intel-pt.c 57.5 KB
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/*
 * intel_pt.c: Intel Processor Trace support
 * Copyright (c) 2013-2015, Intel Corporation.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 */

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#include <inttypes.h>
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#include <stdio.h>
#include <stdbool.h>
#include <errno.h>
#include <linux/kernel.h>
#include <linux/types.h>

#include "../perf.h"
#include "session.h"
#include "machine.h"
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#include "memswap.h"
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#include "sort.h"
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#include "tool.h"
#include "event.h"
#include "evlist.h"
#include "evsel.h"
#include "map.h"
#include "color.h"
#include "util.h"
#include "thread.h"
#include "thread-stack.h"
#include "symbol.h"
#include "callchain.h"
#include "dso.h"
#include "debug.h"
#include "auxtrace.h"
#include "tsc.h"
#include "intel-pt.h"
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#include "config.h"
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#include "intel-pt-decoder/intel-pt-log.h"
#include "intel-pt-decoder/intel-pt-decoder.h"
#include "intel-pt-decoder/intel-pt-insn-decoder.h"
#include "intel-pt-decoder/intel-pt-pkt-decoder.h"

#define MAX_TIMESTAMP (~0ULL)

struct intel_pt {
	struct auxtrace auxtrace;
	struct auxtrace_queues queues;
	struct auxtrace_heap heap;
	u32 auxtrace_type;
	struct perf_session *session;
	struct machine *machine;
	struct perf_evsel *switch_evsel;
	struct thread *unknown_thread;
	bool timeless_decoding;
	bool sampling_mode;
	bool snapshot_mode;
	bool per_cpu_mmaps;
	bool have_tsc;
	bool data_queued;
	bool est_tsc;
	bool sync_switch;
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	bool mispred_all;
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	int have_sched_switch;
	u32 pmu_type;
	u64 kernel_start;
	u64 switch_ip;
	u64 ptss_ip;

	struct perf_tsc_conversion tc;
	bool cap_user_time_zero;

	struct itrace_synth_opts synth_opts;

	bool sample_instructions;
	u64 instructions_sample_type;
	u64 instructions_id;

	bool sample_branches;
	u32 branches_filter;
	u64 branches_sample_type;
	u64 branches_id;

	bool sample_transactions;
	u64 transactions_sample_type;
	u64 transactions_id;

	bool synth_needs_swap;

	u64 tsc_bit;
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	u64 mtc_bit;
	u64 mtc_freq_bits;
	u32 tsc_ctc_ratio_n;
	u32 tsc_ctc_ratio_d;
	u64 cyc_bit;
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	u64 noretcomp_bit;
	unsigned max_non_turbo_ratio;
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	unsigned long num_events;
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	char *filter;
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	struct addr_filters filts;
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};

enum switch_state {
	INTEL_PT_SS_NOT_TRACING,
	INTEL_PT_SS_UNKNOWN,
	INTEL_PT_SS_TRACING,
	INTEL_PT_SS_EXPECTING_SWITCH_EVENT,
	INTEL_PT_SS_EXPECTING_SWITCH_IP,
};

struct intel_pt_queue {
	struct intel_pt *pt;
	unsigned int queue_nr;
	struct auxtrace_buffer *buffer;
	void *decoder;
	const struct intel_pt_state *state;
	struct ip_callchain *chain;
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	struct branch_stack *last_branch;
	struct branch_stack *last_branch_rb;
	size_t last_branch_pos;
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	union perf_event *event_buf;
	bool on_heap;
	bool stop;
	bool step_through_buffers;
	bool use_buffer_pid_tid;
	pid_t pid, tid;
	int cpu;
	int switch_state;
	pid_t next_tid;
	struct thread *thread;
	bool exclude_kernel;
	bool have_sample;
	u64 time;
	u64 timestamp;
	u32 flags;
	u16 insn_len;
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	u64 last_insn_cnt;
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	char insn[INTEL_PT_INSN_BUF_SZ];
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};

static void intel_pt_dump(struct intel_pt *pt __maybe_unused,
			  unsigned char *buf, size_t len)
{
	struct intel_pt_pkt packet;
	size_t pos = 0;
	int ret, pkt_len, i;
	char desc[INTEL_PT_PKT_DESC_MAX];
	const char *color = PERF_COLOR_BLUE;

	color_fprintf(stdout, color,
		      ". ... Intel Processor Trace data: size %zu bytes\n",
		      len);

	while (len) {
		ret = intel_pt_get_packet(buf, len, &packet);
		if (ret > 0)
			pkt_len = ret;
		else
			pkt_len = 1;
		printf(".");
		color_fprintf(stdout, color, "  %08x: ", pos);
		for (i = 0; i < pkt_len; i++)
			color_fprintf(stdout, color, " %02x", buf[i]);
		for (; i < 16; i++)
			color_fprintf(stdout, color, "   ");
		if (ret > 0) {
			ret = intel_pt_pkt_desc(&packet, desc,
						INTEL_PT_PKT_DESC_MAX);
			if (ret > 0)
				color_fprintf(stdout, color, " %s\n", desc);
		} else {
			color_fprintf(stdout, color, " Bad packet!\n");
		}
		pos += pkt_len;
		buf += pkt_len;
		len -= pkt_len;
	}
}

static void intel_pt_dump_event(struct intel_pt *pt, unsigned char *buf,
				size_t len)
{
	printf(".\n");
	intel_pt_dump(pt, buf, len);
}

static int intel_pt_do_fix_overlap(struct intel_pt *pt, struct auxtrace_buffer *a,
				   struct auxtrace_buffer *b)
{
	void *start;

	start = intel_pt_find_overlap(a->data, a->size, b->data, b->size,
				      pt->have_tsc);
	if (!start)
		return -EINVAL;
	b->use_size = b->data + b->size - start;
	b->use_data = start;
	return 0;
}

static void intel_pt_use_buffer_pid_tid(struct intel_pt_queue *ptq,
					struct auxtrace_queue *queue,
					struct auxtrace_buffer *buffer)
{
	if (queue->cpu == -1 && buffer->cpu != -1)
		ptq->cpu = buffer->cpu;

	ptq->pid = buffer->pid;
	ptq->tid = buffer->tid;

	intel_pt_log("queue %u cpu %d pid %d tid %d\n",
		     ptq->queue_nr, ptq->cpu, ptq->pid, ptq->tid);

	thread__zput(ptq->thread);

	if (ptq->tid != -1) {
		if (ptq->pid != -1)
			ptq->thread = machine__findnew_thread(ptq->pt->machine,
							      ptq->pid,
							      ptq->tid);
		else
			ptq->thread = machine__find_thread(ptq->pt->machine, -1,
							   ptq->tid);
	}
}

/* This function assumes data is processed sequentially only */
static int intel_pt_get_trace(struct intel_pt_buffer *b, void *data)
{
	struct intel_pt_queue *ptq = data;
	struct auxtrace_buffer *buffer = ptq->buffer, *old_buffer = buffer;
	struct auxtrace_queue *queue;

	if (ptq->stop) {
		b->len = 0;
		return 0;
	}

	queue = &ptq->pt->queues.queue_array[ptq->queue_nr];
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	buffer = auxtrace_buffer__next(queue, buffer);
	if (!buffer) {
		if (old_buffer)
			auxtrace_buffer__drop_data(old_buffer);
		b->len = 0;
		return 0;
	}

	ptq->buffer = buffer;

	if (!buffer->data) {
		int fd = perf_data_file__fd(ptq->pt->session->file);

		buffer->data = auxtrace_buffer__get_data(buffer, fd);
		if (!buffer->data)
			return -ENOMEM;
	}

	if (ptq->pt->snapshot_mode && !buffer->consecutive && old_buffer &&
	    intel_pt_do_fix_overlap(ptq->pt, old_buffer, buffer))
		return -ENOMEM;

	if (buffer->use_data) {
		b->len = buffer->use_size;
		b->buf = buffer->use_data;
	} else {
		b->len = buffer->size;
		b->buf = buffer->data;
	}
	b->ref_timestamp = buffer->reference;

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	/*
	 * If in snapshot mode and the buffer has no usable data, get next
	 * buffer and again check overlap against old_buffer.
	 */
	if (ptq->pt->snapshot_mode && !b->len)
		goto next;

	if (old_buffer)
		auxtrace_buffer__drop_data(old_buffer);

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	if (!old_buffer || ptq->pt->sampling_mode || (ptq->pt->snapshot_mode &&
						      !buffer->consecutive)) {
		b->consecutive = false;
		b->trace_nr = buffer->buffer_nr + 1;
	} else {
		b->consecutive = true;
	}

	if (ptq->use_buffer_pid_tid && (ptq->pid != buffer->pid ||
					ptq->tid != buffer->tid))
		intel_pt_use_buffer_pid_tid(ptq, queue, buffer);

	if (ptq->step_through_buffers)
		ptq->stop = true;

	if (!b->len)
		return intel_pt_get_trace(b, data);

	return 0;
}

struct intel_pt_cache_entry {
	struct auxtrace_cache_entry	entry;
	u64				insn_cnt;
	u64				byte_cnt;
	enum intel_pt_insn_op		op;
	enum intel_pt_insn_branch	branch;
	int				length;
	int32_t				rel;
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	char				insn[INTEL_PT_INSN_BUF_SZ];
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};

static int intel_pt_config_div(const char *var, const char *value, void *data)
{
	int *d = data;
	long val;

	if (!strcmp(var, "intel-pt.cache-divisor")) {
		val = strtol(value, NULL, 0);
		if (val > 0 && val <= INT_MAX)
			*d = val;
	}

	return 0;
}

static int intel_pt_cache_divisor(void)
{
	static int d;

	if (d)
		return d;

	perf_config(intel_pt_config_div, &d);

	if (!d)
		d = 64;

	return d;
}

static unsigned int intel_pt_cache_size(struct dso *dso,
					struct machine *machine)
{
	off_t size;

	size = dso__data_size(dso, machine);
	size /= intel_pt_cache_divisor();
	if (size < 1000)
		return 10;
	if (size > (1 << 21))
		return 21;
	return 32 - __builtin_clz(size);
}

static struct auxtrace_cache *intel_pt_cache(struct dso *dso,
					     struct machine *machine)
{
	struct auxtrace_cache *c;
	unsigned int bits;

	if (dso->auxtrace_cache)
		return dso->auxtrace_cache;

	bits = intel_pt_cache_size(dso, machine);

	/* Ignoring cache creation failure */
	c = auxtrace_cache__new(bits, sizeof(struct intel_pt_cache_entry), 200);

	dso->auxtrace_cache = c;

	return c;
}

static int intel_pt_cache_add(struct dso *dso, struct machine *machine,
			      u64 offset, u64 insn_cnt, u64 byte_cnt,
			      struct intel_pt_insn *intel_pt_insn)
{
	struct auxtrace_cache *c = intel_pt_cache(dso, machine);
	struct intel_pt_cache_entry *e;
	int err;

	if (!c)
		return -ENOMEM;

	e = auxtrace_cache__alloc_entry(c);
	if (!e)
		return -ENOMEM;

	e->insn_cnt = insn_cnt;
	e->byte_cnt = byte_cnt;
	e->op = intel_pt_insn->op;
	e->branch = intel_pt_insn->branch;
	e->length = intel_pt_insn->length;
	e->rel = intel_pt_insn->rel;
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	memcpy(e->insn, intel_pt_insn->buf, INTEL_PT_INSN_BUF_SZ);
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	err = auxtrace_cache__add(c, offset, &e->entry);
	if (err)
		auxtrace_cache__free_entry(c, e);

	return err;
}

static struct intel_pt_cache_entry *
intel_pt_cache_lookup(struct dso *dso, struct machine *machine, u64 offset)
{
	struct auxtrace_cache *c = intel_pt_cache(dso, machine);

	if (!c)
		return NULL;

	return auxtrace_cache__lookup(dso->auxtrace_cache, offset);
}

static int intel_pt_walk_next_insn(struct intel_pt_insn *intel_pt_insn,
				   uint64_t *insn_cnt_ptr, uint64_t *ip,
				   uint64_t to_ip, uint64_t max_insn_cnt,
				   void *data)
{
	struct intel_pt_queue *ptq = data;
	struct machine *machine = ptq->pt->machine;
	struct thread *thread;
	struct addr_location al;
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	unsigned char buf[INTEL_PT_INSN_BUF_SZ];
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	ssize_t len;
	int x86_64;
	u8 cpumode;
	u64 offset, start_offset, start_ip;
	u64 insn_cnt = 0;
	bool one_map = true;

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	intel_pt_insn->length = 0;

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	if (to_ip && *ip == to_ip)
		goto out_no_cache;

	if (*ip >= ptq->pt->kernel_start)
		cpumode = PERF_RECORD_MISC_KERNEL;
	else
		cpumode = PERF_RECORD_MISC_USER;

	thread = ptq->thread;
	if (!thread) {
		if (cpumode != PERF_RECORD_MISC_KERNEL)
			return -EINVAL;
		thread = ptq->pt->unknown_thread;
	}

	while (1) {
		thread__find_addr_map(thread, cpumode, MAP__FUNCTION, *ip, &al);
		if (!al.map || !al.map->dso)
			return -EINVAL;

		if (al.map->dso->data.status == DSO_DATA_STATUS_ERROR &&
		    dso__data_status_seen(al.map->dso,
					  DSO_DATA_STATUS_SEEN_ITRACE))
			return -ENOENT;

		offset = al.map->map_ip(al.map, *ip);

		if (!to_ip && one_map) {
			struct intel_pt_cache_entry *e;

			e = intel_pt_cache_lookup(al.map->dso, machine, offset);
			if (e &&
			    (!max_insn_cnt || e->insn_cnt <= max_insn_cnt)) {
				*insn_cnt_ptr = e->insn_cnt;
				*ip += e->byte_cnt;
				intel_pt_insn->op = e->op;
				intel_pt_insn->branch = e->branch;
				intel_pt_insn->length = e->length;
				intel_pt_insn->rel = e->rel;
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				memcpy(intel_pt_insn->buf, e->insn,
				       INTEL_PT_INSN_BUF_SZ);
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				intel_pt_log_insn_no_data(intel_pt_insn, *ip);
				return 0;
			}
		}

		start_offset = offset;
		start_ip = *ip;

		/* Load maps to ensure dso->is_64_bit has been updated */
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		map__load(al.map);
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		x86_64 = al.map->dso->is_64_bit;

		while (1) {
			len = dso__data_read_offset(al.map->dso, machine,
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						    offset, buf,
						    INTEL_PT_INSN_BUF_SZ);
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			if (len <= 0)
				return -EINVAL;

			if (intel_pt_get_insn(buf, len, x86_64, intel_pt_insn))
				return -EINVAL;

			intel_pt_log_insn(intel_pt_insn, *ip);

			insn_cnt += 1;

			if (intel_pt_insn->branch != INTEL_PT_BR_NO_BRANCH)
				goto out;

			if (max_insn_cnt && insn_cnt >= max_insn_cnt)
				goto out_no_cache;

			*ip += intel_pt_insn->length;

			if (to_ip && *ip == to_ip)
				goto out_no_cache;

			if (*ip >= al.map->end)
				break;

			offset += intel_pt_insn->length;
		}
		one_map = false;
	}
out:
	*insn_cnt_ptr = insn_cnt;

	if (!one_map)
		goto out_no_cache;

	/*
	 * Didn't lookup in the 'to_ip' case, so do it now to prevent duplicate
	 * entries.
	 */
	if (to_ip) {
		struct intel_pt_cache_entry *e;

		e = intel_pt_cache_lookup(al.map->dso, machine, start_offset);
		if (e)
			return 0;
	}

	/* Ignore cache errors */
	intel_pt_cache_add(al.map->dso, machine, start_offset, insn_cnt,
			   *ip - start_ip, intel_pt_insn);

	return 0;

out_no_cache:
	*insn_cnt_ptr = insn_cnt;
	return 0;
}

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static bool intel_pt_match_pgd_ip(struct intel_pt *pt, uint64_t ip,
				  uint64_t offset, const char *filename)
{
	struct addr_filter *filt;
	bool have_filter   = false;
	bool hit_tracestop = false;
	bool hit_filter    = false;

	list_for_each_entry(filt, &pt->filts.head, list) {
		if (filt->start)
			have_filter = true;

		if ((filename && !filt->filename) ||
		    (!filename && filt->filename) ||
		    (filename && strcmp(filename, filt->filename)))
			continue;

		if (!(offset >= filt->addr && offset < filt->addr + filt->size))
			continue;

		intel_pt_log("TIP.PGD ip %#"PRIx64" offset %#"PRIx64" in %s hit filter: %s offset %#"PRIx64" size %#"PRIx64"\n",
			     ip, offset, filename ? filename : "[kernel]",
			     filt->start ? "filter" : "stop",
			     filt->addr, filt->size);

		if (filt->start)
			hit_filter = true;
		else
			hit_tracestop = true;
	}

	if (!hit_tracestop && !hit_filter)
		intel_pt_log("TIP.PGD ip %#"PRIx64" offset %#"PRIx64" in %s is not in a filter region\n",
			     ip, offset, filename ? filename : "[kernel]");

	return hit_tracestop || (have_filter && !hit_filter);
}

static int __intel_pt_pgd_ip(uint64_t ip, void *data)
{
	struct intel_pt_queue *ptq = data;
	struct thread *thread;
	struct addr_location al;
	u8 cpumode;
	u64 offset;

	if (ip >= ptq->pt->kernel_start)
		return intel_pt_match_pgd_ip(ptq->pt, ip, ip, NULL);

	cpumode = PERF_RECORD_MISC_USER;

	thread = ptq->thread;
	if (!thread)
		return -EINVAL;

	thread__find_addr_map(thread, cpumode, MAP__FUNCTION, ip, &al);
	if (!al.map || !al.map->dso)
		return -EINVAL;

	offset = al.map->map_ip(al.map, ip);

	return intel_pt_match_pgd_ip(ptq->pt, ip, offset,
				     al.map->dso->long_name);
}

static bool intel_pt_pgd_ip(uint64_t ip, void *data)
{
	return __intel_pt_pgd_ip(ip, data) > 0;
}

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static bool intel_pt_get_config(struct intel_pt *pt,
				struct perf_event_attr *attr, u64 *config)
{
	if (attr->type == pt->pmu_type) {
		if (config)
			*config = attr->config;
		return true;
	}

	return false;
}

static bool intel_pt_exclude_kernel(struct intel_pt *pt)
{
	struct perf_evsel *evsel;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (intel_pt_get_config(pt, &evsel->attr, NULL) &&
		    !evsel->attr.exclude_kernel)
			return false;
	}
	return true;
}

static bool intel_pt_return_compression(struct intel_pt *pt)
{
	struct perf_evsel *evsel;
	u64 config;

	if (!pt->noretcomp_bit)
		return true;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (intel_pt_get_config(pt, &evsel->attr, &config) &&
		    (config & pt->noretcomp_bit))
			return false;
	}
	return true;
}

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static bool intel_pt_branch_enable(struct intel_pt *pt)
{
	struct perf_evsel *evsel;
	u64 config;

	evlist__for_each_entry(pt->session->evlist, evsel) {
		if (intel_pt_get_config(pt, &evsel->attr, &config) &&
		    (config & 1) && !(config & 0x2000))
			return false;
	}
	return true;
}

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static unsigned int intel_pt_mtc_period(struct intel_pt *pt)
{
	struct perf_evsel *evsel;
	unsigned int shift;
	u64 config;

	if (!pt->mtc_freq_bits)
		return 0;

	for (shift = 0, config = pt->mtc_freq_bits; !(config & 1); shift++)
		config >>= 1;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (intel_pt_get_config(pt, &evsel->attr, &config))
			return (config & pt->mtc_freq_bits) >> shift;
	}
	return 0;
}

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static bool intel_pt_timeless_decoding(struct intel_pt *pt)
{
	struct perf_evsel *evsel;
	bool timeless_decoding = true;
	u64 config;

	if (!pt->tsc_bit || !pt->cap_user_time_zero)
		return true;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (!(evsel->attr.sample_type & PERF_SAMPLE_TIME))
			return true;
		if (intel_pt_get_config(pt, &evsel->attr, &config)) {
			if (config & pt->tsc_bit)
				timeless_decoding = false;
			else
				return true;
		}
	}
	return timeless_decoding;
}

static bool intel_pt_tracing_kernel(struct intel_pt *pt)
{
	struct perf_evsel *evsel;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (intel_pt_get_config(pt, &evsel->attr, NULL) &&
		    !evsel->attr.exclude_kernel)
			return true;
	}
	return false;
}

static bool intel_pt_have_tsc(struct intel_pt *pt)
{
	struct perf_evsel *evsel;
	bool have_tsc = false;
	u64 config;

	if (!pt->tsc_bit)
		return false;

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	evlist__for_each_entry(pt->session->evlist, evsel) {
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		if (intel_pt_get_config(pt, &evsel->attr, &config)) {
			if (config & pt->tsc_bit)
				have_tsc = true;
			else
				return false;
		}
	}
	return have_tsc;
}

static u64 intel_pt_ns_to_ticks(const struct intel_pt *pt, u64 ns)
{
	u64 quot, rem;

	quot = ns / pt->tc.time_mult;
	rem  = ns % pt->tc.time_mult;
	return (quot << pt->tc.time_shift) + (rem << pt->tc.time_shift) /
		pt->tc.time_mult;
}

static struct intel_pt_queue *intel_pt_alloc_queue(struct intel_pt *pt,
						   unsigned int queue_nr)
{
	struct intel_pt_params params = { .get_trace = 0, };
	struct intel_pt_queue *ptq;

	ptq = zalloc(sizeof(struct intel_pt_queue));
	if (!ptq)
		return NULL;

	if (pt->synth_opts.callchain) {
		size_t sz = sizeof(struct ip_callchain);

		sz += pt->synth_opts.callchain_sz * sizeof(u64);
		ptq->chain = zalloc(sz);
		if (!ptq->chain)
			goto out_free;
	}

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	if (pt->synth_opts.last_branch) {
		size_t sz = sizeof(struct branch_stack);

		sz += pt->synth_opts.last_branch_sz *
		      sizeof(struct branch_entry);
		ptq->last_branch = zalloc(sz);
		if (!ptq->last_branch)
			goto out_free;
		ptq->last_branch_rb = zalloc(sz);
		if (!ptq->last_branch_rb)
			goto out_free;
	}

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	ptq->event_buf = malloc(PERF_SAMPLE_MAX_SIZE);
	if (!ptq->event_buf)
		goto out_free;

	ptq->pt = pt;
	ptq->queue_nr = queue_nr;
	ptq->exclude_kernel = intel_pt_exclude_kernel(pt);
	ptq->pid = -1;
	ptq->tid = -1;
	ptq->cpu = -1;
	ptq->next_tid = -1;

	params.get_trace = intel_pt_get_trace;
	params.walk_insn = intel_pt_walk_next_insn;
	params.data = ptq;
	params.return_compression = intel_pt_return_compression(pt);
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	params.branch_enable = intel_pt_branch_enable(pt);
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	params.max_non_turbo_ratio = pt->max_non_turbo_ratio;
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	params.mtc_period = intel_pt_mtc_period(pt);
	params.tsc_ctc_ratio_n = pt->tsc_ctc_ratio_n;
	params.tsc_ctc_ratio_d = pt->tsc_ctc_ratio_d;
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	if (pt->filts.cnt > 0)
		params.pgd_ip = intel_pt_pgd_ip;

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	if (pt->synth_opts.instructions) {
		if (pt->synth_opts.period) {
			switch (pt->synth_opts.period_type) {
			case PERF_ITRACE_PERIOD_INSTRUCTIONS:
				params.period_type =
						INTEL_PT_PERIOD_INSTRUCTIONS;
				params.period = pt->synth_opts.period;
				break;
			case PERF_ITRACE_PERIOD_TICKS:
				params.period_type = INTEL_PT_PERIOD_TICKS;
				params.period = pt->synth_opts.period;
				break;
			case PERF_ITRACE_PERIOD_NANOSECS:
				params.period_type = INTEL_PT_PERIOD_TICKS;
				params.period = intel_pt_ns_to_ticks(pt,
							pt->synth_opts.period);
				break;
			default:
				break;
			}
		}

		if (!params.period) {
			params.period_type = INTEL_PT_PERIOD_INSTRUCTIONS;
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			params.period = 1;
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		}
	}

	ptq->decoder = intel_pt_decoder_new(&params);
	if (!ptq->decoder)
		goto out_free;

	return ptq;

out_free:
	zfree(&ptq->event_buf);
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	zfree(&ptq->last_branch);
	zfree(&ptq->last_branch_rb);
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	zfree(&ptq->chain);
	free(ptq);
	return NULL;
}

static void intel_pt_free_queue(void *priv)
{
	struct intel_pt_queue *ptq = priv;

	if (!ptq)
		return;
	thread__zput(ptq->thread);
	intel_pt_decoder_free(ptq->decoder);
	zfree(&ptq->event_buf);
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	zfree(&ptq->last_branch);
	zfree(&ptq->last_branch_rb);
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	zfree(&ptq->chain);
	free(ptq);
}

static void intel_pt_set_pid_tid_cpu(struct intel_pt *pt,
				     struct auxtrace_queue *queue)
{
	struct intel_pt_queue *ptq = queue->priv;

	if (queue->tid == -1 || pt->have_sched_switch) {
		ptq->tid = machine__get_current_tid(pt->machine, ptq->cpu);
		thread__zput(ptq->thread);
	}

	if (!ptq->thread && ptq->tid != -1)
		ptq->thread = machine__find_thread(pt->machine, -1, ptq->tid);

	if (ptq->thread) {
		ptq->pid = ptq->thread->pid_;
		if (queue->cpu == -1)
			ptq->cpu = ptq->thread->cpu;
	}
}

static void intel_pt_sample_flags(struct intel_pt_queue *ptq)
{
	if (ptq->state->flags & INTEL_PT_ABORT_TX) {
		ptq->flags = PERF_IP_FLAG_BRANCH | PERF_IP_FLAG_TX_ABORT;
	} else if (ptq->state->flags & INTEL_PT_ASYNC) {
		if (ptq->state->to_ip)
			ptq->flags = PERF_IP_FLAG_BRANCH | PERF_IP_FLAG_CALL |
				     PERF_IP_FLAG_ASYNC |
				     PERF_IP_FLAG_INTERRUPT;
		else
			ptq->flags = PERF_IP_FLAG_BRANCH |
				     PERF_IP_FLAG_TRACE_END;
		ptq->insn_len = 0;
	} else {
		if (ptq->state->from_ip)
			ptq->flags = intel_pt_insn_type(ptq->state->insn_op);
		else
			ptq->flags = PERF_IP_FLAG_BRANCH |
				     PERF_IP_FLAG_TRACE_BEGIN;
		if (ptq->state->flags & INTEL_PT_IN_TX)
			ptq->flags |= PERF_IP_FLAG_IN_TX;
		ptq->insn_len = ptq->state->insn_len;
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		memcpy(ptq->insn, ptq->state->insn, INTEL_PT_INSN_BUF_SZ);
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	}
}

static int intel_pt_setup_queue(struct intel_pt *pt,
				struct auxtrace_queue *queue,
				unsigned int queue_nr)
{
	struct intel_pt_queue *ptq = queue->priv;

	if (list_empty(&queue->head))
		return 0;

	if (!ptq) {
		ptq = intel_pt_alloc_queue(pt, queue_nr);
		if (!ptq)
			return -ENOMEM;
		queue->priv = ptq;

		if (queue->cpu != -1)
			ptq->cpu = queue->cpu;
		ptq->tid = queue->tid;

		if (pt->sampling_mode) {
			if (pt->timeless_decoding)
				ptq->step_through_buffers = true;
			if (pt->timeless_decoding || !pt->have_sched_switch)
				ptq->use_buffer_pid_tid = true;
		}
	}

	if (!ptq->on_heap &&
	    (!pt->sync_switch ||
	     ptq->switch_state != INTEL_PT_SS_EXPECTING_SWITCH_EVENT)) {
		const struct intel_pt_state *state;
		int ret;

		if (pt->timeless_decoding)
			return 0;

		intel_pt_log("queue %u getting timestamp\n", queue_nr);
		intel_pt_log("queue %u decoding cpu %d pid %d tid %d\n",
			     queue_nr, ptq->cpu, ptq->pid, ptq->tid);
		while (1) {
			state = intel_pt_decode(ptq->decoder);
			if (state->err) {
				if (state->err == INTEL_PT_ERR_NODATA) {
					intel_pt_log("queue %u has no timestamp\n",
						     queue_nr);
					return 0;
				}
				continue;
			}
			if (state->timestamp)
				break;
		}

		ptq->timestamp = state->timestamp;
		intel_pt_log("queue %u timestamp 0x%" PRIx64 "\n",
			     queue_nr, ptq->timestamp);
		ptq->state = state;
		ptq->have_sample = true;
		intel_pt_sample_flags(ptq);
		ret = auxtrace_heap__add(&pt->heap, queue_nr, ptq->timestamp);
		if (ret)
			return ret;
		ptq->on_heap = true;
	}

	return 0;
}

static int intel_pt_setup_queues(struct intel_pt *pt)
{
	unsigned int i;
	int ret;

	for (i = 0; i < pt->queues.nr_queues; i++) {
		ret = intel_pt_setup_queue(pt, &pt->queues.queue_array[i], i);
		if (ret)
			return ret;
	}
	return 0;
}

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static inline void intel_pt_copy_last_branch_rb(struct intel_pt_queue *ptq)
{
	struct branch_stack *bs_src = ptq->last_branch_rb;
	struct branch_stack *bs_dst = ptq->last_branch;
	size_t nr = 0;

	bs_dst->nr = bs_src->nr;

	if (!bs_src->nr)
		return;

	nr = ptq->pt->synth_opts.last_branch_sz - ptq->last_branch_pos;
	memcpy(&bs_dst->entries[0],
	       &bs_src->entries[ptq->last_branch_pos],
	       sizeof(struct branch_entry) * nr);

	if (bs_src->nr >= ptq->pt->synth_opts.last_branch_sz) {
		memcpy(&bs_dst->entries[nr],
		       &bs_src->entries[0],
		       sizeof(struct branch_entry) * ptq->last_branch_pos);
	}
}

static inline void intel_pt_reset_last_branch_rb(struct intel_pt_queue *ptq)
{
	ptq->last_branch_pos = 0;
	ptq->last_branch_rb->nr = 0;
}

static void intel_pt_update_last_branch_rb(struct intel_pt_queue *ptq)
{
	const struct intel_pt_state *state = ptq->state;
	struct branch_stack *bs = ptq->last_branch_rb;
	struct branch_entry *be;

	if (!ptq->last_branch_pos)
		ptq->last_branch_pos = ptq->pt->synth_opts.last_branch_sz;

	ptq->last_branch_pos -= 1;

	be              = &bs->entries[ptq->last_branch_pos];
	be->from        = state->from_ip;
	be->to          = state->to_ip;
	be->flags.abort = !!(state->flags & INTEL_PT_ABORT_TX);
	be->flags.in_tx = !!(state->flags & INTEL_PT_IN_TX);
	/* No support for mispredict */
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	be->flags.mispred = ptq->pt->mispred_all;
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	if (bs->nr < ptq->pt->synth_opts.last_branch_sz)
		bs->nr += 1;
}

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static inline bool intel_pt_skip_event(struct intel_pt *pt)
{
	return pt->synth_opts.initial_skip &&
	       pt->num_events++ < pt->synth_opts.initial_skip;
}

static void intel_pt_prep_b_sample(struct intel_pt *pt,
				   struct intel_pt_queue *ptq,
				   union perf_event *event,
				   struct perf_sample *sample)
{
	event->sample.header.type = PERF_RECORD_SAMPLE;
	event->sample.header.misc = PERF_RECORD_MISC_USER;
	event->sample.header.size = sizeof(struct perf_event_header);

	if (!pt->timeless_decoding)
		sample->time = tsc_to_perf_time(ptq->timestamp, &pt->tc);

	sample->cpumode = PERF_RECORD_MISC_USER;
	sample->ip = ptq->state->from_ip;
	sample->pid = ptq->pid;
	sample->tid = ptq->tid;
	sample->addr = ptq->state->to_ip;
	sample->period = 1;
	sample->cpu = ptq->cpu;
	sample->flags = ptq->flags;
	sample->insn_len = ptq->insn_len;
	memcpy(sample->insn, ptq->insn, INTEL_PT_INSN_BUF_SZ);
}

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static int intel_pt_inject_event(union perf_event *event,
				 struct perf_sample *sample, u64 type,
				 bool swapped)
{
	event->header.size = perf_event__sample_event_size(sample, type, 0);
	return perf_event__synthesize_sample(event, type, 0, sample, swapped);
}

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static inline int intel_pt_opt_inject(struct intel_pt *pt,
				      union perf_event *event,
				      struct perf_sample *sample, u64 type)
{
	if (!pt->synth_opts.inject)
		return 0;

	return intel_pt_inject_event(event, sample, type, pt->synth_needs_swap);
}

static int intel_pt_deliver_synth_b_event(struct intel_pt *pt,
					  union perf_event *event,
					  struct perf_sample *sample, u64 type)
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{
	int ret;
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	ret = intel_pt_opt_inject(pt, event, sample, type);
	if (ret)
		return ret;

	ret = perf_session__deliver_synth_event(pt->session, event, sample);
	if (ret)
		pr_err("Intel PT: failed to deliver event, error %d\n", ret);

	return ret;
}

static int intel_pt_synth_branch_sample(struct intel_pt_queue *ptq)
{
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	struct intel_pt *pt = ptq->pt;
	union perf_event *event = ptq->event_buf;
	struct perf_sample sample = { .ip = 0, };
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	struct dummy_branch_stack {
		u64			nr;
		struct branch_entry	entries;
	} dummy_bs;
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	if (pt->branches_filter && !(pt->branches_filter & ptq->flags))
		return 0;

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	if (intel_pt_skip_event(pt))
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		return 0;

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	intel_pt_prep_b_sample(pt, ptq, event, &sample);
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	sample.id = ptq->pt->branches_id;
	sample.stream_id = ptq->pt->branches_id;

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	/*
	 * perf report cannot handle events without a branch stack when using
	 * SORT_MODE__BRANCH so make a dummy one.
	 */
	if (pt->synth_opts.last_branch && sort__mode == SORT_MODE__BRANCH) {
		dummy_bs = (struct dummy_branch_stack){
			.nr = 1,
			.entries = {
				.from = sample.ip,
				.to = sample.addr,
			},
		};
		sample.branch_stack = (struct branch_stack *)&dummy_bs;
	}

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	return intel_pt_deliver_synth_b_event(pt, event, &sample,
					      pt->branches_sample_type);
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}

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static void intel_pt_prep_sample(struct intel_pt *pt,
				 struct intel_pt_queue *ptq,
				 union perf_event *event,
				 struct perf_sample *sample)
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{
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	intel_pt_prep_b_sample(pt, ptq, event, sample);
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	if (pt->synth_opts.callchain) {
		thread_stack__sample(ptq->thread, ptq->chain,
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				     pt->synth_opts.callchain_sz, sample->ip);
		sample->callchain = ptq->chain;
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	}

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	if (pt->synth_opts.last_branch) {
		intel_pt_copy_last_branch_rb(ptq);
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		sample->branch_stack = ptq->last_branch;
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	}
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}
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static inline int intel_pt_deliver_synth_event(struct intel_pt *pt,
					       struct intel_pt_queue *ptq,
					       union perf_event *event,
					       struct perf_sample *sample,
					       u64 type)
{
	int ret;
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	ret = intel_pt_deliver_synth_b_event(pt, event, sample, type);
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	if (pt->synth_opts.last_branch)
		intel_pt_reset_last_branch_rb(ptq);

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	return ret;
}

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static int intel_pt_synth_instruction_sample(struct intel_pt_queue *ptq)
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{
	struct intel_pt *pt = ptq->pt;
	union perf_event *event = ptq->event_buf;
	struct perf_sample sample = { .ip = 0, };

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	if (intel_pt_skip_event(pt))
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		return 0;

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	intel_pt_prep_sample(pt, ptq, event, &sample);
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	sample.id = ptq->pt->instructions_id;
	sample.stream_id = ptq->pt->instructions_id;
	sample.period = ptq->state->tot_insn_cnt - ptq->last_insn_cnt;
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	ptq->last_insn_cnt = ptq->state->tot_insn_cnt;
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	return intel_pt_deliver_synth_event(pt, ptq, event, &sample,
					    pt->instructions_sample_type);
}
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static int intel_pt_synth_transaction_sample(struct intel_pt_queue *ptq)
{
	struct intel_pt *pt = ptq->pt;
	union perf_event *event = ptq->event_buf;
	struct perf_sample sample = { .ip = 0, };
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	if (intel_pt_skip_event(pt))
		return 0;
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	intel_pt_prep_sample(pt, ptq, event, &sample);
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	sample.id = ptq->pt->transactions_id;
	sample.stream_id = ptq->pt->transactions_id;
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	return intel_pt_deliver_synth_event(pt, ptq, event, &sample,
					    pt->transactions_sample_type);
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}

static int intel_pt_synth_error(struct intel_pt *pt, int code, int cpu,
				pid_t pid, pid_t tid, u64 ip)
{
	union perf_event event;
	char msg[MAX_AUXTRACE_ERROR_MSG];
	int err;

	intel_pt__strerror(code, msg, MAX_AUXTRACE_ERROR_MSG);

	auxtrace_synth_error(&event.auxtrace_error, PERF_AUXTRACE_ERROR_ITRACE,
			     code, cpu, pid, tid, ip, msg);

	err = perf_session__deliver_synth_event(pt->session, &event, NULL);
	if (err)
		pr_err("Intel Processor Trace: failed to deliver error event, error %d\n",
		       err);

	return err;
}

static int intel_pt_next_tid(struct intel_pt *pt, struct intel_pt_queue *ptq)
{
	struct auxtrace_queue *queue;
	pid_t tid = ptq->next_tid;
	int err;

	if (tid == -1)
		return 0;

	intel_pt_log("switch: cpu %d tid %d\n", ptq->cpu, tid);

	err = machine__set_current_tid(pt->machine, ptq->cpu, -1, tid);

	queue = &pt->queues.queue_array[ptq->queue_nr];
	intel_pt_set_pid_tid_cpu(pt, queue);

	ptq->next_tid = -1;

	return err;
}

static inline bool intel_pt_is_switch_ip(struct intel_pt_queue *ptq, u64 ip)
{
	struct intel_pt *pt = ptq->pt;

	return ip == pt->switch_ip &&
	       (ptq->flags & PERF_IP_FLAG_BRANCH) &&
	       !(ptq->flags & (PERF_IP_FLAG_CONDITIONAL | PERF_IP_FLAG_ASYNC |
			       PERF_IP_FLAG_INTERRUPT | PERF_IP_FLAG_TX_ABORT));
}

static int intel_pt_sample(struct intel_pt_queue *ptq)
{
	const struct intel_pt_state *state = ptq->state;
	struct intel_pt *pt = ptq->pt;
	int err;

	if (!ptq->have_sample)
		return 0;

	ptq->have_sample = false;

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	if (pt->sample_instructions && (state->type & INTEL_PT_INSTRUCTION)) {
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		err = intel_pt_synth_instruction_sample(ptq);
		if (err)
			return err;
	}

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	if (pt->sample_transactions && (state->type & INTEL_PT_TRANSACTION)) {
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		err = intel_pt_synth_transaction_sample(ptq);
		if (err)
			return err;
	}

	if (!(state->type & INTEL_PT_BRANCH))
		return 0;

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	if (pt->synth_opts.callchain || pt->synth_opts.thread_stack)
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		thread_stack__event(ptq->thread, ptq->flags, state->from_ip,
				    state->to_ip, ptq->insn_len,
				    state->trace_nr);
	else
		thread_stack__set_trace_nr(ptq->thread, state->trace_nr);

	if (pt->sample_branches) {
		err = intel_pt_synth_branch_sample(ptq);
		if (err)
			return err;
	}

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	if (pt->synth_opts.last_branch)
		intel_pt_update_last_branch_rb(ptq);

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	if (!pt->sync_switch)
		return 0;

	if (intel_pt_is_switch_ip(ptq, state->to_ip)) {
		switch (ptq->switch_state) {
		case INTEL_PT_SS_UNKNOWN:
		case INTEL_PT_SS_EXPECTING_SWITCH_IP:
			err = intel_pt_next_tid(pt, ptq);
			if (err)
				return err;
			ptq->switch_state = INTEL_PT_SS_TRACING;
			break;
		default:
			ptq->switch_state = INTEL_PT_SS_EXPECTING_SWITCH_EVENT;
			return 1;
		}
	} else if (!state->to_ip) {
		ptq->switch_state = INTEL_PT_SS_NOT_TRACING;
	} else if (ptq->switch_state == INTEL_PT_SS_NOT_TRACING) {
		ptq->switch_state = INTEL_PT_SS_UNKNOWN;
	} else if (ptq->switch_state == INTEL_PT_SS_UNKNOWN &&
		   state->to_ip == pt->ptss_ip &&
		   (ptq->flags & PERF_IP_FLAG_CALL)) {
		ptq->switch_state = INTEL_PT_SS_TRACING;
	}

	return 0;
}

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static u64 intel_pt_switch_ip(struct intel_pt *pt, u64 *ptss_ip)
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{
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	struct machine *machine = pt->machine;
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	struct map *map;
	struct symbol *sym, *start;
	u64 ip, switch_ip = 0;
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	const char *ptss;
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	if (ptss_ip)
		*ptss_ip = 0;

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	map = machine__kernel_map(machine);
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	if (!map)
		return 0;

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	if (map__load(map))
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		return 0;

	start = dso__first_symbol(map->dso, MAP__FUNCTION);

	for (sym = start; sym; sym = dso__next_symbol(sym)) {
		if (sym->binding == STB_GLOBAL &&
		    !strcmp(sym->name, "__switch_to")) {
			ip = map->unmap_ip(map, sym->start);
			if (ip >= map->start && ip < map->end) {
				switch_ip = ip;
				break;
			}
		}
	}

	if (!switch_ip || !ptss_ip)
		return 0;

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	if (pt->have_sched_switch == 1)
		ptss = "perf_trace_sched_switch";
	else
		ptss = "__perf_event_task_sched_out";

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	for (sym = start; sym; sym = dso__next_symbol(sym)) {
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		if (!strcmp(sym->name, ptss)) {
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			ip = map->unmap_ip(map, sym->start);
			if (ip >= map->start && ip < map->end) {
				*ptss_ip = ip;
				break;
			}
		}
	}

	return switch_ip;
}

static int intel_pt_run_decoder(struct intel_pt_queue *ptq, u64 *timestamp)
{
	const struct intel_pt_state *state = ptq->state;
	struct intel_pt *pt = ptq->pt;
	int err;

	if (!pt->kernel_start) {
		pt->kernel_start = machine__kernel_start(pt->machine);
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		if (pt->per_cpu_mmaps &&
		    (pt->have_sched_switch == 1 || pt->have_sched_switch == 3) &&
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		    !pt->timeless_decoding && intel_pt_tracing_kernel(pt) &&
		    !pt->sampling_mode) {
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			pt->switch_ip = intel_pt_switch_ip(pt, &pt->ptss_ip);
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			if (pt->switch_ip) {
				intel_pt_log("switch_ip: %"PRIx64" ptss_ip: %"PRIx64"\n",
					     pt->switch_ip, pt->ptss_ip);
				pt->sync_switch = true;
			}
		}
	}

	intel_pt_log("queue %u decoding cpu %d pid %d tid %d\n",
		     ptq->queue_nr, ptq->cpu, ptq->pid, ptq->tid);
	while (1) {
		err = intel_pt_sample(ptq);
		if (err)
			return err;

		state = intel_pt_decode(ptq->decoder);
		if (state->err) {
			if (state->err == INTEL_PT_ERR_NODATA)
				return 1;
			if (pt->sync_switch &&
			    state->from_ip >= pt->kernel_start) {
				pt->sync_switch = false;
				intel_pt_next_tid(pt, ptq);
			}
			if (pt->synth_opts.errors) {
				err = intel_pt_synth_error(pt, state->err,
							   ptq->cpu, ptq->pid,
							   ptq->tid,
							   state->from_ip);
				if (err)
					return err;
			}
			continue;
		}

		ptq->state = state;
		ptq->have_sample = true;
		intel_pt_sample_flags(ptq);

		/* Use estimated TSC upon return to user space */
		if (pt->est_tsc &&
		    (state->from_ip >= pt->kernel_start || !state->from_ip) &&
		    state->to_ip && state->to_ip < pt->kernel_start) {
			intel_pt_log("TSC %"PRIx64" est. TSC %"PRIx64"\n",
				     state->timestamp, state->est_timestamp);
			ptq->timestamp = state->est_timestamp;
		/* Use estimated TSC in unknown switch state */
		} else if (pt->sync_switch &&
			   ptq->switch_state == INTEL_PT_SS_UNKNOWN &&
			   intel_pt_is_switch_ip(ptq, state->to_ip) &&
			   ptq->next_tid == -1) {
			intel_pt_log("TSC %"PRIx64" est. TSC %"PRIx64"\n",
				     state->timestamp, state->est_timestamp);
			ptq->timestamp = state->est_timestamp;
		} else if (state->timestamp > ptq->timestamp) {
			ptq->timestamp = state->timestamp;
		}

		if (!pt->timeless_decoding && ptq->timestamp >= *timestamp) {
			*timestamp = ptq->timestamp;
			return 0;
		}
	}
	return 0;
}

static inline int intel_pt_update_queues(struct intel_pt *pt)
{
	if (pt->queues.new_data) {
		pt->queues.new_data = false;
		return intel_pt_setup_queues(pt);
	}
	return 0;
}

static int intel_pt_process_queues(struct intel_pt *pt, u64 timestamp)
{
	unsigned int queue_nr;
	u64 ts;
	int ret;

	while (1) {
		struct auxtrace_queue *queue;
		struct intel_pt_queue *ptq;

		if (!pt->heap.heap_cnt)
			return 0;

		if (pt->heap.heap_array[0].ordinal >= timestamp)
			return 0;

		queue_nr = pt->heap.heap_array[0].queue_nr;
		queue = &pt->queues.queue_array[queue_nr];
		ptq = queue->priv;

		intel_pt_log("queue %u processing 0x%" PRIx64 " to 0x%" PRIx64 "\n",
			     queue_nr, pt->heap.heap_array[0].ordinal,
			     timestamp);

		auxtrace_heap__pop(&pt->heap);

		if (pt->heap.heap_cnt) {
			ts = pt->heap.heap_array[0].ordinal + 1;
			if (ts > timestamp)
				ts = timestamp;
		} else {
			ts = timestamp;
		}

		intel_pt_set_pid_tid_cpu(pt, queue);

		ret = intel_pt_run_decoder(ptq, &ts);

		if (ret < 0) {
			auxtrace_heap__add(&pt->heap, queue_nr, ts);
			return ret;
		}

		if (!ret) {
			ret = auxtrace_heap__add(&pt->heap, queue_nr, ts);
			if (ret < 0)
				return ret;
		} else {
			ptq->on_heap = false;
		}
	}

	return 0;
}

static int intel_pt_process_timeless_queues(struct intel_pt *pt, pid_t tid,
					    u64 time_)
{
	struct auxtrace_queues *queues = &pt->queues;
	unsigned int i;
	u64 ts = 0;

	for (i = 0; i < queues->nr_queues; i++) {
		struct auxtrace_queue *queue = &pt->queues.queue_array[i];
		struct intel_pt_queue *ptq = queue->priv;

		if (ptq && (tid == -1 || ptq->tid == tid)) {
			ptq->time = time_;
			intel_pt_set_pid_tid_cpu(pt, queue);
			intel_pt_run_decoder(ptq, &ts);
		}
	}
	return 0;
}

static int intel_pt_lost(struct intel_pt *pt, struct perf_sample *sample)
{
	return intel_pt_synth_error(pt, INTEL_PT_ERR_LOST, sample->cpu,
				    sample->pid, sample->tid, 0);
}

static struct intel_pt_queue *intel_pt_cpu_to_ptq(struct intel_pt *pt, int cpu)
{
	unsigned i, j;

	if (cpu < 0 || !pt->queues.nr_queues)
		return NULL;

	if ((unsigned)cpu >= pt->queues.nr_queues)
		i = pt->queues.nr_queues - 1;
	else
		i = cpu;

	if (pt->queues.queue_array[i].cpu == cpu)
		return pt->queues.queue_array[i].priv;

	for (j = 0; i > 0; j++) {
		if (pt->queues.queue_array[--i].cpu == cpu)
			return pt->queues.queue_array[i].priv;
	}

	for (; j < pt->queues.nr_queues; j++) {
		if (pt->queues.queue_array[j].cpu == cpu)
			return pt->queues.queue_array[j].priv;
	}

	return NULL;
}

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static int intel_pt_sync_switch(struct intel_pt *pt, int cpu, pid_t tid,
				u64 timestamp)
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{
	struct intel_pt_queue *ptq;
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	int err;
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	if (!pt->sync_switch)
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		return 1;
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	ptq = intel_pt_cpu_to_ptq(pt, cpu);
	if (!ptq)
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		return 1;
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	switch (ptq->switch_state) {
	case INTEL_PT_SS_NOT_TRACING:
		ptq->next_tid = -1;
		break;
	case INTEL_PT_SS_UNKNOWN:
	case INTEL_PT_SS_TRACING:
		ptq->next_tid = tid;
		ptq->switch_state = INTEL_PT_SS_EXPECTING_SWITCH_IP;
		return 0;
	case INTEL_PT_SS_EXPECTING_SWITCH_EVENT:
		if (!ptq->on_heap) {
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			ptq->timestamp = perf_time_to_tsc(timestamp,
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							  &pt->tc);
			err = auxtrace_heap__add(&pt->heap, ptq->queue_nr,
						 ptq->timestamp);
			if (err)
				return err;
			ptq->on_heap = true;
		}
		ptq->switch_state = INTEL_PT_SS_TRACING;
		break;
	case INTEL_PT_SS_EXPECTING_SWITCH_IP:
		ptq->next_tid = tid;
		intel_pt_log("ERROR: cpu %d expecting switch ip\n", cpu);
		break;
	default:
		break;
	}
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	return 1;
}

static int intel_pt_process_switch(struct intel_pt *pt,
				   struct perf_sample *sample)
{
	struct perf_evsel *evsel;
	pid_t tid;
	int cpu, ret;

	evsel = perf_evlist__id2evsel(pt->session->evlist, sample->id);
	if (evsel != pt->switch_evsel)
		return 0;

	tid = perf_evsel__intval(evsel, sample, "next_pid");
	cpu = sample->cpu;

	intel_pt_log("sched_switch: cpu %d tid %d time %"PRIu64" tsc %#"PRIx64"\n",
		     cpu, tid, sample->time, perf_time_to_tsc(sample->time,
		     &pt->tc));

	ret = intel_pt_sync_switch(pt, cpu, tid, sample->time);
	if (ret <= 0)
		return ret;

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	return machine__set_current_tid(pt->machine, cpu, -1, tid);
}

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static int intel_pt_context_switch(struct intel_pt *pt, union perf_event *event,
				   struct perf_sample *sample)
{
	bool out = event->header.misc & PERF_RECORD_MISC_SWITCH_OUT;
	pid_t pid, tid;
	int cpu, ret;

	cpu = sample->cpu;

	if (pt->have_sched_switch == 3) {
		if (!out)
			return 0;
		if (event->header.type != PERF_RECORD_SWITCH_CPU_WIDE) {
			pr_err("Expecting CPU-wide context switch event\n");
			return -EINVAL;
		}
		pid = event->context_switch.next_prev_pid;
		tid = event->context_switch.next_prev_tid;
	} else {
		if (out)
			return 0;
		pid = sample->pid;
		tid = sample->tid;
	}

	if (tid == -1) {
		pr_err("context_switch event has no tid\n");
		return -EINVAL;
	}

	intel_pt_log("context_switch: cpu %d pid %d tid %d time %"PRIu64" tsc %#"PRIx64"\n",
		     cpu, pid, tid, sample->time, perf_time_to_tsc(sample->time,
		     &pt->tc));

	ret = intel_pt_sync_switch(pt, cpu, tid, sample->time);
	if (ret <= 0)
		return ret;

	return machine__set_current_tid(pt->machine, cpu, pid, tid);
}

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static int intel_pt_process_itrace_start(struct intel_pt *pt,
					 union perf_event *event,
					 struct perf_sample *sample)
{
	if (!pt->per_cpu_mmaps)
		return 0;

	intel_pt_log("itrace_start: cpu %d pid %d tid %d time %"PRIu64" tsc %#"PRIx64"\n",
		     sample->cpu, event->itrace_start.pid,
		     event->itrace_start.tid, sample->time,
		     perf_time_to_tsc(sample->time, &pt->tc));

	return machine__set_current_tid(pt->machine, sample->cpu,
					event->itrace_start.pid,
					event->itrace_start.tid);
}

static int intel_pt_process_event(struct perf_session *session,
				  union perf_event *event,
				  struct perf_sample *sample,
				  struct perf_tool *tool)
{
	struct intel_pt *pt = container_of(session->auxtrace, struct intel_pt,
					   auxtrace);
	u64 timestamp;
	int err = 0;

	if (dump_trace)
		return 0;

	if (!tool->ordered_events) {
		pr_err("Intel Processor Trace requires ordered events\n");
		return -EINVAL;
	}

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	if (sample->time && sample->time != (u64)-1)
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		timestamp = perf_time_to_tsc(sample->time, &pt->tc);
	else
		timestamp = 0;

	if (timestamp || pt->timeless_decoding) {
		err = intel_pt_update_queues(pt);
		if (err)
			return err;
	}

	if (pt->timeless_decoding) {
		if (event->header.type == PERF_RECORD_EXIT) {
			err = intel_pt_process_timeless_queues(pt,
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							       event->fork.tid,
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							       sample->time);
		}
	} else if (timestamp) {
		err = intel_pt_process_queues(pt, timestamp);
	}
	if (err)
		return err;

	if (event->header.type == PERF_RECORD_AUX &&
	    (event->aux.flags & PERF_AUX_FLAG_TRUNCATED) &&
	    pt->synth_opts.errors) {
		err = intel_pt_lost(pt, sample);
		if (err)
			return err;
	}

	if (pt->switch_evsel && event->header.type == PERF_RECORD_SAMPLE)
		err = intel_pt_process_switch(pt, sample);
	else if (event->header.type == PERF_RECORD_ITRACE_START)
		err = intel_pt_process_itrace_start(pt, event, sample);
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	else if (event->header.type == PERF_RECORD_SWITCH ||
		 event->header.type == PERF_RECORD_SWITCH_CPU_WIDE)
		err = intel_pt_context_switch(pt, event, sample);
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	intel_pt_log("event %s (%u): cpu %d time %"PRIu64" tsc %#"PRIx64"\n",
		     perf_event__name(event->header.type), event->header.type,
		     sample->cpu, sample->time, timestamp);

	return err;
}

static int intel_pt_flush(struct perf_session *session, struct perf_tool *tool)
{
	struct intel_pt *pt = container_of(session->auxtrace, struct intel_pt,
					   auxtrace);
	int ret;

	if (dump_trace)
		return 0;

	if (!tool->ordered_events)
		return -EINVAL;

	ret = intel_pt_update_queues(pt);
	if (ret < 0)
		return ret;

	if (pt->timeless_decoding)
		return intel_pt_process_timeless_queues(pt, -1,
							MAX_TIMESTAMP - 1);

	return intel_pt_process_queues(pt, MAX_TIMESTAMP);
}

static void intel_pt_free_events(struct perf_session *session)
{
	struct intel_pt *pt = container_of(session->auxtrace, struct intel_pt,
					   auxtrace);
	struct auxtrace_queues *queues = &pt->queues;
	unsigned int i;

	for (i = 0; i < queues->nr_queues; i++) {
		intel_pt_free_queue(queues->queue_array[i].priv);
		queues->queue_array[i].priv = NULL;
	}
	intel_pt_log_disable();
	auxtrace_queues__free(queues);
}

static void intel_pt_free(struct perf_session *session)
{
	struct intel_pt *pt = container_of(session->auxtrace, struct intel_pt,
					   auxtrace);

	auxtrace_heap__free(&pt->heap);
	intel_pt_free_events(session);
	session->auxtrace = NULL;
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	thread__put(pt->unknown_thread);
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	addr_filters__exit(&pt->filts);
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	zfree(&pt->filter);
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	free(pt);
}

static int intel_pt_process_auxtrace_event(struct perf_session *session,
					   union perf_event *event,
					   struct perf_tool *tool __maybe_unused)
{
	struct intel_pt *pt = container_of(session->auxtrace, struct intel_pt,
					   auxtrace);

	if (pt->sampling_mode)
		return 0;

	if (!pt->data_queued) {
		struct auxtrace_buffer *buffer;
		off_t data_offset;
		int fd = perf_data_file__fd(session->file);
		int err;

		if (perf_data_file__is_pipe(session->file)) {
			data_offset = 0;
		} else {
			data_offset = lseek(fd, 0, SEEK_CUR);
			if (data_offset == -1)
				return -errno;
		}

		err = auxtrace_queues__add_event(&pt->queues, session, event,
						 data_offset, &buffer);
		if (err)
			return err;

		/* Dump here now we have copied a piped trace out of the pipe */
		if (dump_trace) {
			if (auxtrace_buffer__get_data(buffer, fd)) {
				intel_pt_dump_event(pt, buffer->data,
						    buffer->size);
				auxtrace_buffer__put_data(buffer);
			}
		}
	}

	return 0;
}

struct intel_pt_synth {
	struct perf_tool dummy_tool;
	struct perf_session *session;
};

static int intel_pt_event_synth(struct perf_tool *tool,
				union perf_event *event,
				struct perf_sample *sample __maybe_unused,
				struct machine *machine __maybe_unused)
{
	struct intel_pt_synth *intel_pt_synth =
			container_of(tool, struct intel_pt_synth, dummy_tool);

	return perf_session__deliver_synth_event(intel_pt_synth->session, event,
						 NULL);
}

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static int intel_pt_synth_event(struct perf_session *session, const char *name,
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				struct perf_event_attr *attr, u64 id)
{
	struct intel_pt_synth intel_pt_synth;
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	int err;

	pr_debug("Synthesizing '%s' event with id %" PRIu64 " sample type %#" PRIx64 "\n",
		 name, id, (u64)attr->sample_type);
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	memset(&intel_pt_synth, 0, sizeof(struct intel_pt_synth));
	intel_pt_synth.session = session;

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	err = perf_event__synthesize_attr(&intel_pt_synth.dummy_tool, attr, 1,
					  &id, intel_pt_event_synth);
	if (err)
		pr_err("%s: failed to synthesize '%s' event type\n",
		       __func__, name);

	return err;
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}

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static void intel_pt_set_event_name(struct perf_evlist *evlist, u64 id,
				    const char *name)
{
	struct perf_evsel *evsel;

	evlist__for_each_entry(evlist, evsel) {
		if (evsel->id && evsel->id[0] == id) {
			if (evsel->name)
				zfree(&evsel->name);
			evsel->name = strdup(name);
			break;
		}
	}
}

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static struct perf_evsel *intel_pt_evsel(struct intel_pt *pt,
					 struct perf_evlist *evlist)
{
	struct perf_evsel *evsel;

	evlist__for_each_entry(evlist, evsel) {
		if (evsel->attr.type == pt->pmu_type && evsel->ids)
			return evsel;
	}

	return NULL;
}

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static int intel_pt_synth_events(struct intel_pt *pt,
				 struct perf_session *session)
{
	struct perf_evlist *evlist = session->evlist;
1966
	struct perf_evsel *evsel = intel_pt_evsel(pt, evlist);
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	struct perf_event_attr attr;
	u64 id;
	int err;

1971
	if (!evsel) {
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		pr_debug("There are no selected events with Intel Processor Trace data\n");
		return 0;
	}

	memset(&attr, 0, sizeof(struct perf_event_attr));
	attr.size = sizeof(struct perf_event_attr);
	attr.type = PERF_TYPE_HARDWARE;
	attr.sample_type = evsel->attr.sample_type & PERF_SAMPLE_MASK;
	attr.sample_type |= PERF_SAMPLE_IP | PERF_SAMPLE_TID |
			    PERF_SAMPLE_PERIOD;
	if (pt->timeless_decoding)
		attr.sample_type &= ~(u64)PERF_SAMPLE_TIME;
	else
		attr.sample_type |= PERF_SAMPLE_TIME;
	if (!pt->per_cpu_mmaps)
		attr.sample_type &= ~(u64)PERF_SAMPLE_CPU;
	attr.exclude_user = evsel->attr.exclude_user;
	attr.exclude_kernel = evsel->attr.exclude_kernel;
	attr.exclude_hv = evsel->attr.exclude_hv;
	attr.exclude_host = evsel->attr.exclude_host;
	attr.exclude_guest = evsel->attr.exclude_guest;
	attr.sample_id_all = evsel->attr.sample_id_all;
	attr.read_format = evsel->attr.read_format;

	id = evsel->id[0] + 1000000000;
	if (!id)
		id = 1;

	if (pt->synth_opts.instructions) {
		attr.config = PERF_COUNT_HW_INSTRUCTIONS;
		if (pt->synth_opts.period_type == PERF_ITRACE_PERIOD_NANOSECS)
			attr.sample_period =
				intel_pt_ns_to_ticks(pt, pt->synth_opts.period);
		else
			attr.sample_period = pt->synth_opts.period;
		if (pt->synth_opts.callchain)
			attr.sample_type |= PERF_SAMPLE_CALLCHAIN;
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		if (pt->synth_opts.last_branch)
			attr.sample_type |= PERF_SAMPLE_BRANCH_STACK;
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		err = intel_pt_synth_event(session, "instructions", &attr, id);
		if (err)
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			return err;
		pt->sample_instructions = true;
		pt->instructions_sample_type = attr.sample_type;
		pt->instructions_id = id;
		id += 1;
	}

	if (pt->synth_opts.transactions) {
		attr.config = PERF_COUNT_HW_INSTRUCTIONS;
		attr.sample_period = 1;
		if (pt->synth_opts.callchain)
			attr.sample_type |= PERF_SAMPLE_CALLCHAIN;
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		if (pt->synth_opts.last_branch)
			attr.sample_type |= PERF_SAMPLE_BRANCH_STACK;
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		err = intel_pt_synth_event(session, "transactions", &attr, id);
		if (err)
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			return err;
		pt->sample_transactions = true;
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		pt->transactions_sample_type = attr.sample_type;
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		pt->transactions_id = id;
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		intel_pt_set_event_name(evlist, id, "transactions");
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		id += 1;
	}

	if (pt->synth_opts.branches) {
		attr.config = PERF_COUNT_HW_BRANCH_INSTRUCTIONS;
		attr.sample_period = 1;
		attr.sample_type |= PERF_SAMPLE_ADDR;
		attr.sample_type &= ~(u64)PERF_SAMPLE_CALLCHAIN;
2042
		attr.sample_type &= ~(u64)PERF_SAMPLE_BRANCH_STACK;
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		err = intel_pt_synth_event(session, "branches", &attr, id);
		if (err)
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			return err;
		pt->sample_branches = true;
		pt->branches_sample_type = attr.sample_type;
		pt->branches_id = id;
	}

	pt->synth_needs_swap = evsel->needs_swap;

	return 0;
}

static struct perf_evsel *intel_pt_find_sched_switch(struct perf_evlist *evlist)
{
	struct perf_evsel *evsel;

2060
	evlist__for_each_entry_reverse(evlist, evsel) {
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		const char *name = perf_evsel__name(evsel);

		if (!strcmp(name, "sched:sched_switch"))
			return evsel;
	}

	return NULL;
}

2070 2071 2072 2073
static bool intel_pt_find_switch(struct perf_evlist *evlist)
{
	struct perf_evsel *evsel;

2074
	evlist__for_each_entry(evlist, evsel) {
2075 2076 2077 2078 2079 2080 2081
		if (evsel->attr.context_switch)
			return true;
	}

	return false;
}

2082 2083 2084 2085 2086 2087 2088 2089 2090 2091
static int intel_pt_perf_config(const char *var, const char *value, void *data)
{
	struct intel_pt *pt = data;

	if (!strcmp(var, "intel-pt.mispred-all"))
		pt->mispred_all = perf_config_bool(var, value);

	return 0;
}

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static const char * const intel_pt_info_fmts[] = {
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	[INTEL_PT_PMU_TYPE]		= "  PMU Type            %"PRId64"\n",
	[INTEL_PT_TIME_SHIFT]		= "  Time Shift          %"PRIu64"\n",
	[INTEL_PT_TIME_MULT]		= "  Time Muliplier      %"PRIu64"\n",
	[INTEL_PT_TIME_ZERO]		= "  Time Zero           %"PRIu64"\n",
	[INTEL_PT_CAP_USER_TIME_ZERO]	= "  Cap Time Zero       %"PRId64"\n",
	[INTEL_PT_TSC_BIT]		= "  TSC bit             %#"PRIx64"\n",
	[INTEL_PT_NORETCOMP_BIT]	= "  NoRETComp bit       %#"PRIx64"\n",
	[INTEL_PT_HAVE_SCHED_SWITCH]	= "  Have sched_switch   %"PRId64"\n",
	[INTEL_PT_SNAPSHOT_MODE]	= "  Snapshot mode       %"PRId64"\n",
	[INTEL_PT_PER_CPU_MMAPS]	= "  Per-cpu maps        %"PRId64"\n",
	[INTEL_PT_MTC_BIT]		= "  MTC bit             %#"PRIx64"\n",
	[INTEL_PT_TSC_CTC_N]		= "  TSC:CTC numerator   %"PRIu64"\n",
	[INTEL_PT_TSC_CTC_D]		= "  TSC:CTC denominator %"PRIu64"\n",
	[INTEL_PT_CYC_BIT]		= "  CYC bit             %#"PRIx64"\n",
2107
	[INTEL_PT_MAX_NONTURBO_RATIO]	= "  Max non-turbo ratio %"PRIu64"\n",
2108
	[INTEL_PT_FILTER_STR_LEN]	= "  Filter string len.  %"PRIu64"\n",
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};

static void intel_pt_print_info(u64 *arr, int start, int finish)
{
	int i;

	if (!dump_trace)
		return;

	for (i = start; i <= finish; i++)
		fprintf(stdout, intel_pt_info_fmts[i], arr[i]);
}

2122 2123 2124 2125 2126 2127 2128 2129
static void intel_pt_print_info_str(const char *name, const char *str)
{
	if (!dump_trace)
		return;

	fprintf(stdout, "  %-20s%s\n", name, str ? str : "");
}

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static bool intel_pt_has(struct auxtrace_info_event *auxtrace_info, int pos)
{
	return auxtrace_info->header.size >=
		sizeof(struct auxtrace_info_event) + (sizeof(u64) * (pos + 1));
}

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int intel_pt_process_auxtrace_info(union perf_event *event,
				   struct perf_session *session)
{
	struct auxtrace_info_event *auxtrace_info = &event->auxtrace_info;
	size_t min_sz = sizeof(u64) * INTEL_PT_PER_CPU_MMAPS;
	struct intel_pt *pt;
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	void *info_end;
	u64 *info;
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	int err;

	if (auxtrace_info->header.size < sizeof(struct auxtrace_info_event) +
					min_sz)
		return -EINVAL;

	pt = zalloc(sizeof(struct intel_pt));
	if (!pt)
		return -ENOMEM;

2154 2155
	addr_filters__init(&pt->filts);

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	err = perf_config(intel_pt_perf_config, pt);
	if (err)
		goto err_free;
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	err = auxtrace_queues__init(&pt->queues);
	if (err)
		goto err_free;

	intel_pt_log_set_name(INTEL_PT_PMU_NAME);

	pt->session = session;
	pt->machine = &session->machines.host; /* No kvm support */
	pt->auxtrace_type = auxtrace_info->type;
	pt->pmu_type = auxtrace_info->priv[INTEL_PT_PMU_TYPE];
	pt->tc.time_shift = auxtrace_info->priv[INTEL_PT_TIME_SHIFT];
	pt->tc.time_mult = auxtrace_info->priv[INTEL_PT_TIME_MULT];
	pt->tc.time_zero = auxtrace_info->priv[INTEL_PT_TIME_ZERO];
	pt->cap_user_time_zero = auxtrace_info->priv[INTEL_PT_CAP_USER_TIME_ZERO];
	pt->tsc_bit = auxtrace_info->priv[INTEL_PT_TSC_BIT];
	pt->noretcomp_bit = auxtrace_info->priv[INTEL_PT_NORETCOMP_BIT];
	pt->have_sched_switch = auxtrace_info->priv[INTEL_PT_HAVE_SCHED_SWITCH];
	pt->snapshot_mode = auxtrace_info->priv[INTEL_PT_SNAPSHOT_MODE];
	pt->per_cpu_mmaps = auxtrace_info->priv[INTEL_PT_PER_CPU_MMAPS];
	intel_pt_print_info(&auxtrace_info->priv[0], INTEL_PT_PMU_TYPE,
			    INTEL_PT_PER_CPU_MMAPS);

2182
	if (intel_pt_has(auxtrace_info, INTEL_PT_CYC_BIT)) {
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		pt->mtc_bit = auxtrace_info->priv[INTEL_PT_MTC_BIT];
		pt->mtc_freq_bits = auxtrace_info->priv[INTEL_PT_MTC_FREQ_BITS];
		pt->tsc_ctc_ratio_n = auxtrace_info->priv[INTEL_PT_TSC_CTC_N];
		pt->tsc_ctc_ratio_d = auxtrace_info->priv[INTEL_PT_TSC_CTC_D];
		pt->cyc_bit = auxtrace_info->priv[INTEL_PT_CYC_BIT];
		intel_pt_print_info(&auxtrace_info->priv[0], INTEL_PT_MTC_BIT,
				    INTEL_PT_CYC_BIT);
	}

2192
	if (intel_pt_has(auxtrace_info, INTEL_PT_MAX_NONTURBO_RATIO)) {
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		pt->max_non_turbo_ratio =
			auxtrace_info->priv[INTEL_PT_MAX_NONTURBO_RATIO];
		intel_pt_print_info(&auxtrace_info->priv[0],
				    INTEL_PT_MAX_NONTURBO_RATIO,
				    INTEL_PT_MAX_NONTURBO_RATIO);
	}

2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 2222 2223 2224 2225 2226 2227 2228 2229 2230 2231
	info = &auxtrace_info->priv[INTEL_PT_FILTER_STR_LEN] + 1;
	info_end = (void *)info + auxtrace_info->header.size;

	if (intel_pt_has(auxtrace_info, INTEL_PT_FILTER_STR_LEN)) {
		size_t len;

		len = auxtrace_info->priv[INTEL_PT_FILTER_STR_LEN];
		intel_pt_print_info(&auxtrace_info->priv[0],
				    INTEL_PT_FILTER_STR_LEN,
				    INTEL_PT_FILTER_STR_LEN);
		if (len) {
			const char *filter = (const char *)info;

			len = roundup(len + 1, 8);
			info += len >> 3;
			if ((void *)info > info_end) {
				pr_err("%s: bad filter string length\n", __func__);
				err = -EINVAL;
				goto err_free_queues;
			}
			pt->filter = memdup(filter, len);
			if (!pt->filter) {
				err = -ENOMEM;
				goto err_free_queues;
			}
			if (session->header.needs_swap)
				mem_bswap_64(pt->filter, len);
			if (pt->filter[len - 1]) {
				pr_err("%s: filter string not null terminated\n", __func__);
				err = -EINVAL;
				goto err_free_queues;
			}
2232 2233 2234 2235
			err = addr_filters__parse_bare_filter(&pt->filts,
							      filter);
			if (err)
				goto err_free_queues;
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		}
		intel_pt_print_info_str("Filter string", pt->filter);
	}

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	pt->timeless_decoding = intel_pt_timeless_decoding(pt);
	pt->have_tsc = intel_pt_have_tsc(pt);
	pt->sampling_mode = false;
	pt->est_tsc = !pt->timeless_decoding;

	pt->unknown_thread = thread__new(999999999, 999999999);
	if (!pt->unknown_thread) {
		err = -ENOMEM;
		goto err_free_queues;
	}
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	/*
	 * Since this thread will not be kept in any rbtree not in a
	 * list, initialize its list node so that at thread__put() the
	 * current thread lifetime assuption is kept and we don't segfault
	 * at list_del_init().
	 */
	INIT_LIST_HEAD(&pt->unknown_thread->node);

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	err = thread__set_comm(pt->unknown_thread, "unknown", 0);
	if (err)
		goto err_delete_thread;
	if (thread__init_map_groups(pt->unknown_thread, pt->machine)) {
		err = -ENOMEM;
		goto err_delete_thread;
	}

	pt->auxtrace.process_event = intel_pt_process_event;
	pt->auxtrace.process_auxtrace_event = intel_pt_process_auxtrace_event;
	pt->auxtrace.flush_events = intel_pt_flush;
	pt->auxtrace.free_events = intel_pt_free_events;
	pt->auxtrace.free = intel_pt_free;
	session->auxtrace = &pt->auxtrace;

	if (dump_trace)
		return 0;

	if (pt->have_sched_switch == 1) {
		pt->switch_evsel = intel_pt_find_sched_switch(session->evlist);
		if (!pt->switch_evsel) {
			pr_err("%s: missing sched_switch event\n", __func__);
2281
			err = -EINVAL;
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			goto err_delete_thread;
		}
2284 2285 2286
	} else if (pt->have_sched_switch == 2 &&
		   !intel_pt_find_switch(session->evlist)) {
		pr_err("%s: missing context_switch attribute flag\n", __func__);
2287
		err = -EINVAL;
2288
		goto err_delete_thread;
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	}

	if (session->itrace_synth_opts && session->itrace_synth_opts->set) {
		pt->synth_opts = *session->itrace_synth_opts;
	} else {
		itrace_synth_opts__set_default(&pt->synth_opts);
		if (use_browser != -1) {
			pt->synth_opts.branches = false;
			pt->synth_opts.callchain = true;
		}
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		if (session->itrace_synth_opts)
			pt->synth_opts.thread_stack =
				session->itrace_synth_opts->thread_stack;
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	}

	if (pt->synth_opts.log)
		intel_pt_log_enable();

	/* Maximum non-turbo ratio is TSC freq / 100 MHz */
	if (pt->tc.time_mult) {
		u64 tsc_freq = intel_pt_ns_to_ticks(pt, 1000000000);

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		if (!pt->max_non_turbo_ratio)
			pt->max_non_turbo_ratio =
					(tsc_freq + 50000000) / 100000000;
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		intel_pt_log("TSC frequency %"PRIu64"\n", tsc_freq);
		intel_pt_log("Maximum non-turbo ratio %u\n",
			     pt->max_non_turbo_ratio);
	}

	if (pt->synth_opts.calls)
		pt->branches_filter |= PERF_IP_FLAG_CALL | PERF_IP_FLAG_ASYNC |
				       PERF_IP_FLAG_TRACE_END;
	if (pt->synth_opts.returns)
		pt->branches_filter |= PERF_IP_FLAG_RETURN |
				       PERF_IP_FLAG_TRACE_BEGIN;

	if (pt->synth_opts.callchain && !symbol_conf.use_callchain) {
		symbol_conf.use_callchain = true;
		if (callchain_register_param(&callchain_param) < 0) {
			symbol_conf.use_callchain = false;
			pt->synth_opts.callchain = false;
		}
	}

	err = intel_pt_synth_events(pt, session);
	if (err)
		goto err_delete_thread;

	err = auxtrace_queues__process_index(&pt->queues, session);
	if (err)
		goto err_delete_thread;

	if (pt->queues.populated)
		pt->data_queued = true;

	if (pt->timeless_decoding)
		pr_debug2("Intel PT decoding without timestamps\n");

	return 0;

err_delete_thread:
2351
	thread__zput(pt->unknown_thread);
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err_free_queues:
	intel_pt_log_disable();
	auxtrace_queues__free(&pt->queues);
	session->auxtrace = NULL;
err_free:
2357
	addr_filters__exit(&pt->filts);
2358
	zfree(&pt->filter);
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	free(pt);
	return err;
}