[lttngtop.git] / src / common.c

/*
 * Copyright (C) 2011-2012 Julien Desfossez
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License Version 2 as
 * published by the Free Software Foundation;
 *
 * This program is distributed in the hope that 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.
 *
 * You should have received a copy of the GNU General Public License along
 * with this program; if not, write to the Free Software Foundation, Inc.,
 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
 */

#include <babeltrace/ctf/events.h>
#include <stdlib.h>
#include <linux/unistd.h>
#include <string.h>
#include "common.h"

uint64_t get_cpu_id(const struct bt_ctf_event *event)
{
	const struct bt_definition *scope;
	uint64_t cpu_id;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_PACKET_CONTEXT);
	cpu_id = bt_ctf_get_uint64(bt_ctf_get_field(event, scope, "cpu_id"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "[error] get cpu_id\n");
		return -1ULL;
	}

	return cpu_id;
}

uint64_t get_context_tid(const struct bt_ctf_event *event)
{
	const struct bt_definition *scope;
	uint64_t tid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	tid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_tid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing tid context info\n");
		return -1ULL;
	}

	return tid;
}

uint64_t get_context_pid(const struct bt_ctf_event *event)
{
	const struct bt_definition *scope;
	uint64_t pid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	pid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_pid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing pid context info\n");
		return -1ULL;
	}

	return pid;
}

uint64_t get_context_ppid(const struct bt_ctf_event *event)
{
	const struct bt_definition *scope;
	uint64_t ppid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	ppid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_ppid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing ppid context info\n");
		return -1ULL;
	}

	return ppid;
}

uint64_t get_context_vtid(const struct bt_ctf_event *event)
{
	const struct definition *scope;
	uint64_t vtid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	vtid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_vtid"));
	if (bt_ctf_field_get_error()) {
		return -1ULL;
	}

	return vtid;
}

uint64_t get_context_vpid(const struct bt_ctf_event *event)
{
	const struct definition *scope;
	uint64_t vpid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	vpid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_vpid"));
	if (bt_ctf_field_get_error()) {
		return -1ULL;
	}

	return vpid;
}

uint64_t get_context_vppid(const struct bt_ctf_event *event)
{
	const struct definition *scope;
	uint64_t vppid;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	vppid = bt_ctf_get_int64(bt_ctf_get_field(event,
				scope, "_vppid"));
	if (bt_ctf_field_get_error()) {
		return -1ULL;
	}

	return vppid;
}

char *get_context_comm(const struct bt_ctf_event *event)
{
	const struct bt_definition *scope;
	char *comm;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	comm = bt_ctf_get_char_array(bt_ctf_get_field(event,
				scope, "_procname"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing comm context info\n");
		return NULL;
	}

	return comm;
}

char *get_context_hostname(const struct bt_ctf_event *event)
{
	const struct definition *scope;
	char *hostname;

	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	hostname = bt_ctf_get_char_array(bt_ctf_get_field(event,
				scope, "_hostname"));
	if (bt_ctf_field_get_error()) {
		return NULL;
	}

	return hostname;
}

/*
 * To get the parent process, put the pid in the tid field
 * because the parent process gets pid = tid
 */
struct processtop *find_process_tid(struct lttngtop *ctx, int tid, char *comm)
{
	struct processtop *tmp;

	tmp = g_hash_table_lookup(ctx->process_hash_table,
			(gconstpointer) (unsigned long) tid);

	return tmp;
}

struct processtop* add_proc(struct lttngtop *ctx, int tid, char *comm,
		unsigned long timestamp)
{
	struct processtop *newproc;

	/* if the PID already exists, we just rename the process */
	/* FIXME : need to integrate with clone/fork/exit to be accurate */
	newproc = find_process_tid(ctx, tid, comm);

	if (!newproc) {
		newproc = g_new0(struct processtop, 1);
		newproc->tid = tid;
		newproc->birth = timestamp;
		newproc->process_files_table = g_ptr_array_new();
		newproc->files_history = NULL;
		newproc->totalfileread = 0;
		newproc->totalfilewrite = 0;
		newproc->fileread = 0;
		newproc->filewrite = 0;
		newproc->syscall_info = NULL;
		newproc->threadparent = NULL;
		newproc->threads = g_ptr_array_new();
		newproc->perf = g_hash_table_new(g_str_hash, g_str_equal);
		g_ptr_array_add(ctx->process_table, newproc);
		g_hash_table_insert(ctx->process_hash_table,
				(gpointer) (unsigned long) tid, newproc);

		ctx->nbnewthreads++;
		ctx->nbthreads++;
	}
	newproc->comm = strdup(comm);

	return newproc;
}

struct processtop* update_proc(struct processtop* proc, int pid, int tid,
		int ppid, int vpid, int vtid, int vppid, char *comm, char *hostname)
{
	if (proc) {
		proc->pid = pid;
		proc->tid = tid;
		proc->ppid = ppid;
		proc->vpid = vpid;
		proc->vtid = vtid;
		proc->vppid = vppid;
		if (strcmp(proc->comm, comm) != 0) {
			free(proc->comm);
			proc->comm = strdup(comm);
		}
		if (hostname) {
			if (proc->hostname && strcmp(proc->hostname, hostname) != 0) {
				free(proc->hostname);
			}
			proc->hostname = strdup(hostname);
		}
	}
	return proc;
}

/*
 * This function just sets the time of death of a process.
 * When we rotate the cputime we remove it from the process list.
 */
void death_proc(struct lttngtop *ctx, int tid, char *comm,
		unsigned long timestamp)
{
	struct processtop *tmp;
	tmp = find_process_tid(ctx, tid, comm);

	g_hash_table_remove(ctx->process_hash_table,
			(gpointer) (unsigned long) tid);
	if (tmp && strcmp(tmp->comm, comm) == 0) {
		tmp->death = timestamp;
		ctx->nbdeadthreads++;
		ctx->nbthreads--;
	}
}

struct processtop* get_proc(struct lttngtop *ctx, int tid, char *comm,
		unsigned long timestamp)
{
	struct processtop *tmp;
	tmp = find_process_tid(ctx, tid, comm);
	if (tmp && strcmp(tmp->comm, comm) == 0)
		return tmp;
	return add_proc(ctx, tid, comm, timestamp);
}

struct processtop *get_proc_pid(struct lttngtop *ctx, int tid, int pid,
		unsigned long timestamp)
{
	struct processtop *tmp;
	tmp = find_process_tid(ctx, tid, NULL);
	if (tmp && tmp->pid == pid)
		return tmp;
	return add_proc(ctx, tid, "Unknown", timestamp);
}

void add_thread(struct processtop *parent, struct processtop *thread)
{
	gint i;
	struct processtop *tmp;

	if (!parent)
		return;

	for (i = 0; i < parent->threads->len; i++) {
		tmp = g_ptr_array_index(parent->threads, i);
		if (tmp == thread)
			return;
	}
	g_ptr_array_add(parent->threads, thread);
}

struct cputime* add_cpu(int cpu)
{
	struct cputime *newcpu;

	newcpu = g_new0(struct cputime, 1);
	newcpu->id = cpu;
	newcpu->current_task = NULL;
	newcpu->perf = g_hash_table_new(g_str_hash, g_str_equal);

	g_ptr_array_add(lttngtop.cpu_table, newcpu);

	return newcpu;
}
struct cputime* get_cpu(int cpu)
{
	gint i;
	struct cputime *tmp;

	for (i = 0; i < lttngtop.cpu_table->len; i++) {
		tmp = g_ptr_array_index(lttngtop.cpu_table, i);
		if (tmp->id == cpu)
			return tmp;
	}

	return add_cpu(cpu);
}

/*
 * At the end of a sampling period, we need to display the cpu time for each
 * process and to reset it to zero for the next period
 */
void rotate_cputime(unsigned long end)
{
	gint i;
	struct cputime *tmp;
	unsigned long elapsed;

	for (i = 0; i < lttngtop.cpu_table->len; i++) {
		tmp = g_ptr_array_index(lttngtop.cpu_table, i);
		elapsed = end - tmp->task_start;
		if (tmp->current_task) {
			tmp->current_task->totalcpunsec += elapsed;
			tmp->current_task->threadstotalcpunsec += elapsed;
			if (tmp->current_task->pid != tmp->current_task->tid &&
					tmp->current_task->threadparent) {
				tmp->current_task->threadparent->threadstotalcpunsec += elapsed;
			}
		}
		tmp->task_start = end;
	}
}

void reset_perf_counter(gpointer key, gpointer value, gpointer user_data)
{
	((struct perfcounter*) value)->count = 0;
}

void copy_perf_counter(gpointer key, gpointer value, gpointer new_table)
{
	struct perfcounter *newperf;

	newperf = g_new0(struct perfcounter, 1);
	newperf->count = ((struct perfcounter *) value)->count;
	newperf->visible = ((struct perfcounter *) value)->visible;
	newperf->sort = ((struct perfcounter *) value)->sort;
	g_hash_table_insert((GHashTable *) new_table, strdup(key), newperf);
}

void copy_process_table(gpointer key, gpointer value, gpointer new_table)
{
	g_hash_table_insert((GHashTable *) new_table, key, value);
}

void rotate_perfcounter() {
	int i;
	struct processtop *tmp;
	for (i = 0; i < lttngtop.process_table->len; i++) {
		tmp = g_ptr_array_index(lttngtop.process_table, i);
		g_hash_table_foreach(tmp->perf, reset_perf_counter, NULL);
	}
}

void cleanup_processtop()
{
	gint i, j;
	struct processtop *tmp;
	struct files *tmpf; /* a temporary file */

	for (i = 0; i < lttngtop.process_table->len; i++) {
		tmp = g_ptr_array_index(lttngtop.process_table, i);
		tmp->totalcpunsec = 0;
		tmp->threadstotalcpunsec = 0;
		tmp->fileread = 0;
		tmp->filewrite = 0;

		for (j = 0; j < tmp->process_files_table->len; j++) {
			tmpf = g_ptr_array_index(tmp->process_files_table, j);
			if (tmpf != NULL) {
				tmpf->read = 0;
				tmpf->write = 0;

				if (tmpf->flag == __NR_close)
					g_ptr_array_index(
						tmp->process_files_table, j
					) = NULL;
			}
		}
	}
}

void reset_global_counters()
{
	lttngtop.nbnewproc = 0;
	lttngtop.nbdeadproc = 0;
	lttngtop.nbnewthreads = 0;
	lttngtop.nbdeadthreads = 0;
	lttngtop.nbnewfiles = 0;
	lttngtop.nbclosedfiles = 0;
}

void copy_global_counters(struct lttngtop *dst)
{
	dst->nbproc = lttngtop.nbproc;
	dst->nbnewproc = lttngtop.nbnewproc;
	dst->nbdeadproc = lttngtop.nbdeadproc;
	dst->nbthreads = lttngtop.nbthreads;
	dst->nbnewthreads = lttngtop.nbnewthreads;
	dst->nbdeadthreads = lttngtop.nbdeadthreads;
	dst->nbfiles = lttngtop.nbfiles;
	dst->nbnewfiles = lttngtop.nbnewfiles;
	dst->nbclosedfiles = lttngtop.nbclosedfiles;
	reset_global_counters();
}

struct lttngtop* get_copy_lttngtop(unsigned long start, unsigned long end)
{
	gint i, j;
	unsigned long time;
	struct lttngtop *dst;
	struct processtop *tmp, *tmp2, *new;
	struct cputime *tmpcpu, *newcpu;
	struct files *tmpfile, *newfile;
	struct kprobes *tmpprobe, *newprobe;

	dst = g_new0(struct lttngtop, 1);
	dst->start = start;
	dst->end = end;
	copy_global_counters(dst);
	dst->process_table = g_ptr_array_new();
	dst->files_table = g_ptr_array_new();
	dst->cpu_table = g_ptr_array_new();
	dst->kprobes_table = g_ptr_array_new();
	dst->process_hash_table = g_hash_table_new(g_direct_hash, g_direct_equal);
	g_hash_table_foreach(lttngtop.process_hash_table, copy_process_table,
			dst->process_hash_table);

	rotate_cputime(end);

	for (i = 0; i < lttngtop.process_table->len; i++) {
		tmp = g_ptr_array_index(lttngtop.process_table, i);
		new = g_new0(struct processtop, 1);

		memcpy(new, tmp, sizeof(struct processtop));
		new->threads = g_ptr_array_new();
		new->comm = strdup(tmp->comm);
		new->process_files_table = g_ptr_array_new();
		new->files_history = tmp->files_history;
		new->perf = g_hash_table_new(g_str_hash, g_str_equal);
		g_hash_table_foreach(tmp->perf, copy_perf_counter, new->perf);

		/* compute the stream speed */
		if (end - start != 0) {
			time = (end - start) / NSEC_PER_SEC;
			new->fileread = new->fileread/(time);
			new->filewrite = new->filewrite/(time);
		}

		for (j = 0; j < tmp->process_files_table->len; j++) {
			tmpfile = g_ptr_array_index(tmp->process_files_table, j);

			newfile = malloc(sizeof(struct files));

			if (tmpfile != NULL) {
				memcpy(newfile, tmpfile, sizeof(struct files));
				newfile->name = strdup(tmpfile->name);
				newfile->ref = new;
				g_ptr_array_add(new->process_files_table,
						newfile);
				g_ptr_array_add(dst->files_table, newfile);
			} else {
				g_ptr_array_add(new->process_files_table, NULL);
				g_ptr_array_add(dst->files_table, NULL);
			}
			/*
			 * if the process died during the last period, we remove all
			 * files associated with if after the copy
			 */
			if (tmp->death > 0 && tmp->death < end) {
				/* FIXME : close the files before */
				g_ptr_array_remove(tmp->process_files_table, tmpfile);
				g_free(tmpfile);
			}
		}
		g_ptr_array_add(dst->process_table, new);

		/*
		 * if the process died during the last period, we remove it from
		 * the current process list after the copy
		 */
		if (tmp->death > 0 && tmp->death < end) {
			g_ptr_array_remove(lttngtop.process_table, tmp);
			/* FIXME : TRUE does not mean clears the object in it */
			g_ptr_array_free(tmp->threads, TRUE);
			free(tmp->comm);
			g_ptr_array_free(tmp->process_files_table, TRUE);
			/* FIXME : clear elements */
			g_hash_table_destroy(tmp->perf);
			g_free(tmp);
		}
	}
	rotate_perfcounter();

	for (i = 0; i < lttngtop.cpu_table->len; i++) {
		tmpcpu = g_ptr_array_index(lttngtop.cpu_table, i);
		newcpu = g_new0(struct cputime, 1);
		memcpy(newcpu, tmpcpu, sizeof(struct cputime));
		newcpu->perf = g_hash_table_new(g_str_hash, g_str_equal);
		g_hash_table_foreach(tmpcpu->perf, copy_perf_counter, newcpu->perf);
		/*
		 * note : we don't care about the current process pointer in the copy
		 * so the reference is invalid after the memcpy
		 */
		g_ptr_array_add(dst->cpu_table, newcpu);
	}
	for (i = 0; i < lttngtop.kprobes_table->len; i++) {
		tmpprobe = g_ptr_array_index(lttngtop.kprobes_table, i);
		newprobe = g_new0(struct kprobes, 1);
		memcpy(newprobe, tmpprobe, sizeof(struct kprobes));
		tmpprobe->count = 0;
		g_ptr_array_add(dst->kprobes_table, newprobe);
	}
	/* FIXME : better algo */
	/* create the threads index if required */
	for (i = 0; i < dst->process_table->len; i++) {
		tmp = g_ptr_array_index(dst->process_table, i);
		if (tmp->pid == tmp->tid) {
			for (j = 0; j < dst->process_table->len; j++) {
				tmp2 = g_ptr_array_index(dst->process_table, j);
				if (tmp2->pid == tmp->pid) {
					tmp2->threadparent = tmp;
					g_ptr_array_add(tmp->threads, tmp2);
				}
			}
		}
	}

	//  update_global_stats(dst);
	cleanup_processtop();

	return dst;
}


enum bt_cb_ret handle_statedump_process_state(struct bt_ctf_event *call_data,
		void *private_data)
{
	const struct bt_definition *scope;
	struct processtop *proc;
	unsigned long timestamp;
	int64_t pid, tid, ppid, vtid, vpid, vppid;
	char *procname;

	timestamp = bt_ctf_get_timestamp(call_data);
	if (timestamp == -1ULL)
		goto error;

	scope = bt_ctf_get_top_level_scope(call_data,
			 BT_EVENT_FIELDS);
	pid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
			     scope, "_pid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing pid context info\n");
		goto error;
	}
	ppid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
				scope, "_ppid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing ppid context info\n");
		goto error;
	}
	tid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
				scope, "_tid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing tid context info\n");
		goto error;
	}
	vtid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
				scope, "_vtid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing vtid context info\n");
		goto error;
	}
	vpid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
				scope, "_vpid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing vpid context info\n");
		goto error;
	}
	vppid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
				scope, "_vppid"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing vppid context info\n");
		goto error;
	}

	scope = bt_ctf_get_top_level_scope(call_data,
			BT_EVENT_FIELDS);
	procname = bt_ctf_get_char_array(bt_ctf_get_field(call_data,
				scope, "_name"));
	if (bt_ctf_field_get_error()) {
		fprintf(stderr, "Missing process name context info\n");
		goto error;
	}

	proc = find_process_tid(&lttngtop, tid, procname);
	if (proc == NULL)
		proc = add_proc(&lttngtop, tid, procname, timestamp);
	update_proc(proc, pid, tid, ppid, vpid, vtid, vppid, procname, NULL);

	if (proc) {
		free(proc->comm);
		proc->comm = strdup(procname);
		proc->pid = pid;
	}

	return BT_CB_OK;

error:
	return BT_CB_ERROR_STOP;
}

struct tm format_timestamp(uint64_t timestamp)
{
	struct tm tm;
	uint64_t ts_sec = 0, ts_nsec;
	time_t time_s;

	ts_nsec = timestamp;
	ts_sec += ts_nsec / NSEC_PER_SEC;
	ts_nsec = ts_nsec % NSEC_PER_SEC;

	time_s = (time_t) ts_sec;

	localtime_r(&time_s, &tm);

	return tm;
}

int *lookup_tid_list(int tid)
{
	return g_hash_table_lookup(tid_list, (gpointer) &tid);
}

char *lookup_hostname_list(const char *hostname)
{
	if (!hostname)
		return NULL;

	return g_hash_table_lookup(hostname_list, (gpointer) hostname);
}
Commit	Line	Data
1fc22eb4	1	/*
aa15ac1c	2	* Copyright (C) 2011-2012 Julien Desfossez
1fc22eb4 JD	3	*
	4	* This program is free software; you can redistribute it and/or modify
	5	* it under the terms of the GNU General Public License Version 2 as
	6	* published by the Free Software Foundation;
	7	*
	8	* This program is distributed in the hope that it will be useful,
	9	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	10	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	11	* GNU General Public License for more details.
	12	*
71bd7ce1 AM	13	* You should have received a copy of the GNU General Public License along
	14	* with this program; if not, write to the Free Software Foundation, Inc.,
	15	* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
1fc22eb4 JD	16	*/
1fc22eb4 JD	17
1dec520a	18	#include <babeltrace/ctf/events.h>
1fc22eb4	19	#include <stdlib.h>
ceb3a221	20	#include <linux/unistd.h>
1fc22eb4 JD	21	#include <string.h>
	22	#include "common.h"
	23
4adc8274	24	uint64_t get_cpu_id(const struct bt_ctf_event *event)
d67167cd	25	{
2e0a1190	26	const struct bt_definition *scope;
d67167cd JD	27	uint64_t cpu_id;
	28
	29	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_PACKET_CONTEXT);
	30	cpu_id = bt_ctf_get_uint64(bt_ctf_get_field(event, scope, "cpu_id"));
	31	if (bt_ctf_field_get_error()) {
	32	fprintf(stderr, "[error] get cpu_id\n");
	33	return -1ULL;
	34	}
	35
	36	return cpu_id;
	37	}
	38
4adc8274	39	uint64_t get_context_tid(const struct bt_ctf_event *event)
1dec520a	40	{
2e0a1190	41	const struct bt_definition *scope;
1dec520a JD	42	uint64_t tid;
	43
	44	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	45	tid = bt_ctf_get_int64(bt_ctf_get_field(event,
	46	scope, "_tid"));
	47	if (bt_ctf_field_get_error()) {
	48	fprintf(stderr, "Missing tid context info\n");
	49	return -1ULL;
	50	}
	51
	52	return tid;
	53	}
	54
4adc8274	55	uint64_t get_context_pid(const struct bt_ctf_event *event)
1dec520a	56	{
2e0a1190	57	const struct bt_definition *scope;
1dec520a JD	58	uint64_t pid;
	59
	60	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	61	pid = bt_ctf_get_int64(bt_ctf_get_field(event,
	62	scope, "_pid"));
	63	if (bt_ctf_field_get_error()) {
	64	fprintf(stderr, "Missing pid context info\n");
	65	return -1ULL;
	66	}
	67
	68	return pid;
	69	}
	70
4adc8274	71	uint64_t get_context_ppid(const struct bt_ctf_event *event)
1dec520a	72	{
2e0a1190	73	const struct bt_definition *scope;
1dec520a JD	74	uint64_t ppid;
	75
	76	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	77	ppid = bt_ctf_get_int64(bt_ctf_get_field(event,
	78	scope, "_ppid"));
	79	if (bt_ctf_field_get_error()) {
	80	fprintf(stderr, "Missing ppid context info\n");
	81	return -1ULL;
	82	}
	83
	84	return ppid;
	85	}
	86
1402044a JD	87	uint64_t get_context_vtid(const struct bt_ctf_event *event)
	88	{
	89	const struct definition *scope;
	90	uint64_t vtid;
	91
	92	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	93	vtid = bt_ctf_get_int64(bt_ctf_get_field(event,
	94	scope, "_vtid"));
	95	if (bt_ctf_field_get_error()) {
	96	return -1ULL;
	97	}
	98
	99	return vtid;
	100	}
	101
	102	uint64_t get_context_vpid(const struct bt_ctf_event *event)
	103	{
	104	const struct definition *scope;
	105	uint64_t vpid;
	106
	107	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	108	vpid = bt_ctf_get_int64(bt_ctf_get_field(event,
	109	scope, "_vpid"));
	110	if (bt_ctf_field_get_error()) {
	111	return -1ULL;
	112	}
	113
	114	return vpid;
	115	}
	116
	117	uint64_t get_context_vppid(const struct bt_ctf_event *event)
	118	{
	119	const struct definition *scope;
	120	uint64_t vppid;
	121
	122	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	123	vppid = bt_ctf_get_int64(bt_ctf_get_field(event,
	124	scope, "_vppid"));
	125	if (bt_ctf_field_get_error()) {
	126	return -1ULL;
	127	}
	128
	129	return vppid;
	130	}
	131
4adc8274	132	char get_context_comm(const struct bt_ctf_event event)
1dec520a	133	{
2e0a1190	134	const struct bt_definition *scope;
1dec520a JD	135	char *comm;
	136
	137	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	138	comm = bt_ctf_get_char_array(bt_ctf_get_field(event,
	139	scope, "_procname"));
	140	if (bt_ctf_field_get_error()) {
	141	fprintf(stderr, "Missing comm context info\n");
	142	return NULL;
	143	}
	144
	145	return comm;
	146	}
	147
c8d75a13 JD	148	char get_context_hostname(const struct bt_ctf_event event)
	149	{
	150	const struct definition *scope;
	151	char *hostname;
	152
	153	scope = bt_ctf_get_top_level_scope(event, BT_STREAM_EVENT_CONTEXT);
	154	hostname = bt_ctf_get_char_array(bt_ctf_get_field(event,
	155	scope, "_hostname"));
	156	if (bt_ctf_field_get_error()) {
	157	return NULL;
	158	}
	159
	160	return hostname;
	161	}
	162
59288610 MB	163	/*
	164	* To get the parent process, put the pid in the tid field
	165	* because the parent process gets pid = tid
59288610	166	*/
1fc22eb4 JD	167	struct processtop find_process_tid(struct lttngtop ctx, int tid, char *comm)
1fc22eb4 JD	168	{
1fc22eb4 JD	169	struct processtop *tmp;
1fc22eb4 JD	170
30b646c4 JD	171	tmp = g_hash_table_lookup(ctx->process_hash_table,
	172	(gconstpointer) (unsigned long) tid);
	173
	174	return tmp;
1fc22eb4 JD	175	}
	176
	177	struct processtop* add_proc(struct lttngtop ctx, int tid, char comm,
	178	unsigned long timestamp)
	179	{
	180	struct processtop *newproc;
	181
	182	/* if the PID already exists, we just rename the process */
	183	/* FIXME : need to integrate with clone/fork/exit to be accurate */
	184	newproc = find_process_tid(ctx, tid, comm);
96aa77de	185
1fc22eb4	186	if (!newproc) {
559c9f86	187	newproc = g_new0(struct processtop, 1);
1fc22eb4 JD	188	newproc->tid = tid;
	189	newproc->birth = timestamp;
	190	newproc->process_files_table = g_ptr_array_new();
ceb3a221	191	newproc->files_history = NULL;
b093de8a MB	192	newproc->totalfileread = 0;
	193	newproc->totalfilewrite = 0;
	194	newproc->fileread = 0;
	195	newproc->filewrite = 0;
	196	newproc->syscall_info = NULL;
59288610	197	newproc->threadparent = NULL;
1fc22eb4	198	newproc->threads = g_ptr_array_new();
85db4618	199	newproc->perf = g_hash_table_new(g_str_hash, g_str_equal);
1fc22eb4	200	g_ptr_array_add(ctx->process_table, newproc);
30b646c4 JD	201	g_hash_table_insert(ctx->process_hash_table,
30b646c4 JD	202	(gpointer) (unsigned long) tid, newproc);
e05a35a6 JD	203
	204	ctx->nbnewthreads++;
	205	ctx->nbthreads++;
1fc22eb4 JD	206	}
	207	newproc->comm = strdup(comm);
	208
	209	return newproc;
	210	}
	211
	212	struct processtop* update_proc(struct processtop* proc, int pid, int tid,
c8d75a13	213	int ppid, int vpid, int vtid, int vppid, char comm, char hostname)
1fc22eb4 JD	214	{
	215	if (proc) {
	216	proc->pid = pid;
	217	proc->tid = tid;
	218	proc->ppid = ppid;
1402044a JD	219	proc->vpid = vpid;
	220	proc->vtid = vtid;
	221	proc->vppid = vppid;
1fc22eb4 JD	222	if (strcmp(proc->comm, comm) != 0) {
	223	free(proc->comm);
	224	proc->comm = strdup(comm);
	225	}
c8d75a13 JD	226	if (hostname) {
	227	if (proc->hostname && strcmp(proc->hostname, hostname) != 0) {
	228	free(proc->hostname);
	229	}
	230	proc->hostname = strdup(hostname);
	231	}
1fc22eb4 JD	232	}
	233	return proc;
	234	}
	235
	236	/*
	237	* This function just sets the time of death of a process.
	238	* When we rotate the cputime we remove it from the process list.
	239	*/
	240	void death_proc(struct lttngtop ctx, int tid, char comm,
	241	unsigned long timestamp)
	242	{
	243	struct processtop *tmp;
	244	tmp = find_process_tid(ctx, tid, comm);
30b646c4 JD	245
	246	g_hash_table_remove(ctx->process_hash_table,
	247	(gpointer) (unsigned long) tid);
e05a35a6	248	if (tmp && strcmp(tmp->comm, comm) == 0) {
1fc22eb4	249	tmp->death = timestamp;
e05a35a6 JD	250	ctx->nbdeadthreads++;
	251	ctx->nbthreads--;
	252	}
1fc22eb4 JD	253	}
	254
	255	struct processtop* get_proc(struct lttngtop ctx, int tid, char comm,
	256	unsigned long timestamp)
	257	{
	258	struct processtop *tmp;
	259	tmp = find_process_tid(ctx, tid, comm);
	260	if (tmp && strcmp(tmp->comm, comm) == 0)
	261	return tmp;
	262	return add_proc(ctx, tid, comm, timestamp);
	263	}
	264
59288610 MB	265	struct processtop get_proc_pid(struct lttngtop ctx, int tid, int pid,
	266	unsigned long timestamp)
	267	{
	268	struct processtop *tmp;
	269	tmp = find_process_tid(ctx, tid, NULL);
	270	if (tmp && tmp->pid == pid)
	271	return tmp;
	272	return add_proc(ctx, tid, "Unknown", timestamp);
	273	}
	274
1fc22eb4 JD	275	void add_thread(struct processtop parent, struct processtop thread)
	276	{
	277	gint i;
	278	struct processtop *tmp;
	279
96aa77de JD	280	if (!parent)
	281	return;
	282
1fc22eb4 JD	283	for (i = 0; i < parent->threads->len; i++) {
	284	tmp = g_ptr_array_index(parent->threads, i);
	285	if (tmp == thread)
	286	return;
	287	}
	288	g_ptr_array_add(parent->threads, thread);
	289	}
	290
	291	struct cputime* add_cpu(int cpu)
	292	{
	293	struct cputime *newcpu;
	294
559c9f86	295	newcpu = g_new0(struct cputime, 1);
1fc22eb4 JD	296	newcpu->id = cpu;
1fc22eb4 JD	297	newcpu->current_task = NULL;
85db4618	298	newcpu->perf = g_hash_table_new(g_str_hash, g_str_equal);
1fc22eb4 JD	299
	300	g_ptr_array_add(lttngtop.cpu_table, newcpu);
	301
	302	return newcpu;
	303	}
	304	struct cputime* get_cpu(int cpu)
	305	{
	306	gint i;
	307	struct cputime *tmp;
	308
	309	for (i = 0; i < lttngtop.cpu_table->len; i++) {
	310	tmp = g_ptr_array_index(lttngtop.cpu_table, i);
	311	if (tmp->id == cpu)
	312	return tmp;
	313	}
	314
	315	return add_cpu(cpu);
	316	}
	317
	318	/*
	319	* At the end of a sampling period, we need to display the cpu time for each
	320	* process and to reset it to zero for the next period
	321	*/
	322	void rotate_cputime(unsigned long end)
	323	{
	324	gint i;
	325	struct cputime *tmp;
	326	unsigned long elapsed;
	327
	328	for (i = 0; i < lttngtop.cpu_table->len; i++) {
	329	tmp = g_ptr_array_index(lttngtop.cpu_table, i);
	330	elapsed = end - tmp->task_start;
	331	if (tmp->current_task) {
	332	tmp->current_task->totalcpunsec += elapsed;
	333	tmp->current_task->threadstotalcpunsec += elapsed;
	334	if (tmp->current_task->pid != tmp->current_task->tid &&
	335	tmp->current_task->threadparent) {
	336	tmp->current_task->threadparent->threadstotalcpunsec += elapsed;
	337	}
	338	}
	339	tmp->task_start = end;
	340	}
	341	}
	342
	343	void reset_perf_counter(gpointer key, gpointer value, gpointer user_data)
	344	{
	345	((struct perfcounter*) value)->count = 0;
	346	}
	347
	348	void copy_perf_counter(gpointer key, gpointer value, gpointer new_table)
	349	{
	350	struct perfcounter *newperf;
59288610	351
559c9f86	352	newperf = g_new0(struct perfcounter, 1);
1fc22eb4 JD	353	newperf->count = ((struct perfcounter *) value)->count;
	354	newperf->visible = ((struct perfcounter *) value)->visible;
	355	newperf->sort = ((struct perfcounter *) value)->sort;
85db4618	356	g_hash_table_insert((GHashTable *) new_table, strdup(key), newperf);
1fc22eb4 JD	357	}
1fc22eb4 JD	358
30b646c4 JD	359	void copy_process_table(gpointer key, gpointer value, gpointer new_table)
	360	{
	361	g_hash_table_insert((GHashTable *) new_table, key, value);
	362	}
	363
1fc22eb4 JD	364	void rotate_perfcounter() {
	365	int i;
	366	struct processtop *tmp;
	367	for (i = 0; i < lttngtop.process_table->len; i++) {
	368	tmp = g_ptr_array_index(lttngtop.process_table, i);
	369	g_hash_table_foreach(tmp->perf, reset_perf_counter, NULL);
	370	}
	371	}
	372
	373	void cleanup_processtop()
	374	{
b093de8a	375	gint i, j;
1fc22eb4	376	struct processtop *tmp;
b093de8a	377	struct files tmpf; / a temporary file */
1fc22eb4 JD	378
	379	for (i = 0; i < lttngtop.process_table->len; i++) {
	380	tmp = g_ptr_array_index(lttngtop.process_table, i);
	381	tmp->totalcpunsec = 0;
	382	tmp->threadstotalcpunsec = 0;
b093de8a MB	383	tmp->fileread = 0;
	384	tmp->filewrite = 0;
	385
	386	for (j = 0; j < tmp->process_files_table->len; j++) {
	387	tmpf = g_ptr_array_index(tmp->process_files_table, j);
	388	if (tmpf != NULL) {
	389	tmpf->read = 0;
	390	tmpf->write = 0;
ceb3a221 MB	391
	392	if (tmpf->flag == __NR_close)
	393	g_ptr_array_index(
	394	tmp->process_files_table, j
	395	) = NULL;
b093de8a MB	396	}
b093de8a MB	397	}
1fc22eb4 JD	398	}
	399	}
	400
e05a35a6 JD	401	void reset_global_counters()
	402	{
	403	lttngtop.nbnewproc = 0;
	404	lttngtop.nbdeadproc = 0;
	405	lttngtop.nbnewthreads = 0;
	406	lttngtop.nbdeadthreads = 0;
	407	lttngtop.nbnewfiles = 0;
	408	lttngtop.nbclosedfiles = 0;
	409	}
	410
	411	void copy_global_counters(struct lttngtop *dst)
	412	{
	413	dst->nbproc = lttngtop.nbproc;
	414	dst->nbnewproc = lttngtop.nbnewproc;
	415	dst->nbdeadproc = lttngtop.nbdeadproc;
	416	dst->nbthreads = lttngtop.nbthreads;
	417	dst->nbnewthreads = lttngtop.nbnewthreads;
	418	dst->nbdeadthreads = lttngtop.nbdeadthreads;
	419	dst->nbfiles = lttngtop.nbfiles;
	420	dst->nbnewfiles = lttngtop.nbnewfiles;
	421	dst->nbclosedfiles = lttngtop.nbclosedfiles;
	422	reset_global_counters();
	423	}
	424
1fc22eb4 JD	425	struct lttngtop* get_copy_lttngtop(unsigned long start, unsigned long end)
	426	{
	427	gint i, j;
	428	unsigned long time;
	429	struct lttngtop *dst;
	430	struct processtop tmp, tmp2, *new;
	431	struct cputime tmpcpu, newcpu;
	432	struct files tmpfile, newfile;
246d5992	433	struct kprobes tmpprobe, newprobe;
1fc22eb4	434
559c9f86	435	dst = g_new0(struct lttngtop, 1);
1fc22eb4 JD	436	dst->start = start;
1fc22eb4 JD	437	dst->end = end;
e05a35a6	438	copy_global_counters(dst);
1fc22eb4 JD	439	dst->process_table = g_ptr_array_new();
	440	dst->files_table = g_ptr_array_new();
	441	dst->cpu_table = g_ptr_array_new();
246d5992	442	dst->kprobes_table = g_ptr_array_new();
30b646c4 JD	443	dst->process_hash_table = g_hash_table_new(g_direct_hash, g_direct_equal);
	444	g_hash_table_foreach(lttngtop.process_hash_table, copy_process_table,
	445	dst->process_hash_table);
1fc22eb4 JD	446
	447	rotate_cputime(end);
	448
1fc22eb4 JD	449	for (i = 0; i < lttngtop.process_table->len; i++) {
1fc22eb4 JD	450	tmp = g_ptr_array_index(lttngtop.process_table, i);
559c9f86	451	new = g_new0(struct processtop, 1);
1fc22eb4 JD	452
	453	memcpy(new, tmp, sizeof(struct processtop));
	454	new->threads = g_ptr_array_new();
	455	new->comm = strdup(tmp->comm);
	456	new->process_files_table = g_ptr_array_new();
ceb3a221	457	new->files_history = tmp->files_history;
85db4618	458	new->perf = g_hash_table_new(g_str_hash, g_str_equal);
1fc22eb4 JD	459	g_hash_table_foreach(tmp->perf, copy_perf_counter, new->perf);
1fc22eb4 JD	460
1fc22eb4	461	/* compute the stream speed */
85db4618 JD	462	if (end - start != 0) {
85db4618 JD	463	time = (end - start) / NSEC_PER_SEC;
b093de8a MB	464	new->fileread = new->fileread/(time);
b093de8a MB	465	new->filewrite = new->filewrite/(time);
1fc22eb4 JD	466	}
	467
	468	for (j = 0; j < tmp->process_files_table->len; j++) {
	469	tmpfile = g_ptr_array_index(tmp->process_files_table, j);
1fc22eb4	470
b093de8a MB	471	newfile = malloc(sizeof(struct files));
	472
	473	if (tmpfile != NULL) {
	474	memcpy(newfile, tmpfile, sizeof(struct files));
	475	newfile->name = strdup(tmpfile->name);
	476	newfile->ref = new;
	477	g_ptr_array_add(new->process_files_table,
	478	newfile);
	479	g_ptr_array_add(dst->files_table, newfile);
	480	} else {
	481	g_ptr_array_add(new->process_files_table, NULL);
	482	g_ptr_array_add(dst->files_table, NULL);
	483	}
1fc22eb4 JD	484	/*
	485	* if the process died during the last period, we remove all
	486	* files associated with if after the copy
	487	*/
	488	if (tmp->death > 0 && tmp->death < end) {
e05a35a6	489	/* FIXME : close the files before */
1fc22eb4	490	g_ptr_array_remove(tmp->process_files_table, tmpfile);
559c9f86	491	g_free(tmpfile);
1fc22eb4 JD	492	}
	493	}
	494	g_ptr_array_add(dst->process_table, new);
	495
	496	/*
	497	* if the process died during the last period, we remove it from
	498	* the current process list after the copy
	499	*/
	500	if (tmp->death > 0 && tmp->death < end) {
	501	g_ptr_array_remove(lttngtop.process_table, tmp);
85db4618	502	/* FIXME : TRUE does not mean clears the object in it */
1fc22eb4 JD	503	g_ptr_array_free(tmp->threads, TRUE);
	504	free(tmp->comm);
	505	g_ptr_array_free(tmp->process_files_table, TRUE);
85db4618	506	/* FIXME : clear elements */
1fc22eb4	507	g_hash_table_destroy(tmp->perf);
559c9f86	508	g_free(tmp);
1fc22eb4 JD	509	}
	510	}
	511	rotate_perfcounter();
	512
	513	for (i = 0; i < lttngtop.cpu_table->len; i++) {
	514	tmpcpu = g_ptr_array_index(lttngtop.cpu_table, i);
559c9f86	515	newcpu = g_new0(struct cputime, 1);
1fc22eb4	516	memcpy(newcpu, tmpcpu, sizeof(struct cputime));
85db4618	517	newcpu->perf = g_hash_table_new(g_str_hash, g_str_equal);
1fc22eb4 JD	518	g_hash_table_foreach(tmpcpu->perf, copy_perf_counter, newcpu->perf);
	519	/*
	520	* note : we don't care about the current process pointer in the copy
	521	* so the reference is invalid after the memcpy
	522	*/
	523	g_ptr_array_add(dst->cpu_table, newcpu);
	524	}
246d5992 JD	525	for (i = 0; i < lttngtop.kprobes_table->len; i++) {
	526	tmpprobe = g_ptr_array_index(lttngtop.kprobes_table, i);
	527	newprobe = g_new0(struct kprobes, 1);
	528	memcpy(newprobe, tmpprobe, sizeof(struct kprobes));
	529	tmpprobe->count = 0;
	530	g_ptr_array_add(dst->kprobes_table, newprobe);
	531	}
85db4618	532	/* FIXME : better algo */
1fc22eb4 JD	533	/* create the threads index if required */
	534	for (i = 0; i < dst->process_table->len; i++) {
	535	tmp = g_ptr_array_index(dst->process_table, i);
	536	if (tmp->pid == tmp->tid) {
	537	for (j = 0; j < dst->process_table->len; j++) {
	538	tmp2 = g_ptr_array_index(dst->process_table, j);
	539	if (tmp2->pid == tmp->pid) {
	540	tmp2->threadparent = tmp;
	541	g_ptr_array_add(tmp->threads, tmp2);
	542	}
	543	}
	544	}
	545	}
	546
	547	// update_global_stats(dst);
	548	cleanup_processtop();
	549
	550	return dst;
	551	}
	552
928f18a6 MB	553
	554	enum bt_cb_ret handle_statedump_process_state(struct bt_ctf_event *call_data,
	555	void *private_data)
	556	{
2e0a1190	557	const struct bt_definition *scope;
928f18a6 MB	558	struct processtop *proc;
928f18a6 MB	559	unsigned long timestamp;
11d218ce	560	int64_t pid, tid, ppid, vtid, vpid, vppid;
928f18a6 MB	561	char *procname;
928f18a6 MB	562
c78f2cdc	563	timestamp = bt_ctf_get_timestamp(call_data);
928f18a6 MB	564	if (timestamp == -1ULL)
	565	goto error;
	566
	567	scope = bt_ctf_get_top_level_scope(call_data,
	568	BT_EVENT_FIELDS);
	569	pid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	570	scope, "_pid"));
	571	if (bt_ctf_field_get_error()) {
	572	fprintf(stderr, "Missing pid context info\n");
	573	goto error;
	574	}
11d218ce JD	575	ppid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	576	scope, "_ppid"));
	577	if (bt_ctf_field_get_error()) {
b7194a4e	578	fprintf(stderr, "Missing ppid context info\n");
11d218ce JD	579	goto error;
11d218ce JD	580	}
928f18a6 MB	581	tid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	582	scope, "_tid"));
	583	if (bt_ctf_field_get_error()) {
	584	fprintf(stderr, "Missing tid context info\n");
	585	goto error;
	586	}
11d218ce JD	587	vtid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	588	scope, "_vtid"));
	589	if (bt_ctf_field_get_error()) {
	590	fprintf(stderr, "Missing vtid context info\n");
	591	goto error;
	592	}
	593	vpid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	594	scope, "_vpid"));
	595	if (bt_ctf_field_get_error()) {
b7194a4e	596	fprintf(stderr, "Missing vpid context info\n");
11d218ce JD	597	goto error;
	598	}
	599	vppid = bt_ctf_get_int64(bt_ctf_get_field(call_data,
	600	scope, "_vppid"));
	601	if (bt_ctf_field_get_error()) {
b7194a4e	602	fprintf(stderr, "Missing vppid context info\n");
11d218ce JD	603	goto error;
	604	}
	605
928f18a6 MB	606	scope = bt_ctf_get_top_level_scope(call_data,
	607	BT_EVENT_FIELDS);
	608	procname = bt_ctf_get_char_array(bt_ctf_get_field(call_data,
	609	scope, "_name"));
	610	if (bt_ctf_field_get_error()) {
	611	fprintf(stderr, "Missing process name context info\n");
	612	goto error;
	613	}
	614
	615	proc = find_process_tid(&lttngtop, tid, procname);
	616	if (proc == NULL)
	617	proc = add_proc(&lttngtop, tid, procname, timestamp);
c8d75a13	618	update_proc(proc, pid, tid, ppid, vpid, vtid, vppid, procname, NULL);
928f18a6	619
96aa77de JD	620	if (proc) {
	621	free(proc->comm);
	622	proc->comm = strdup(procname);
	623	proc->pid = pid;
	624	}
928f18a6	625
928f18a6 MB	626	return BT_CB_OK;
	627
	628	error:
	629	return BT_CB_ERROR_STOP;
	630	}
b520ab45 JD	631
	632	struct tm format_timestamp(uint64_t timestamp)
	633	{
	634	struct tm tm;
	635	uint64_t ts_sec = 0, ts_nsec;
	636	time_t time_s;
	637
	638	ts_nsec = timestamp;
	639	ts_sec += ts_nsec / NSEC_PER_SEC;
	640	ts_nsec = ts_nsec % NSEC_PER_SEC;
	641
	642	time_s = (time_t) ts_sec;
	643
	644	localtime_r(&time_s, &tm);
	645
	646	return tm;
	647	}
57bff788 JD	648
	649	int *lookup_tid_list(int tid)
	650	{
	651	return g_hash_table_lookup(tid_list, (gpointer) &tid);
	652	}
c8d75a13 JD	653
	654	char lookup_hostname_list(const char hostname)
	655	{
	656	if (!hostname)
	657	return NULL;
	658
	659	return g_hash_table_lookup(hostname_list, (gpointer) hostname);
	660	}