daemon/opd_sfile.c - platform/external/oprofile - Git at Google

 /**
  * @file daemon/opd_sfile.c
  * Management of sample files
  *
  * @remark Copyright 2002, 2005 OProfile authors
  * @remark Read the file COPYING
  *
  * @author John Levon
  * @author Philippe Elie
  */

 #include "opd_sfile.h"

 #include "opd_trans.h"
 #include "opd_kernel.h"
 #include "opd_mangling.h"
 #include "opd_anon.h"
 #include "opd_printf.h"
 #include "opd_stats.h"
 #include "opd_extended.h"
 #include "oprofiled.h"

 #include "op_libiberty.h"

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #define HASH_SIZE 2048
 #define HASH_BITS (HASH_SIZE - 1)

 /** All sfiles are hashed into these lists */
 static struct list_head hashes[HASH_SIZE];

 /** All sfiles are on this list. */
 static LIST_HEAD(lru_list);


 /* FIXME: can undoubtedly improve this hashing */
 /** Hash the transient parameters for lookup. */
 static unsigned long
 sfile_hash(struct transient const * trans, struct kernel_image * ki)
 {
 	unsigned long val = 0;

 	if (separate_thread) {
 		val ^= trans->tid << 2;
 		val ^= trans->tgid << 2;
 	}

 	if (separate_kernel || ((trans->anon || separate_lib) && !ki))
 		val ^= trans->app_cookie >> (DCOOKIE_SHIFT + 3);

 	if (separate_cpu)
 		val ^= trans->cpu;

 	/* cookie meaningless for kernel, shouldn't hash */
 	if (trans->in_kernel) {
 		val ^= ki->start >> 14;
 		val ^= ki->end >> 7;
 		return val & HASH_BITS;
 	}

 	if (trans->cookie != NO_COOKIE) {
 		val ^= trans->cookie >> DCOOKIE_SHIFT;
 		return val & HASH_BITS;
 	}

 	if (!separate_thread)
 		val ^= trans->tgid << 2;

 	if (trans->anon) {
 		val ^= trans->anon->start >> VMA_SHIFT;
 		val ^= trans->anon->end >> (VMA_SHIFT + 1);
 	}

 	return val & HASH_BITS;
 }


 static int
 do_match(struct sfile const * sf, cookie_t cookie, cookie_t app_cookie,
          struct kernel_image const * ki, struct anon_mapping const * anon,
          pid_t tgid, pid_t tid, unsigned int cpu)
 {
 	/* this is a simplified check for "is a kernel image" AND
 	 * "is the right kernel image". Also handles no-vmlinux
 	 * correctly.
 	 */
 	if (sf->kernel != ki)
 		return 0;

 	if (separate_thread) {
 		if (sf->tid != tid || sf->tgid != tgid)
 			return 0;
 	}

 	if (separate_cpu) {
 		if (sf->cpu != cpu)
 			return 0;
 	}

 	if (separate_kernel || ((anon || separate_lib) && !ki)) {
 		if (sf->app_cookie != app_cookie)
 			return 0;
 	}

 	/* ignore the cached trans->cookie for kernel images,
 	 * it's meaningless and we checked all others already
 	 */
 	if (ki)
 		return 1;

 	if (sf->anon != anon)
 		return 0;

 	return sf->cookie == cookie;
 }


 static int
 trans_match(struct transient const * trans, struct sfile const * sfile,
             struct kernel_image const * ki)
 {
 	return do_match(sfile, trans->cookie, trans->app_cookie, ki,
 	                trans->anon, trans->tgid, trans->tid, trans->cpu);
 }


 int
 sfile_equal(struct sfile const * sf, struct sfile const * sf2)
 {
 	return do_match(sf, sf2->cookie, sf2->app_cookie, sf2->kernel,
 	                sf2->anon, sf2->tgid, sf2->tid, sf2->cpu);
 }


 static int
 is_sf_ignored(struct sfile const * sf)
 {
 	if (sf->kernel) {
 		if (!is_image_ignored(sf->kernel->name))
 			return 0;

 		/* Let a dependent kernel image redeem the sf if we're
 		 * executing on behalf of an application.
 		 */
 		return is_cookie_ignored(sf->app_cookie);
 	}

 	/* Anon regions are always dependent on the application.
  	 * Otherwise, let a dependent image redeem the sf.
 	 */
 	if (sf->anon || is_cookie_ignored(sf->cookie))
 		return is_cookie_ignored(sf->app_cookie);

 	return 0;
 }


 /** create a new sfile matching the current transient parameters */
 static struct sfile *
 create_sfile(unsigned long hash, struct transient const * trans,
              struct kernel_image * ki)
 {
 	size_t i;
 	struct sfile * sf;

 	sf = xmalloc(sizeof(struct sfile));

 	sf->hashval = hash;

 	/* The logic here: if we're in the kernel, the cached cookie is
 	 * meaningless (though not the app_cookie if separate_kernel)
 	 */
 	sf->cookie = trans->in_kernel ? INVALID_COOKIE : trans->cookie;
 	sf->app_cookie = INVALID_COOKIE;
 	sf->tid = (pid_t)-1;
 	sf->tgid = (pid_t)-1;
 	sf->cpu = 0;
 	sf->kernel = ki;
 	sf->anon = trans->anon;

 	for (i = 0 ; i < op_nr_counters ; ++i)
 		odb_init(&sf->files[i]);

 	if (trans->ext)
 		opd_ext_sfile_create(sf);
 	else
 		sf->ext_files = NULL;

 	for (i = 0; i < CG_HASH_SIZE; ++i)
 		list_init(&sf->cg_hash[i]);

 	if (separate_thread)
 		sf->tid = trans->tid;
 	if (separate_thread || trans->cookie == NO_COOKIE)
 		sf->tgid = trans->tgid;

 	if (separate_cpu)
 		sf->cpu = trans->cpu;

 	if (separate_kernel || ((trans->anon || separate_lib) && !ki))
 		sf->app_cookie = trans->app_cookie;

 	sf->ignored = is_sf_ignored(sf);

 	sf->embedded_offset = trans->embedded_offset;

 	/* If embedded_offset is a valid value, it means we're
 	 * processing a Cell BE SPU profile; in which case, we
 	 * want sf->app_cookie to hold trans->app_cookie.
 	 */
 	if (trans->embedded_offset != UNUSED_EMBEDDED_OFFSET)
 		sf->app_cookie = trans->app_cookie;
 	return sf;
 }


 struct sfile * sfile_find(struct transient const * trans)
 {
 	struct sfile * sf;
 	struct list_head * pos;
 	struct kernel_image * ki = NULL;
 	unsigned long hash;

 	if (trans->tracing != TRACING_ON) {
 		opd_stats[OPD_SAMPLES]++;
 		opd_stats[trans->in_kernel == 1 ? OPD_KERNEL : OPD_PROCESS]++;
 	}

 	/* There is a small race where this *can* happen, see
 	 * caller of cpu_buffer_reset() in the kernel
 	 */
 	if (trans->in_kernel == -1) {
 		verbprintf(vsamples, "Losing sample at 0x%llx of unknown provenance.\n",
 		           trans->pc);
 		opd_stats[OPD_NO_CTX]++;
 		return NULL;
 	}

 	/* we might need a kernel image start/end to hash on */
 	if (trans->in_kernel) {
 		ki = find_kernel_image(trans);
 		if (!ki) {
 			verbprintf(vsamples, "Lost kernel sample %llx\n", trans->pc);
 			opd_stats[OPD_LOST_KERNEL]++;
 			return NULL;
 		}
 	} else if (trans->cookie == NO_COOKIE && !trans->anon) {
 		if (vsamples) {
 			char const * app = verbose_cookie(trans->app_cookie);
 			printf("No anon map for pc %llx, app %s.\n",
 			       trans->pc, app);
 		}
 		opd_stats[OPD_LOST_NO_MAPPING]++;
 		return NULL;
 	}

 	hash = sfile_hash(trans, ki);
 	list_for_each(pos, &hashes[hash]) {
 		sf = list_entry(pos, struct sfile, hash);
 		if (trans_match(trans, sf, ki)) {
 			sfile_get(sf);
 			goto lru;
 		}
 	}

 	sf = create_sfile(hash, trans, ki);
 	list_add(&sf->hash, &hashes[hash]);

 lru:
 	sfile_put(sf);
 	return sf;
 }


 void sfile_dup(struct sfile * to, struct sfile * from)
 {
 	size_t i;

 	memcpy(to, from, sizeof (struct sfile));

 	for (i = 0 ; i < op_nr_counters ; ++i)
 		odb_init(&to->files[i]);

 	opd_ext_sfile_dup(to, from);

 	for (i = 0; i < CG_HASH_SIZE; ++i)
 		list_init(&to->cg_hash[i]);

 	list_init(&to->hash);
 	list_init(&to->lru);
 }


 static odb_t * get_file(struct transient const * trans, int is_cg)
 {
 	struct sfile * sf = trans->current;
 	struct sfile * last = trans->last;
 	struct cg_entry * cg;
 	struct list_head * pos;
 	unsigned long hash;
 	odb_t * file;

 	if ((trans->ext) != NULL)
 		return opd_ext_sfile_get(trans, is_cg);

 	if (trans->event >= op_nr_counters) {
 		fprintf(stderr, "%s: Invalid counter %lu\n", __FUNCTION__,
 			trans->event);
 		abort();
 	}

 	file = &sf->files[trans->event];

 	if (!is_cg)
 		goto open;

 	hash = last->hashval & (CG_HASH_SIZE - 1);

 	/* Need to look for the right 'to'. Since we're looking for
 	 * 'last', we use its hash.
 	 */
 	list_for_each(pos, &sf->cg_hash[hash]) {
 		cg = list_entry(pos, struct cg_entry, hash);
 		if (sfile_equal(last, &cg->to)) {
 			file = &cg->to.files[trans->event];
 			goto open;
 		}
 	}

 	cg = xmalloc(sizeof(struct cg_entry));
 	sfile_dup(&cg->to, last);
 	list_add(&cg->hash, &sf->cg_hash[hash]);
 	file = &cg->to.files[trans->event];

 open:
 	if (!odb_open_count(file))
 		opd_open_sample_file(file, last, sf, trans->event, is_cg);

 	/* Error is logged by opd_open_sample_file */
 	if (!odb_open_count(file))
 		return NULL;

 	return file;
 }


 static void verbose_print_sample(struct sfile * sf, vma_t pc, uint counter)
 {
 	char const * app = verbose_cookie(sf->app_cookie);
 	printf("0x%llx(%u): ", pc, counter);
 	if (sf->anon) {
 		printf("anon (tgid %u, 0x%llx-0x%llx), ",
 		       (unsigned int)sf->anon->tgid,
 		       sf->anon->start, sf->anon->end);
 	} else if (sf->kernel) {
 		printf("kern (name %s, 0x%llx-0x%llx), ", sf->kernel->name,
 		       sf->kernel->start, sf->kernel->end);
 	} else {
 		printf("%s(%llx), ", verbose_cookie(sf->cookie),  sf->cookie);
 	}
 	printf("app %s(%llx)", app, sf->app_cookie);
 }


 static void verbose_sample(struct transient const * trans, vma_t pc)
 {
 	printf("Sample ");
 	verbose_print_sample(trans->current, pc, trans->event);
 	printf("\n");
 }


 static void
 verbose_arc(struct transient const * trans, vma_t from, vma_t to)
 {
 	printf("Arc ");
 	verbose_print_sample(trans->current, from, trans->event);
 	printf(" -> 0x%llx", to);
 	printf("\n");
 }


 static void sfile_log_arc(struct transient const * trans)
 {
 	int err;
 	vma_t from = trans->pc;
 	vma_t to = trans->last_pc;
 	uint64_t key;
 	odb_t * file;

 	file = get_file(trans, 1);

 	/* absolute value -> offset */
 	if (trans->current->kernel)
 		from -= trans->current->kernel->start;

 	if (trans->last->kernel)
 		to -= trans->last->kernel->start;

 	if (trans->current->anon)
 		from -= trans->current->anon->start;

 	if (trans->last->anon)
 		to -= trans->last->anon->start;

 	if (varcs)
 		verbose_arc(trans, from, to);

 	if (!file) {
 		opd_stats[OPD_LOST_SAMPLEFILE]++;
 		return;
 	}

 	/* Possible narrowings to 32-bit value only. */
 	key = to & (0xffffffff);
 	key |= ((uint64_t)from) << 32;

 	err = odb_update_node(file, key);
 	if (err) {
 		fprintf(stderr, "%s: %s\n", __FUNCTION__, strerror(err));
 		abort();
 	}
 }


 void sfile_log_sample(struct transient const * trans)
 {
 	sfile_log_sample_count(trans, 1);
 }


 void sfile_log_sample_count(struct transient const * trans,
                             unsigned long int count)
 {
 	int err;
 	vma_t pc = trans->pc;
 	odb_t * file;

 	if (trans->tracing == TRACING_ON) {
 		/* can happen if kernel sample falls through the cracks,
 		 * see opd_put_sample() */
 		if (trans->last)
 			sfile_log_arc(trans);
 		return;
 	}

 	file = get_file(trans, 0);

 	/* absolute value -> offset */
 	if (trans->current->kernel)
 		pc -= trans->current->kernel->start;

 	if (trans->current->anon)
 		pc -= trans->current->anon->start;

 	if (vsamples)
 		verbose_sample(trans, pc);

 	if (!file) {
 		opd_stats[OPD_LOST_SAMPLEFILE]++;
 		return;
 	}

 	err = odb_update_node_with_offset(file,
 					  (odb_key_t)pc,
 					  count);
 	if (err) {
 		fprintf(stderr, "%s: %s\n", __FUNCTION__, strerror(err));
 		abort();
 	}
 }


 static int close_sfile(struct sfile * sf, void * data __attribute__((unused)))
 {
 	size_t i;

 	/* it's OK to close a non-open odb file */
 	for (i = 0; i < op_nr_counters; ++i)
 		odb_close(&sf->files[i]);

 	opd_ext_sfile_close(sf);

 	return 0;
 }


 static void kill_sfile(struct sfile * sf)
 {
 	close_sfile(sf, NULL);
 	list_del(&sf->hash);
 	list_del(&sf->lru);
 }


 static int sync_sfile(struct sfile * sf, void * data __attribute__((unused)))
 {
 	size_t i;

 	for (i = 0; i < op_nr_counters; ++i)
 		odb_sync(&sf->files[i]);

 	opd_ext_sfile_sync(sf);

 	return 0;
 }


 static int is_sfile_kernel(struct sfile * sf, void * data __attribute__((unused)))
 {
 	return !!sf->kernel;
 }


 static int is_sfile_anon(struct sfile * sf, void * data)
 {
 	return sf->anon == data;
 }


 typedef int (*sfile_func)(struct sfile *, void *);

 static void
 for_one_sfile(struct sfile * sf, sfile_func func, void * data)
 {
 	size_t i;
 	int free_sf = func(sf, data);

 	for (i = 0; i < CG_HASH_SIZE; ++i) {
 		struct list_head * pos;
 		struct list_head * pos2;
 		list_for_each_safe(pos, pos2, &sf->cg_hash[i]) {
 			struct cg_entry * cg =
 				list_entry(pos, struct cg_entry, hash);
 			if (free_sf || func(&cg->to, data)) {
 				kill_sfile(&cg->to);
 				list_del(&cg->hash);
 				free(cg);
 			}
 		}
 	}

 	if (free_sf) {
 		kill_sfile(sf);
 		free(sf);
 	}
 }


 static void for_each_sfile(sfile_func func, void * data)
 {
 	struct list_head * pos;
 	struct list_head * pos2;

 	list_for_each_safe(pos, pos2, &lru_list) {
 		struct sfile * sf = list_entry(pos, struct sfile, lru);
 		for_one_sfile(sf, func, data);
 	}
 }


 void sfile_clear_kernel(void)
 {
 	for_each_sfile(is_sfile_kernel, NULL);
 }


 void sfile_clear_anon(struct anon_mapping * anon)
 {
 	for_each_sfile(is_sfile_anon, anon);
 }


 void sfile_sync_files(void)
 {
 	for_each_sfile(sync_sfile, NULL);
 }


 void sfile_close_files(void)
 {
 	for_each_sfile(close_sfile, NULL);
 }


 static int always_true(void)
 {
 	return 1;
 }


 #define LRU_AMOUNT 256

 /*
  * Clear out older sfiles. Note the current sfiles we're using
  * will not be present in this list, due to sfile_get/put() pairs
  * around the caller of this.
  */
 int sfile_lru_clear(void)
 {
 	struct list_head * pos;
 	struct list_head * pos2;
 	int amount = LRU_AMOUNT;

 	if (list_empty(&lru_list))
 		return 1;

 	list_for_each_safe(pos, pos2, &lru_list) {
 		struct sfile * sf;
 		if (!--amount)
 			break;
 		sf = list_entry(pos, struct sfile, lru);
 		for_one_sfile(sf, (sfile_func)always_true, NULL);
 	}

 	return 0;
 }


 void sfile_get(struct sfile * sf)
 {
 	if (sf)
 		list_del(&sf->lru);
 }


 void sfile_put(struct sfile * sf)
 {
 	if (sf)
 		list_add_tail(&sf->lru, &lru_list);
 }


 void sfile_init(void)
 {
 	size_t i = 0;

 	for (; i < HASH_SIZE; ++i)
 		list_init(&hashes[i]);
 }
	/**
	* @file daemon/opd_sfile.c
	* Management of sample files
	*
	* @remark Copyright 2002, 2005 OProfile authors
	* @remark Read the file COPYING
	*
	* @author John Levon
	* @author Philippe Elie
	*/

	#include "opd_sfile.h"

	#include "opd_trans.h"
	#include "opd_kernel.h"
	#include "opd_mangling.h"
	#include "opd_anon.h"
	#include "opd_printf.h"
	#include "opd_stats.h"
	#include "opd_extended.h"
	#include "oprofiled.h"

	#include "op_libiberty.h"

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#define HASH_SIZE 2048
	#define HASH_BITS (HASH_SIZE - 1)

	/** All sfiles are hashed into these lists */
	static struct list_head hashes[HASH_SIZE];

	/** All sfiles are on this list. */
	static LIST_HEAD(lru_list);


	/* FIXME: can undoubtedly improve this hashing */
	/** Hash the transient parameters for lookup. */
	static unsigned long
	sfile_hash(struct transient const * trans, struct kernel_image * ki)
	{
	unsigned long val = 0;

	if (separate_thread) {
	val ^= trans->tid << 2;
	val ^= trans->tgid << 2;
	}

	if (separate_kernel \|\| ((trans->anon \|\| separate_lib) && !ki))
	val ^= trans->app_cookie >> (DCOOKIE_SHIFT + 3);

	if (separate_cpu)
	val ^= trans->cpu;

	/* cookie meaningless for kernel, shouldn't hash */
	if (trans->in_kernel) {
	val ^= ki->start >> 14;
	val ^= ki->end >> 7;
	return val & HASH_BITS;
	}

	if (trans->cookie != NO_COOKIE) {
	val ^= trans->cookie >> DCOOKIE_SHIFT;
	return val & HASH_BITS;
	}

	if (!separate_thread)
	val ^= trans->tgid << 2;

	if (trans->anon) {
	val ^= trans->anon->start >> VMA_SHIFT;
	val ^= trans->anon->end >> (VMA_SHIFT + 1);
	}

	return val & HASH_BITS;
	}


	static int
	do_match(struct sfile const * sf, cookie_t cookie, cookie_t app_cookie,
	struct kernel_image const * ki, struct anon_mapping const * anon,
	pid_t tgid, pid_t tid, unsigned int cpu)
	{
	/* this is a simplified check for "is a kernel image" AND
	* "is the right kernel image". Also handles no-vmlinux
	* correctly.
	*/
	if (sf->kernel != ki)
	return 0;

	if (separate_thread) {
	if (sf->tid != tid \|\| sf->tgid != tgid)
	return 0;
	}

	if (separate_cpu) {
	if (sf->cpu != cpu)
	return 0;
	}

	if (separate_kernel \|\| ((anon \|\| separate_lib) && !ki)) {
	if (sf->app_cookie != app_cookie)
	return 0;
	}

	/* ignore the cached trans->cookie for kernel images,
	* it's meaningless and we checked all others already
	*/
	if (ki)
	return 1;

	if (sf->anon != anon)
	return 0;

	return sf->cookie == cookie;
	}


	static int
	trans_match(struct transient const * trans, struct sfile const * sfile,
	struct kernel_image const * ki)
	{
	return do_match(sfile, trans->cookie, trans->app_cookie, ki,
	trans->anon, trans->tgid, trans->tid, trans->cpu);
	}


	int
	sfile_equal(struct sfile const * sf, struct sfile const * sf2)
	{
	return do_match(sf, sf2->cookie, sf2->app_cookie, sf2->kernel,
	sf2->anon, sf2->tgid, sf2->tid, sf2->cpu);
	}


	static int
	is_sf_ignored(struct sfile const * sf)
	{
	if (sf->kernel) {
	if (!is_image_ignored(sf->kernel->name))
	return 0;

	/* Let a dependent kernel image redeem the sf if we're
	* executing on behalf of an application.
	*/
	return is_cookie_ignored(sf->app_cookie);
	}

	/* Anon regions are always dependent on the application.
	* Otherwise, let a dependent image redeem the sf.
	*/
	if (sf->anon \|\| is_cookie_ignored(sf->cookie))
	return is_cookie_ignored(sf->app_cookie);

	return 0;
	}


	/** create a new sfile matching the current transient parameters */
	static struct sfile *
	create_sfile(unsigned long hash, struct transient const * trans,
	struct kernel_image * ki)
	{
	size_t i;
	struct sfile * sf;

	sf = xmalloc(sizeof(struct sfile));

	sf->hashval = hash;

	/* The logic here: if we're in the kernel, the cached cookie is
	* meaningless (though not the app_cookie if separate_kernel)
	*/
	sf->cookie = trans->in_kernel ? INVALID_COOKIE : trans->cookie;
	sf->app_cookie = INVALID_COOKIE;
	sf->tid = (pid_t)-1;
	sf->tgid = (pid_t)-1;
	sf->cpu = 0;
	sf->kernel = ki;
	sf->anon = trans->anon;

	for (i = 0 ; i < op_nr_counters ; ++i)
	odb_init(&sf->files[i]);

	if (trans->ext)
	opd_ext_sfile_create(sf);
	else
	sf->ext_files = NULL;

	for (i = 0; i < CG_HASH_SIZE; ++i)
	list_init(&sf->cg_hash[i]);

	if (separate_thread)
	sf->tid = trans->tid;
	if (separate_thread \|\| trans->cookie == NO_COOKIE)
	sf->tgid = trans->tgid;

	if (separate_cpu)
	sf->cpu = trans->cpu;

	if (separate_kernel \|\| ((trans->anon \|\| separate_lib) && !ki))
	sf->app_cookie = trans->app_cookie;

	sf->ignored = is_sf_ignored(sf);

	sf->embedded_offset = trans->embedded_offset;

	/* If embedded_offset is a valid value, it means we're
	* processing a Cell BE SPU profile; in which case, we
	* want sf->app_cookie to hold trans->app_cookie.
	*/
	if (trans->embedded_offset != UNUSED_EMBEDDED_OFFSET)
	sf->app_cookie = trans->app_cookie;
	return sf;
	}


	struct sfile * sfile_find(struct transient const * trans)
	{
	struct sfile * sf;
	struct list_head * pos;
	struct kernel_image * ki = NULL;
	unsigned long hash;

	if (trans->tracing != TRACING_ON) {
	opd_stats[OPD_SAMPLES]++;
	opd_stats[trans->in_kernel == 1 ? OPD_KERNEL : OPD_PROCESS]++;
	}

	/* There is a small race where this can happen, see
	* caller of cpu_buffer_reset() in the kernel
	*/
	if (trans->in_kernel == -1) {
	verbprintf(vsamples, "Losing sample at 0x%llx of unknown provenance.\n",
	trans->pc);
	opd_stats[OPD_NO_CTX]++;
	return NULL;
	}

	/* we might need a kernel image start/end to hash on */
	if (trans->in_kernel) {
	ki = find_kernel_image(trans);
	if (!ki) {
	verbprintf(vsamples, "Lost kernel sample %llx\n", trans->pc);
	opd_stats[OPD_LOST_KERNEL]++;
	return NULL;
	}
	} else if (trans->cookie == NO_COOKIE && !trans->anon) {
	if (vsamples) {
	char const * app = verbose_cookie(trans->app_cookie);
	printf("No anon map for pc %llx, app %s.\n",
	trans->pc, app);
	}
	opd_stats[OPD_LOST_NO_MAPPING]++;
	return NULL;
	}

	hash = sfile_hash(trans, ki);
	list_for_each(pos, &hashes[hash]) {
	sf = list_entry(pos, struct sfile, hash);
	if (trans_match(trans, sf, ki)) {
	sfile_get(sf);
	goto lru;
	}
	}

	sf = create_sfile(hash, trans, ki);
	list_add(&sf->hash, &hashes[hash]);

	lru:
	sfile_put(sf);
	return sf;
	}


	void sfile_dup(struct sfile * to, struct sfile * from)
	{
	size_t i;

	memcpy(to, from, sizeof (struct sfile));

	for (i = 0 ; i < op_nr_counters ; ++i)
	odb_init(&to->files[i]);

	opd_ext_sfile_dup(to, from);

	for (i = 0; i < CG_HASH_SIZE; ++i)
	list_init(&to->cg_hash[i]);

	list_init(&to->hash);
	list_init(&to->lru);
	}


	static odb_t * get_file(struct transient const * trans, int is_cg)
	{
	struct sfile * sf = trans->current;
	struct sfile * last = trans->last;
	struct cg_entry * cg;
	struct list_head * pos;
	unsigned long hash;
	odb_t * file;

	if ((trans->ext) != NULL)
	return opd_ext_sfile_get(trans, is_cg);

	if (trans->event >= op_nr_counters) {
	fprintf(stderr, "%s: Invalid counter %lu\n", __FUNCTION__,
	trans->event);
	abort();
	}

	file = &sf->files[trans->event];

	if (!is_cg)
	goto open;

	hash = last->hashval & (CG_HASH_SIZE - 1);

	/* Need to look for the right 'to'. Since we're looking for
	* 'last', we use its hash.
	*/
	list_for_each(pos, &sf->cg_hash[hash]) {
	cg = list_entry(pos, struct cg_entry, hash);
	if (sfile_equal(last, &cg->to)) {
	file = &cg->to.files[trans->event];
	goto open;
	}
	}

	cg = xmalloc(sizeof(struct cg_entry));
	sfile_dup(&cg->to, last);
	list_add(&cg->hash, &sf->cg_hash[hash]);
	file = &cg->to.files[trans->event];

	open:
	if (!odb_open_count(file))
	opd_open_sample_file(file, last, sf, trans->event, is_cg);

	/* Error is logged by opd_open_sample_file */
	if (!odb_open_count(file))
	return NULL;

	return file;
	}


	static void verbose_print_sample(struct sfile * sf, vma_t pc, uint counter)
	{
	char const * app = verbose_cookie(sf->app_cookie);
	printf("0x%llx(%u): ", pc, counter);
	if (sf->anon) {
	printf("anon (tgid %u, 0x%llx-0x%llx), ",
	(unsigned int)sf->anon->tgid,
	sf->anon->start, sf->anon->end);
	} else if (sf->kernel) {
	printf("kern (name %s, 0x%llx-0x%llx), ", sf->kernel->name,
	sf->kernel->start, sf->kernel->end);
	} else {
	printf("%s(%llx), ", verbose_cookie(sf->cookie), sf->cookie);
	}
	printf("app %s(%llx)", app, sf->app_cookie);
	}


	static void verbose_sample(struct transient const * trans, vma_t pc)
	{
	printf("Sample ");
	verbose_print_sample(trans->current, pc, trans->event);
	printf("\n");
	}


	static void
	verbose_arc(struct transient const * trans, vma_t from, vma_t to)
	{
	printf("Arc ");
	verbose_print_sample(trans->current, from, trans->event);
	printf(" -> 0x%llx", to);
	printf("\n");
	}


	static void sfile_log_arc(struct transient const * trans)
	{
	int err;
	vma_t from = trans->pc;
	vma_t to = trans->last_pc;
	uint64_t key;
	odb_t * file;

	file = get_file(trans, 1);

	/* absolute value -> offset */
	if (trans->current->kernel)
	from -= trans->current->kernel->start;

	if (trans->last->kernel)
	to -= trans->last->kernel->start;

	if (trans->current->anon)
	from -= trans->current->anon->start;

	if (trans->last->anon)
	to -= trans->last->anon->start;

	if (varcs)
	verbose_arc(trans, from, to);

	if (!file) {
	opd_stats[OPD_LOST_SAMPLEFILE]++;
	return;
	}

	/* Possible narrowings to 32-bit value only. */
	key = to & (0xffffffff);
	key \|= ((uint64_t)from) << 32;

	err = odb_update_node(file, key);
	if (err) {
	fprintf(stderr, "%s: %s\n", __FUNCTION__, strerror(err));
	abort();
	}
	}


	void sfile_log_sample(struct transient const * trans)
	{
	sfile_log_sample_count(trans, 1);
	}


	void sfile_log_sample_count(struct transient const * trans,
	unsigned long int count)
	{
	int err;
	vma_t pc = trans->pc;
	odb_t * file;

	if (trans->tracing == TRACING_ON) {
	/* can happen if kernel sample falls through the cracks,
	* see opd_put_sample() */
	if (trans->last)
	sfile_log_arc(trans);
	return;
	}

	file = get_file(trans, 0);

	/* absolute value -> offset */
	if (trans->current->kernel)
	pc -= trans->current->kernel->start;

	if (trans->current->anon)
	pc -= trans->current->anon->start;

	if (vsamples)
	verbose_sample(trans, pc);

	if (!file) {
	opd_stats[OPD_LOST_SAMPLEFILE]++;
	return;
	}

	err = odb_update_node_with_offset(file,
	(odb_key_t)pc,
	count);
	if (err) {
	fprintf(stderr, "%s: %s\n", __FUNCTION__, strerror(err));
	abort();
	}
	}


	static int close_sfile(struct sfile * sf, void * data __attribute__((unused)))
	{
	size_t i;

	/* it's OK to close a non-open odb file */
	for (i = 0; i < op_nr_counters; ++i)
	odb_close(&sf->files[i]);

	opd_ext_sfile_close(sf);

	return 0;
	}


	static void kill_sfile(struct sfile * sf)
	{
	close_sfile(sf, NULL);
	list_del(&sf->hash);
	list_del(&sf->lru);
	}


	static int sync_sfile(struct sfile * sf, void * data __attribute__((unused)))
	{
	size_t i;

	for (i = 0; i < op_nr_counters; ++i)
	odb_sync(&sf->files[i]);

	opd_ext_sfile_sync(sf);

	return 0;
	}


	static int is_sfile_kernel(struct sfile * sf, void * data __attribute__((unused)))
	{
	return !!sf->kernel;
	}


	static int is_sfile_anon(struct sfile * sf, void * data)
	{
	return sf->anon == data;
	}


	typedef int (sfile_func)(struct sfile , void *);

	static void
	for_one_sfile(struct sfile * sf, sfile_func func, void * data)
	{
	size_t i;
	int free_sf = func(sf, data);

	for (i = 0; i < CG_HASH_SIZE; ++i) {
	struct list_head * pos;
	struct list_head * pos2;
	list_for_each_safe(pos, pos2, &sf->cg_hash[i]) {
	struct cg_entry * cg =
	list_entry(pos, struct cg_entry, hash);
	if (free_sf \|\| func(&cg->to, data)) {
	kill_sfile(&cg->to);
	list_del(&cg->hash);
	free(cg);
	}
	}
	}

	if (free_sf) {
	kill_sfile(sf);
	free(sf);
	}
	}


	static void for_each_sfile(sfile_func func, void * data)
	{
	struct list_head * pos;
	struct list_head * pos2;

	list_for_each_safe(pos, pos2, &lru_list) {
	struct sfile * sf = list_entry(pos, struct sfile, lru);
	for_one_sfile(sf, func, data);
	}
	}


	void sfile_clear_kernel(void)
	{
	for_each_sfile(is_sfile_kernel, NULL);
	}


	void sfile_clear_anon(struct anon_mapping * anon)
	{
	for_each_sfile(is_sfile_anon, anon);
	}


	void sfile_sync_files(void)
	{
	for_each_sfile(sync_sfile, NULL);
	}


	void sfile_close_files(void)
	{
	for_each_sfile(close_sfile, NULL);
	}


	static int always_true(void)
	{
	return 1;
	}


	#define LRU_AMOUNT 256

	/*
	* Clear out older sfiles. Note the current sfiles we're using
	* will not be present in this list, due to sfile_get/put() pairs
	* around the caller of this.
	*/
	int sfile_lru_clear(void)
	{
	struct list_head * pos;
	struct list_head * pos2;
	int amount = LRU_AMOUNT;

	if (list_empty(&lru_list))
	return 1;

	list_for_each_safe(pos, pos2, &lru_list) {
	struct sfile * sf;
	if (!--amount)
	break;
	sf = list_entry(pos, struct sfile, lru);
	for_one_sfile(sf, (sfile_func)always_true, NULL);
	}

	return 0;
	}


	void sfile_get(struct sfile * sf)
	{
	if (sf)
	list_del(&sf->lru);
	}


	void sfile_put(struct sfile * sf)
	{
	if (sf)
	list_add_tail(&sf->lru, &lru_list);
	}


	void sfile_init(void)
	{
	size_t i = 0;

	for (; i < HASH_SIZE; ++i)
	list_init(&hashes[i]);
	}