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jemalloc/src/ctl.c
Jason Evans 41b6afb834 Port to FreeBSD. 
Use FreeBSD-specific functions (_pthread_mutex_init_calloc_cb(),
_malloc_{pre,post}fork()) to avoid bootstrapping issues due to
allocation in libc and libthr.

Add malloc_strtoumax() and use it instead of strtoul().  Disable
validation code in malloc_vsnprintf() and malloc_strtoumax() until
jemalloc is initialized.  This is necessary because locale
initialization causes allocation for both vsnprintf() and strtoumax().

Force the lazy-lock feature on in order to avoid pthread_self(),
because it causes allocation.

Use syscall(SYS_write, ...) rather than write(...), because libthr wraps
write() and causes allocation.  Without this workaround, it would not be
possible to print error messages in malloc_conf_init() without
substantially reworking bootstrapping.

Fix choose_arena_hard() to look at how many threads are assigned to the
candidate choice, rather than checking whether the arena is
uninitialized.  This bug potentially caused more arenas to be
initialized than necessary.
2012-02-02 23:09:53 -08:00

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#define JEMALLOC_CTL_C_
#include "jemalloc/internal/jemalloc_internal.h"
/******************************************************************************/
/* Data. */
/*
* ctl_mtx protects the following:
* - ctl_stats.*
* - opt_prof_active
*/
static malloc_mutex_t ctl_mtx;
static bool ctl_initialized;
static uint64_t ctl_epoch;
static ctl_stats_t ctl_stats;
/******************************************************************************/
/* Function prototypes for non-inline static functions. */
#define CTL_PROTO(n) \
static int n##_ctl(const size_t *mib, size_t miblen, void *oldp, \
size_t *oldlenp, void *newp, size_t newlen);
#define INDEX_PROTO(n) \
const ctl_node_t *n##_index(const size_t *mib, size_t miblen, \
size_t i);
static bool ctl_arena_init(ctl_arena_stats_t *astats);
static void ctl_arena_clear(ctl_arena_stats_t *astats);
static void ctl_arena_stats_amerge(ctl_arena_stats_t *cstats,
arena_t *arena);
static void ctl_arena_stats_smerge(ctl_arena_stats_t *sstats,
ctl_arena_stats_t *astats);
static void ctl_arena_refresh(arena_t *arena, unsigned i);
static void ctl_refresh(void);
static bool ctl_init(void);
static int ctl_lookup(const char *name, ctl_node_t const **nodesp,
size_t *mibp, size_t *depthp);
CTL_PROTO(version)
CTL_PROTO(epoch)
CTL_PROTO(thread_tcache_flush)
CTL_PROTO(thread_arena)
CTL_PROTO(thread_allocated)
CTL_PROTO(thread_allocatedp)
CTL_PROTO(thread_deallocated)
CTL_PROTO(thread_deallocatedp)
CTL_PROTO(config_debug)
CTL_PROTO(config_dss)
CTL_PROTO(config_fill)
CTL_PROTO(config_lazy_lock)
CTL_PROTO(config_prof)
CTL_PROTO(config_prof_libgcc)
CTL_PROTO(config_prof_libunwind)
CTL_PROTO(config_stats)
CTL_PROTO(config_tcache)
CTL_PROTO(config_tls)
CTL_PROTO(config_xmalloc)
CTL_PROTO(opt_abort)
CTL_PROTO(opt_lg_chunk)
CTL_PROTO(opt_narenas)
CTL_PROTO(opt_lg_dirty_mult)
CTL_PROTO(opt_stats_print)
CTL_PROTO(opt_junk)
CTL_PROTO(opt_zero)
CTL_PROTO(opt_xmalloc)
CTL_PROTO(opt_tcache)
CTL_PROTO(opt_prof)
CTL_PROTO(opt_prof_prefix)
CTL_PROTO(opt_prof_active)
CTL_PROTO(opt_lg_prof_sample)
CTL_PROTO(opt_lg_prof_interval)
CTL_PROTO(opt_prof_gdump)
CTL_PROTO(opt_prof_leak)
CTL_PROTO(opt_prof_accum)
CTL_PROTO(arenas_bin_i_size)
CTL_PROTO(arenas_bin_i_nregs)
CTL_PROTO(arenas_bin_i_run_size)
INDEX_PROTO(arenas_bin_i)
CTL_PROTO(arenas_lrun_i_size)
INDEX_PROTO(arenas_lrun_i)
CTL_PROTO(arenas_narenas)
CTL_PROTO(arenas_initialized)
CTL_PROTO(arenas_quantum)
CTL_PROTO(arenas_pagesize)
CTL_PROTO(arenas_chunksize)
CTL_PROTO(arenas_tcache_max)
CTL_PROTO(arenas_nbins)
CTL_PROTO(arenas_nhbins)
CTL_PROTO(arenas_nlruns)
CTL_PROTO(arenas_purge)
CTL_PROTO(prof_active)
CTL_PROTO(prof_dump)
CTL_PROTO(prof_interval)
CTL_PROTO(stats_chunks_current)
CTL_PROTO(stats_chunks_total)
CTL_PROTO(stats_chunks_high)
CTL_PROTO(stats_huge_allocated)
CTL_PROTO(stats_huge_nmalloc)
CTL_PROTO(stats_huge_ndalloc)
CTL_PROTO(stats_arenas_i_small_allocated)
CTL_PROTO(stats_arenas_i_small_nmalloc)
CTL_PROTO(stats_arenas_i_small_ndalloc)
CTL_PROTO(stats_arenas_i_small_nrequests)
CTL_PROTO(stats_arenas_i_large_allocated)
CTL_PROTO(stats_arenas_i_large_nmalloc)
CTL_PROTO(stats_arenas_i_large_ndalloc)
CTL_PROTO(stats_arenas_i_large_nrequests)
CTL_PROTO(stats_arenas_i_bins_j_allocated)
CTL_PROTO(stats_arenas_i_bins_j_nmalloc)
CTL_PROTO(stats_arenas_i_bins_j_ndalloc)
CTL_PROTO(stats_arenas_i_bins_j_nrequests)
CTL_PROTO(stats_arenas_i_bins_j_nfills)
CTL_PROTO(stats_arenas_i_bins_j_nflushes)
CTL_PROTO(stats_arenas_i_bins_j_nruns)
CTL_PROTO(stats_arenas_i_bins_j_nreruns)
CTL_PROTO(stats_arenas_i_bins_j_curruns)
INDEX_PROTO(stats_arenas_i_bins_j)
CTL_PROTO(stats_arenas_i_lruns_j_nmalloc)
CTL_PROTO(stats_arenas_i_lruns_j_ndalloc)
CTL_PROTO(stats_arenas_i_lruns_j_nrequests)
CTL_PROTO(stats_arenas_i_lruns_j_curruns)
INDEX_PROTO(stats_arenas_i_lruns_j)
CTL_PROTO(stats_arenas_i_nthreads)
CTL_PROTO(stats_arenas_i_pactive)
CTL_PROTO(stats_arenas_i_pdirty)
CTL_PROTO(stats_arenas_i_mapped)
CTL_PROTO(stats_arenas_i_npurge)
CTL_PROTO(stats_arenas_i_nmadvise)
CTL_PROTO(stats_arenas_i_purged)
INDEX_PROTO(stats_arenas_i)
CTL_PROTO(stats_cactive)
CTL_PROTO(stats_allocated)
CTL_PROTO(stats_active)
CTL_PROTO(stats_mapped)
/******************************************************************************/
/* mallctl tree. */
/* Maximum tree depth. */
#define CTL_MAX_DEPTH 6
#define NAME(n) true, {.named = {n
#define CHILD(c) sizeof(c##_node) / sizeof(ctl_node_t), c##_node}}, NULL
#define CTL(c) 0, NULL}}, c##_ctl
/*
* Only handles internal indexed nodes, since there are currently no external
* ones.
*/
#define INDEX(i) false, {.indexed = {i##_index}}, NULL
static const ctl_node_t tcache_node[] = {
{NAME("flush"), CTL(thread_tcache_flush)}
};
static const ctl_node_t thread_node[] = {
{NAME("arena"), CTL(thread_arena)},
{NAME("allocated"), CTL(thread_allocated)},
{NAME("allocatedp"), CTL(thread_allocatedp)},
{NAME("deallocated"), CTL(thread_deallocated)},
{NAME("deallocatedp"), CTL(thread_deallocatedp)},
{NAME("tcache"), CHILD(tcache)}
};
static const ctl_node_t config_node[] = {
{NAME("debug"), CTL(config_debug)},
{NAME("dss"), CTL(config_dss)},
{NAME("fill"), CTL(config_fill)},
{NAME("lazy_lock"), CTL(config_lazy_lock)},
{NAME("prof"), CTL(config_prof)},
{NAME("prof_libgcc"), CTL(config_prof_libgcc)},
{NAME("prof_libunwind"), CTL(config_prof_libunwind)},
{NAME("stats"), CTL(config_stats)},
{NAME("tcache"), CTL(config_tcache)},
{NAME("tls"), CTL(config_tls)},
{NAME("xmalloc"), CTL(config_xmalloc)}
};
static const ctl_node_t opt_node[] = {
{NAME("abort"), CTL(opt_abort)},
{NAME("lg_chunk"), CTL(opt_lg_chunk)},
{NAME("narenas"), CTL(opt_narenas)},
{NAME("lg_dirty_mult"), CTL(opt_lg_dirty_mult)},
{NAME("stats_print"), CTL(opt_stats_print)},
{NAME("junk"), CTL(opt_junk)},
{NAME("zero"), CTL(opt_zero)},
{NAME("xmalloc"), CTL(opt_xmalloc)},
{NAME("tcache"), CTL(opt_tcache)},
{NAME("prof"), CTL(opt_prof)},
{NAME("prof_prefix"), CTL(opt_prof_prefix)},
{NAME("prof_active"), CTL(opt_prof_active)},
{NAME("lg_prof_sample"), CTL(opt_lg_prof_sample)},
{NAME("lg_prof_interval"), CTL(opt_lg_prof_interval)},
{NAME("prof_gdump"), CTL(opt_prof_gdump)},
{NAME("prof_leak"), CTL(opt_prof_leak)},
{NAME("prof_accum"), CTL(opt_prof_accum)}
};
static const ctl_node_t arenas_bin_i_node[] = {
{NAME("size"), CTL(arenas_bin_i_size)},
{NAME("nregs"), CTL(arenas_bin_i_nregs)},
{NAME("run_size"), CTL(arenas_bin_i_run_size)}
};
static const ctl_node_t super_arenas_bin_i_node[] = {
{NAME(""), CHILD(arenas_bin_i)}
};
static const ctl_node_t arenas_bin_node[] = {
{INDEX(arenas_bin_i)}
};
static const ctl_node_t arenas_lrun_i_node[] = {
{NAME("size"), CTL(arenas_lrun_i_size)}
};
static const ctl_node_t super_arenas_lrun_i_node[] = {
{NAME(""), CHILD(arenas_lrun_i)}
};
static const ctl_node_t arenas_lrun_node[] = {
{INDEX(arenas_lrun_i)}
};
static const ctl_node_t arenas_node[] = {
{NAME("narenas"), CTL(arenas_narenas)},
{NAME("initialized"), CTL(arenas_initialized)},
{NAME("quantum"), CTL(arenas_quantum)},
{NAME("pagesize"), CTL(arenas_pagesize)},
{NAME("chunksize"), CTL(arenas_chunksize)},
{NAME("tcache_max"), CTL(arenas_tcache_max)},
{NAME("nbins"), CTL(arenas_nbins)},
{NAME("nhbins"), CTL(arenas_nhbins)},
{NAME("bin"), CHILD(arenas_bin)},
{NAME("nlruns"), CTL(arenas_nlruns)},
{NAME("lrun"), CHILD(arenas_lrun)},
{NAME("purge"), CTL(arenas_purge)}
};
static const ctl_node_t prof_node[] = {
{NAME("active"), CTL(prof_active)},
{NAME("dump"), CTL(prof_dump)},
{NAME("interval"), CTL(prof_interval)}
};
static const ctl_node_t stats_chunks_node[] = {
{NAME("current"), CTL(stats_chunks_current)},
{NAME("total"), CTL(stats_chunks_total)},
{NAME("high"), CTL(stats_chunks_high)}
};
static const ctl_node_t stats_huge_node[] = {
{NAME("allocated"), CTL(stats_huge_allocated)},
{NAME("nmalloc"), CTL(stats_huge_nmalloc)},
{NAME("ndalloc"), CTL(stats_huge_ndalloc)}
};
static const ctl_node_t stats_arenas_i_small_node[] = {
{NAME("allocated"), CTL(stats_arenas_i_small_allocated)},
{NAME("nmalloc"), CTL(stats_arenas_i_small_nmalloc)},
{NAME("ndalloc"), CTL(stats_arenas_i_small_ndalloc)},
{NAME("nrequests"), CTL(stats_arenas_i_small_nrequests)}
};
static const ctl_node_t stats_arenas_i_large_node[] = {
{NAME("allocated"), CTL(stats_arenas_i_large_allocated)},
{NAME("nmalloc"), CTL(stats_arenas_i_large_nmalloc)},
{NAME("ndalloc"), CTL(stats_arenas_i_large_ndalloc)},
{NAME("nrequests"), CTL(stats_arenas_i_large_nrequests)}
};
static const ctl_node_t stats_arenas_i_bins_j_node[] = {
{NAME("allocated"), CTL(stats_arenas_i_bins_j_allocated)},
{NAME("nmalloc"), CTL(stats_arenas_i_bins_j_nmalloc)},
{NAME("ndalloc"), CTL(stats_arenas_i_bins_j_ndalloc)},
{NAME("nrequests"), CTL(stats_arenas_i_bins_j_nrequests)},
{NAME("nfills"), CTL(stats_arenas_i_bins_j_nfills)},
{NAME("nflushes"), CTL(stats_arenas_i_bins_j_nflushes)},
{NAME("nruns"), CTL(stats_arenas_i_bins_j_nruns)},
{NAME("nreruns"), CTL(stats_arenas_i_bins_j_nreruns)},
{NAME("curruns"), CTL(stats_arenas_i_bins_j_curruns)}
};
static const ctl_node_t super_stats_arenas_i_bins_j_node[] = {
{NAME(""), CHILD(stats_arenas_i_bins_j)}
};
static const ctl_node_t stats_arenas_i_bins_node[] = {
{INDEX(stats_arenas_i_bins_j)}
};
static const ctl_node_t stats_arenas_i_lruns_j_node[] = {
{NAME("nmalloc"), CTL(stats_arenas_i_lruns_j_nmalloc)},
{NAME("ndalloc"), CTL(stats_arenas_i_lruns_j_ndalloc)},
{NAME("nrequests"), CTL(stats_arenas_i_lruns_j_nrequests)},
{NAME("curruns"), CTL(stats_arenas_i_lruns_j_curruns)}
};
static const ctl_node_t super_stats_arenas_i_lruns_j_node[] = {
{NAME(""), CHILD(stats_arenas_i_lruns_j)}
};
static const ctl_node_t stats_arenas_i_lruns_node[] = {
{INDEX(stats_arenas_i_lruns_j)}
};
static const ctl_node_t stats_arenas_i_node[] = {
{NAME("nthreads"), CTL(stats_arenas_i_nthreads)},
{NAME("pactive"), CTL(stats_arenas_i_pactive)},
{NAME("pdirty"), CTL(stats_arenas_i_pdirty)},
{NAME("mapped"), CTL(stats_arenas_i_mapped)},
{NAME("npurge"), CTL(stats_arenas_i_npurge)},
{NAME("nmadvise"), CTL(stats_arenas_i_nmadvise)},
{NAME("purged"), CTL(stats_arenas_i_purged)},
{NAME("small"), CHILD(stats_arenas_i_small)},
{NAME("large"), CHILD(stats_arenas_i_large)},
{NAME("bins"), CHILD(stats_arenas_i_bins)},
{NAME("lruns"), CHILD(stats_arenas_i_lruns)}
};
static const ctl_node_t super_stats_arenas_i_node[] = {
{NAME(""), CHILD(stats_arenas_i)}
};
static const ctl_node_t stats_arenas_node[] = {
{INDEX(stats_arenas_i)}
};
static const ctl_node_t stats_node[] = {
{NAME("cactive"), CTL(stats_cactive)},
{NAME("allocated"), CTL(stats_allocated)},
{NAME("active"), CTL(stats_active)},
{NAME("mapped"), CTL(stats_mapped)},
{NAME("chunks"), CHILD(stats_chunks)},
{NAME("huge"), CHILD(stats_huge)},
{NAME("arenas"), CHILD(stats_arenas)}
};
static const ctl_node_t root_node[] = {
{NAME("version"), CTL(version)},
{NAME("epoch"), CTL(epoch)},
{NAME("thread"), CHILD(thread)},
{NAME("config"), CHILD(config)},
{NAME("opt"), CHILD(opt)},
{NAME("arenas"), CHILD(arenas)},
{NAME("prof"), CHILD(prof)},
{NAME("stats"), CHILD(stats)}
};
static const ctl_node_t super_root_node[] = {
{NAME(""), CHILD(root)}
};
#undef NAME
#undef CHILD
#undef CTL
#undef INDEX
/******************************************************************************/
static bool
ctl_arena_init(ctl_arena_stats_t *astats)
{
if (astats->lstats == NULL) {
astats->lstats = (malloc_large_stats_t *)base_alloc(nlclasses *
sizeof(malloc_large_stats_t));
if (astats->lstats == NULL)
return (true);
}
return (false);
}
static void
ctl_arena_clear(ctl_arena_stats_t *astats)
{
astats->pactive = 0;
astats->pdirty = 0;
if (config_stats) {
memset(&astats->astats, 0, sizeof(arena_stats_t));
astats->allocated_small = 0;
astats->nmalloc_small = 0;
astats->ndalloc_small = 0;
astats->nrequests_small = 0;
memset(astats->bstats, 0, NBINS * sizeof(malloc_bin_stats_t));
memset(astats->lstats, 0, nlclasses *
sizeof(malloc_large_stats_t));
}
}
static void
ctl_arena_stats_amerge(ctl_arena_stats_t *cstats, arena_t *arena)
{
unsigned i;
arena_stats_merge(arena, &cstats->pactive, &cstats->pdirty,
&cstats->astats, cstats->bstats, cstats->lstats);
for (i = 0; i < NBINS; i++) {
cstats->allocated_small += cstats->bstats[i].allocated;
cstats->nmalloc_small += cstats->bstats[i].nmalloc;
cstats->ndalloc_small += cstats->bstats[i].ndalloc;
cstats->nrequests_small += cstats->bstats[i].nrequests;
}
}
static void
ctl_arena_stats_smerge(ctl_arena_stats_t *sstats, ctl_arena_stats_t *astats)
{
unsigned i;
sstats->pactive += astats->pactive;
sstats->pdirty += astats->pdirty;
sstats->astats.mapped += astats->astats.mapped;
sstats->astats.npurge += astats->astats.npurge;
sstats->astats.nmadvise += astats->astats.nmadvise;
sstats->astats.purged += astats->astats.purged;
sstats->allocated_small += astats->allocated_small;
sstats->nmalloc_small += astats->nmalloc_small;
sstats->ndalloc_small += astats->ndalloc_small;
sstats->nrequests_small += astats->nrequests_small;
sstats->astats.allocated_large += astats->astats.allocated_large;
sstats->astats.nmalloc_large += astats->astats.nmalloc_large;
sstats->astats.ndalloc_large += astats->astats.ndalloc_large;
sstats->astats.nrequests_large += astats->astats.nrequests_large;
for (i = 0; i < nlclasses; i++) {
sstats->lstats[i].nmalloc += astats->lstats[i].nmalloc;
sstats->lstats[i].ndalloc += astats->lstats[i].ndalloc;
sstats->lstats[i].nrequests += astats->lstats[i].nrequests;
sstats->lstats[i].curruns += astats->lstats[i].curruns;
}
for (i = 0; i < NBINS; i++) {
sstats->bstats[i].allocated += astats->bstats[i].allocated;
sstats->bstats[i].nmalloc += astats->bstats[i].nmalloc;
sstats->bstats[i].ndalloc += astats->bstats[i].ndalloc;
sstats->bstats[i].nrequests += astats->bstats[i].nrequests;
if (config_tcache) {
sstats->bstats[i].nfills += astats->bstats[i].nfills;
sstats->bstats[i].nflushes +=
astats->bstats[i].nflushes;
}
sstats->bstats[i].nruns += astats->bstats[i].nruns;
sstats->bstats[i].reruns += astats->bstats[i].reruns;
sstats->bstats[i].curruns += astats->bstats[i].curruns;
}
}
static void
ctl_arena_refresh(arena_t *arena, unsigned i)
{
ctl_arena_stats_t *astats = &ctl_stats.arenas[i];
ctl_arena_stats_t *sstats = &ctl_stats.arenas[narenas];
ctl_arena_clear(astats);
sstats->nthreads += astats->nthreads;
if (config_stats) {
ctl_arena_stats_amerge(astats, arena);
/* Merge into sum stats as well. */
ctl_arena_stats_smerge(sstats, astats);
} else {
astats->pactive += arena->nactive;
astats->pdirty += arena->ndirty;
/* Merge into sum stats as well. */
sstats->pactive += arena->nactive;
sstats->pdirty += arena->ndirty;
}
}
static void
ctl_refresh(void)
{
unsigned i;
arena_t *tarenas[narenas];
if (config_stats) {
malloc_mutex_lock(&chunks_mtx);
ctl_stats.chunks.current = stats_chunks.curchunks;
ctl_stats.chunks.total = stats_chunks.nchunks;
ctl_stats.chunks.high = stats_chunks.highchunks;
malloc_mutex_unlock(&chunks_mtx);
malloc_mutex_lock(&huge_mtx);
ctl_stats.huge.allocated = huge_allocated;
ctl_stats.huge.nmalloc = huge_nmalloc;
ctl_stats.huge.ndalloc = huge_ndalloc;
malloc_mutex_unlock(&huge_mtx);
}
/*
* Clear sum stats, since they will be merged into by
* ctl_arena_refresh().
*/
ctl_stats.arenas[narenas].nthreads = 0;
ctl_arena_clear(&ctl_stats.arenas[narenas]);
malloc_mutex_lock(&arenas_lock);
memcpy(tarenas, arenas, sizeof(arena_t *) * narenas);
for (i = 0; i < narenas; i++) {
if (arenas[i] != NULL)
ctl_stats.arenas[i].nthreads = arenas[i]->nthreads;
else
ctl_stats.arenas[i].nthreads = 0;
}
malloc_mutex_unlock(&arenas_lock);
for (i = 0; i < narenas; i++) {
bool initialized = (tarenas[i] != NULL);
ctl_stats.arenas[i].initialized = initialized;
if (initialized)
ctl_arena_refresh(tarenas[i], i);
}
if (config_stats) {
ctl_stats.allocated = ctl_stats.arenas[narenas].allocated_small
+ ctl_stats.arenas[narenas].astats.allocated_large
+ ctl_stats.huge.allocated;
ctl_stats.active = (ctl_stats.arenas[narenas].pactive <<
PAGE_SHIFT) + ctl_stats.huge.allocated;
ctl_stats.mapped = (ctl_stats.chunks.current << opt_lg_chunk);
}
ctl_epoch++;
}
static bool
ctl_init(void)
{
bool ret;
malloc_mutex_lock(&ctl_mtx);
if (ctl_initialized == false) {
/*
* Allocate space for one extra arena stats element, which
* contains summed stats across all arenas.
*/
ctl_stats.arenas = (ctl_arena_stats_t *)base_alloc(
(narenas + 1) * sizeof(ctl_arena_stats_t));
if (ctl_stats.arenas == NULL) {
ret = true;
goto RETURN;
}
memset(ctl_stats.arenas, 0, (narenas + 1) *
sizeof(ctl_arena_stats_t));
/*
* Initialize all stats structures, regardless of whether they
* ever get used. Lazy initialization would allow errors to
* cause inconsistent state to be viewable by the application.
*/
if (config_stats) {
unsigned i;
for (i = 0; i <= narenas; i++) {
if (ctl_arena_init(&ctl_stats.arenas[i])) {
ret = true;
goto RETURN;
}
}
}
ctl_stats.arenas[narenas].initialized = true;
ctl_epoch = 0;
ctl_refresh();
ctl_initialized = true;
}
ret = false;
RETURN:
malloc_mutex_unlock(&ctl_mtx);
return (ret);
}
static int
ctl_lookup(const char *name, ctl_node_t const **nodesp, size_t *mibp,
size_t *depthp)
{
int ret;
const char *elm, *tdot, *dot;
size_t elen, i, j;
const ctl_node_t *node;
elm = name;
/* Equivalent to strchrnul(). */
dot = ((tdot = strchr(elm, '.')) != NULL) ? tdot : strchr(elm, '\0');
elen = (size_t)((uintptr_t)dot - (uintptr_t)elm);
if (elen == 0) {
ret = ENOENT;
goto RETURN;
}
node = super_root_node;
for (i = 0; i < *depthp; i++) {
assert(node->named);
assert(node->u.named.nchildren > 0);
if (node->u.named.children[0].named) {
const ctl_node_t *pnode = node;
/* Children are named. */
for (j = 0; j < node->u.named.nchildren; j++) {
const ctl_node_t *child =
&node->u.named.children[j];
if (strlen(child->u.named.name) == elen
&& strncmp(elm, child->u.named.name,
elen) == 0) {
node = child;
if (nodesp != NULL)
nodesp[i] = node;
mibp[i] = j;
break;
}
}
if (node == pnode) {
ret = ENOENT;
goto RETURN;
}
} else {
uintmax_t index;
const ctl_node_t *inode;
/* Children are indexed. */
index = malloc_strtoumax(elm, NULL, 10);
if (index == UINTMAX_MAX || index > SIZE_T_MAX) {
ret = ENOENT;
goto RETURN;
}
inode = &node->u.named.children[0];
node = inode->u.indexed.index(mibp, *depthp,
(size_t)index);
if (node == NULL) {
ret = ENOENT;
goto RETURN;
}
if (nodesp != NULL)
nodesp[i] = node;
mibp[i] = (size_t)index;
}
if (node->ctl != NULL) {
/* Terminal node. */
if (*dot != '\0') {
/*
* The name contains more elements than are
* in this path through the tree.
*/
ret = ENOENT;
goto RETURN;
}
/* Complete lookup successful. */
*depthp = i + 1;
break;
}
/* Update elm. */
if (*dot == '\0') {
/* No more elements. */
ret = ENOENT;
goto RETURN;
}
elm = &dot[1];
dot = ((tdot = strchr(elm, '.')) != NULL) ? tdot :
strchr(elm, '\0');
elen = (size_t)((uintptr_t)dot - (uintptr_t)elm);
}
ret = 0;
RETURN:
return (ret);
}
int
ctl_byname(const char *name, void *oldp, size_t *oldlenp, void *newp,
size_t newlen)
{
int ret;
size_t depth;
ctl_node_t const *nodes[CTL_MAX_DEPTH];
size_t mib[CTL_MAX_DEPTH];
if (ctl_initialized == false && ctl_init()) {
ret = EAGAIN;
goto RETURN;
}
depth = CTL_MAX_DEPTH;
ret = ctl_lookup(name, nodes, mib, &depth);
if (ret != 0)
goto RETURN;
if (nodes[depth-1]->ctl == NULL) {
/* The name refers to a partial path through the ctl tree. */
ret = ENOENT;
goto RETURN;
}
ret = nodes[depth-1]->ctl(mib, depth, oldp, oldlenp, newp, newlen);
RETURN:
return(ret);
}
int
ctl_nametomib(const char *name, size_t *mibp, size_t *miblenp)
{
int ret;
if (ctl_initialized == false && ctl_init()) {
ret = EAGAIN;
goto RETURN;
}
ret = ctl_lookup(name, NULL, mibp, miblenp);
RETURN:
return(ret);
}
int
ctl_bymib(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
const ctl_node_t *node;
size_t i;
if (ctl_initialized == false && ctl_init()) {
ret = EAGAIN;
goto RETURN;
}
/* Iterate down the tree. */
node = super_root_node;
for (i = 0; i < miblen; i++) {
if (node->u.named.children[0].named) {
/* Children are named. */
if (node->u.named.nchildren <= mib[i]) {
ret = ENOENT;
goto RETURN;
}
node = &node->u.named.children[mib[i]];
} else {
const ctl_node_t *inode;
/* Indexed element. */
inode = &node->u.named.children[0];
node = inode->u.indexed.index(mib, miblen, mib[i]);
if (node == NULL) {
ret = ENOENT;
goto RETURN;
}
}
}
/* Call the ctl function. */
if (node->ctl == NULL) {
/* Partial MIB. */
ret = ENOENT;
goto RETURN;
}
ret = node->ctl(mib, miblen, oldp, oldlenp, newp, newlen);
RETURN:
return(ret);
}
bool
ctl_boot(void)
{
if (malloc_mutex_init(&ctl_mtx))
return (true);
ctl_initialized = false;
return (false);
}
/******************************************************************************/
/* *_ctl() functions. */
#define READONLY() do { \
if (newp != NULL || newlen != 0) { \
ret = EPERM; \
goto RETURN; \
} \
} while (0)
#define WRITEONLY() do { \
if (oldp != NULL || oldlenp != NULL) { \
ret = EPERM; \
goto RETURN; \
} \
} while (0)
#define VOID() do { \
READONLY(); \
WRITEONLY(); \
} while (0)
#define READ(v, t) do { \
if (oldp != NULL && oldlenp != NULL) { \
if (*oldlenp != sizeof(t)) { \
size_t copylen = (sizeof(t) <= *oldlenp) \
? sizeof(t) : *oldlenp; \
memcpy(oldp, (void *)&v, copylen); \
ret = EINVAL; \
goto RETURN; \
} else \
*(t *)oldp = v; \
} \
} while (0)
#define WRITE(v, t) do { \
if (newp != NULL) { \
if (newlen != sizeof(t)) { \
ret = EINVAL; \
goto RETURN; \
} \
v = *(t *)newp; \
} \
} while (0)
/*
* There's a lot of code duplication in the following macros due to limitations
* in how nested cpp macros are expanded.
*/
#define CTL_RO_CLGEN(c, l, n, v, t) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
t oldval; \
\
if ((c) == false) \
return (ENOENT); \
if (l) \
malloc_mutex_lock(&ctl_mtx); \
READONLY(); \
oldval = v; \
READ(oldval, t); \
\
ret = 0; \
RETURN: \
if (l) \
malloc_mutex_unlock(&ctl_mtx); \
return (ret); \
}
#define CTL_RO_CGEN(c, n, v, t) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
t oldval; \
\
if ((c) == false) \
return (ENOENT); \
malloc_mutex_lock(&ctl_mtx); \
READONLY(); \
oldval = v; \
READ(oldval, t); \
\
ret = 0; \
RETURN: \
malloc_mutex_unlock(&ctl_mtx); \
return (ret); \
}
#define CTL_RO_GEN(n, v, t) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
t oldval; \
\
malloc_mutex_lock(&ctl_mtx); \
READONLY(); \
oldval = v; \
READ(oldval, t); \
\
ret = 0; \
RETURN: \
malloc_mutex_unlock(&ctl_mtx); \
return (ret); \
}
/*
* ctl_mtx is not acquired, under the assumption that no pertinent data will
* mutate during the call.
*/
#define CTL_RO_NL_CGEN(c, n, v, t) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
t oldval; \
\
if ((c) == false) \
return (ENOENT); \
READONLY(); \
oldval = v; \
READ(oldval, t); \
\
ret = 0; \
RETURN: \
return (ret); \
}
#define CTL_RO_NL_GEN(n, v, t) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
t oldval; \
\
READONLY(); \
oldval = v; \
READ(oldval, t); \
\
ret = 0; \
RETURN: \
return (ret); \
}
#define CTL_RO_BOOL_CONFIG_GEN(n) \
static int \
n##_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp, \
void *newp, size_t newlen) \
{ \
int ret; \
bool oldval; \
\
READONLY(); \
oldval = n; \
READ(oldval, bool); \
\
ret = 0; \
RETURN: \
return (ret); \
}
CTL_RO_NL_GEN(version, JEMALLOC_VERSION, const char *)
static int
epoch_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
uint64_t newval;
malloc_mutex_lock(&ctl_mtx);
newval = 0;
WRITE(newval, uint64_t);
if (newval != 0)
ctl_refresh();
READ(ctl_epoch, uint64_t);
ret = 0;
RETURN:
malloc_mutex_unlock(&ctl_mtx);
return (ret);
}
static int
thread_tcache_flush_ctl(const size_t *mib, size_t miblen, void *oldp,
size_t *oldlenp, void *newp, size_t newlen)
{
int ret;
tcache_t *tcache;
if (config_tcache == false)
return (ENOENT);
VOID();
if ((tcache = *tcache_tsd_get()) == NULL) {
ret = 0;
goto RETURN;
}
tcache_destroy(tcache);
tcache = NULL;
tcache_tsd_set(&tcache);
ret = 0;
RETURN:
return (ret);
}
static int
thread_arena_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
unsigned newind, oldind;
newind = oldind = choose_arena()->ind;
WRITE(newind, unsigned);
READ(oldind, unsigned);
if (newind != oldind) {
arena_t *arena;
if (newind >= narenas) {
/* New arena index is out of range. */
ret = EFAULT;
goto RETURN;
}
/* Initialize arena if necessary. */
malloc_mutex_lock(&arenas_lock);
if ((arena = arenas[newind]) == NULL && (arena =
arenas_extend(newind)) == NULL) {
malloc_mutex_unlock(&arenas_lock);
ret = EAGAIN;
goto RETURN;
}
assert(arena == arenas[newind]);
arenas[oldind]->nthreads--;
arenas[newind]->nthreads++;
malloc_mutex_unlock(&arenas_lock);
/* Set new arena association. */
if (config_tcache) {
tcache_t *tcache;
if ((tcache = *tcache_tsd_get()) != NULL) {
tcache_arena_dissociate(tcache);
tcache_arena_associate(tcache, arena);
}
}
arenas_tsd_set(&arena);
}
ret = 0;
RETURN:
return (ret);
}
CTL_RO_NL_CGEN(config_stats, thread_allocated,
thread_allocated_tsd_get()->allocated, uint64_t)
CTL_RO_NL_CGEN(config_stats, thread_allocatedp,
&thread_allocated_tsd_get()->allocated, uint64_t *)
CTL_RO_NL_CGEN(config_stats, thread_deallocated,
thread_allocated_tsd_get()->deallocated, uint64_t)
CTL_RO_NL_CGEN(config_stats, thread_deallocatedp,
&thread_allocated_tsd_get()->deallocated, uint64_t *)
/******************************************************************************/
CTL_RO_BOOL_CONFIG_GEN(config_debug)
CTL_RO_BOOL_CONFIG_GEN(config_dss)
CTL_RO_BOOL_CONFIG_GEN(config_fill)
CTL_RO_BOOL_CONFIG_GEN(config_lazy_lock)
CTL_RO_BOOL_CONFIG_GEN(config_prof)
CTL_RO_BOOL_CONFIG_GEN(config_prof_libgcc)
CTL_RO_BOOL_CONFIG_GEN(config_prof_libunwind)
CTL_RO_BOOL_CONFIG_GEN(config_stats)
CTL_RO_BOOL_CONFIG_GEN(config_tcache)
CTL_RO_BOOL_CONFIG_GEN(config_tls)
CTL_RO_BOOL_CONFIG_GEN(config_xmalloc)
/******************************************************************************/
CTL_RO_NL_GEN(opt_abort, opt_abort, bool)
CTL_RO_NL_GEN(opt_lg_chunk, opt_lg_chunk, size_t)
CTL_RO_NL_GEN(opt_narenas, opt_narenas, size_t)
CTL_RO_NL_GEN(opt_lg_dirty_mult, opt_lg_dirty_mult, ssize_t)
CTL_RO_NL_GEN(opt_stats_print, opt_stats_print, bool)
CTL_RO_NL_CGEN(config_fill, opt_junk, opt_junk, bool)
CTL_RO_NL_CGEN(config_fill, opt_zero, opt_zero, bool)
CTL_RO_NL_CGEN(config_xmalloc, opt_xmalloc, opt_xmalloc, bool)
CTL_RO_NL_CGEN(config_tcache, opt_tcache, opt_tcache, bool)
CTL_RO_NL_CGEN(config_prof, opt_prof, opt_prof, bool)
CTL_RO_NL_CGEN(config_prof, opt_prof_prefix, opt_prof_prefix, const char *)
CTL_RO_CGEN(config_prof, opt_prof_active, opt_prof_active, bool) /* Mutable. */
CTL_RO_NL_CGEN(config_prof, opt_lg_prof_sample, opt_lg_prof_sample, size_t)
CTL_RO_NL_CGEN(config_prof, opt_lg_prof_interval, opt_lg_prof_interval, ssize_t)
CTL_RO_NL_CGEN(config_prof, opt_prof_gdump, opt_prof_gdump, bool)
CTL_RO_NL_CGEN(config_prof, opt_prof_leak, opt_prof_leak, bool)
CTL_RO_NL_CGEN(config_prof, opt_prof_accum, opt_prof_accum, bool)
/******************************************************************************/
CTL_RO_NL_GEN(arenas_bin_i_size, arena_bin_info[mib[2]].reg_size, size_t)
CTL_RO_NL_GEN(arenas_bin_i_nregs, arena_bin_info[mib[2]].nregs, uint32_t)
CTL_RO_NL_GEN(arenas_bin_i_run_size, arena_bin_info[mib[2]].run_size, size_t)
const ctl_node_t *
arenas_bin_i_index(const size_t *mib, size_t miblen, size_t i)
{
if (i > NBINS)
return (NULL);
return (super_arenas_bin_i_node);
}
CTL_RO_NL_GEN(arenas_lrun_i_size, ((mib[2]+1) << PAGE_SHIFT), size_t)
const ctl_node_t *
arenas_lrun_i_index(const size_t *mib, size_t miblen, size_t i)
{
if (i > nlclasses)
return (NULL);
return (super_arenas_lrun_i_node);
}
CTL_RO_NL_GEN(arenas_narenas, narenas, unsigned)
static int
arenas_initialized_ctl(const size_t *mib, size_t miblen, void *oldp,
size_t *oldlenp, void *newp, size_t newlen)
{
int ret;
unsigned nread, i;
malloc_mutex_lock(&ctl_mtx);
READONLY();
if (*oldlenp != narenas * sizeof(bool)) {
ret = EINVAL;
nread = (*oldlenp < narenas * sizeof(bool))
? (*oldlenp / sizeof(bool)) : narenas;
} else {
ret = 0;
nread = narenas;
}
for (i = 0; i < nread; i++)
((bool *)oldp)[i] = ctl_stats.arenas[i].initialized;
RETURN:
malloc_mutex_unlock(&ctl_mtx);
return (ret);
}
CTL_RO_NL_GEN(arenas_quantum, QUANTUM, size_t)
CTL_RO_NL_GEN(arenas_pagesize, PAGE_SIZE, size_t)
CTL_RO_NL_GEN(arenas_chunksize, chunksize, size_t)
CTL_RO_NL_CGEN(config_tcache, arenas_tcache_max, tcache_maxclass, size_t)
CTL_RO_NL_GEN(arenas_nbins, NBINS, unsigned)
CTL_RO_NL_CGEN(config_tcache, arenas_nhbins, nhbins, unsigned)
CTL_RO_NL_GEN(arenas_nlruns, nlclasses, size_t)
static int
arenas_purge_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
unsigned arena;
WRITEONLY();
arena = UINT_MAX;
WRITE(arena, unsigned);
if (newp != NULL && arena >= narenas) {
ret = EFAULT;
goto RETURN;
} else {
arena_t *tarenas[narenas];
malloc_mutex_lock(&arenas_lock);
memcpy(tarenas, arenas, sizeof(arena_t *) * narenas);
malloc_mutex_unlock(&arenas_lock);
if (arena == UINT_MAX) {
unsigned i;
for (i = 0; i < narenas; i++) {
if (tarenas[i] != NULL)
arena_purge_all(tarenas[i]);
}
} else {
assert(arena < narenas);
if (tarenas[arena] != NULL)
arena_purge_all(tarenas[arena]);
}
}
ret = 0;
RETURN:
return (ret);
}
/******************************************************************************/
static int
prof_active_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
bool oldval;
if (config_prof == false)
return (ENOENT);
malloc_mutex_lock(&ctl_mtx); /* Protect opt_prof_active. */
oldval = opt_prof_active;
if (newp != NULL) {
/*
* The memory barriers will tend to make opt_prof_active
* propagate faster on systems with weak memory ordering.
*/
mb_write();
WRITE(opt_prof_active, bool);
mb_write();
}
READ(oldval, bool);
ret = 0;
RETURN:
malloc_mutex_unlock(&ctl_mtx);
return (ret);
}
static int
prof_dump_ctl(const size_t *mib, size_t miblen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int ret;
const char *filename = NULL;
if (config_prof == false)
return (ENOENT);
WRITEONLY();
WRITE(filename, const char *);
if (prof_mdump(filename)) {
ret = EFAULT;
goto RETURN;
}
ret = 0;
RETURN:
return (ret);
}
CTL_RO_NL_CGEN(config_prof, prof_interval, prof_interval, uint64_t)
/******************************************************************************/
CTL_RO_CGEN(config_stats, stats_chunks_current, ctl_stats.chunks.current,
size_t)
CTL_RO_CGEN(config_stats, stats_chunks_total, ctl_stats.chunks.total, uint64_t)
CTL_RO_CGEN(config_stats, stats_chunks_high, ctl_stats.chunks.high, size_t)
CTL_RO_CGEN(config_stats, stats_huge_allocated, huge_allocated, size_t)
CTL_RO_CGEN(config_stats, stats_huge_nmalloc, huge_nmalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_huge_ndalloc, huge_ndalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_small_allocated,
ctl_stats.arenas[mib[2]].allocated_small, size_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_small_nmalloc,
ctl_stats.arenas[mib[2]].nmalloc_small, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_small_ndalloc,
ctl_stats.arenas[mib[2]].ndalloc_small, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_small_nrequests,
ctl_stats.arenas[mib[2]].nrequests_small, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_large_allocated,
ctl_stats.arenas[mib[2]].astats.allocated_large, size_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_large_nmalloc,
ctl_stats.arenas[mib[2]].astats.nmalloc_large, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_large_ndalloc,
ctl_stats.arenas[mib[2]].astats.ndalloc_large, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_large_nrequests,
ctl_stats.arenas[mib[2]].astats.nrequests_large, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_allocated,
ctl_stats.arenas[mib[2]].bstats[mib[4]].allocated, size_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_nmalloc,
ctl_stats.arenas[mib[2]].bstats[mib[4]].nmalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_ndalloc,
ctl_stats.arenas[mib[2]].bstats[mib[4]].ndalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_nrequests,
ctl_stats.arenas[mib[2]].bstats[mib[4]].nrequests, uint64_t)
CTL_RO_CGEN(config_stats && config_tcache, stats_arenas_i_bins_j_nfills,
ctl_stats.arenas[mib[2]].bstats[mib[4]].nfills, uint64_t)
CTL_RO_CGEN(config_stats && config_tcache, stats_arenas_i_bins_j_nflushes,
ctl_stats.arenas[mib[2]].bstats[mib[4]].nflushes, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_nruns,
ctl_stats.arenas[mib[2]].bstats[mib[4]].nruns, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_nreruns,
ctl_stats.arenas[mib[2]].bstats[mib[4]].reruns, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_bins_j_curruns,
ctl_stats.arenas[mib[2]].bstats[mib[4]].curruns, size_t)
const ctl_node_t *
stats_arenas_i_bins_j_index(const size_t *mib, size_t miblen, size_t j)
{
if (j > NBINS)
return (NULL);
return (super_stats_arenas_i_bins_j_node);
}
CTL_RO_CGEN(config_stats, stats_arenas_i_lruns_j_nmalloc,
ctl_stats.arenas[mib[2]].lstats[mib[4]].nmalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_lruns_j_ndalloc,
ctl_stats.arenas[mib[2]].lstats[mib[4]].ndalloc, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_lruns_j_nrequests,
ctl_stats.arenas[mib[2]].lstats[mib[4]].nrequests, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_lruns_j_curruns,
ctl_stats.arenas[mib[2]].lstats[mib[4]].curruns, size_t)
const ctl_node_t *
stats_arenas_i_lruns_j_index(const size_t *mib, size_t miblen, size_t j)
{
if (j > nlclasses)
return (NULL);
return (super_stats_arenas_i_lruns_j_node);
}
CTL_RO_GEN(stats_arenas_i_nthreads, ctl_stats.arenas[mib[2]].nthreads, unsigned)
CTL_RO_GEN(stats_arenas_i_pactive, ctl_stats.arenas[mib[2]].pactive, size_t)
CTL_RO_GEN(stats_arenas_i_pdirty, ctl_stats.arenas[mib[2]].pdirty, size_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_mapped,
ctl_stats.arenas[mib[2]].astats.mapped, size_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_npurge,
ctl_stats.arenas[mib[2]].astats.npurge, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_nmadvise,
ctl_stats.arenas[mib[2]].astats.nmadvise, uint64_t)
CTL_RO_CGEN(config_stats, stats_arenas_i_purged,
ctl_stats.arenas[mib[2]].astats.purged, uint64_t)
const ctl_node_t *
stats_arenas_i_index(const size_t *mib, size_t miblen, size_t i)
{
const ctl_node_t * ret;
malloc_mutex_lock(&ctl_mtx);
if (ctl_stats.arenas[i].initialized == false) {
ret = NULL;
goto RETURN;
}
ret = super_stats_arenas_i_node;
RETURN:
malloc_mutex_unlock(&ctl_mtx);
return (ret);
}
CTL_RO_CGEN(config_stats, stats_cactive, &stats_cactive, size_t *)
CTL_RO_CGEN(config_stats, stats_allocated, ctl_stats.allocated, size_t)
CTL_RO_CGEN(config_stats, stats_active, ctl_stats.active, size_t)
CTL_RO_CGEN(config_stats, stats_mapped, ctl_stats.mapped, size_t)
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