension (TRBE) as a per-cpu coresight
* sink device could then pair with an appropriate per-cpu coresight source
* device (ETE) thus generating required trace data. Trace can be enabled
* via the perf framework.
*
* The AUX buffer handling is inspired from Arm SPE PMU driver.
*
* Copyright (C) 2020 ARM Ltd.
*
* Author: Anshuman Khandual <anshuman.khandual@arm.com>
*/
#define DRVNAME "arm_trbe"
#define pr_fmt(fmt) DRVNAME ": " fmt
#include <asm/barrier.h>
#include <asm/cpufeature.h>
#include "coresight-self-hosted-trace.h"
#include "coresight-trbe.h"
#define PERF_IDX2OFF(idx, buf) ((idx) % ((buf)->nr_pages << PAGE_SHIFT))
/*
* A padding packet that will help the user space tools
* in skipping relevant sections in the captured trace
* data which could not be decoded. TRBE doesn't support
* formatting the trace data, unlike the legacy CoreSight
* sinks and thus we use ETE trace packets to pad the
* sections of the buffer.
*/
#define ETE_IGNORE_PACKET 0x70
/*
* Minimum amount of meaningful trace will contain:
* A-Sync, Trace Info, Trace On, Address, Atom.
* This is about 44bytes of ETE trace. To be on
* the safer side, we assume 64bytes is the minimum
* space required for a meaningful session, before
* we hit a "WRAP" event.
*/
#define TRBE_TRACE_MIN_BUF_SIZE 64
enum trbe_fault_action {
TRBE_FAULT_ACT_WRAP,
TRBE_FAULT_ACT_SPURIOUS,
TRBE_FAULT_ACT_FATAL,
};
struct trbe_buf {
/*
* Even though trbe_base represents vmap()
* mapped allocated buffer's start address,
* it's being as unsigned long for various
* arithmetic and comparision operations &
* also to be consistent with trbe_write &
* trbe_limit sibling pointers.
*/
unsigned long trbe_base;
/* The base programmed into the TRBE */
unsigned long trbe_hw_base;
unsigned long trbe_limit;
unsigned long trbe_write;
int nr_pages;
void **pages;
bool snapshot;
struct trbe_cpudata *cpudata;
};
/*
* TRBE erratum list
*
* The errata are defined in arm64 generic cpu_errata framework.
* Since the errata work arounds could be applied individually
* to the affected CPUs inside the TRBE driver, we need to know if
* a given CPU is affected by the erratum. Unlike the other erratum
* work arounds, TRBE driver needs to check multiple times during
* a trace session. Thus we need a quicker access to per-CPU
* errata and not issue costly this_cpu_has_cap() everytime.
* We keep a set of the affected errata in trbe_cpudata, per TRBE.
*
* We rely on the corresponding cpucaps to be defined for a given
* TRBE erratum. We map the given cpucap into a TRBE internal number
* to make the tracking of the errata lean.
*
* This helps in :
* - Not duplicating the detection logic
* - Streamlined detection of erratum across the system
*/
#define TRBE_WORKAROUND_OVERWRITE_FILL_MODE 0
static int trbe_errata_cpucaps[] = {
[TRBE_WORKAROUND_OVERWRITE_FILL_MODE] = ARM64_WORKAROUND_TRBE_OVERWRITE_FILL_MODE,
-1, /* Sentinel, must be the last entry */
};
/* The total number of listed errata in trbe_errata_cpucaps */
#define TRBE_ERRATA_MAX (ARRAY_SIZE(trbe_errata_cpucaps) - 1)
/*
* Safe limit for the number of bytes that may be overwritten
* when ARM64_WORKAROUND_TRBE_OVERWRITE_FILL_MODE is triggered.
*/
#define TRBE_WORKAROUND_OVERWRITE_FILL_MODE_SKIP_BYTES 256
/*
* struct trbe_cpudata: TRBE instance specific data
* @trbe_flag - TRBE dirty/access flag support
* @trbe_hw_align - Actual TRBE alignment required for TRBPTR_EL1.
* @trbe_align - Software alignment used for the TRBPTR_EL1.
* @cpu - CPU this TRBE belongs to.
* @mode - Mode of current operation. (perf/disabled)
* @drvdata - TRBE specific drvdata
* @errata - Bit map for the errata on this TRBE.
*/
struct trbe_cpudata {
bool trbe_flag;
u64 trbe_hw_align;
u64 trbe_align;
int cpu;
enum cs_mode mode;
struct trbe_buf *buf;
struct trbe_drvdata *drvdata;
DECLARE_BITMAP(errata, TRBE_ERRATA_MAX);
};
struct trbe_drvdata {
struct trbe_cpudata __percpu *cpudata;
struct perf_output_handle * __percpu *handle;
struct hlist_node hotplug_node;
int irq;
cpumask_t supported_cpus;
enum cpuhp_state trbe_online;
struct platform_device *pdev;
};
static void trbe_check_errata(struct trbe_cpudata *cpudata)
{
int i;
for (i = 0; i < TRBE_ERRATA_MAX; i++) {
int cap = trbe_errata_cpucaps[i];
if (WARN_ON_ONCE(cap < 0))
return;
if (this_cpu_has_cap(cap))
set_bit(i, cpudata->errata);
}
}
static inline bool trbe_has_erratum(struct trbe_cpudata *cpudata, int i)
{
return (i < TRBE_ERRATA_MAX) && test_bit(i, cpudata->errata);
}
static inline bool trbe_may_overwrite_in_fill_mode(struct trbe_cpudata *cpudata)
{
return trbe_has_erratum(cpudata, TRBE_WORKAROUND_OVERWRITE_FILL_MODE);
}
static int trbe_alloc_node(struct perf_event *event)
{
if (event->cpu == -1)
return NUMA_NO_NODE;
return cpu_to_node(event->cpu);
}
static void trbe_drain_buffer(void)
{
tsb_csync();
dsb(nsh);
}
static void trbe_drain_and_disable_local(void)
{
u64 trblimitr = read_sysreg_s(SYS_TRBLIMITR_EL1);
trbe_drain_buffer();
/*
* Disable the TRBE without clearing LIMITPTR which
* might be required for fetching the buffer limits.
*/
trblimitr &= ~TRBLIMITR_ENABLE;
write_sysreg_s(trblimitr, SYS_TRBLIMITR_EL1);
isb();
}
static void trbe_reset_local(void)
{
trbe_drain_and_disable_local();
write_sysreg_s(0, SYS_TRBLIMITR_EL1);
write_sysreg_s(0, SYS_TRBPTR_EL1);
write_sysreg_s(0, SYS_TRBBASER_EL1);
write_sysreg_s(0, SYS_TRBSR_EL1);
}
static void trbe_report_wrap_event(struct perf_output_handle *handle)
{
/*
* Mark the buffer to indicate that there was a WRAP event by
* setting the COLLISION flag. This indicates to the user that
* the TRBE trace collection was stopped without stopping the
* ETE and thus there might be some amount of trace that was
* lost between the time the WRAP was detected and the IRQ
* was consumed by the CPU.
*
* Setting the TRUNCATED flag would move the event to STOPPED
* state unnecessarily, even when there is space left in the
* ring buffer. Using the COLLISION flag doesn't have this side
* effect. We only set TRUNCATED flag when there is no space
* left in the ring buffer.
*/
perf_aux_output_flag(handle, PERF_AUX_FLAG_COLLISION);
}
static void trbe_stop_and_truncate_event(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
/*
* We cannot proceed with the buffer collection and we
* do not have any data for the current session. The
* etm_perf driver expects to close out the aux_buffer
* at event_stop(). So disable the TRBE here and leave
* the update_buffer() to return a 0 size.
*/
trbe_drain_and_disable_local();
perf_aux_output_flag(handle, PERF_AUX_FLAG_TRUNCATED);
perf_aux_output_end(handle, 0);
*this_cpu_ptr(buf->cpudata->drvdata->handle) = NULL;
}
/*
* TRBE Buffer Management
*
* The TRBE buffer spans from the base pointer till the limit pointer. When enabled,
* it starts writing trace data from the write pointer onward till the limit pointer.
* When the write pointer reaches the address just before the limit pointer, it gets
* wrapped around again to the base pointer. This is called a TRBE wrap event, which
* generates a maintenance interrupt when operated in WRAP or FILL mode. This driver
* uses FILL mode, where the TRBE stops the trace collection at wrap event. The IRQ
* handler updates the AUX buffer and re-enables the TRBE with updated WRITE and
* LIMIT pointers.
*
* Wrap around with an IRQ
* ------ < ------ < ------- < ----- < -----
* | |
* ------ > ------ > ------- > ----- > -----
*
* +---------------+-----------------------+
* | | |
* +---------------+-----------------------+
* Base Pointer Write Pointer Limit Pointer
*
* The base and limit pointers always needs to be PAGE_SIZE aligned. But the write
* pointer can be aligned to the implementation defined TRBE trace buffer alignment
* as captured in trbe_cpudata->trbe_align.
*
*
* head tail wakeup
* +---------------------------------------+----- ~ ~ ------
* |$$$$$$$|################|$$$$$$$$$$$$$$| |
* +---------------------------------------+----- ~ ~ ------
* Base Pointer Write Pointer Limit Pointer
*
* The perf_output_handle indices (head, tail, wakeup) are monotonically increasing
* values which tracks all the driver writes and user reads from the perf auxiliary
* buffer. Generally [head..tail] is the area where the driver can write into unless
* the wakeup is behind the tail. Enabled TRBE buffer span needs to be adjusted and
* configured depending on the perf_output_handle indices, so that the driver does
* not override into areas in the perf auxiliary buffer which is being or yet to be
* consumed from the user space. The enabled TRBE buffer area is a moving subset of
* the allocated perf auxiliary buffer.
*/
static void __trbe_pad_buf(struct trbe_buf *buf, u64 offset, int len)
{
memset((void *)buf->trbe_base + offset, ETE_IGNORE_PACKET, len);
}
static void trbe_pad_buf(struct perf_output_handle *handle, int len)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
u64 head = PERF_IDX2OFF(handle->head, buf);
__trbe_pad_buf(buf, head, len);
if (!buf->snapshot)
perf_aux_output_skip(handle, len);
}
static unsigned long trbe_snapshot_offset(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
/*
* The ETE trace has alignment synchronization packets allowing
* the decoder to reset in case of an overflow or corruption.
* So we can use the entire buffer for the snapshot mode.
*/
return buf->nr_pages * PAGE_SIZE;
}
static u64 trbe_min_trace_buf_size(struct perf_output_handle *handle)
{
return TRBE_TRACE_MIN_BUF_SIZE;
}
/*
* TRBE Limit Calculation
*
* The following markers are used to illustrate various TRBE buffer situations.
*
* $$$$ - Data area, unconsumed captured trace data, not to be overridden
* #### - Free area, enabled, trace will be written
* %%%% - Free area, disabled, trace will not be written
* ==== - Free area, padded with ETE_IGNORE_PACKET, trace will be skipped
*/
static unsigned long __trbe_normal_offset(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
struct trbe_cpudata *cpudata = buf->cpudata;
const u64 bufsize = buf->nr_pages * PAGE_SIZE;
u64 limit = bufsize;
u64 head, tail, wakeup;
head = PERF_IDX2OFF(handle->head, buf);
/*
* head
* ------->|
* |
* head TRBE align tail
* +----|-------|---------------|-------+
* |$$$$|=======|###############|$$$$$$$|
* +----|-------|---------------|-------+
* trbe_base trbe_base + nr_pages
*
* Perf aux buffer output head position can be misaligned depending on
* various factors including user space reads. In case misaligned, head
* needs to be aligned before TRBE can be configured. Pad the alignment
* gap with ETE_IGNORE_PACKET bytes that will be ignored by user tools
* and skip this section thus advancing the head.
*/
if (!IS_ALIGNED(head, cpudata->trbe_align)) {
unsigned long delta = roundup(head, cpudata->trbe_align) - head;
delta = min(delta, handle->size);
trbe_pad_buf(handle, delta);
head = PERF_IDX2OFF(handle->head, buf);
}
/*
* head = tail (size = 0)
* +----|-------------------------------+
* |$$$$|$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ |
* +----|-------------------------------+
* trbe_base trbe_base + nr_pages
*
* Perf aux buffer does not have any space for the driver to write into.
*/
if (!handle->size)
return 0;
/* Compute the tail and wakeup indices now that we've aligned head */
tail = PERF_IDX2OFF(handle->head + handle->size, buf);
wakeup = PERF_IDX2OFF(handle->wakeup, buf);
/*
* Lets calculate the buffer area which TRBE could write into. There
* are three possible scenarios here. Limit needs to be aligned with
* PAGE_SIZE per the TRBE requirement. Always avoid clobbering the
* unconsumed data.
*
* 1) head < tail
*
* head tail
* +----|-----------------------|-------+
* |$$$$|#######################|$$$$$$$|
* +----|-----------------------|-------+
* trbe_base limit trbe_base + nr_pages
*
* TRBE could write into [head..tail] area. Unless the tail is right at
* the end of the buffer, neither an wrap around nor an IRQ is expected
* while being enabled.
*
* 2) head == tail
*
* head = tail (size > 0)
* +----|-------------------------------+
* |%%%%|###############################|
* +----|-------------------------------+
* trbe_base limit = trbe_base + nr_pages
*
* TRBE should just write into [head..base + nr_pages] area even though
* the entire buffer is empty. Reason being, when the trace reaches the
* end of the buffer, it will just wrap around with an IRQ giving an
* opportunity to reconfigure the buffer.
*
* 3) tail < head
*
* tail head
* +----|-----------------------|-------+
* |%%%%|$$$$$$$$$$$$$$$$$$$$$$$|#######|
* +----|-----------------------|-------+
* trbe_base limit = trbe_base + nr_pages
*
* TRBE should just write into [head..base + nr_pages] area even though
* the [trbe_base..tail] is also empty. Reason being, when the trace
* reaches the end of the buffer, it will just wrap around with an IRQ
* giving an opportunity to reconfigure the buffer.
*/
if (head < tail)
limit = round_down(tail, PAGE_SIZE);
/*
* Wakeup may be arbitrarily far into the future. If it's not in the
* current generation, either we'll wrap before hitting it, or it's
* in the past and has been handled already.
*
* If there's a wakeup before we wrap, arrange to be woken up by the
* page boundary following it. Keep the tail boundary if that's lower.
*
* head wakeup tail
* +----|---------------|-------|-------+
* |$$$$|###############|%%%%%%%|$$$$$$$|
* +----|---------------|-------|-------+
* trbe_base limit trbe_base + nr_pages
*/
if (handle->wakeup < (handle->head + handle->size) && head <= wakeup)
limit = min(limit, round_up(wakeup, PAGE_SIZE));
/*
* There are two situation when this can happen i.e limit is before
* the head and hence TRBE cannot be configured.
*
* 1) head < tail (aligned down with PAGE_SIZE) and also they are both
* within the same PAGE size range.
*
* PAGE_SIZE
* |----------------------|
*
* limit head tail
* +------------|------|--------|-------+
* |$$$$$$$$$$$$$$$$$$$|========|$$$$$$$|
* +------------|------|--------|-------+
* trbe_base trbe_base + nr_pages
*
* 2) head < wakeup (aligned up with PAGE_SIZE) < tail and also both
* head and wakeup are within same PAGE size range.
*
* PAGE_SIZE
* |----------------------|
*
* limit head wakeup tail
* +----|------|-------|--------|-------+
* |$$$$$$$$$$$|=======|========|$$$$$$$|
* +----|------|-------|--------|-------+
* trbe_base trbe_base + nr_pages
*/
if (limit > head)
return limit;
trbe_pad_buf(handle, handle->size);
return 0;
}
static unsigned long trbe_normal_offset(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
u64 limit = __trbe_normal_offset(handle);
u64 head = PERF_IDX2OFF(handle->head, buf);
/*
* If the head is too close to the limit and we don't
* have space for a meaningful run, we rather pad it
* and start fresh.
*
* We might have to do this more than once to make sure
* we have enough required space.
*/
while (limit && ((limit - head) < trbe_min_trace_buf_size(handle))) {
trbe_pad_buf(handle, limit - head);
limit = __trbe_normal_offset(handle);
head = PERF_IDX2OFF(handle->head, buf);
}
return limit;
}
static unsigned long compute_trbe_buffer_limit(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
unsigned long offset;
if (buf->snapshot)
offset = trbe_snapshot_offset(handle);
else
offset = trbe_normal_offset(handle);
return buf->trbe_base + offset;
}
static void clr_trbe_status(void)
{
u64 trbsr = read_sysreg_s(SYS_TRBSR_EL1);
WARN_ON(is_trbe_enabled());
trbsr &= ~TRBSR_IRQ;
trbsr &= ~TRBSR_TRG;
trbsr &= ~TRBSR_WRAP;
trbsr &= ~(TRBSR_EC_MASK << TRBSR_EC_SHIFT);
trbsr &= ~(TRBSR_BSC_MASK << TRBSR_BSC_SHIFT);
trbsr &= ~TRBSR_STOP;
write_sysreg_s(trbsr, SYS_TRBSR_EL1);
}
static void set_trbe_limit_pointer_enabled(unsigned long addr)
{
u64 trblimitr = read_sysreg_s(SYS_TRBLIMITR_EL1);
WARN_ON(!IS_ALIGNED(addr, (1UL << TRBLIMITR_LIMIT_SHIFT)));
WARN_ON(!IS_ALIGNED(addr, PAGE_SIZE));
trblimitr &= ~TRBLIMITR_NVM;
trblimitr &= ~(TRBLIMITR_FILL_MODE_MASK << TRBLIMITR_FILL_MODE_SHIFT);
trblimitr &= ~(TRBLIMITR_TRIG_MODE_MASK << TRBLIMITR_TRIG_MODE_SHIFT);
trblimitr &= ~(TRBLIMITR_LIMIT_MASK << TRBLIMITR_LIMIT_SHIFT);
/*
* Fill trace buffer mode is used here while configuring the
* TRBE for trace capture. In this particular mode, the trace
* collection is stopped and a maintenance interrupt is raised
* when the current write pointer wraps. This pause in trace
* collection gives the software an opportunity to capture the
* trace data in the interrupt handler, before reconfiguring
* the TRBE.
*/
trblimitr |= (TRBE_FILL_MODE_FILL & TRBLIMITR_FILL_MODE_MASK) << TRBLIMITR_FILL_MODE_SHIFT;
/*
* Trigger mode is not used here while configuring the TRBE for
* the trace capture. Hence just keep this in the ignore mode.
*/
trblimitr |= (TRBE_TRIG_MODE_IGNORE & TRBLIMITR_TRIG_MODE_MASK) <<
TRBLIMITR_TRIG_MODE_SHIFT;
trblimitr |= (addr & PAGE_MASK);
trblimitr |= TRBLIMITR_ENABLE;
write_sysreg_s(trblimitr, SYS_TRBLIMITR_EL1);
/* Synchronize the TRBE enable event */
isb();
}
static void trbe_enable_hw(struct trbe_buf *buf)
{
WARN_ON(buf->trbe_hw_base < buf->trbe_base);
WARN_ON(buf->trbe_write < buf->trbe_hw_base);
WARN_ON(buf->trbe_write >= buf->trbe_limit);
set_trbe_disabled();
isb();
clr_trbe_status();
set_trbe_base_pointer(buf->trbe_hw_base);
set_trbe_write_pointer(buf->trbe_write);
/*
* Synchronize all the register updates
* till now before enabling the TRBE.
*/
isb();
set_trbe_limit_pointer_enabled(buf->trbe_limit);
}
static enum trbe_fault_action trbe_get_fault_act(struct perf_output_handle *handle,
u64 trbsr)
{
int ec = get_trbe_ec(trbsr);
int bsc = get_trbe_bsc(trbsr);
struct trbe_buf *buf = etm_perf_sink_config(handle);
struct trbe_cpudata *cpudata = buf->cpudata;
WARN_ON(is_trbe_running(trbsr));
if (is_trbe_trg(trbsr) || is_trbe_abort(trbsr))
return TRBE_FAULT_ACT_FATAL;
if ((ec == TRBE_EC_STAGE1_ABORT) || (ec == TRBE_EC_STAGE2_ABORT))
return TRBE_FAULT_ACT_FATAL;
/*
* If the trbe is affected by TRBE_WORKAROUND_OVERWRITE_FILL_MODE,
* it might write data after a WRAP event in the fill mode.
* Thus the check TRBPTR == TRBBASER will not be honored.
*/
if ((is_trbe_wrap(trbsr) && (ec == TRBE_EC_OTHERS) && (bsc == TRBE_BSC_FILLED)) &&
(trbe_may_overwrite_in_fill_mode(cpudata) ||
get_trbe_write_pointer() == get_trbe_base_pointer()))
return TRBE_FAULT_ACT_WRAP;
return TRBE_FAULT_ACT_SPURIOUS;
}
static unsigned long trbe_get_trace_size(struct perf_output_handle *handle,
struct trbe_buf *buf, bool wrap)
{
u64 write;
u64 start_off, end_off;
u64 size;
u64 overwrite_skip = TRBE_WORKAROUND_OVERWRITE_FILL_MODE_SKIP_BYTES;
/*
* If the TRBE has wrapped around the write pointer has
* wrapped and should be treated as limit.
*/
if (wrap)
write = get_trbe_limit_pointer();
else
write = get_trbe_write_pointer();
/*
* TRBE may use a different base address than the base
* of the ring buffer. Thus use the beginning of the ring
* buffer to compute the offsets.
*/
end_off = write - buf->trbe_base;
start_off = PERF_IDX2OFF(handle->head, buf);
if (WARN_ON_ONCE(end_off < start_off))
return 0;
size = end_off - start_off;
/*
* If the TRBE is affected by the following erratum, we must fill
* the space we skipped with IGNORE packets. And we are always
* guaranteed to have at least a PAGE_SIZE space in the buffer.
*/
if (trbe_has_erratum(buf->cpudata, TRBE_WORKAROUND_OVERWRITE_FILL_MODE) &&
!WARN_ON(size < overwrite_skip))
__trbe_pad_buf(buf, start_off, overwrite_skip);
return size;
}
static void *arm_trbe_alloc_buffer(struct coresight_device *csdev,
struct perf_event *event, void **pages,
int nr_pages, bool snapshot)
{
struct trbe_buf *buf;
struct page **pglist;
int i;
/*
* TRBE LIMIT and TRBE WRITE pointers must be page aligned. But with
* just a single page, there would not be any room left while writing
* into a partially filled TRBE buffer after the page size alignment.
* Hence restrict the minimum buffer size as two pages.
*/
if (nr_pages < 2)
return NULL;
buf = kzalloc_node(sizeof(*buf), GFP_KERNEL, trbe_alloc_node(event));
if (!buf)
return ERR_PTR(-ENOMEM);
pglist = kcalloc(nr_pages, sizeof(*pglist), GFP_KERNEL);
if (!pglist) {
kfree(buf);
return ERR_PTR(-ENOMEM);
}
for (i = 0; i < nr_pages; i++)
pglist[i] = virt_to_page(pages[i]);
buf->trbe_base = (unsigned long)vmap(pglist, nr_pages, VM_MAP, PAGE_KERNEL);
if (!buf->trbe_base) {
kfree(pglist);
kfree(buf);
return ERR_PTR(-ENOMEM);
}
buf->trbe_limit = buf->trbe_base + nr_pages * PAGE_SIZE;
buf->trbe_write = buf->trbe_base;
buf->snapshot = snapshot;
buf->nr_pages = nr_pages;
buf->pages = pages;
kfree(pglist);
return buf;
}
static void arm_trbe_free_buffer(void *config)
{
struct trbe_buf *buf = config;
vunmap((void *)buf->trbe_base);
kfree(buf);
}
static unsigned long arm_trbe_update_buffer(struct coresight_device *csdev,
struct perf_output_handle *handle,
void *config)
{
struct trbe_drvdata *drvdata = dev_get_drvdata(csdev->dev.parent);
struct trbe_cpudata *cpudata = dev_get_drvdata(&csdev->dev);
struct trbe_buf *buf = config;
enum trbe_fault_action act;
unsigned long size, status;
unsigned long flags;
bool wrap = false;
WARN_ON(buf->cpudata != cpudata);
WARN_ON(cpudata->cpu != smp_processor_id());
WARN_ON(cpudata->drvdata != drvdata);
if (cpudata->mode != CS_MODE_PERF)
return 0;
/*
* We are about to disable the TRBE. And this could in turn
* fill up the buffer triggering, an IRQ. This could be consumed
* by the PE asynchronously, causing a race here against
* the IRQ handler in closing out the handle. So, let us
* make sure the IRQ can't trigger while we are collecting
* the buffer. We also make sure that a WRAP event is handled
* accordingly.
*/
local_irq_save(flags);
/*
* If the TRBE was disabled due to lack of space in the AUX buffer or a
* spurious fault, the driver leaves it disabled, truncating the buffer.
* Since the etm_perf driver expects to close out the AUX buffer, the
* driver skips it. Thus, just pass in 0 size here to indicate that the
* buffer was truncated.
*/
if (!is_trbe_enabled()) {
size = 0;
goto done;
}
/*
* perf handle structure needs to be shared with the TRBE IRQ handler for
* capturing trace data and restarting the handle. There is a probability
* of an undefined reference based crash when etm event is being stopped
* while a TRBE IRQ also getting processed. This happens due the release
* of perf handle via perf_aux_output_end() in etm_event_stop(). Stopping
* the TRBE here will ensure that no IRQ could be generated when the perf
* handle gets freed in etm_event_stop().
*/
trbe_drain_and_disable_local();
/* Check if there is a pending interrupt and handle it here */
status = read_sysreg_s(SYS_TRBSR_EL1);
if (is_trbe_irq(status)) {
/*
* Now that we are handling the IRQ here, clear the IRQ
* from the status, to let the irq handler know that it
* is taken care of.
*/
clr_trbe_irq();
isb();
act = trbe_get_fault_act(handle, status);
/*
* If this was not due to a WRAP event, we have some
* errors and as such buffer is empty.
*/
if (act != TRBE_FAULT_ACT_WRAP) {
size = 0;
goto done;
}
trbe_report_wrap_event(handle);
wrap = true;
}
size = trbe_get_trace_size(handle, buf, wrap);
done:
local_irq_restore(flags);
if (buf->snapshot)
handle->head += size;
return size;
}
static int trbe_apply_work_around_before_enable(struct trbe_buf *buf)
{
/*
* TRBE_WORKAROUND_OVERWRITE_FILL_MODE causes the TRBE to overwrite a few cache
* line size from the "TRBBASER_EL1" in the event of a "FILL".
* Thus, we could loose some amount of the trace at the base.
*
* Before Fix:
*
* normal-BASE head (normal-TRBPTR) tail (normal-LIMIT)
* | \/ /
* -------------------------------------------------------------
* | Pg0 | Pg1 | | | PgN |
* -------------------------------------------------------------
*
* In the normal course of action, we would set the TRBBASER to the
* beginning of the ring-buffer (normal-BASE). But with the erratum,
* the TRBE could overwrite the contents at the "normal-BASE", after
* hitting the "normal-LIMIT", since it doesn't stop as expected. And
* this is wrong. This could result in overwriting trace collected in
* one of the previous runs, being consumed by the user. So we must
* always make sure that the TRBBASER is within the region
* [head, head+size]. Note that TRBBASER must be PAGE aligned,
*
* After moving the BASE:
*
* normal-BASE head (normal-TRBPTR) tail (normal-LIMIT)
* | \/ /
* -------------------------------------------------------------
* | | |xyzdef. |.. tuvw| |
* -------------------------------------------------------------
* /
* New-BASER
*
* Also, we would set the TRBPTR to head (after adjusting for
* alignment) at normal-PTR. This would mean that the last few bytes
* of the trace (say, "xyz") might overwrite the first few bytes of
* trace written ("abc"). More importantly they will appear in what
* userspace sees as the beginning of the trace, which is wrong. We may
* not always have space to move the latest trace "xyz" to the correct
* order as it must appear beyond the LIMIT. (i.e, [head..head+size]).
* Thus it is easier to ignore those bytes than to complicate the
* driver to move it, assuming that the erratum was triggered and
* doing additional checks to see if there is indeed allowed space at
* TRBLIMITR.LIMIT.
*
* Thus the full workaround will move the BASE and the PTR and would
* look like (after padding at the skipped bytes at the end of
* session) :
*
* normal-BASE head (normal-TRBPTR) tail (normal-LIMIT)
* | \/ /
* -------------------------------------------------------------
* | | |///abc.. |.. rst| |
* -------------------------------------------------------------
* / |
* New-BASER New-TRBPTR
*
* To summarize, with the work around:
*
* - We always align the offset for the next session to PAGE_SIZE
* (This is to ensure we can program the TRBBASER to this offset
* within the region [head...head+size]).
*
* - At TRBE enable:
* - Set the TRBBASER to the page aligned offset of the current
* proposed write offset. (which is guaranteed to be aligned
* as above)
* - Move the TRBPTR to skip first 256bytes (that might be
* overwritten with the erratum). This ensures that the trace
* generated in the session is not re-written.
*
* - At trace collection:
* - Pad the 256bytes skipped above again with IGNORE packets.
*/
if (trbe_has_erratum(buf->cpudata, TRBE_WORKAROUND_OVERWRITE_FILL_MODE)) {
if (WARN_ON(!IS_ALIGNED(buf->trbe_write, PAGE_SIZE)))
return -EINVAL;
buf->trbe_hw_base = buf->trbe_write;
buf->trbe_write += TRBE_WORKAROUND_OVERWRITE_FILL_MODE_SKIP_BYTES;
}
return 0;
}
static int __arm_trbe_enable(struct trbe_buf *buf,
struct perf_output_handle *handle)
{
int ret = 0;
perf_aux_output_flag(handle, PERF_AUX_FLAG_CORESIGHT_FORMAT_RAW);
buf->trbe_limit = compute_trbe_buffer_limit(handle);
buf->trbe_write = buf->trbe_base + PERF_IDX2OFF(handle->head, buf);
if (buf->trbe_limit == buf->trbe_base) {
ret = -ENOSPC;
goto err;
}
/* Set the base of the TRBE to the buffer base */
buf->trbe_hw_base = buf->trbe_base;
ret = trbe_apply_work_around_before_enable(buf);
if (ret)
goto err;
*this_cpu_ptr(buf->cpudata->drvdata->handle) = handle;
trbe_enable_hw(buf);
return 0;
err:
trbe_stop_and_truncate_event(handle);
return ret;
}
static int arm_trbe_enable(struct coresight_device *csdev, u32 mode, void *data)
{
struct trbe_drvdata *drvdata = dev_get_drvdata(csdev->dev.parent);
struct trbe_cpudata *cpudata = dev_get_drvdata(&csdev->dev);
struct perf_output_handle *handle = data;
struct trbe_buf *buf = etm_perf_sink_config(handle);
WARN_ON(cpudata->cpu != smp_processor_id());
WARN_ON(cpudata->drvdata != drvdata);
if (mode != CS_MODE_PERF)
return -EINVAL;
cpudata->buf = buf;
cpudata->mode = mode;
buf->cpudata = cpudata;
return __arm_trbe_enable(buf, handle);
}
static int arm_trbe_disable(struct coresight_device *csdev)
{
struct trbe_drvdata *drvdata = dev_get_drvdata(csdev->dev.parent);
struct trbe_cpudata *cpudata = dev_get_drvdata(&csdev->dev);
struct trbe_buf *buf = cpudata->buf;
WARN_ON(buf->cpudata != cpudata);
WARN_ON(cpudata->cpu != smp_processor_id());
WARN_ON(cpudata->drvdata != drvdata);
if (cpudata->mode != CS_MODE_PERF)
return -EINVAL;
trbe_drain_and_disable_local();
buf->cpudata = NULL;
cpudata->buf = NULL;
cpudata->mode = CS_MODE_DISABLED;
return 0;
}
static void trbe_handle_spurious(struct perf_output_handle *handle)
{
u64 limitr = read_sysreg_s(SYS_TRBLIMITR_EL1);
/*
* If the IRQ was spurious, simply re-enable the TRBE
* back without modifying the buffer parameters to
* retain the trace collected so far.
*/
limitr |= TRBLIMITR_ENABLE;
write_sysreg_s(limitr, SYS_TRBLIMITR_EL1);
isb();
}
static int trbe_handle_overflow(struct perf_output_handle *handle)
{
struct perf_event *event = handle->event;
struct trbe_buf *buf = etm_perf_sink_config(handle);
unsigned long size;
struct etm_event_data *event_data;
size = trbe_get_trace_size(handle, buf, true);
if (buf->snapshot)
handle->head += size;
trbe_report_wrap_event(handle);
perf_aux_output_end(handle, size);
event_data = perf_aux_output_begin(handle, event);
if (!event_data) {
/*
* We are unable to restart the trace collection,
* thus leave the TRBE disabled. The etm-perf driver
* is able to detect this with a disconnected handle
* (handle->event = NULL).
*/
trbe_drain_and_disable_local();
*this_cpu_ptr(buf->cpudata->drvdata->handle) = NULL;
return -EINVAL;
}
return __arm_trbe_enable(buf, handle);
}
static bool is_perf_trbe(struct perf_output_handle *handle)
{
struct trbe_buf *buf = etm_perf_sink_config(handle);
struct trbe_cpudata *cpudata = buf->cpudata;
struct trbe_drvdata *drvdata = cpudata->drvdata;
int cpu = smp_processor_id();
WARN_ON(buf->trbe_hw_base != get_trbe_base_pointer());
WARN_ON(buf->trbe_limit != get_trbe_limit_pointer());
if (cpudata->mode != CS_MODE_PERF)
return false;
if (cpudata->cpu != cpu)
return false;
if (!cpumask_test_cpu(cpu, &drvdata->supported_cpus))
return false;
return true;
}
static irqreturn_t arm_trbe_irq_handler(int irq, void *dev)
{
struct perf_output_handle **handle_ptr = dev;
struct perf_output_handle *handle = *handle_ptr;
enum trbe_fault_action act;
u64 status;
bool truncated = false;
u64 trfcr;
/* Reads to TRBSR_EL1 is fine when TRBE is active */
status = read_sysreg_s(SYS_TRBSR_EL1);
/*
* If the pending IRQ was handled by update_buffer callback
* we have nothing to do here.
*/
if (!is_trbe_irq(status))
return IRQ_NONE;
/* Prohibit the CPU from tracing before we disable the TRBE */
trfcr = cpu_prohibit_trace();
/*
* Ensure the trace is visible to the CPUs and
* any external aborts have been resolved.
*/
trbe_drain_and_disable_local();
clr_trbe_irq();
isb();
if (WARN_ON_ONCE(!handle) || !perf_get_aux(handle))
return IRQ_NONE;
if (!is_perf_trbe(handle))
return IRQ_NONE;
act = trbe_get_fault_act(handle, status);
switch (act) {
case TRBE_FAULT_ACT_WRAP:
truncated = !!trbe_handle_overflow(handle);
break;
case TRBE_FAULT_ACT_SPURIOUS:
trbe_handle_spurious(handle);
break;
case TRBE_FAULT_ACT_FATAL:
trbe_stop_and_truncate_event(handle);
truncated = true;
break;
}
/*
* If the buffer was truncated, ensure perf callbacks
* have completed, which will disable the event.
*
* Otherwise, restore the trace filter controls to
* allow the tracing.
*/
if (truncated)
irq_work_run();
else
write_trfcr(trfcr);
return IRQ_HANDLED;
}
static const struct coresight_ops_sink arm_trbe_sink_ops = {
.enable = arm_trbe_enable,
.disable = arm_trbe_disable,
.alloc_buffer = arm_trbe_alloc_buffer,
.free_buffer = arm_trbe_free_buffer,
.update_buffer = arm_trbe_update_buffer,
};
static const struct coresight_ops arm_trbe_cs_ops = {
.sink_ops = &arm_trbe_sink_ops,
};
static ssize_t align_show(struct device *dev, struct device_attribute *attr, char *buf)
{
struct trbe_cpudata *cpudata = dev_get_drvdata(dev);
return sprintf(buf, "%llx\n", cpudata->trbe_hw_align);
}
static DEVICE_ATTR_RO(align);
static ssize_t flag_show(struct device *dev, struct device_attribute *attr, char *buf)
{
struct trbe_cpudata *cpudata = dev_get_drvdata(dev);
return sprintf(buf, "%d\n", cpudata->trbe_flag);
}
static DEVICE_ATTR_RO(flag);
static struct attribute *arm_trbe_attrs[] = {
&dev_attr_align.attr,
&dev_attr_flag.attr,
NULL,
};
static const struct attribute_group arm_trbe_group = {
.attrs = arm_trbe_attrs,
};
static const struct attribute_group *arm_trbe_groups[] = {
&arm_trbe_group,
NULL,
};
static void arm_trbe_enable_cpu(void *info)
{
struct trbe_drvdata *drvdata = info;
trbe_reset_local();
enable_percpu_irq(drvdata->irq, IRQ_TYPE_NONE);
}
static void arm_trbe_register_coresight_cpu(struct trbe_drvdata *drvdata, int cpu)
{
struct trbe_cpudata *cpudata = per_cpu_ptr(drvdata->cpudata, cpu);
struct coresight_device *trbe_csdev = coresight_get_percpu_sink(cpu);
struct coresight_desc desc = { 0 };
struct device *dev;
if (WARN_ON(trbe_csdev))
return;
/* If the TRBE was not probed on the CPU, we shouldn't be here */
if (WARN_ON(!cpudata->drvdata))
return;
dev = &cpudata->drvdata->pdev->dev;
desc.name = devm_kasprintf(dev, GFP_KERNEL, "trbe%d", cpu);
if (!desc.name)
goto cpu_clear;
desc.type = CORESIGHT_DEV_TYPE_SINK;
desc.subtype.sink_subtype = CORESIGHT_DEV_SUBTYPE_SINK_PERCPU_SYSMEM;
desc.ops = &arm_trbe_cs_ops;
desc.pdata = dev_get_platdata(dev);
desc.groups = arm_trbe_groups;
desc.dev = dev;
trbe_csdev = coresight_register(&desc);
if (IS_ERR(trbe_csdev))
goto cpu_clear;
dev_set_drvdata(&trbe_csdev->dev, cpudata);
coresight_set_percpu_sink(cpu, trbe_csdev);
return;
cpu_clear:
cpumask_clear_cpu(cpu, &drvdata->supported_cpus);
}
/*
* Must be called with preemption disabled, for trbe_check_errata().
*/
static void arm_trbe_probe_cpu(void *info)
{
struct trbe_drvdata *drvdata = info;
int cpu = smp_processor_id();
struct trbe_cpudata *cpudata = per_cpu_ptr(drvdata->cpudata, cpu);
u64 trbidr;
if (WARN_ON(!cpudata))
goto cpu_clear;
if (!is_trbe_available()) {
pr_err("TRBE is not implemented on cpu %d\n", cpu);
goto cpu_clear;
}
trbidr = read_sysreg_s(SYS_TRBIDR_EL1);
if (!is_trbe_programmable(trbidr)) {
pr_err("TRBE is owned in higher exception level on cpu %d\n", cpu);
goto cpu_clear;
}
cpudata->trbe_hw_align = 1ULL << get_trbe_address_align(trbidr);
if (cpudata->trbe_hw_align > SZ_2K) {
pr_err("Unsupported alignment on cpu %d\n", cpu);
goto cpu_clear;
}
/*
* Run the TRBE erratum checks, now that we know
* this instance is about to be registered.
*/
trbe_check_errata(cpudata);
/*
* If the TRBE is affected by erratum TRBE_WORKAROUND_OVERWRITE_FILL_MODE,
* we must always program the TBRPTR_EL1, 256bytes from a page
* boundary, with TRBBASER_EL1 set to the page, to prevent
* TRBE over-writing 256bytes at TRBBASER_EL1 on FILL event.
*
* Thus make sure we always align our write pointer to a PAGE_SIZE,
* which also guarantees that we have at least a PAGE_SIZE space in
* the buffer (TRBLIMITR is PAGE aligned) and thus we can skip
* the required bytes at the base.
*/
if (trbe_may_overwrite_in_fill_mode(cpudata))
cpudata->trbe_align = PAGE_SIZE;
else
cpudata->trbe_align = cpudata->trbe_hw_align;
cpudata->trbe_flag = get_trbe_flag_update(trbidr);
cpudata->cpu = cpu;
cpudata->drvdata = drvdata;
return;
cpu_clear:
cpumask_clear_cpu(cpu, &drvdata->supported_cpus);
}
static void arm_trbe_remove_coresight_cpu(void *info)
{
int cpu = smp_processor_id();
struct trbe_drvdata *drvdata = info;
struct trbe_cpudata *cpudata = per_cpu_ptr(drvdata->cpudata, cpu);
struct coresight_device *trbe_csdev = coresight_get_percpu_sink(cpu);
disable_percpu_irq(drvdata->irq);
trbe_reset_local();
if (trbe_csdev) {
coresight_unregister(trbe_csdev);
cpudata->drvdata = NULL;
coresight_set_percpu_sink(cpu, NULL);
}
}
static int arm_trbe_probe_coresight(struct trbe_drvdata *drvdata)
{
int cpu;
drvdata->cpudata = alloc_percpu(typeof(*drvdata->cpudata));
if (!drvdata->cpudata)
return -ENOMEM;
for_each_cpu(cpu, &drvdata->supported_cpus) {
/* If we fail to probe the CPU, let us defer it to hotplug callbacks */
if (smp_call_function_single(cpu, arm_trbe_probe_cpu, drvdata, 1))
continue;
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus))
arm_trbe_register_coresight_cpu(drvdata, cpu);
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus))
smp_call_function_single(cpu, arm_trbe_enable_cpu, drvdata, 1);
}
return 0;
}
static int arm_trbe_remove_coresight(struct trbe_drvdata *drvdata)
{
int cpu;
for_each_cpu(cpu, &drvdata->supported_cpus)
smp_call_function_single(cpu, arm_trbe_remove_coresight_cpu, drvdata, 1);
free_percpu(drvdata->cpudata);
return 0;
}
static void arm_trbe_probe_hotplugged_cpu(struct trbe_drvdata *drvdata)
{
preempt_disable();
arm_trbe_probe_cpu(drvdata);
preempt_enable();
}
static int arm_trbe_cpu_startup(unsigned int cpu, struct hlist_node *node)
{
struct trbe_drvdata *drvdata = hlist_entry_safe(node, struct trbe_drvdata, hotplug_node);
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus)) {
/*
* If this CPU was not probed for TRBE,
* initialize it now.
*/
if (!coresight_get_percpu_sink(cpu)) {
arm_trbe_probe_hotplugged_cpu(drvdata);
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus))
arm_trbe_register_coresight_cpu(drvdata, cpu);
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus))
arm_trbe_enable_cpu(drvdata);
} else {
arm_trbe_enable_cpu(drvdata);
}
}
return 0;
}
static int arm_trbe_cpu_teardown(unsigned int cpu, struct hlist_node *node)
{
struct trbe_drvdata *drvdata = hlist_entry_safe(node, struct trbe_drvdata, hotplug_node);
if (cpumask_test_cpu(cpu, &drvdata->supported_cpus)) {
disable_percpu_irq(drvdata->irq);
trbe_reset_local();
}
return 0;
}
static int arm_trbe_probe_cpuhp(struct trbe_drvdata *drvdata)
{
enum cpuhp_state trbe_online;
int ret;
trbe_online = cpuhp_setup_state_multi(CPUHP_AP_ONLINE_DYN, DRVNAME,
arm_trbe_cpu_startup, arm_trbe_cpu_teardown);
if (trbe_online < 0)
return trbe_online;
ret = cpuhp_state_add_instance(trbe_online, &drvdata->hotplug_node);
if (ret) {
cpuhp_remove_multi_state(trbe_online);
return ret;
}
drvdata->trbe_online = trbe_online;
return 0;
}
static void arm_trbe_remove_cpuhp(struct trbe_drvdata *drvdata)
{
cpuhp_remove_multi_state(drvdata->trbe_online);
}
static int arm_trbe_probe_irq(struct platform_device *pdev,
struct trbe_drvdata *drvdata)
{
int ret;
drvdata->irq = platform_get_irq(pdev, 0);
if (drvdata->irq < 0) {
pr_err("IRQ not found for the platform device\n");
return drvdata->irq;
}
if (!irq_is_percpu(drvdata->irq)) {
pr_err("IRQ is not a PPI\n");
return -EINVAL;
}
if (irq_get_percpu_devid_partition(drvdata->irq, &drvdata->supported_cpus))
return -EINVAL;
drvdata->handle = alloc_percpu(struct perf_output_handle *);
if (!drvdata->handle)
return -ENOMEM;
ret = request_percpu_irq(drvdata->irq, arm_trbe_irq_handler, DRVNAME, drvdata->handle);
if (ret) {
free_percpu(drvdata->handle);
return ret;
}
return 0;
}
static void arm_trbe_remove_irq(struct trbe_drvdata *drvdata)
{
free_percpu_irq(drvdata->irq, drvdata->handle);
free_percpu(drvdata->handle);
}
static int arm_trbe_device_probe(struct platform_device *pdev)
{
struct coresight_platform_data *pdata;
struct trbe_drvdata *drvdata;
struct device *dev = &pdev->dev;
int ret;
drvdata = devm_kzalloc(dev, sizeof(*drvdata), GFP_KERNEL);
if (!drvdata)
return -ENOMEM;
pdata = coresight_get_platform_data(dev);
if (IS_ERR(pdata))
return PTR_ERR(pdata);
dev_set_drvdata(dev, drvdata);
dev->platform_data = pdata;
drvdata->pdev = pdev;
ret = arm_trbe_probe_irq(pdev, drvdata);
if (ret)
return ret;
ret = arm_trbe_probe_coresight(drvdata);
if (ret)
goto probe_failed;
ret = arm_trbe_probe_cpuhp(drvdata);
if (ret)
goto cpuhp_failed;
return 0;
cpuhp_failed:
arm_trbe_remove_coresight(drvdata);
probe_failed:
arm_trbe_remove_irq(drvdata);
return ret;
}
static int arm_trbe_device_remove(struct platform_device *pdev)
{
struct trbe_drvdata *drvdata = platform_get_drvdata(pdev);
arm_trbe_remove_cpuhp(drvdata);
arm_trbe_remove_coresight(drvdata);
arm_trbe_remove_irq(drvdata);
return 0;
}
static const struct of_device_id arm_trbe_of_match[] = {
{ .compatible = "arm,trace-buffer-extension"},
{},
};
MODULE_DEVICE_TABLE(of, arm_trbe_of_match);
static struct platform_driver arm_trbe_driver = {
.driver = {
.name = DRVNAME,
.of_match_table = of_match_ptr(arm_trbe_of_match),
.suppress_bind_attrs = true,
},
.probe = arm_trbe_device_probe,
.remove = arm_trbe_device_remove,
};
static int __init arm_trbe_init(void)
{
int ret;
if (arm64_kernel_unmapped_at_el0()) {
pr_err("TRBE wouldn't work if kernel gets unmapped at EL0\n");
return -EOPNOTSUPP;
}
ret = platform_driver_register(&arm_trbe_driver);
if (!ret)
return 0;
pr_err("Error registering %s platform driver\n", DRVNAME);
return ret;
}
static void __exit arm_trbe_exit(void)
{
platform_driver_unregister(&arm_trbe_driver);
}
module_init(arm_trbe_init);
module_exit(arm_trbe_exit);
MODULE_AUTHOR("Anshuman Khandual <anshuman.khandual@arm.com>");
MODULE_DESCRIPTION("Arm Trace Buffer Extension (TRBE) driver");
MODULE_LICENSE("GPL v2");
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