#include "metadata/threads.h"
#include "metadata/sgen-gc.h"
#include "metadata/sgen-cardtable.h"
+#include "metadata/sgen-protocol.h"
#include "metadata/sgen-archdep.h"
+#include "metadata/sgen-bridge.h"
#include "metadata/mono-gc.h"
#include "metadata/method-builder.h"
#include "metadata/profiler-private.h"
*/
static int gc_initialized = 0;
-/* If set, do a minor collection before every allocation */
-static gboolean collect_before_allocs = FALSE;
+/* If set, do a minor collection before every X allocation */
+static guint32 collect_before_allocs = 0;
/* If set, do a heap consistency check before each minor collection */
static gboolean consistency_check_at_minor_collection = FALSE;
/* If set, check that there are no references to the domain left at domain unload */
/* If not null, dump the heap after each collection into this file */
static FILE *heap_dump_file = NULL;
/* If set, mark stacks conservatively, even if precise marking is possible */
-static gboolean conservative_stack_mark = TRUE;
+static gboolean conservative_stack_mark = FALSE;
/* If set, do a plausibility check on the scan_starts before and after
each collection */
static gboolean do_scan_starts_check = FALSE;
static int stat_wbarrier_object_copy = 0;
#endif
+static long long stat_pinned_objects = 0;
+
static long long time_minor_pre_collection_fragment_clear = 0;
static long long time_minor_pinning = 0;
static long long time_minor_scan_remsets = 0;
#define DEBUG(level,a) do {if (G_UNLIKELY ((level) <= SGEN_MAX_DEBUG_LEVEL && (level) <= gc_debug_level)) a;} while (0)
-static int gc_debug_level = 0;
-static FILE* gc_debug_file;
+int gc_debug_level = 0;
+FILE* gc_debug_file;
/*
void
*/
#define USER_CONFIG 1
-#define TV_DECLARE(name) gint64 name
-#define TV_GETTIME(tv) tv = mono_100ns_ticks ()
-#define TV_ELAPSED(start,end) (int)((end-start) / 10)
-#define TV_ELAPSED_MS(start,end) ((TV_ELAPSED((start),(end)) + 500) / 1000)
+#define TV_DECLARE SGEN_TV_DECLARE
+#define TV_GETTIME SGEN_TV_GETTIME
+#define TV_ELAPSED SGEN_TV_ELAPSED
+#define TV_ELAPSED_MS SGEN_TV_ELAPSED_MS
#define ALIGN_TO(val,align) ((((guint64)val) + ((align) - 1)) & ~((align) - 1))
#define safe_object_get_size mono_sgen_safe_object_get_size
+const char*
+mono_sgen_safe_name (void* obj)
+{
+ return safe_name (obj);
+}
+
/*
* ######################################################################
* ######## Global data.
static mword roots_size = 0; /* amount of memory in the root set */
static int num_roots_entries [ROOT_TYPE_NUM] = { 0, 0, 0 };
+#define GC_ROOT_NUM 32
+typedef struct {
+ int count;
+ void *objects [GC_ROOT_NUM];
+ int root_types [GC_ROOT_NUM];
+ uintptr_t extra_info [GC_ROOT_NUM];
+} GCRootReport;
+
+static void
+notify_gc_roots (GCRootReport *report)
+{
+ if (!report->count)
+ return;
+ mono_profiler_gc_roots (report->count, report->objects, report->root_types, report->extra_info);
+ report->count = 0;
+}
+
+static void
+add_profile_gc_root (GCRootReport *report, void *object, int rtype, uintptr_t extra_info)
+{
+ if (report->count == GC_ROOT_NUM)
+ notify_gc_roots (report);
+ report->objects [report->count] = object;
+ report->root_types [report->count] = rtype;
+ report->extra_info [report->count++] = (uintptr_t)((MonoVTable*)LOAD_VTABLE (object))->klass;
+}
+
/*
* The current allocation cursors
* We allocate objects in the nursery.
/* Vtable of the objects used to fill out nursery fragments before a collection */
static MonoVTable *array_fill_vtable;
+#ifdef SGEN_DEBUG_INTERNAL_ALLOC
+pthread_t main_gc_thread = NULL;
+#endif
+
/*
* ######################################################################
* ######## Heap size accounting
* ######################################################################
*/
-#define ADDR_IN_HEAP_BOUNDARIES(addr) ((p) >= lowest_heap_address && (p) < highest_heap_address)
-
inline static void*
align_pointer (void *ptr)
{
static void scan_from_remsets (void *start_nursery, void *end_nursery, GrayQueue *queue);
static void scan_from_registered_roots (CopyOrMarkObjectFunc copy_func, char *addr_start, char *addr_end, int root_type, GrayQueue *queue);
static void scan_finalizer_entries (CopyOrMarkObjectFunc copy_func, FinalizeEntry *list, GrayQueue *queue);
+static void report_finalizer_roots (void);
+static void report_registered_roots (void);
static void find_pinning_ref_from_thread (char *obj, size_t size);
static void update_current_thread_stack (void *start);
static void finalize_in_range (CopyOrMarkObjectFunc copy_func, char *start, char *end, int generation, GrayQueue *queue);
static void add_or_remove_disappearing_link (MonoObject *obj, void **link, gboolean track, int generation);
-static void null_link_in_range (CopyOrMarkObjectFunc copy_func, char *start, char *end, int generation, GrayQueue *queue);
+static void null_link_in_range (CopyOrMarkObjectFunc copy_func, char *start, char *end, int generation, gboolean before_finalization, GrayQueue *queue);
static void null_links_for_domain (MonoDomain *domain, int generation);
static gboolean search_fragment_for_size (size_t size);
static int search_fragment_for_size_range (size_t desired_size, size_t minimum_size);
static void clear_remsets (void);
static void clear_tlabs (void);
static void sort_addresses (void **array, int size);
-static void drain_gray_stack (GrayQueue *queue);
+static gboolean drain_gray_stack (GrayQueue *queue, int max_objs);
static void finish_gray_stack (char *start_addr, char *end_addr, int generation, GrayQueue *queue);
static gboolean need_major_collection (mword space_needed);
static void major_collection (const char *reason);
SgenMajorCollector major_collector;
-#include "sgen-protocol.c"
#include "sgen-pinning.c"
#include "sgen-pinning-stats.c"
#include "sgen-gray.c"
#include "sgen-workers.c"
-#include "sgen-los.c"
#include "sgen-cardtable.c"
/* Root bitmap descriptors are simpler: the lower three bits describe the type
static void
scan_object_for_specific_ref (char *start, MonoObject *key)
{
+ char *forwarded;
+
+ if ((forwarded = SGEN_OBJECT_IS_FORWARDED (start)))
+ start = forwarded;
+
#include "sgen-scan-object.h"
}
void
-mono_sgen_scan_area_with_callback (char *start, char *end, IterateObjectCallbackFunc callback, void *data)
+mono_sgen_scan_area_with_callback (char *start, char *end, IterateObjectCallbackFunc callback, void *data, gboolean allow_flags)
{
while (start < end) {
size_t size;
+ char *obj;
+
if (!*(void**)start) {
start += sizeof (void*); /* should be ALLOC_ALIGN, really */
continue;
}
- size = ALIGN_UP (safe_object_get_size ((MonoObject*) start));
+ if (allow_flags) {
+ if (!(obj = SGEN_OBJECT_IS_FORWARDED (start)))
+ obj = start;
+ } else {
+ obj = start;
+ }
+
+ size = ALIGN_UP (safe_object_get_size ((MonoObject*)obj));
- callback (start, size, data);
+ callback (obj, size, data);
start += size;
}
void
mono_gc_scan_for_specific_ref (MonoObject *key)
{
- LOSObject *bigobj;
RootRecord *root;
int i;
mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data,
- (IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
+ (IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key, TRUE);
major_collector.iterate_objects (TRUE, TRUE, (IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
- for (bigobj = los_object_list; bigobj; bigobj = bigobj->next)
- scan_object_for_specific_ref (bigobj->data, key);
+ mono_sgen_los_iterate_objects ((IterateObjectCallbackFunc)scan_object_for_specific_ref_callback, key);
scan_roots_for_specific_ref (key, ROOT_TYPE_NORMAL);
scan_roots_for_specific_ref (key, ROOT_TYPE_WBARRIER);
LOSObject *bigobj;
mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data,
- (IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
+ (IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL, FALSE);
major_collector.iterate_objects (TRUE, TRUE, (IterateObjectCallbackFunc)scan_object_for_xdomain_refs, NULL);
}
mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data,
- (IterateObjectCallbackFunc)clear_domain_process_minor_object_callback, domain);
+ (IterateObjectCallbackFunc)clear_domain_process_minor_object_callback, domain, FALSE);
/*Ephemerons and dislinks must be processed before LOS since they might end up pointing
to memory returned to the OS.*/
bigobj = bigobj->next;
DEBUG (4, fprintf (gc_debug_file, "Freeing large object %p\n",
bigobj->data));
- free_large_object (to_free);
+ mono_sgen_los_free_object (to_free);
continue;
}
prev = bigobj;
* frequently after each object is copied, to achieve better locality and cache
* usage.
*/
-static void
-drain_gray_stack (GrayQueue *queue)
+static gboolean
+drain_gray_stack (GrayQueue *queue, int max_objs)
{
char *obj;
for (;;) {
GRAY_OBJECT_DEQUEUE (queue, obj);
if (!obj)
- break;
+ return TRUE;
DEBUG (9, fprintf (gc_debug_file, "Precise gray object scan %p (%s)\n", obj, safe_name (obj)));
major_collector.minor_scan_object (obj, queue);
}
} else {
+ int i;
+
if (major_collector.is_parallel && queue == &workers_distribute_gray_queue)
- return;
+ return TRUE;
- for (;;) {
- GRAY_OBJECT_DEQUEUE (queue, obj);
- if (!obj)
- break;
- DEBUG (9, fprintf (gc_debug_file, "Precise gray object scan %p (%s)\n", obj, safe_name (obj)));
- major_collector.major_scan_object (obj, queue);
- }
+ do {
+ for (i = 0; i != max_objs; ++i) {
+ GRAY_OBJECT_DEQUEUE (queue, obj);
+ if (!obj)
+ return TRUE;
+ DEBUG (9, fprintf (gc_debug_file, "Precise gray object scan %p (%s)\n", obj, safe_name (obj)));
+ major_collector.major_scan_object (obj, queue);
+ }
+ } while (max_objs < 0);
+ return FALSE;
}
}
start++;
}
//printf ("effective pinned: %d (at the end: %d)\n", count, (char*)end_nursery - (char*)last);
+ if (mono_profiler_get_events () & MONO_PROFILE_GC_ROOTS) {
+ GCRootReport report;
+ report.count = 0;
+ for (idx = 0; idx < count; ++idx)
+ add_profile_gc_root (&report, definitely_pinned [idx], MONO_PROFILE_GC_ROOT_PINNING, 0);
+ notify_gc_roots (&report);
+ }
+ stat_pinned_objects += count;
return count;
}
pin_stage_ptr ((void*)addr);
if (heap_dump_file)
pin_stats_register_address ((char*)addr, pin_type);
- DEBUG (6, if (count) fprintf (gc_debug_file, "Pinning address %p\n", (void*)addr));
+ DEBUG (6, if (count) fprintf (gc_debug_file, "Pinning address %p from %p\n", (void*)addr, start));
count++;
}
start++;
if ((desc & 1) && *start_root) {
copy_func (start_root, queue);
DEBUG (9, fprintf (gc_debug_file, "Overwrote root at %p with %p\n", start_root, *start_root));
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
}
desc >>= 1;
start_root++;
if ((bmap & 1) && *objptr) {
copy_func (objptr, queue);
DEBUG (9, fprintf (gc_debug_file, "Overwrote root at %p with %p\n", objptr, *objptr));
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
}
bmap >>= 1;
++objptr;
}
}
+static void
+reset_heap_boundaries (void)
+{
+ lowest_heap_address = ~(mword)0;
+ highest_heap_address = 0;
+}
+
void
mono_sgen_update_heap_boundaries (mword low, mword high)
{
return nursery_start;
}
+gboolean
+mono_gc_precise_stack_mark_enabled (void)
+{
+ return !conservative_stack_mark;
+}
+
+FILE *
+mono_gc_get_logfile (void)
+{
+ return mono_sgen_get_logfile ();
+}
+
+static void
+report_finalizer_roots_list (FinalizeEntry *list)
+{
+ GCRootReport report;
+ FinalizeEntry *fin;
+
+ report.count = 0;
+ for (fin = list; fin; fin = fin->next) {
+ if (!fin->object)
+ continue;
+ add_profile_gc_root (&report, fin->object, MONO_PROFILE_GC_ROOT_FINALIZER, 0);
+ }
+ notify_gc_roots (&report);
+}
+
+static void
+report_finalizer_roots (void)
+{
+ report_finalizer_roots_list (fin_ready_list);
+ report_finalizer_roots_list (critical_fin_list);
+}
+
+static GCRootReport *root_report;
+
+static void
+single_arg_report_root (void **obj)
+{
+ if (*obj)
+ add_profile_gc_root (root_report, *obj, MONO_PROFILE_GC_ROOT_OTHER, 0);
+}
+
+static void
+precisely_report_roots_from (GCRootReport *report, void** start_root, void** end_root, mword desc)
+{
+ switch (desc & ROOT_DESC_TYPE_MASK) {
+ case ROOT_DESC_BITMAP:
+ desc >>= ROOT_DESC_TYPE_SHIFT;
+ while (desc) {
+ if ((desc & 1) && *start_root) {
+ add_profile_gc_root (report, *start_root, MONO_PROFILE_GC_ROOT_OTHER, 0);
+ }
+ desc >>= 1;
+ start_root++;
+ }
+ return;
+ case ROOT_DESC_COMPLEX: {
+ gsize *bitmap_data = complex_descriptors + (desc >> ROOT_DESC_TYPE_SHIFT);
+ int bwords = (*bitmap_data) - 1;
+ void **start_run = start_root;
+ bitmap_data++;
+ while (bwords-- > 0) {
+ gsize bmap = *bitmap_data++;
+ void **objptr = start_run;
+ while (bmap) {
+ if ((bmap & 1) && *objptr) {
+ add_profile_gc_root (report, *objptr, MONO_PROFILE_GC_ROOT_OTHER, 0);
+ }
+ bmap >>= 1;
+ ++objptr;
+ }
+ start_run += GC_BITS_PER_WORD;
+ }
+ break;
+ }
+ case ROOT_DESC_USER: {
+ MonoGCRootMarkFunc marker = user_descriptors [desc >> ROOT_DESC_TYPE_SHIFT];
+ root_report = report;
+ marker (start_root, single_arg_report_root);
+ break;
+ }
+ case ROOT_DESC_RUN_LEN:
+ g_assert_not_reached ();
+ default:
+ g_assert_not_reached ();
+ }
+}
+
+static void
+report_registered_roots_by_type (int root_type)
+{
+ GCRootReport report;
+ int i;
+ RootRecord *root;
+ report.count = 0;
+ for (i = 0; i < roots_hash_size [root_type]; ++i) {
+ for (root = roots_hash [root_type][i]; root; root = root->next) {
+ DEBUG (6, fprintf (gc_debug_file, "Precise root scan %p-%p (desc: %p)\n", root->start_root, root->end_root, (void*)root->root_desc));
+ precisely_report_roots_from (&report, (void**)root->start_root, (void**)root->end_root, root->root_desc);
+ }
+ }
+ notify_gc_roots (&report);
+}
+
+static void
+report_registered_roots (void)
+{
+ report_registered_roots_by_type (ROOT_TYPE_NORMAL);
+ report_registered_roots_by_type (ROOT_TYPE_WBARRIER);
+}
+
static void
scan_finalizer_entries (CopyOrMarkObjectFunc copy_func, FinalizeEntry *list, GrayQueue *queue)
{
}
}
+static MonoObject **finalized_array = NULL;
+static int finalized_array_capacity = 0;
+static int finalized_array_entries = 0;
+
+static void
+bridge_register_finalized_object (MonoObject *object)
+{
+ if (!finalized_array)
+ return;
+
+ if (finalized_array_entries >= finalized_array_capacity) {
+ MonoObject **new_array;
+ g_assert (finalized_array_entries == finalized_array_capacity);
+ finalized_array_capacity *= 2;
+ new_array = mono_sgen_alloc_internal_dynamic (sizeof (MonoObject*) * finalized_array_capacity, INTERNAL_MEM_BRIDGE_DATA);
+ memcpy (new_array, finalized_array, sizeof (MonoObject*) * finalized_array_entries);
+ mono_sgen_free_internal_dynamic (finalized_array, sizeof (MonoObject*) * finalized_array_entries, INTERNAL_MEM_BRIDGE_DATA);
+ finalized_array = new_array;
+ }
+ finalized_array [finalized_array_entries++] = object;
+}
+
static void
finish_gray_stack (char *start_addr, char *end_addr, int generation, GrayQueue *queue)
{
TV_DECLARE (btv);
int fin_ready;
int ephemeron_rounds = 0;
+ int num_loops;
CopyOrMarkObjectFunc copy_func = current_collection_generation == GENERATION_NURSERY ? major_collector.copy_object : major_collector.copy_or_mark_object;
/*
* To achieve better cache locality and cache usage, we drain the gray stack
* frequently, after each object is copied, and just finish the work here.
*/
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
TV_GETTIME (atv);
DEBUG (2, fprintf (gc_debug_file, "%s generation done\n", generation_name (generation)));
+
+ /*
+ We must clear weak links that don't track resurrection before processing object ready for
+ finalization so they can be cleared before that.
+ */
+ null_link_in_range (copy_func, start_addr, end_addr, generation, TRUE, queue);
+ if (generation == GENERATION_OLD)
+ null_link_in_range (copy_func, start_addr, end_addr, GENERATION_NURSERY, TRUE, queue);
+
+ if (finalized_array == NULL && mono_sgen_need_bridge_processing ()) {
+ finalized_array_capacity = 32;
+ finalized_array = mono_sgen_alloc_internal_dynamic (sizeof (MonoObject*) * finalized_array_capacity, INTERNAL_MEM_BRIDGE_DATA);
+ }
+ finalized_array_entries = 0;
+
/* walk the finalization queue and move also the objects that need to be
* finalized: use the finalized objects as new roots so the objects they depend
* on are also not reclaimed. As with the roots above, only objects in the nursery
* We need a loop here, since objects ready for finalizers may reference other objects
* that are fin-ready. Speedup with a flag?
*/
+ num_loops = 0;
do {
/*
* Walk the ephemeron tables marking all values with reachable keys. This must be completely done
int done_with_ephemerons = 0;
do {
done_with_ephemerons = mark_ephemerons_in_range (copy_func, start_addr, end_addr, queue);
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
++ephemeron_rounds;
} while (!done_with_ephemerons);
if (generation == GENERATION_OLD)
finalize_in_range (copy_func, nursery_start, nursery_real_end, GENERATION_NURSERY, queue);
+ if (fin_ready != num_ready_finalizers) {
+ ++num_loops;
+ if (finalized_array != NULL)
+ mono_sgen_bridge_processing (finalized_array_entries, finalized_array);
+ }
+
/* drain the new stack that might have been created */
DEBUG (6, fprintf (gc_debug_file, "Precise scan of gray area post fin\n"));
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
} while (fin_ready != num_ready_finalizers);
+ if (mono_sgen_need_bridge_processing ())
+ g_assert (num_loops <= 1);
+
/*
* Clear ephemeron pairs with unreachable keys.
* We pass the copy func so we can figure out if an array was promoted or not.
*/
g_assert (gray_object_queue_is_empty (queue));
for (;;) {
- null_link_in_range (copy_func, start_addr, end_addr, generation, queue);
+ null_link_in_range (copy_func, start_addr, end_addr, generation, FALSE, queue);
if (generation == GENERATION_OLD)
- null_link_in_range (copy_func, start_addr, end_addr, GENERATION_NURSERY, queue);
+ null_link_in_range (copy_func, start_addr, end_addr, GENERATION_NURSERY, FALSE, queue);
if (gray_object_queue_is_empty (queue))
break;
- drain_gray_stack (queue);
+ drain_gray_stack (queue, -1);
}
g_assert (gray_object_queue_is_empty (queue));
mono_counters_register ("Major sweep", MONO_COUNTER_GC | MONO_COUNTER_LONG, &time_major_sweep);
mono_counters_register ("Major fragment creation", MONO_COUNTER_GC | MONO_COUNTER_LONG, &time_major_fragment_creation);
+ mono_counters_register ("Number of pinned objects", MONO_COUNTER_GC | MONO_COUNTER_LONG, &stat_pinned_objects);
#ifdef HEAVY_STATISTICS
mono_counters_register ("WBarrier set field", MONO_COUNTER_GC | MONO_COUNTER_INT, &stat_wbarrier_set_field);
inited = TRUE;
}
+static gboolean need_calculate_minor_collection_allowance;
+
+static int last_collection_old_num_major_sections;
+static mword last_collection_los_memory_usage = 0;
+static mword last_collection_old_los_memory_usage;
+static mword last_collection_los_memory_alloced;
+
+static void
+reset_minor_collection_allowance (void)
+{
+ need_calculate_minor_collection_allowance = TRUE;
+}
+
+static void
+try_calculate_minor_collection_allowance (gboolean overwrite)
+{
+ int num_major_sections, num_major_sections_saved, save_target, allowance_target;
+ mword los_memory_saved;
+
+ if (overwrite)
+ g_assert (need_calculate_minor_collection_allowance);
+
+ if (!need_calculate_minor_collection_allowance)
+ return;
+
+ if (!*major_collector.have_swept) {
+ if (overwrite)
+ minor_collection_allowance = MIN_MINOR_COLLECTION_ALLOWANCE;
+ return;
+ }
+
+ num_major_sections = major_collector.get_num_major_sections ();
+
+ num_major_sections_saved = MAX (last_collection_old_num_major_sections - num_major_sections, 0);
+ los_memory_saved = MAX (last_collection_old_los_memory_usage - last_collection_los_memory_usage, 1);
+
+ save_target = ((num_major_sections * major_collector.section_size) + los_memory_saved) / 2;
+
+ /*
+ * We aim to allow the allocation of as many sections as is
+ * necessary to reclaim save_target sections in the next
+ * collection. We assume the collection pattern won't change.
+ * In the last cycle, we had num_major_sections_saved for
+ * minor_collection_sections_alloced. Assuming things won't
+ * change, this must be the same ratio as save_target for
+ * allowance_target, i.e.
+ *
+ * num_major_sections_saved save_target
+ * --------------------------------- == ----------------
+ * minor_collection_sections_alloced allowance_target
+ *
+ * hence:
+ */
+ allowance_target = (mword)((double)save_target * (double)(minor_collection_sections_alloced * major_collector.section_size + last_collection_los_memory_alloced) / (double)(num_major_sections_saved * major_collector.section_size + los_memory_saved));
+
+ minor_collection_allowance = MAX (MIN (allowance_target, num_major_sections * major_collector.section_size + los_memory_usage), MIN_MINOR_COLLECTION_ALLOWANCE);
+
+ if (major_collector.have_computed_minor_collection_allowance)
+ major_collector.have_computed_minor_collection_allowance ();
+
+ need_calculate_minor_collection_allowance = FALSE;
+}
+
static gboolean
need_major_collection (mword space_needed)
{
- mword los_alloced = los_memory_usage - MIN (last_los_memory_usage, los_memory_usage);
+ mword los_alloced = los_memory_usage - MIN (last_collection_los_memory_usage, los_memory_usage);
return (space_needed > available_free_space ()) ||
minor_collection_sections_alloced * major_collector.section_size + los_alloced > minor_collection_allowance;
}
+gboolean
+mono_sgen_need_major_collection (mword space_needed)
+{
+ return need_major_collection (space_needed);
+}
+
/*
* Collect objects in the nursery. Returns whether to trigger a major
* collection.
major_collector.start_nursery_collection ();
+ try_calculate_minor_collection_allowance (FALSE);
+
gray_object_queue_init (&gray_queue, mono_sgen_get_unmanaged_allocator ());
num_minor_gcs++;
time_minor_scan_card_table += TV_ELAPSED_MS (atv, btv);
}
- drain_gray_stack (&gray_queue);
+ drain_gray_stack (&gray_queue, -1);
+ if (mono_profiler_get_events () & MONO_PROFILE_GC_ROOTS)
+ report_registered_roots ();
+ if (mono_profiler_get_events () & MONO_PROFILE_GC_ROOTS)
+ report_finalizer_roots ();
TV_GETTIME (atv);
time_minor_scan_pinned += TV_ELAPSED_MS (btv, atv);
/* registered roots, this includes static fields */
*/
char *heap_start = NULL;
char *heap_end = (char*)-1;
- int old_num_major_sections = major_collector.get_num_major_sections ();
- int num_major_sections, num_major_sections_saved, save_target, allowance_target;
int old_next_pin_slot;
- mword los_memory_saved, los_memory_alloced, old_los_memory_usage;
mono_perfcounters->gc_collections1++;
+ last_collection_old_num_major_sections = major_collector.get_num_major_sections ();
+
/*
* A domain could have been freed, resulting in
- * los_memory_usage being less than last_los_memory_usage.
+ * los_memory_usage being less than last_collection_los_memory_usage.
*/
- los_memory_alloced = los_memory_usage - MIN (last_los_memory_usage, los_memory_usage);
- old_los_memory_usage = los_memory_usage;
+ last_collection_los_memory_alloced = los_memory_usage - MIN (last_collection_los_memory_usage, los_memory_usage);
+ last_collection_old_los_memory_usage = los_memory_usage;
objects_pinned = 0;
//count_ref_nonref_objs ();
binary_protocol_collection (GENERATION_OLD);
check_scan_starts ();
gray_object_queue_init (&gray_queue, mono_sgen_get_unmanaged_allocator ());
- if (major_collector.is_parallel)
- gray_object_queue_init (&workers_distribute_gray_queue, mono_sgen_get_unmanaged_allocator ());
+ workers_init_distribute_gray_queue ();
degraded_mode = 0;
DEBUG (1, fprintf (gc_debug_file, "Start major collection %d\n", num_major_gcs));
TV_GETTIME (btv);
time_major_pre_collection_fragment_clear += TV_ELAPSED_MS (atv, btv);
- if (xdomain_checks)
- check_for_xdomain_refs ();
-
nursery_section->next_data = nursery_real_end;
/* we should also coalesce scanning from sections close to each other
* and deal with pointers outside of the sections later.
if (major_collector.start_major_collection)
major_collector.start_major_collection ();
+ *major_collector.have_swept = FALSE;
+ reset_minor_collection_allowance ();
+
+ if (xdomain_checks)
+ check_for_xdomain_refs ();
+
/* The remsets are not useful for a major collection */
clear_remsets ();
global_remset_cache_clear ();
major_collector.init_to_space ();
- workers_start_all_workers (1);
+#ifdef SGEN_DEBUG_INTERNAL_ALLOC
+ main_gc_thread = pthread_self ();
+#endif
+
+ workers_start_all_workers ();
+ workers_start_marking ();
+ if (mono_profiler_get_events () & MONO_PROFILE_GC_ROOTS)
+ report_registered_roots ();
TV_GETTIME (atv);
time_major_scan_pinned += TV_ELAPSED_MS (btv, atv);
TV_GETTIME (btv);
time_major_scan_alloc_pinned += TV_ELAPSED_MS (atv, btv);
+ if (mono_profiler_get_events () & MONO_PROFILE_GC_ROOTS)
+ report_finalizer_roots ();
/* scan the list of objects ready for finalization */
scan_finalizer_entries (major_collector.copy_or_mark_object, fin_ready_list, WORKERS_DISTRIBUTE_GRAY_QUEUE);
scan_finalizer_entries (major_collector.copy_or_mark_object, critical_fin_list, WORKERS_DISTRIBUTE_GRAY_QUEUE);
if (major_collector.is_parallel) {
while (!gray_object_queue_is_empty (WORKERS_DISTRIBUTE_GRAY_QUEUE)) {
workers_distribute_gray_queue_sections ();
- usleep (2000);
+ usleep (1000);
}
}
- workers_change_num_working (-1);
workers_join ();
+#ifdef SGEN_DEBUG_INTERNAL_ALLOC
+ main_gc_thread = NULL;
+#endif
+
if (major_collector.is_parallel)
g_assert (gray_object_queue_is_empty (&gray_queue));
TV_GETTIME (atv);
time_major_finish_gray_stack += TV_ELAPSED_MS (btv, atv);
+ /*
+ * The (single-threaded) finalization code might have done
+ * some copying/marking so we can only reset the GC thread's
+ * worker data here instead of earlier when we joined the
+ * workers.
+ */
+ if (major_collector.reset_worker_data)
+ major_collector.reset_worker_data (workers_gc_thread_data.major_collector_data);
+
if (objects_pinned) {
/*This is slow, but we just OOM'd*/
mono_sgen_pin_queue_clear_discarded_entries (nursery_section, old_next_pin_slot);
objects_pinned = 0;
}
+ reset_heap_boundaries ();
+ mono_sgen_update_heap_boundaries ((mword)nursery_start, (mword)nursery_real_end);
+
/* sweep the big objects list */
prevbo = NULL;
for (bigobj = los_object_list; bigobj;) {
if (object_is_pinned (bigobj->data)) {
unpin_object (bigobj->data);
+ mono_sgen_update_heap_boundaries ((mword)bigobj->data, (mword)bigobj->data + bigobj->size);
} else {
LOSObject *to_free;
/* not referenced anywhere, so we can free it */
los_object_list = bigobj->next;
to_free = bigobj;
bigobj = bigobj->next;
- free_large_object (to_free);
+ mono_sgen_los_free_object (to_free);
continue;
}
prevbo = bigobj;
TV_GETTIME (btv);
time_major_free_bigobjs += TV_ELAPSED_MS (atv, btv);
- los_sweep ();
+ mono_sgen_los_sweep ();
TV_GETTIME (atv);
time_major_los_sweep += TV_ELAPSED_MS (btv, atv);
g_assert (gray_object_queue_is_empty (&gray_queue));
- num_major_sections = major_collector.get_num_major_sections ();
-
- num_major_sections_saved = MAX (old_num_major_sections - num_major_sections, 0);
- los_memory_saved = MAX (old_los_memory_usage - los_memory_usage, 1);
-
- save_target = ((num_major_sections * major_collector.section_size) + los_memory_saved) / 2;
- /*
- * We aim to allow the allocation of as many sections as is
- * necessary to reclaim save_target sections in the next
- * collection. We assume the collection pattern won't change.
- * In the last cycle, we had num_major_sections_saved for
- * minor_collection_sections_alloced. Assuming things won't
- * change, this must be the same ratio as save_target for
- * allowance_target, i.e.
- *
- * num_major_sections_saved save_target
- * --------------------------------- == ----------------
- * minor_collection_sections_alloced allowance_target
- *
- * hence:
- */
- allowance_target = (mword)((double)save_target * (double)(minor_collection_sections_alloced * major_collector.section_size + los_memory_alloced) / (double)(num_major_sections_saved * major_collector.section_size + los_memory_saved));
-
- minor_collection_allowance = MAX (MIN (allowance_target, num_major_sections * major_collector.section_size + los_memory_usage), MIN_MINOR_COLLECTION_ALLOWANCE);
+ try_calculate_minor_collection_allowance (TRUE);
minor_collection_sections_alloced = 0;
- last_los_memory_usage = los_memory_usage;
+ last_collection_los_memory_usage = los_memory_usage;
major_collector.finish_major_collection ();
mono_profiler_gc_event (MONO_GC_EVENT_END, 1);
}
- degraded_mode += size;
return major_collector.alloc_degraded (vtable, size);
}
g_assert (vtable->gc_descr);
if (G_UNLIKELY (collect_before_allocs)) {
- if (nursery_section) {
+ static int alloc_count;
+
+ InterlockedIncrement (&alloc_count);
+ if (((alloc_count % collect_before_allocs) == 0) && nursery_section) {
mono_profiler_gc_event (MONO_GC_EVENT_START, 0);
stop_world (0);
collect_nursery (0);
restart_world (0);
mono_profiler_gc_event (MONO_GC_EVENT_END, 0);
- if (!degraded_mode && !search_fragment_for_size (size)) {
+ if (!degraded_mode && !search_fragment_for_size (size) && size <= MAX_SMALL_OBJ_SIZE) {
// FIXME:
g_assert_not_reached ();
}
*/
if (size > MAX_SMALL_OBJ_SIZE) {
- p = alloc_large_inner (vtable, size);
+ p = mono_sgen_los_alloc_large_inner (vtable, size);
} else {
/* tlab_next and tlab_temp_end are TLS vars so accessing them might be expensive */
if (size > MAX_SMALL_OBJ_SIZE) {
/* large objects are always pinned anyway */
- p = alloc_large_inner (vtable, size);
+ p = mono_sgen_los_alloc_large_inner (vtable, size);
} else {
DEBUG (9, g_assert (vtable->klass->inited));
- p = major_collector.alloc_small_pinned_obj (size, vtable->klass->has_references);
+ p = major_collector.alloc_small_pinned_obj (size, SGEN_VTABLE_HAS_REFERENCES (vtable));
}
if (G_LIKELY (p)) {
DEBUG (6, fprintf (gc_debug_file, "Allocated pinned object %p, vtable: %p (%s), size: %zd\n", p, vtable, vtable->klass->name, size));
return p;
}
+void*
+mono_gc_alloc_mature (MonoVTable *vtable)
+{
+ void **res;
+ size_t size = ALIGN_UP (vtable->klass->instance_size);
+ LOCK_GC;
+ res = alloc_degraded (vtable, size);
+ *res = vtable;
+ UNLOCK_GC;
+ return res;
+}
+
/*
* ######################################################################
* ######## Finalization support
num_ready_finalizers++;
hash_table->num_registered--;
queue_finalization_entry (entry);
+ bridge_register_finalized_object ((MonoObject*)copy);
/* Make it survive */
from = entry->object;
entry->object = copy;
return !object_is_fin_ready (object) || major_collector.is_object_live (object);
}
+gboolean
+mono_sgen_object_is_live (void *obj)
+{
+ if (ptr_in_nursery (obj))
+ return object_is_pinned (obj);
+ if (current_collection_generation == GENERATION_NURSERY)
+ return FALSE;
+ return major_collector.is_object_live (obj);
+}
+
/* LOCKING: requires that the GC lock is held */
static void
null_ephemerons_for_domain (MonoDomain *domain)
/* LOCKING: requires that the GC lock is held */
static void
-null_link_in_range (CopyOrMarkObjectFunc copy_func, char *start, char *end, int generation, GrayQueue *queue)
+null_link_in_range (CopyOrMarkObjectFunc copy_func, char *start, char *end, int generation, gboolean before_finalization, GrayQueue *queue)
{
DisappearingLinkHashTable *hash = get_dislink_hash_table (generation);
DisappearingLink **disappearing_link_hash = hash->table;
for (i = 0; i < disappearing_link_hash_size; ++i) {
prev = NULL;
for (entry = disappearing_link_hash [i]; entry;) {
- char *object = DISLINK_OBJECT (entry);
+ char *object;
+ gboolean track = DISLINK_TRACK (entry);
+
+ /*
+ * Tracked references are processed after
+ * finalization handling whereas standard weak
+ * references are processed before. If an
+ * object is still not marked after finalization
+ * handling it means that it either doesn't have
+ * a finalizer or the finalizer has already run,
+ * so we must null a tracking reference.
+ */
+ if (track == before_finalization) {
+ prev = entry;
+ entry = entry->next;
+ continue;
+ }
+
+ object = DISLINK_OBJECT (entry);
+
if (object >= start && object < end && !major_collector.is_object_live (object)) {
- gboolean track = DISLINK_TRACK (entry);
- if (!track && object_is_fin_ready (object)) {
+ if (object_is_fin_ready (object)) {
void **p = entry->link;
DisappearingLink *old;
*p = NULL;
continue;
} else {
- /* We set the track resurrection bit to
- * FALSE if the object is to be finalized
- * so that the object can be collected in
- * the next cycle (i.e. after it was
- * finalized).
- */
- *entry->link = HIDE_POINTER (copy,
- object_is_fin_ready (object) ? FALSE : track);
+ *entry->link = HIDE_POINTER (copy, track);
DEBUG (5, fprintf (gc_debug_file, "Updated dislink at %p to %p\n", entry->link, DISLINK_OBJECT (entry)));
}
}
/* FIXME: handle large/small config */
#define HASH_PTHREAD_T(id) (((unsigned int)(id) >> 4) * 2654435761u)
-static SgenThreadInfo* thread_table [THREAD_HASH_SIZE];
+SgenThreadInfo* thread_table [THREAD_HASH_SIZE];
#if USE_SIGNAL_BASED_START_STOP_WORLD
static unsigned int global_stop_count = 0;
static sigset_t suspend_signal_mask;
+
+#ifdef USE_MONO_CTX
+static MonoContext cur_thread_ctx = {0};
+#else
static mword cur_thread_regs [ARCH_NUM_REGS] = {0};
+#endif
-/* LOCKING: assumes the GC lock is held */
-SgenThreadInfo**
-mono_sgen_get_thread_table (void)
-{
- return thread_table;
-}
SgenThreadInfo*
mono_sgen_thread_info_lookup (ARCH_THREAD_TYPE id)
static void
update_current_thread_stack (void *start)
{
+ int stack_guard = 0;
+#ifdef USE_MONO_CTX
+ void *ptr = NULL;
+#else
void *ptr = cur_thread_regs;
+#endif
SgenThreadInfo *info = mono_sgen_thread_info_lookup (ARCH_GET_THREAD ());
- info->stack_start = align_pointer (&ptr);
+ info->stack_start = align_pointer (&stack_guard);
g_assert (info->stack_start >= info->stack_start_limit && info->stack_start < info->stack_end);
+#ifdef USE_MONO_CTX
+ MONO_CONTEXT_GET_CURRENT (cur_thread_ctx);
+ info->monoctx = &cur_thread_ctx;
+#else
ARCH_STORE_REGS (ptr);
info->stopped_regs = ptr;
+#endif
if (gc_callbacks.thread_suspend_func)
gc_callbacks.thread_suspend_func (info->runtime_data, NULL);
}
restart_threads_until_none_in_managed_allocator (void)
{
SgenThreadInfo *info;
- int i, result, num_threads_died = 0;
+ int result, num_threads_died = 0;
int sleep_duration = -1;
for (;;) {
int restart_count = 0, restarted_count = 0;
/* restart all threads that stopped in the
allocator */
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- if (info->skip)
- continue;
- if (!info->stack_start || info->in_critical_region ||
- is_ip_in_managed_allocator (info->stopped_domain, info->stopped_ip)) {
- binary_protocol_thread_restart ((gpointer)info->id);
+ FOREACH_THREAD (info) {
+ if (info->skip)
+ continue;
+ if (!info->stack_start || info->in_critical_region ||
+ is_ip_in_managed_allocator (info->stopped_domain, info->stopped_ip)) {
+ binary_protocol_thread_restart ((gpointer)info->id);
#if defined(__MACH__) && MONO_MACH_ARCH_SUPPORTED
- result = thread_resume (pthread_mach_thread_np (info->id));
+ result = thread_resume (pthread_mach_thread_np (info->id));
#else
- result = pthread_kill (info->id, restart_signal_num);
+ result = pthread_kill (info->id, restart_signal_num);
#endif
- if (result == 0) {
- ++restart_count;
- } else {
- info->skip = 1;
- }
+ if (result == 0) {
+ ++restart_count;
} else {
- /* we set the stopped_ip to
- NULL for threads which
- we're not restarting so
- that we can easily identify
- the others */
- info->stopped_ip = NULL;
- info->stopped_domain = NULL;
+ info->skip = 1;
}
+ } else {
+ /* we set the stopped_ip to
+ NULL for threads which
+ we're not restarting so
+ that we can easily identify
+ the others */
+ info->stopped_ip = NULL;
+ info->stopped_domain = NULL;
}
- }
+ } END_FOREACH_THREAD
/* if no threads were restarted, we're done */
if (restart_count == 0)
break;
}
/* stop them again */
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- if (info->skip || info->stopped_ip == NULL)
- continue;
+ FOREACH_THREAD (info) {
+ if (info->skip || info->stopped_ip == NULL)
+ continue;
#if defined(__MACH__) && MONO_MACH_ARCH_SUPPORTED
- result = thread_suspend (pthread_mach_thread_np (info->id));
+ result = thread_suspend (pthread_mach_thread_np (info->id));
#else
- result = pthread_kill (info->id, suspend_signal_num);
+ result = pthread_kill (info->id, suspend_signal_num);
#endif
- if (result == 0) {
- ++restarted_count;
- } else {
- info->skip = 1;
- }
+ if (result == 0) {
+ ++restarted_count;
+ } else {
+ info->skip = 1;
}
- }
+ } END_FOREACH_THREAD
/* some threads might have died */
num_threads_died += restart_count - restarted_count;
#if defined(__MACH__) && MONO_MACH_ARCH_SUPPORTED
pthread_t id;
int stop_count;
int old_errno = errno;
+#ifdef USE_MONO_CTX
+ MonoContext monoctx;
+#else
gpointer regs [ARCH_NUM_REGS];
+#endif
gpointer stack_start;
id = pthread_self ();
if (stack_start >= info->stack_start_limit && info->stack_start <= info->stack_end) {
info->stack_start = stack_start;
+#ifdef USE_MONO_CTX
+ mono_sigctx_to_monoctx (context, &monoctx);
+ info->monoctx = &monoctx;
+#else
ARCH_COPY_SIGCTX_REGS (regs, context);
info->stopped_regs = regs;
+#endif
} else {
g_assert (!info->stack_start);
}
static int
restart_world (int generation)
{
- int count, i;
+ int count;
SgenThreadInfo *info;
TV_DECLARE (end_sw);
unsigned long usec;
}
}
mono_profiler_gc_event (MONO_GC_EVENT_PRE_START_WORLD, generation);
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- info->stack_start = NULL;
- info->stopped_regs = NULL;
- }
- }
+ FOREACH_THREAD (info) {
+ info->stack_start = NULL;
+#ifdef USE_MONO_CTX
+ info->monoctx = NULL;
+#else
+ info->stopped_regs = NULL;
+#endif
+ } END_FOREACH_THREAD
release_gc_locks ();
void*
mono_gc_scan_object (void *obj)
{
- g_assert_not_reached ();
if (current_collection_generation == GENERATION_NURSERY)
major_collector.copy_object (&obj, &gray_queue);
else
static void
scan_thread_data (void *start_nursery, void *end_nursery, gboolean precise)
{
- int i;
SgenThreadInfo *info;
scan_area_arg_start = start_nursery;
scan_area_arg_end = end_nursery;
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- if (info->skip) {
- DEBUG (3, fprintf (gc_debug_file, "Skipping dead thread %p, range: %p-%p, size: %td\n", info, info->stack_start, info->stack_end, (char*)info->stack_end - (char*)info->stack_start));
- continue;
- }
- DEBUG (3, fprintf (gc_debug_file, "Scanning thread %p, range: %p-%p, size: %td, pinned=%d\n", info, info->stack_start, info->stack_end, (char*)info->stack_end - (char*)info->stack_start, next_pin_slot));
- if (gc_callbacks.thread_mark_func && !conservative_stack_mark)
- gc_callbacks.thread_mark_func (info->runtime_data, info->stack_start, info->stack_end, precise);
- else if (!precise)
- conservatively_pin_objects_from (info->stack_start, info->stack_end, start_nursery, end_nursery, PIN_TYPE_STACK);
-
- if (!precise)
- conservatively_pin_objects_from (info->stopped_regs, info->stopped_regs + ARCH_NUM_REGS,
- start_nursery, end_nursery, PIN_TYPE_STACK);
+ FOREACH_THREAD (info) {
+ if (info->skip) {
+ DEBUG (3, fprintf (gc_debug_file, "Skipping dead thread %p, range: %p-%p, size: %td\n", info, info->stack_start, info->stack_end, (char*)info->stack_end - (char*)info->stack_start));
+ continue;
}
- }
+ DEBUG (3, fprintf (gc_debug_file, "Scanning thread %p, range: %p-%p, size: %td, pinned=%d\n", info, info->stack_start, info->stack_end, (char*)info->stack_end - (char*)info->stack_start, next_pin_slot));
+ if (gc_callbacks.thread_mark_func && !conservative_stack_mark)
+ gc_callbacks.thread_mark_func (info->runtime_data, info->stack_start, info->stack_end, precise);
+ else if (!precise)
+ conservatively_pin_objects_from (info->stack_start, info->stack_end, start_nursery, end_nursery, PIN_TYPE_STACK);
+
+#ifdef USE_MONO_CTX
+ if (!precise)
+ conservatively_pin_objects_from ((void**)info->monoctx, (void**)info->monoctx + ARCH_NUM_REGS,
+ start_nursery, end_nursery, PIN_TYPE_STACK);
+#else
+ if (!precise)
+ conservatively_pin_objects_from (info->stopped_regs, info->stopped_regs + ARCH_NUM_REGS,
+ start_nursery, end_nursery, PIN_TYPE_STACK);
+#endif
+ } END_FOREACH_THREAD
}
static void
find_pinning_ref_from_thread (char *obj, size_t size)
{
- int i;
+ int j;
SgenThreadInfo *info;
char *endobj = obj + size;
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- char **start = (char**)info->stack_start;
- if (info->skip)
- continue;
- while (start < (char**)info->stack_end) {
- if (*start >= obj && *start < endobj) {
- DEBUG (0, fprintf (gc_debug_file, "Object %p referenced in thread %p (id %p) at %p, stack: %p-%p\n", obj, info, (gpointer)info->id, start, info->stack_start, info->stack_end));
- }
- start++;
+ FOREACH_THREAD (info) {
+ char **start = (char**)info->stack_start;
+ if (info->skip)
+ continue;
+ while (start < (char**)info->stack_end) {
+ if (*start >= obj && *start < endobj) {
+ DEBUG (0, fprintf (gc_debug_file, "Object %p referenced in thread %p (id %p) at %p, stack: %p-%p\n", obj, info, (gpointer)info->id, start, info->stack_start, info->stack_end));
}
-
- /* FIXME: check info->stopped_regs */
+ start++;
}
+
+ for (j = 0; j < ARCH_NUM_REGS; ++j) {
+#ifdef USE_MONO_CTX
+ mword w = ((mword*)info->monoctx) [j];
+#else
+ mword w = (mword)info->stopped_regs [j];
+#endif
+
+ if (w >= (mword)obj && w < (mword)obj + size)
+ DEBUG (0, fprintf (gc_debug_file, "Object %p referenced in saved reg %d of thread %p (id %p)\n", obj, j, info, (gpointer)info->id));
+ } END_FOREACH_THREAD
}
}
int i;
mword *addresses, *bumper, *p, *r;
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- for (remset = info->remset; remset; remset = remset->next)
- size += remset->store_next - remset->data;
- }
- }
+ FOREACH_THREAD (info) {
+ for (remset = info->remset; remset; remset = remset->next)
+ size += remset->store_next - remset->data;
+ } END_FOREACH_THREAD
for (remset = freed_thread_remsets; remset; remset = remset->next)
size += remset->store_next - remset->data;
for (remset = global_remset; remset; remset = remset->next)
bumper = addresses = mono_sgen_alloc_internal_dynamic (sizeof (mword) * size, INTERNAL_MEM_STATISTICS);
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- for (remset = info->remset; remset; remset = remset->next)
- bumper = collect_store_remsets (remset, bumper);
- }
- }
+ FOREACH_THREAD (info) {
+ for (remset = info->remset; remset; remset = remset->next)
+ bumper = collect_store_remsets (remset, bumper);
+ } END_FOREACH_THREAD
for (remset = global_remset; remset; remset = remset->next)
bumper = collect_store_remsets (remset, bumper);
for (remset = freed_thread_remsets; remset; remset = remset->next)
generic_store_remsets = NULL;
/* the per-thread ones */
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- RememberedSet *next;
- int j;
- for (remset = info->remset; remset; remset = next) {
- DEBUG (4, fprintf (gc_debug_file, "Scanning remset for thread %p, range: %p-%p, size: %td\n", info, remset->data, remset->store_next, remset->store_next - remset->data));
- for (p = remset->data; p < remset->store_next;)
- p = handle_remset (p, start_nursery, end_nursery, FALSE, queue);
- remset->store_next = remset->data;
- next = remset->next;
- remset->next = NULL;
- if (remset != info->remset) {
- DEBUG (4, fprintf (gc_debug_file, "Freed remset at %p\n", remset->data));
- mono_sgen_free_internal_dynamic (remset, remset_byte_size (remset), INTERNAL_MEM_REMSET);
- }
+ FOREACH_THREAD (info) {
+ RememberedSet *next;
+ int j;
+ for (remset = info->remset; remset; remset = next) {
+ DEBUG (4, fprintf (gc_debug_file, "Scanning remset for thread %p, range: %p-%p, size: %td\n", info, remset->data, remset->store_next, remset->store_next - remset->data));
+ for (p = remset->data; p < remset->store_next;)
+ p = handle_remset (p, start_nursery, end_nursery, FALSE, queue);
+ remset->store_next = remset->data;
+ next = remset->next;
+ remset->next = NULL;
+ if (remset != info->remset) {
+ DEBUG (4, fprintf (gc_debug_file, "Freed remset at %p\n", remset->data));
+ mono_sgen_free_internal_dynamic (remset, remset_byte_size (remset), INTERNAL_MEM_REMSET);
}
- for (j = 0; j < *info->store_remset_buffer_index_addr; ++j)
- handle_remset ((mword*)*info->store_remset_buffer_addr + j + 1, start_nursery, end_nursery, FALSE, queue);
- clear_thread_store_remset_buffer (info);
}
- }
+ for (j = 0; j < *info->store_remset_buffer_index_addr; ++j)
+ handle_remset ((mword*)*info->store_remset_buffer_addr + j + 1, start_nursery, end_nursery, FALSE, queue);
+ clear_thread_store_remset_buffer (info);
+ } END_FOREACH_THREAD
/* the freed thread ones */
while (freed_thread_remsets) {
static void
clear_remsets (void)
{
- int i;
SgenThreadInfo *info;
RememberedSet *remset, *next;
generic_store_remsets = gs_next;
}
/* the per-thread ones */
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- for (remset = info->remset; remset; remset = next) {
- remset->store_next = remset->data;
- next = remset->next;
- remset->next = NULL;
- if (remset != info->remset) {
- DEBUG (3, fprintf (gc_debug_file, "Freed remset at %p\n", remset->data));
- mono_sgen_free_internal_dynamic (remset, remset_byte_size (remset), INTERNAL_MEM_REMSET);
- }
+ FOREACH_THREAD (info) {
+ for (remset = info->remset; remset; remset = next) {
+ remset->store_next = remset->data;
+ next = remset->next;
+ remset->next = NULL;
+ if (remset != info->remset) {
+ DEBUG (3, fprintf (gc_debug_file, "Freed remset at %p\n", remset->data));
+ mono_sgen_free_internal_dynamic (remset, remset_byte_size (remset), INTERNAL_MEM_REMSET);
}
- clear_thread_store_remset_buffer (info);
}
- }
+ clear_thread_store_remset_buffer (info);
+ } END_FOREACH_THREAD
/* the freed thread ones */
while (freed_thread_remsets) {
clear_tlabs (void)
{
SgenThreadInfo *info;
- int i;
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- /* A new TLAB will be allocated when the thread does its first allocation */
- *info->tlab_start_addr = NULL;
- *info->tlab_next_addr = NULL;
- *info->tlab_temp_end_addr = NULL;
- *info->tlab_real_end_addr = NULL;
- }
- }
+ FOREACH_THREAD (info) {
+ /* A new TLAB will be allocated when the thread does its first allocation */
+ *info->tlab_start_addr = NULL;
+ *info->tlab_next_addr = NULL;
+ *info->tlab_temp_end_addr = NULL;
+ *info->tlab_real_end_addr = NULL;
+ } END_FOREACH_THREAD
}
/* LOCKING: assumes the GC lock is held */
info->store_remset_buffer_index_addr = &STORE_REMSET_BUFFER_INDEX;
info->stopped_ip = NULL;
info->stopped_domain = NULL;
+#ifdef USE_MONO_CTX
+ info->monoctx = NULL;
+#else
info->stopped_regs = NULL;
+#endif
binary_protocol_thread_register ((gpointer)info->id);
} else {
prev->next = p->next;
}
+
+ if (gc_callbacks.thread_detach_func) {
+ gc_callbacks.thread_detach_func (p->runtime_data);
+ p->runtime_data = NULL;
+ }
+
if (p->remset) {
if (freed_thread_remsets) {
for (rset = p->remset; rset->next; rset = rset->next)
static void
unregister_thread (void *k)
{
- g_assert (!mono_domain_get ());
+ /* If a delegate is passed to native code and invoked on a thread we dont
+ * know about, the jit will register it with mono_jit_thead_attach, but
+ * we have no way of knowing when that thread goes away. SGen has a TSD
+ * so we assume that if the domain is still registered, we can detach
+ * the thread
+ */
+ if (mono_domain_get ())
+ mono_thread_detach (mono_thread_current ());
+
LOCK_GC;
unregister_current_thread ();
UNLOCK_GC;
LOCK_GC;
init_stats ();
info = mono_sgen_thread_info_lookup (ARCH_GET_THREAD ());
- if (info == NULL)
+ if (info == NULL) {
info = gc_register_current_thread (baseptr);
+ } else {
+ /* The main thread might get registered before callbacks are set */
+ if (gc_callbacks.thread_attach_func && !info->runtime_data)
+ info->runtime_data = gc_callbacks.thread_attach_func ();
+ }
UNLOCK_GC;
/* Need a better place to initialize this */
return info != NULL;
}
+/*
+ * mono_gc_set_stack_end:
+ *
+ * Set the end of the current threads stack to STACK_END. The stack space between
+ * STACK_END and the real end of the threads stack will not be scanned during collections.
+ */
+void
+mono_gc_set_stack_end (void *stack_end)
+{
+ SgenThreadInfo *info;
+
+ LOCK_GC;
+ info = mono_sgen_thread_info_lookup (ARCH_GET_THREAD ());
+ if (info) {
+ g_assert (stack_end < info->stack_end);
+ info->stack_end = stack_end;
+ }
+ UNLOCK_GC;
+}
+
#if USE_PTHREAD_INTERCEPT
typedef struct {
static char *found_obj;
static void
-find_object_for_ptr_callback (char *obj, size_t size, char *ptr)
+find_object_for_ptr_callback (char *obj, size_t size, void *user_data)
{
+ char *ptr = user_data;
+
if (ptr >= obj && ptr < obj + size) {
g_assert (!found_obj);
found_obj = obj;
char*
find_object_for_ptr (char *ptr)
{
- LOSObject *bigobj;
-
if (ptr >= nursery_section->data && ptr < nursery_section->end_data) {
found_obj = NULL;
mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data,
- (IterateObjectCallbackFunc)find_object_for_ptr_callback, ptr);
+ find_object_for_ptr_callback, ptr, TRUE);
if (found_obj)
return found_obj;
}
- for (bigobj = los_object_list; bigobj; bigobj = bigobj->next) {
- if (ptr >= bigobj->data && ptr < bigobj->data + bigobj->size)
- return bigobj->data;
- }
+ found_obj = NULL;
+ mono_sgen_los_iterate_objects (find_object_for_ptr_callback, ptr);
+ if (found_obj)
+ return found_obj;
/*
* Very inefficient, but this is debugging code, supposed to
* be called from gdb, so we don't care.
*/
found_obj = NULL;
- major_collector.iterate_objects (TRUE, TRUE, (IterateObjectCallbackFunc)find_object_for_ptr_callback, ptr);
+ major_collector.iterate_objects (TRUE, TRUE, find_object_for_ptr_callback, ptr);
return found_obj;
}
sgen_card_table_mark_range ((mword)dest, size);
} else {
rs = REMEMBERED_SET;
- if (ptr_in_nursery (dest) || ptr_on_stack (dest) || !klass->has_references) {
+ if (ptr_in_nursery (dest) || ptr_on_stack (dest) || !SGEN_CLASS_HAS_REFERENCES (klass)) {
UNLOCK_GC;
return;
}
MonoVTable *vtable;
mword desc;
int type;
+ char *start;
if (ptr_in_nursery (ptr)) {
printf ("Pointer inside nursery.\n");
} else {
- if (major_collector.ptr_is_in_non_pinned_space (ptr)) {
+ if (mono_sgen_ptr_is_in_los (ptr, &start)) {
+ if (ptr == start)
+ printf ("Pointer is the start of object %p in LOS space.\n", start);
+ else
+ printf ("Pointer is at offset 0x%x of object %p in LOS space.\n", (int)(ptr - start), start);
+ ptr = start;
+ } else if (major_collector.ptr_is_in_non_pinned_space (ptr)) {
printf ("Pointer inside oldspace.\n");
} else if (major_collector.obj_is_from_pinned_alloc (ptr)) {
printf ("Pointer is inside a pinned chunk.\n");
}
/* the per-thread ones */
- for (i = 0; i < THREAD_HASH_SIZE; ++i) {
- for (info = thread_table [i]; info; info = info->next) {
- int j;
- for (remset = info->remset; remset; remset = remset->next) {
- DEBUG (4, fprintf (gc_debug_file, "Scanning remset for thread %p, range: %p-%p, size: %td\n", info, remset->data, remset->store_next, remset->store_next - remset->data));
- for (p = remset->data; p < remset->store_next;) {
- p = find_in_remset_loc (p, addr, &found);
- if (found)
- return TRUE;
- }
- }
- for (j = 0; j < *info->store_remset_buffer_index_addr; ++j) {
- if ((*info->store_remset_buffer_addr) [j + 1] == addr)
+ FOREACH_THREAD (info) {
+ int j;
+ for (remset = info->remset; remset; remset = remset->next) {
+ DEBUG (4, fprintf (gc_debug_file, "Scanning remset for thread %p, range: %p-%p, size: %td\n", info, remset->data, remset->store_next, remset->store_next - remset->data));
+ for (p = remset->data; p < remset->store_next;) {
+ p = find_in_remset_loc (p, addr, &found);
+ if (found)
return TRUE;
}
}
- }
+ for (j = 0; j < *info->store_remset_buffer_index_addr; ++j) {
+ if ((*info->store_remset_buffer_addr) [j + 1] == addr)
+ return TRUE;
+ }
+ } END_FOREACH_THREAD
/* the freed thread ones */
for (remset = freed_thread_remsets; remset; remset = remset->next) {
static void
check_consistency (void)
{
- LOSObject *bigobj;
-
// Need to add more checks
missing_remsets = FALSE;
// Check that oldspace->newspace pointers are registered with the collector
major_collector.iterate_objects (TRUE, TRUE, (IterateObjectCallbackFunc)check_consistency_callback, NULL);
- for (bigobj = los_object_list; bigobj; bigobj = bigobj->next)
- check_consistency_callback (bigobj->data, bigobj->size, NULL);
+ mono_sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_consistency_callback, NULL);
DEBUG (1, fprintf (gc_debug_file, "Heap consistency check done.\n"));
-#ifdef SGEN_BINARY_PROTOCOL
- if (!binary_protocol_file)
-#endif
+ if (!binary_protocol_is_enabled ())
g_assert (!missing_remsets);
}
static void
check_major_refs (void)
{
- LOSObject *bigobj;
-
major_collector.iterate_objects (TRUE, TRUE, (IterateObjectCallbackFunc)check_major_refs_callback, NULL);
-
- for (bigobj = los_object_list; bigobj; bigobj = bigobj->next)
- check_major_refs_callback (bigobj->data, bigobj->size, NULL);
+ mono_sgen_los_iterate_objects ((IterateObjectCallbackFunc)check_major_refs_callback, NULL);
}
/* Check that the reference is valid */
mono_gc_walk_heap (int flags, MonoGCReferences callback, void *data)
{
HeapWalkInfo hwi;
- LOSObject *bigobj;
hwi.flags = flags;
hwi.callback = callback;
hwi.data = data;
clear_nursery_fragments (nursery_next);
- mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data, walk_references, &hwi);
+ mono_sgen_scan_area_with_callback (nursery_section->data, nursery_section->end_data, walk_references, &hwi, FALSE);
major_collector.iterate_objects (TRUE, TRUE, walk_references, &hwi);
+ mono_sgen_los_iterate_objects (walk_references, &hwi);
- for (bigobj = los_object_list; bigobj; bigobj = bigobj->next)
- walk_references (bigobj->data, bigobj->size, &hwi);
return 0;
}
char *major_collector_opt = NULL;
struct sigaction sinfo;
glong max_heap = 0;
-
-#ifdef PLATFORM_ANDROID
- g_assert_not_reached ();
-#endif
+ int num_workers;
/* the gc_initialized guard seems to imply this method is
idempotent, but LOCK_INIT(gc_mutex) might not be. It's
return;
}
pagesize = mono_pagesize ();
- gc_debug_file = stderr;
+ gc_debug_file = stdout;
LOCK_INIT (interruption_mutex);
LOCK_INIT (global_remset_mutex);
mono_sgen_marksweep_fixed_init (&major_collector);
} else if (!major_collector_opt || !strcmp (major_collector_opt, "marksweep-par")) {
mono_sgen_marksweep_par_init (&major_collector);
- workers_init (mono_cpu_count ());
} else if (!major_collector_opt || !strcmp (major_collector_opt, "marksweep-fixed-par")) {
mono_sgen_marksweep_fixed_par_init (&major_collector);
- workers_init (mono_cpu_count ());
} else if (!strcmp (major_collector_opt, "copying")) {
mono_sgen_copying_init (&major_collector);
} else {
use_cardtable = FALSE;
#endif
+ num_workers = mono_cpu_count ();
+ g_assert (num_workers > 0);
+ if (num_workers > 16)
+ num_workers = 16;
+
+ /* Keep this the default for now */
+ conservative_stack_mark = TRUE;
+
if (opts) {
for (ptr = opts; *ptr; ++ptr) {
char *opt = *ptr;
}
continue;
}
+ if (g_str_has_prefix (opt, "workers=")) {
+ long val;
+ char *endptr;
+ if (!major_collector.is_parallel) {
+ fprintf (stderr, "The workers= option can only be used for parallel collectors.");
+ exit (1);
+ }
+ opt = strchr (opt, '=') + 1;
+ val = strtol (opt, &endptr, 10);
+ if (!*opt || *endptr) {
+ fprintf (stderr, "Cannot parse the workers= option value.");
+ exit (1);
+ }
+ if (val <= 0 || val > 16) {
+ fprintf (stderr, "The number of workers must be in the range 1 to 16.");
+ exit (1);
+ }
+ num_workers = (int)val;
+ continue;
+ }
+ if (g_str_has_prefix (opt, "stack-mark=")) {
+ opt = strchr (opt, '=') + 1;
+ if (!strcmp (opt, "precise")) {
+ conservative_stack_mark = FALSE;
+ } else if (!strcmp (opt, "conservative")) {
+ conservative_stack_mark = TRUE;
+ } else {
+ fprintf (stderr, "Invalid value '%s' for stack-mark= option, possible values are: 'precise', 'conservative'.\n", opt);
+ exit (1);
+ }
+ continue;
+ }
#ifdef USER_CONFIG
if (g_str_has_prefix (opt, "nursery-size=")) {
long val;
fprintf (stderr, " nursery-size=N (where N is an integer, possibly with a k, m or a g suffix)\n");
fprintf (stderr, " major=COLLECTOR (where COLLECTOR is `marksweep', `marksweep-par' or `copying')\n");
fprintf (stderr, " wbarrier=WBARRIER (where WBARRIER is `remset' or `cardtable')\n");
+ fprintf (stderr, " stack-mark=MARK-METHOD (where MARK-METHOD is 'precise' or 'conservative')\n");
if (major_collector.print_gc_param_usage)
major_collector.print_gc_param_usage ();
exit (1);
g_strfreev (opts);
}
+ if (major_collector.is_parallel)
+ workers_init (num_workers);
+
if (major_collector_opt)
g_free (major_collector_opt);
g_free (rf);
}
} else if (!strcmp (opt, "collect-before-allocs")) {
- collect_before_allocs = TRUE;
+ collect_before_allocs = 1;
+ } else if (g_str_has_prefix (opt, "collect-before-allocs=")) {
+ char *arg = strchr (opt, '=') + 1;
+ collect_before_allocs = atoi (arg);
} else if (!strcmp (opt, "check-at-minor-collections")) {
consistency_check_at_minor_collection = TRUE;
nursery_clear_policy = CLEAR_AT_GC;
xdomain_checks = TRUE;
} else if (!strcmp (opt, "clear-at-gc")) {
nursery_clear_policy = CLEAR_AT_GC;
- } else if (!strcmp (opt, "conservative-stack-mark")) {
- conservative_stack_mark = TRUE;
+ } else if (!strcmp (opt, "clear-nursery-at-gc")) {
+ nursery_clear_policy = CLEAR_AT_GC;
} else if (!strcmp (opt, "check-scan-starts")) {
do_scan_starts_check = TRUE;
} else if (g_str_has_prefix (opt, "heap-dump=")) {
#ifdef SGEN_BINARY_PROTOCOL
} else if (g_str_has_prefix (opt, "binary-protocol=")) {
char *filename = strchr (opt, '=') + 1;
- binary_protocol_file = fopen (filename, "w");
+ binary_protocol_init (filename);
#endif
} else {
fprintf (stderr, "Invalid format for the MONO_GC_DEBUG env variable: '%s'\n", env);
fprintf (stderr, "The format is: MONO_GC_DEBUG=[l[:filename]|<option>]+ where l is a debug level 0-9.\n");
- fprintf (stderr, "Valid options are: collect-before-allocs, check-at-minor-collections, xdomain-checks, clear-at-gc.\n");
+ fprintf (stderr, "Valid options are: collect-before-allocs[=<n>], check-at-minor-collections, xdomain-checks, clear-at-gc.\n");
exit (1);
}
}
g_strfreev (opts);
}
+ if (major_collector.post_param_init)
+ major_collector.post_param_init ();
+
suspend_ack_semaphore_ptr = &suspend_ack_semaphore;
MONO_SEM_INIT (&suspend_ack_semaphore, 0);
mono_mb_emit_i4 ((mb), (offset)); \
} while (0)
#else
+
+/*
+ * CEE_MONO_TLS requires the tls offset, not the key, so the code below only works on darwin,
+ * where the two are the same.
+ */
+#ifdef __APPLE__
#define EMIT_TLS_ACCESS(mb,member,dummy) do { \
mono_mb_emit_byte ((mb), MONO_CUSTOM_PREFIX); \
mono_mb_emit_byte ((mb), CEE_MONO_TLS); \
mono_mb_emit_byte ((mb), CEE_ADD); \
mono_mb_emit_byte ((mb), CEE_LDIND_I); \
} while (0)
+#else
+#define EMIT_TLS_ACCESS(mb,member,dummy) do { g_error ("sgen is not supported when using --with-tls=pthread.\n"); } while (0)
+#endif
+
#endif
#ifdef MANAGED_ALLOCATION
return NULL;
if (collect_before_allocs)
return NULL;
- g_assert (!klass->has_finalize && !klass->marshalbyref);
+ g_assert (!mono_class_has_finalizer (klass) && !klass->marshalbyref);
return mono_gc_get_managed_allocator_by_type (ATYPE_VECTOR);
#else
va_end (ap);
}
+FILE*
+mono_sgen_get_logfile (void)
+{
+ return gc_debug_file;
+}
+
+#ifdef HOST_WIN32
+BOOL APIENTRY mono_gc_dllmain (HMODULE module_handle, DWORD reason, LPVOID reserved)
+{
+ return TRUE;
+}
+#endif
+
#endif /* HAVE_SGEN_GC */