builtin-timechart.c 23.0 KB
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/*
 * builtin-timechart.c - make an svg timechart of system activity
 *
 * (C) Copyright 2009 Intel Corporation
 *
 * Authors:
 *     Arjan van de Ven <arjan@linux.intel.com>
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; version 2
 * of the License.
 */

#include "builtin.h"

#include "util/util.h"

#include "util/color.h"
#include <linux/list.h>
#include "util/cache.h"
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#include "util/evsel.h"
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#include <linux/rbtree.h>
#include "util/symbol.h"
#include "util/callchain.h"
#include "util/strlist.h"

#include "perf.h"
#include "util/header.h"
#include "util/parse-options.h"
#include "util/parse-events.h"
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#include "util/event.h"
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#include "util/session.h"
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#include "util/svghelper.h"
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#include "util/tool.h"
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#define SUPPORT_OLD_POWER_EVENTS 1
#define PWR_EVENT_EXIT -1


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static unsigned int	numcpus;
static u64		min_freq;	/* Lowest CPU frequency seen */
static u64		max_freq;	/* Highest CPU frequency seen */
static u64		turbo_frequency;

static u64		first_time, last_time;

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static bool		power_only;
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struct per_pid;
struct per_pidcomm;

struct cpu_sample;
struct power_event;
struct wake_event;

struct sample_wrapper;

/*
 * Datastructure layout:
 * We keep an list of "pid"s, matching the kernels notion of a task struct.
 * Each "pid" entry, has a list of "comm"s.
 *	this is because we want to track different programs different, while
 *	exec will reuse the original pid (by design).
 * Each comm has a list of samples that will be used to draw
 * final graph.
 */

struct per_pid {
	struct per_pid *next;

	int		pid;
	int		ppid;

	u64		start_time;
	u64		end_time;
	u64		total_time;
	int		display;

	struct per_pidcomm *all;
	struct per_pidcomm *current;
};


struct per_pidcomm {
	struct per_pidcomm *next;

	u64		start_time;
	u64		end_time;
	u64		total_time;

	int		Y;
	int		display;

	long		state;
	u64		state_since;

	char		*comm;

	struct cpu_sample *samples;
};

struct sample_wrapper {
	struct sample_wrapper *next;

	u64		timestamp;
	unsigned char	data[0];
};

#define TYPE_NONE	0
#define TYPE_RUNNING	1
#define TYPE_WAITING	2
#define TYPE_BLOCKED	3

struct cpu_sample {
	struct cpu_sample *next;

	u64 start_time;
	u64 end_time;
	int type;
	int cpu;
};

static struct per_pid *all_data;

#define CSTATE 1
#define PSTATE 2

struct power_event {
	struct power_event *next;
	int type;
	int state;
	u64 start_time;
	u64 end_time;
	int cpu;
};

struct wake_event {
	struct wake_event *next;
	int waker;
	int wakee;
	u64 time;
};

static struct power_event    *power_events;
static struct wake_event     *wake_events;

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struct process_filter;
struct process_filter {
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	char			*name;
	int			pid;
	struct process_filter	*next;
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};

static struct process_filter *process_filter;


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static struct per_pid *find_create_pid(int pid)
{
	struct per_pid *cursor = all_data;

	while (cursor) {
		if (cursor->pid == pid)
			return cursor;
		cursor = cursor->next;
	}
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	cursor = zalloc(sizeof(*cursor));
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	assert(cursor != NULL);
	cursor->pid = pid;
	cursor->next = all_data;
	all_data = cursor;
	return cursor;
}

static void pid_set_comm(int pid, char *comm)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	p = find_create_pid(pid);
	c = p->all;
	while (c) {
		if (c->comm && strcmp(c->comm, comm) == 0) {
			p->current = c;
			return;
		}
		if (!c->comm) {
			c->comm = strdup(comm);
			p->current = c;
			return;
		}
		c = c->next;
	}
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	c = zalloc(sizeof(*c));
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	assert(c != NULL);
	c->comm = strdup(comm);
	p->current = c;
	c->next = p->all;
	p->all = c;
}

static void pid_fork(int pid, int ppid, u64 timestamp)
{
	struct per_pid *p, *pp;
	p = find_create_pid(pid);
	pp = find_create_pid(ppid);
	p->ppid = ppid;
	if (pp->current && pp->current->comm && !p->current)
		pid_set_comm(pid, pp->current->comm);

	p->start_time = timestamp;
	if (p->current) {
		p->current->start_time = timestamp;
		p->current->state_since = timestamp;
	}
}

static void pid_exit(int pid, u64 timestamp)
{
	struct per_pid *p;
	p = find_create_pid(pid);
	p->end_time = timestamp;
	if (p->current)
		p->current->end_time = timestamp;
}

static void
pid_put_sample(int pid, int type, unsigned int cpu, u64 start, u64 end)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	struct cpu_sample *sample;

	p = find_create_pid(pid);
	c = p->current;
	if (!c) {
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		c = zalloc(sizeof(*c));
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		assert(c != NULL);
		p->current = c;
		c->next = p->all;
		p->all = c;
	}

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	sample = zalloc(sizeof(*sample));
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	assert(sample != NULL);
	sample->start_time = start;
	sample->end_time = end;
	sample->type = type;
	sample->next = c->samples;
	sample->cpu = cpu;
	c->samples = sample;

	if (sample->type == TYPE_RUNNING && end > start && start > 0) {
		c->total_time += (end-start);
		p->total_time += (end-start);
	}

	if (c->start_time == 0 || c->start_time > start)
		c->start_time = start;
	if (p->start_time == 0 || p->start_time > start)
		p->start_time = start;
}

#define MAX_CPUS 4096

static u64 cpus_cstate_start_times[MAX_CPUS];
static int cpus_cstate_state[MAX_CPUS];
static u64 cpus_pstate_start_times[MAX_CPUS];
static u64 cpus_pstate_state[MAX_CPUS];

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static int process_comm_event(struct perf_tool *tool __maybe_unused,
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			      union perf_event *event,
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			      struct perf_sample *sample __maybe_unused,
			      struct machine *machine __maybe_unused)
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{
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	pid_set_comm(event->comm.tid, event->comm.comm);
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	return 0;
}
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static int process_fork_event(struct perf_tool *tool __maybe_unused,
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			      union perf_event *event,
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			      struct perf_sample *sample __maybe_unused,
			      struct machine *machine __maybe_unused)
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{
	pid_fork(event->fork.pid, event->fork.ppid, event->fork.time);
	return 0;
}

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static int process_exit_event(struct perf_tool *tool __maybe_unused,
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			      union perf_event *event,
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			      struct perf_sample *sample __maybe_unused,
			      struct machine *machine __maybe_unused)
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{
	pid_exit(event->fork.pid, event->fork.time);
	return 0;
}

struct trace_entry {
	unsigned short		type;
	unsigned char		flags;
	unsigned char		preempt_count;
	int			pid;
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	int			lock_depth;
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};

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#ifdef SUPPORT_OLD_POWER_EVENTS
static int use_old_power_events;
struct power_entry_old {
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	struct trace_entry te;
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	u64	type;
	u64	value;
	u64	cpu_id;
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};
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#endif

struct power_processor_entry {
	struct trace_entry te;
	u32	state;
	u32	cpu_id;
};
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#define TASK_COMM_LEN 16
struct wakeup_entry {
	struct trace_entry te;
	char comm[TASK_COMM_LEN];
	int   pid;
	int   prio;
	int   success;
};

/*
 * trace_flag_type is an enumeration that holds different
 * states when a trace occurs. These are:
 *  IRQS_OFF            - interrupts were disabled
 *  IRQS_NOSUPPORT      - arch does not support irqs_disabled_flags
 *  NEED_RESCED         - reschedule is requested
 *  HARDIRQ             - inside an interrupt handler
 *  SOFTIRQ             - inside a softirq handler
 */
enum trace_flag_type {
	TRACE_FLAG_IRQS_OFF		= 0x01,
	TRACE_FLAG_IRQS_NOSUPPORT	= 0x02,
	TRACE_FLAG_NEED_RESCHED		= 0x04,
	TRACE_FLAG_HARDIRQ		= 0x08,
	TRACE_FLAG_SOFTIRQ		= 0x10,
};



struct sched_switch {
	struct trace_entry te;
	char prev_comm[TASK_COMM_LEN];
	int  prev_pid;
	int  prev_prio;
	long prev_state; /* Arjan weeps. */
	char next_comm[TASK_COMM_LEN];
	int  next_pid;
	int  next_prio;
};

static void c_state_start(int cpu, u64 timestamp, int state)
{
	cpus_cstate_start_times[cpu] = timestamp;
	cpus_cstate_state[cpu] = state;
}

static void c_state_end(int cpu, u64 timestamp)
{
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	struct power_event *pwr = zalloc(sizeof(*pwr));

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	if (!pwr)
		return;

	pwr->state = cpus_cstate_state[cpu];
	pwr->start_time = cpus_cstate_start_times[cpu];
	pwr->end_time = timestamp;
	pwr->cpu = cpu;
	pwr->type = CSTATE;
	pwr->next = power_events;

	power_events = pwr;
}

static void p_state_change(int cpu, u64 timestamp, u64 new_freq)
{
	struct power_event *pwr;

	if (new_freq > 8000000) /* detect invalid data */
		return;

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	pwr = zalloc(sizeof(*pwr));
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	if (!pwr)
		return;

	pwr->state = cpus_pstate_state[cpu];
	pwr->start_time = cpus_pstate_start_times[cpu];
	pwr->end_time = timestamp;
	pwr->cpu = cpu;
	pwr->type = PSTATE;
	pwr->next = power_events;

	if (!pwr->start_time)
		pwr->start_time = first_time;

	power_events = pwr;

	cpus_pstate_state[cpu] = new_freq;
	cpus_pstate_start_times[cpu] = timestamp;

	if ((u64)new_freq > max_freq)
		max_freq = new_freq;

	if (new_freq < min_freq || min_freq == 0)
		min_freq = new_freq;

	if (new_freq == max_freq - 1000)
			turbo_frequency = max_freq;
}

static void
sched_wakeup(int cpu, u64 timestamp, int pid, struct trace_entry *te)
{
	struct per_pid *p;
	struct wakeup_entry *wake = (void *)te;
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	struct wake_event *we = zalloc(sizeof(*we));
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	if (!we)
		return;

	we->time = timestamp;
	we->waker = pid;

	if ((te->flags & TRACE_FLAG_HARDIRQ) || (te->flags & TRACE_FLAG_SOFTIRQ))
		we->waker = -1;

	we->wakee = wake->pid;
	we->next = wake_events;
	wake_events = we;
	p = find_create_pid(we->wakee);

	if (p && p->current && p->current->state == TYPE_NONE) {
		p->current->state_since = timestamp;
		p->current->state = TYPE_WAITING;
	}
	if (p && p->current && p->current->state == TYPE_BLOCKED) {
		pid_put_sample(p->pid, p->current->state, cpu, p->current->state_since, timestamp);
		p->current->state_since = timestamp;
		p->current->state = TYPE_WAITING;
	}
}

static void sched_switch(int cpu, u64 timestamp, struct trace_entry *te)
{
	struct per_pid *p = NULL, *prev_p;
	struct sched_switch *sw = (void *)te;


	prev_p = find_create_pid(sw->prev_pid);

	p = find_create_pid(sw->next_pid);

	if (prev_p->current && prev_p->current->state != TYPE_NONE)
		pid_put_sample(sw->prev_pid, TYPE_RUNNING, cpu, prev_p->current->state_since, timestamp);
	if (p && p->current) {
		if (p->current->state != TYPE_NONE)
			pid_put_sample(sw->next_pid, p->current->state, cpu, p->current->state_since, timestamp);

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		p->current->state_since = timestamp;
		p->current->state = TYPE_RUNNING;
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	}

	if (prev_p->current) {
		prev_p->current->state = TYPE_NONE;
		prev_p->current->state_since = timestamp;
		if (sw->prev_state & 2)
			prev_p->current->state = TYPE_BLOCKED;
		if (sw->prev_state == 0)
			prev_p->current->state = TYPE_WAITING;
	}
}


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static int process_sample_event(struct perf_tool *tool __maybe_unused,
				union perf_event *event __maybe_unused,
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				struct perf_sample *sample,
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				struct perf_evsel *evsel,
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				struct machine *machine __maybe_unused)
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{
	struct trace_entry *te;

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	if (evsel->attr.sample_type & PERF_SAMPLE_TIME) {
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		if (!first_time || first_time > sample->time)
			first_time = sample->time;
		if (last_time < sample->time)
			last_time = sample->time;
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	}
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	te = (void *)sample->raw_data;
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	if ((evsel->attr.sample_type & PERF_SAMPLE_RAW) && sample->raw_size > 0) {
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		char *event_str;
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#ifdef SUPPORT_OLD_POWER_EVENTS
		struct power_entry_old *peo;
		peo = (void *)te;
#endif
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		/*
		 * FIXME: use evsel, its already mapped from id to perf_evsel,
		 * remove perf_header__find_event infrastructure bits.
		 * Mapping all these "power:cpu_idle" strings to the tracepoint
		 * ID and then just comparing against evsel->attr.config.
		 *
		 * e.g.:
		 *
		 * if (evsel->attr.config == power_cpu_idle_id)
		 */
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		event_str = perf_header__find_event(te->type);

		if (!event_str)
			return 0;

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		if (sample->cpu > numcpus)
			numcpus = sample->cpu;

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		if (strcmp(event_str, "power:cpu_idle") == 0) {
			struct power_processor_entry *ppe = (void *)te;
			if (ppe->state == (u32)PWR_EVENT_EXIT)
				c_state_end(ppe->cpu_id, sample->time);
			else
				c_state_start(ppe->cpu_id, sample->time,
					      ppe->state);
		}
		else if (strcmp(event_str, "power:cpu_frequency") == 0) {
			struct power_processor_entry *ppe = (void *)te;
			p_state_change(ppe->cpu_id, sample->time, ppe->state);
		}
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		else if (strcmp(event_str, "sched:sched_wakeup") == 0)
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			sched_wakeup(sample->cpu, sample->time, sample->pid, te);
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		else if (strcmp(event_str, "sched:sched_switch") == 0)
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			sched_switch(sample->cpu, sample->time, te);
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#ifdef SUPPORT_OLD_POWER_EVENTS
		if (use_old_power_events) {
			if (strcmp(event_str, "power:power_start") == 0)
				c_state_start(peo->cpu_id, sample->time,
					      peo->value);

			else if (strcmp(event_str, "power:power_end") == 0)
				c_state_end(sample->cpu, sample->time);

			else if (strcmp(event_str,
					"power:power_frequency") == 0)
				p_state_change(peo->cpu_id, sample->time,
					       peo->value);
		}
#endif
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	}
	return 0;
}

/*
 * After the last sample we need to wrap up the current C/P state
 * and close out each CPU for these.
 */
static void end_sample_processing(void)
{
	u64 cpu;
	struct power_event *pwr;

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	for (cpu = 0; cpu <= numcpus; cpu++) {
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		/* C state */
#if 0
		pwr = zalloc(sizeof(*pwr));
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		if (!pwr)
			return;

		pwr->state = cpus_cstate_state[cpu];
		pwr->start_time = cpus_cstate_start_times[cpu];
		pwr->end_time = last_time;
		pwr->cpu = cpu;
		pwr->type = CSTATE;
		pwr->next = power_events;

		power_events = pwr;
#endif
		/* P state */

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		pwr = zalloc(sizeof(*pwr));
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		if (!pwr)
			return;

		pwr->state = cpus_pstate_state[cpu];
		pwr->start_time = cpus_pstate_start_times[cpu];
		pwr->end_time = last_time;
		pwr->cpu = cpu;
		pwr->type = PSTATE;
		pwr->next = power_events;

		if (!pwr->start_time)
			pwr->start_time = first_time;
		if (!pwr->state)
			pwr->state = min_freq;
		power_events = pwr;
	}
}

/*
 * Sort the pid datastructure
 */
static void sort_pids(void)
{
	struct per_pid *new_list, *p, *cursor, *prev;
	/* sort by ppid first, then by pid, lowest to highest */

	new_list = NULL;

	while (all_data) {
		p = all_data;
		all_data = p->next;
		p->next = NULL;

		if (new_list == NULL) {
			new_list = p;
			p->next = NULL;
			continue;
		}
		prev = NULL;
		cursor = new_list;
		while (cursor) {
			if (cursor->ppid > p->ppid ||
				(cursor->ppid == p->ppid && cursor->pid > p->pid)) {
				/* must insert before */
				if (prev) {
					p->next = prev->next;
					prev->next = p;
					cursor = NULL;
					continue;
				} else {
					p->next = new_list;
					new_list = p;
					cursor = NULL;
					continue;
				}
			}

			prev = cursor;
			cursor = cursor->next;
			if (!cursor)
				prev->next = p;
		}
	}
	all_data = new_list;
}


static void draw_c_p_states(void)
{
	struct power_event *pwr;
	pwr = power_events;

	/*
	 * two pass drawing so that the P state bars are on top of the C state blocks
	 */
	while (pwr) {
		if (pwr->type == CSTATE)
			svg_cstate(pwr->cpu, pwr->start_time, pwr->end_time, pwr->state);
		pwr = pwr->next;
	}

	pwr = power_events;
	while (pwr) {
		if (pwr->type == PSTATE) {
			if (!pwr->state)
				pwr->state = min_freq;
			svg_pstate(pwr->cpu, pwr->start_time, pwr->end_time, pwr->state);
		}
		pwr = pwr->next;
	}
}

static void draw_wakeups(void)
{
	struct wake_event *we;
	struct per_pid *p;
	struct per_pidcomm *c;

	we = wake_events;
	while (we) {
		int from = 0, to = 0;
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		char *task_from = NULL, *task_to = NULL;
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		/* locate the column of the waker and wakee */
		p = all_data;
		while (p) {
			if (p->pid == we->waker || p->pid == we->wakee) {
				c = p->all;
				while (c) {
					if (c->Y && c->start_time <= we->time && c->end_time >= we->time) {
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						if (p->pid == we->waker && !from) {
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							from = c->Y;
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							task_from = strdup(c->comm);
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						}
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						if (p->pid == we->wakee && !to) {
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							to = c->Y;
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							task_to = strdup(c->comm);
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						}
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					}
					c = c->next;
				}
710 711 712 713 714 715 716 717 718 719 720 721
				c = p->all;
				while (c) {
					if (p->pid == we->waker && !from) {
						from = c->Y;
						task_from = strdup(c->comm);
					}
					if (p->pid == we->wakee && !to) {
						to = c->Y;
						task_to = strdup(c->comm);
					}
					c = c->next;
				}
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			}
			p = p->next;
		}

726 727 728 729 730 731 732 733 734
		if (!task_from) {
			task_from = malloc(40);
			sprintf(task_from, "[%i]", we->waker);
		}
		if (!task_to) {
			task_to = malloc(40);
			sprintf(task_to, "[%i]", we->wakee);
		}

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		if (we->waker == -1)
			svg_interrupt(we->time, to);
		else if (from && to && abs(from - to) == 1)
			svg_wakeline(we->time, from, to);
		else
740
			svg_partial_wakeline(we->time, from, task_from, to, task_to);
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		we = we->next;
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		free(task_from);
		free(task_to);
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	}
}

static void draw_cpu_usage(void)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	struct cpu_sample *sample;
	p = all_data;
	while (p) {
		c = p->all;
		while (c) {
			sample = c->samples;
			while (sample) {
				if (sample->type == TYPE_RUNNING)
					svg_process(sample->cpu, sample->start_time, sample->end_time, "sample", c->comm);

				sample = sample->next;
			}
			c = c->next;
		}
		p = p->next;
	}
}

static void draw_process_bars(void)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	struct cpu_sample *sample;
	int Y = 0;

	Y = 2 * numcpus + 2;

	p = all_data;
	while (p) {
		c = p->all;
		while (c) {
			if (!c->display) {
				c->Y = 0;
				c = c->next;
				continue;
			}

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			svg_box(Y, c->start_time, c->end_time, "process");
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			sample = c->samples;
			while (sample) {
				if (sample->type == TYPE_RUNNING)
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					svg_sample(Y, sample->cpu, sample->start_time, sample->end_time);
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				if (sample->type == TYPE_BLOCKED)
					svg_box(Y, sample->start_time, sample->end_time, "blocked");
				if (sample->type == TYPE_WAITING)
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					svg_waiting(Y, sample->start_time, sample->end_time);
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				sample = sample->next;
			}

			if (c->comm) {
				char comm[256];
				if (c->total_time > 5000000000) /* 5 seconds */
					sprintf(comm, "%s:%i (%2.2fs)", c->comm, p->pid, c->total_time / 1000000000.0);
				else
					sprintf(comm, "%s:%i (%3.1fms)", c->comm, p->pid, c->total_time / 1000000.0);

				svg_text(Y, c->start_time, comm);
			}
			c->Y = Y;
			Y++;
			c = c->next;
		}
		p = p->next;
	}
}

818 819
static void add_process_filter(const char *string)
{
820 821
	int pid = strtoull(string, NULL, 10);
	struct process_filter *filt = malloc(sizeof(*filt));
822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889

	if (!filt)
		return;

	filt->name = strdup(string);
	filt->pid  = pid;
	filt->next = process_filter;

	process_filter = filt;
}

static int passes_filter(struct per_pid *p, struct per_pidcomm *c)
{
	struct process_filter *filt;
	if (!process_filter)
		return 1;

	filt = process_filter;
	while (filt) {
		if (filt->pid && p->pid == filt->pid)
			return 1;
		if (strcmp(filt->name, c->comm) == 0)
			return 1;
		filt = filt->next;
	}
	return 0;
}

static int determine_display_tasks_filtered(void)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	int count = 0;

	p = all_data;
	while (p) {
		p->display = 0;
		if (p->start_time == 1)
			p->start_time = first_time;

		/* no exit marker, task kept running to the end */
		if (p->end_time == 0)
			p->end_time = last_time;

		c = p->all;

		while (c) {
			c->display = 0;

			if (c->start_time == 1)
				c->start_time = first_time;

			if (passes_filter(p, c)) {
				c->display = 1;
				p->display = 1;
				count++;
			}

			if (c->end_time == 0)
				c->end_time = last_time;

			c = c->next;
		}
		p = p->next;
	}
	return count;
}

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static int determine_display_tasks(u64 threshold)
{
	struct per_pid *p;
	struct per_pidcomm *c;
	int count = 0;

896 897 898
	if (process_filter)
		return determine_display_tasks_filtered();

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	p = all_data;
	while (p) {
		p->display = 0;
		if (p->start_time == 1)
			p->start_time = first_time;

		/* no exit marker, task kept running to the end */
		if (p->end_time == 0)
			p->end_time = last_time;
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		if (p->total_time >= threshold && !power_only)
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			p->display = 1;

		c = p->all;

		while (c) {
			c->display = 0;

			if (c->start_time == 1)
				c->start_time = first_time;

919
			if (c->total_time >= threshold && !power_only) {
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				c->display = 1;
				count++;
			}

			if (c->end_time == 0)
				c->end_time = last_time;

			c = c->next;
		}
		p = p->next;
	}
	return count;
}



#define TIME_THRESH 10000000

static void write_svg_file(const char *filename)
{
	u64 i;
	int count;

	numcpus++;


	count = determine_display_tasks(TIME_THRESH);

	/* We'd like to show at least 15 tasks; be less picky if we have fewer */
	if (count < 15)
		count = determine_display_tasks(TIME_THRESH / 10);

952
	open_svg(filename, numcpus, count, first_time, last_time);
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954
	svg_time_grid();
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	svg_legenda();

	for (i = 0; i < numcpus; i++)
		svg_cpu_box(i, max_freq, turbo_frequency);

	draw_cpu_usage();
	draw_process_bars();
	draw_c_p_states();
	draw_wakeups();

	svg_close();
}

968
static int __cmd_timechart(const char *input_name, const char *output_name)
969
{
970 971 972 973 974 975 976
	struct perf_tool perf_timechart = {
		.comm		 = process_comm_event,
		.fork		 = process_fork_event,
		.exit		 = process_exit_event,
		.sample		 = process_sample_event,
		.ordered_samples = true,
	};
977
	struct perf_session *session = perf_session__new(input_name, O_RDONLY,
978
							 0, false, &perf_timechart);
979
	int ret = -EINVAL;
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981 982 983
	if (session == NULL)
		return -ENOMEM;

984 985 986
	if (!perf_session__has_traces(session, "timechart record"))
		goto out_delete;

987
	ret = perf_session__process_events(session, &perf_timechart);
988
	if (ret)
989
		goto out_delete;
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	end_sample_processing();

	sort_pids();

	write_svg_file(output_name);

997 998
	pr_info("Written %2.1f seconds of trace to %s.\n",
		(last_time - first_time) / 1000000000.0, output_name);
999 1000 1001
out_delete:
	perf_session__delete(session);
	return ret;
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}

1004 1005
static int __cmd_record(int argc, const char **argv)
{
1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022
#ifdef SUPPORT_OLD_POWER_EVENTS
	const char * const record_old_args[] = {
		"record", "-a", "-R", "-f", "-c", "1",
		"-e", "power:power_start",
		"-e", "power:power_end",
		"-e", "power:power_frequency",
		"-e", "sched:sched_wakeup",
		"-e", "sched:sched_switch",
	};
#endif
	const char * const record_new_args[] = {
		"record", "-a", "-R", "-f", "-c", "1",
		"-e", "power:cpu_frequency",
		"-e", "power:cpu_idle",
		"-e", "sched:sched_wakeup",
		"-e", "sched:sched_switch",
	};
1023 1024
	unsigned int rec_argc, i, j;
	const char **rec_argv;
1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035
	const char * const *record_args = record_new_args;
	unsigned int record_elems = ARRAY_SIZE(record_new_args);

#ifdef SUPPORT_OLD_POWER_EVENTS
	if (!is_valid_tracepoint("power:cpu_idle") &&
	    is_valid_tracepoint("power:power_start")) {
		use_old_power_events = 1;
		record_args = record_old_args;
		record_elems = ARRAY_SIZE(record_old_args);
	}
#endif
1036

1037
	rec_argc = record_elems + argc - 1;
1038 1039
	rec_argv = calloc(rec_argc + 1, sizeof(char *));

1040 1041 1042
	if (rec_argv == NULL)
		return -ENOMEM;

1043
	for (i = 0; i < record_elems; i++)
1044 1045 1046 1047 1048 1049 1050 1051
		rec_argv[i] = strdup(record_args[i]);

	for (j = 1; j < (unsigned int)argc; j++, i++)
		rec_argv[i] = argv[j];

	return cmd_record(i, rec_argv, NULL);
}

1052
static int
1053 1054
parse_process(const struct option *opt __maybe_unused, const char *arg,
	      int __maybe_unused unset)
1055 1056 1057 1058 1059 1060
{
	if (arg)
		add_process_filter(arg);
	return 0;
}

1061 1062 1063 1064 1065 1066 1067 1068 1069 1070
int cmd_timechart(int argc, const char **argv,
		  const char *prefix __maybe_unused)
{
	const char *input_name;
	const char *output_name = "output.svg";
	const struct option options[] = {
	OPT_STRING('i', "input", &input_name, "file", "input file name"),
	OPT_STRING('o', "output", &output_name, "file", "output file name"),
	OPT_INTEGER('w', "width", &svg_page_width, "page width"),
	OPT_BOOLEAN('P', "power-only", &power_only, "output power data only"),
1071 1072 1073
	OPT_CALLBACK('p', "process", NULL, "process",
		      "process selector. Pass a pid or process name.",
		       parse_process),
1074 1075
	OPT_STRING(0, "symfs", &symbol_conf.symfs, "directory",
		    "Look for files with symbols relative to this directory"),
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	OPT_END()
1077 1078 1079 1080 1081
	};
	const char * const timechart_usage[] = {
		"perf timechart [<options>] {record}",
		NULL
	};
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1083 1084
	argc = parse_options(argc, argv, options, timechart_usage,
			PARSE_OPT_STOP_AT_NON_OPTION);
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1086 1087
	symbol__init();

1088 1089 1090 1091
	if (argc && !strncmp(argv[0], "rec", 3))
		return __cmd_record(argc, argv);
	else if (argc)
		usage_with_options(timechart_usage, options);
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	setup_pager();

1095
	return __cmd_timechart(input_name, output_name);
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}