[igt-dev] [PATCH i-g-t v32 05/39] lib/intel_allocator_simple: Add simple allocator
Zbigniew Kempczyński
zbigniew.kempczynski at intel.com
Mon Apr 12 11:17:34 UTC 2021
From: Dominik Grzegorzek <dominik.grzegorzek at intel.com>
Simple allocator borrowed from Mesa adopted for IGT use.
>From default we prefer an allocation from the top of vm address space
(we can catch addressing issues pro-actively). When function
intel_allocator_simple_create() is used we exclude last page as HW
tends to hang on the render engine when full 3D pipeline is executed from
the last page. For more control of vm range user can specify range using
intel_allocator_simple_create_full() (with the respect of the gtt size).
v2: fix size calculation (don't allow to subtract number which can be
negative - as we got for canonical addresses with 47 bit set - Jason)
v3: change to new igt_map implementation, add refcounts in allocator
(according to Jason review comments)
v4: return ALLOC_INVALID_ADDRESS instead of assert for failed allocation
Signed-off-by: Dominik Grzegorzek <dominik.grzegorzek at intel.com>
Signed-off-by: Zbigniew Kempczyński <zbigniew.kempczynski at intel.com>
Cc: Chris Wilson <chris at chris-wilson.co.uk>
Acked-by: Daniel Vetter <daniel.vetter at ffwll.ch>
---
lib/intel_allocator_simple.c | 804 +++++++++++++++++++++++++++++++++++
1 file changed, 804 insertions(+)
create mode 100644 lib/intel_allocator_simple.c
diff --git a/lib/intel_allocator_simple.c b/lib/intel_allocator_simple.c
new file mode 100644
index 000000000..a419955af
--- /dev/null
+++ b/lib/intel_allocator_simple.c
@@ -0,0 +1,804 @@
+// SPDX-License-Identifier: MIT
+/*
+ * Copyright © 2021 Intel Corporation
+ */
+
+#include <sys/ioctl.h>
+#include <stdlib.h>
+#include "igt.h"
+#include "igt_x86.h"
+#include "intel_allocator.h"
+#include "intel_bufops.h"
+#include "igt_map.h"
+
+/*
+ * We limit allocator space to avoid hang when batch would be
+ * pinned in the last page.
+ */
+#define RESERVED 4096
+
+/* Avoid compilation warning */
+struct intel_allocator *intel_allocator_simple_create(int fd);
+struct intel_allocator *
+intel_allocator_simple_create_full(int fd, uint64_t start, uint64_t end,
+ enum allocator_strategy strategy);
+
+struct simple_vma_heap {
+ struct igt_list_head holes;
+
+ /* If true, simple_vma_heap_alloc will prefer high addresses
+ *
+ * Default is true.
+ */
+ bool alloc_high;
+};
+
+struct simple_vma_hole {
+ struct igt_list_head link;
+ uint64_t offset;
+ uint64_t size;
+};
+
+struct intel_allocator_simple {
+ struct igt_map *objects;
+ struct igt_map *reserved;
+ struct simple_vma_heap heap;
+
+ uint64_t start;
+ uint64_t end;
+
+ /* statistics */
+ uint64_t total_size;
+ uint64_t allocated_size;
+ uint64_t allocated_objects;
+ uint64_t reserved_size;
+ uint64_t reserved_areas;
+};
+
+struct intel_allocator_record {
+ uint32_t handle;
+ uint64_t offset;
+ uint64_t size;
+};
+
+#define simple_vma_foreach_hole(_hole, _heap) \
+ igt_list_for_each_entry(_hole, &(_heap)->holes, link)
+
+#define simple_vma_foreach_hole_safe(_hole, _heap, _tmp) \
+ igt_list_for_each_entry_safe(_hole, _tmp, &(_heap)->holes, link)
+
+#define simple_vma_foreach_hole_safe_rev(_hole, _heap, _tmp) \
+ igt_list_for_each_entry_safe_reverse(_hole, _tmp, &(_heap)->holes, link)
+
+/* 2^31 + 2^29 - 2^25 + 2^22 - 2^19 - 2^16 + 1 */
+#define GOLDEN_RATIO_PRIME_32 0x9e370001UL
+
+/* 2^63 + 2^61 - 2^57 + 2^54 - 2^51 - 2^18 + 1 */
+#define GOLDEN_RATIO_PRIME_64 0x9e37fffffffc0001ULL
+
+static inline uint32_t hash_handles(const void *val)
+{
+ uint32_t hash = *(uint32_t *) val;
+
+ hash = hash * GOLDEN_RATIO_PRIME_32;
+ return hash;
+}
+
+static int equal_handles(const void *a, const void *b)
+{
+ uint32_t *key1 = (uint32_t *) a, *key2 = (uint32_t *) b;
+
+ return *key1 == *key2;
+}
+
+static inline uint32_t hash_offsets(const void *val)
+{
+ uint64_t hash = *(uint64_t *) val;
+
+ hash = hash * GOLDEN_RATIO_PRIME_64;
+ /* High bits are more random, so use them. */
+ return hash >> 32;
+}
+
+static int equal_offsets(const void *a, const void *b)
+{
+ uint64_t *key1 = (uint64_t *) a, *key2 = (uint64_t *) b;
+
+ return *key1 == *key2;
+}
+
+static void map_entry_free_func(struct igt_map_entry *entry)
+{
+ free(entry->data);
+}
+
+#define GEN8_GTT_ADDRESS_WIDTH 48
+#define DECANONICAL(offset) (offset & ((1ull << GEN8_GTT_ADDRESS_WIDTH) - 1))
+
+static void simple_vma_heap_validate(struct simple_vma_heap *heap)
+{
+ uint64_t prev_offset = 0;
+ struct simple_vma_hole *hole;
+
+ simple_vma_foreach_hole(hole, heap) {
+ igt_assert(hole->size > 0);
+
+ if (&hole->link == heap->holes.next) {
+ /*
+ * This must be the top-most hole. Assert that,
+ * if it overflows, it overflows to 0, i.e. 2^64.
+ */
+ igt_assert(hole->size + hole->offset == 0 ||
+ hole->size + hole->offset > hole->offset);
+ } else {
+ /*
+ * This is not the top-most hole so it must not overflow and,
+ * in fact, must be strictly lower than the top-most hole. If
+ * hole->size + hole->offset == prev_offset, then we failed to
+ * join holes during a simple_vma_heap_free.
+ */
+ igt_assert(hole->size + hole->offset > hole->offset &&
+ hole->size + hole->offset < prev_offset);
+ }
+ prev_offset = hole->offset;
+ }
+}
+
+
+static void simple_vma_heap_free(struct simple_vma_heap *heap,
+ uint64_t offset, uint64_t size)
+{
+ struct simple_vma_hole *high_hole = NULL, *low_hole = NULL, *hole;
+ bool high_adjacent, low_adjacent;
+
+ /* Freeing something with a size of 0 is not valid. */
+ igt_assert(size > 0);
+
+ /*
+ * It's possible for offset + size to wrap around if we touch the top of
+ * the 64-bit address space, but we cannot go any higher than 2^64.
+ */
+ igt_assert(offset + size == 0 || offset + size > offset);
+
+ simple_vma_heap_validate(heap);
+
+ /* Find immediately higher and lower holes if they exist. */
+ simple_vma_foreach_hole(hole, heap) {
+ if (hole->offset <= offset) {
+ low_hole = hole;
+ break;
+ }
+ high_hole = hole;
+ }
+
+ if (high_hole)
+ igt_assert(offset + size <= high_hole->offset);
+ high_adjacent = high_hole && offset + size == high_hole->offset;
+
+ if (low_hole) {
+ igt_assert(low_hole->offset + low_hole->size > low_hole->offset);
+ igt_assert(low_hole->offset + low_hole->size <= offset);
+ }
+ low_adjacent = low_hole && low_hole->offset + low_hole->size == offset;
+
+ if (low_adjacent && high_adjacent) {
+ /* Merge the two holes */
+ low_hole->size += size + high_hole->size;
+ igt_list_del(&high_hole->link);
+ free(high_hole);
+ } else if (low_adjacent) {
+ /* Merge into the low hole */
+ low_hole->size += size;
+ } else if (high_adjacent) {
+ /* Merge into the high hole */
+ high_hole->offset = offset;
+ high_hole->size += size;
+ } else {
+ /* Neither hole is adjacent; make a new one */
+ hole = calloc(1, sizeof(*hole));
+ igt_assert(hole);
+
+ hole->offset = offset;
+ hole->size = size;
+ /*
+ * Add it after the high hole so we maintain high-to-low
+ * ordering
+ */
+ if (high_hole)
+ igt_list_add(&hole->link, &high_hole->link);
+ else
+ igt_list_add(&hole->link, &heap->holes);
+ }
+
+ simple_vma_heap_validate(heap);
+}
+
+static void simple_vma_heap_init(struct simple_vma_heap *heap,
+ uint64_t start, uint64_t size,
+ enum allocator_strategy strategy)
+{
+ IGT_INIT_LIST_HEAD(&heap->holes);
+ simple_vma_heap_free(heap, start, size);
+
+ switch (strategy) {
+ case ALLOC_STRATEGY_LOW_TO_HIGH:
+ heap->alloc_high = false;
+ break;
+ case ALLOC_STRATEGY_HIGH_TO_LOW:
+ default:
+ heap->alloc_high = true;
+ }
+}
+
+static void simple_vma_heap_finish(struct simple_vma_heap *heap)
+{
+ struct simple_vma_hole *hole, *tmp;
+
+ simple_vma_foreach_hole_safe(hole, heap, tmp)
+ free(hole);
+}
+
+static void simple_vma_hole_alloc(struct simple_vma_hole *hole,
+ uint64_t offset, uint64_t size)
+{
+ struct simple_vma_hole *high_hole;
+ uint64_t waste;
+
+ igt_assert(hole->offset <= offset);
+ igt_assert(hole->size >= offset - hole->offset + size);
+
+ if (offset == hole->offset && size == hole->size) {
+ /* Just get rid of the hole. */
+ igt_list_del(&hole->link);
+ free(hole);
+ return;
+ }
+
+ igt_assert(offset - hole->offset <= hole->size - size);
+ waste = (hole->size - size) - (offset - hole->offset);
+ if (waste == 0) {
+ /* We allocated at the top-> Shrink the hole down. */
+ hole->size -= size;
+ return;
+ }
+
+ if (offset == hole->offset) {
+ /* We allocated at the bottom. Shrink the hole up-> */
+ hole->offset += size;
+ hole->size -= size;
+ return;
+ }
+
+ /*
+ * We allocated in the middle. We need to split the old hole into two
+ * holes, one high and one low.
+ */
+ high_hole = calloc(1, sizeof(*hole));
+ igt_assert(high_hole);
+
+ high_hole->offset = offset + size;
+ high_hole->size = waste;
+
+ /*
+ * Adjust the hole to be the amount of space left at he bottom of the
+ * original hole.
+ */
+ hole->size = offset - hole->offset;
+
+ /*
+ * Place the new hole before the old hole so that the list is in order
+ * from high to low.
+ */
+ igt_list_add_tail(&high_hole->link, &hole->link);
+}
+
+static bool simple_vma_heap_alloc(struct simple_vma_heap *heap,
+ uint64_t *offset, uint64_t size,
+ uint64_t alignment)
+{
+ struct simple_vma_hole *hole, *tmp;
+ uint64_t misalign;
+
+ /* The caller is expected to reject zero-size allocations */
+ igt_assert(size > 0);
+ igt_assert(alignment > 0);
+
+ simple_vma_heap_validate(heap);
+
+ if (heap->alloc_high) {
+ simple_vma_foreach_hole_safe(hole, heap, tmp) {
+ if (size > hole->size)
+ continue;
+ /*
+ * Compute the offset as the highest address where a chunk of the
+ * given size can be without going over the top of the hole.
+ *
+ * This calculation is known to not overflow because we know that
+ * hole->size + hole->offset can only overflow to 0 and size > 0.
+ */
+ *offset = (hole->size - size) + hole->offset;
+
+ /*
+ * Align the offset. We align down and not up because we are
+ *
+ * allocating from the top of the hole and not the bottom.
+ */
+ *offset = (*offset / alignment) * alignment;
+
+ if (*offset < hole->offset)
+ continue;
+
+ simple_vma_hole_alloc(hole, *offset, size);
+ simple_vma_heap_validate(heap);
+ return true;
+ }
+ } else {
+ simple_vma_foreach_hole_safe_rev(hole, heap, tmp) {
+ if (size > hole->size)
+ continue;
+
+ *offset = hole->offset;
+
+ /* Align the offset */
+ misalign = *offset % alignment;
+ if (misalign) {
+ uint64_t pad = alignment - misalign;
+
+ if (pad > hole->size - size)
+ continue;
+
+ *offset += pad;
+ }
+
+ simple_vma_hole_alloc(hole, *offset, size);
+ simple_vma_heap_validate(heap);
+ return true;
+ }
+ }
+
+ /* Failed to allocate */
+ return false;
+}
+
+static void intel_allocator_simple_get_address_range(struct intel_allocator *ial,
+ uint64_t *startp,
+ uint64_t *endp)
+{
+ struct intel_allocator_simple *ials = ial->priv;
+
+ if (startp)
+ *startp = ials->start;
+
+ if (endp)
+ *endp = ials->end;
+}
+
+static bool simple_vma_heap_alloc_addr(struct intel_allocator_simple *ials,
+ uint64_t offset, uint64_t size)
+{
+ struct simple_vma_heap *heap = &ials->heap;
+ struct simple_vma_hole *hole, *tmp;
+
+ /* Allocating something with a size of 0 is not valid. */
+ igt_assert(size > 0);
+
+ /*
+ * It's possible for offset + size to wrap around if we touch the top of
+ * the 64-bit address space, but we cannot go any higher than 2^64.
+ */
+ igt_assert(offset + size == 0 || offset + size > offset);
+
+ /* Find the hole if one exists. */
+ simple_vma_foreach_hole_safe(hole, heap, tmp) {
+ if (hole->offset > offset)
+ continue;
+
+ /*
+ * Holes are ordered high-to-low so the first hole we find with
+ * hole->offset <= is our hole. If it's not big enough to contain the
+ * requested range, then the allocation fails.
+ */
+ igt_assert(hole->offset <= offset);
+ if (hole->size < offset - hole->offset + size)
+ return false;
+
+ simple_vma_hole_alloc(hole, offset, size);
+ return true;
+ }
+
+ /* We didn't find a suitable hole */
+ return false;
+}
+
+static uint64_t intel_allocator_simple_alloc(struct intel_allocator *ial,
+ uint32_t handle, uint64_t size,
+ uint64_t alignment)
+{
+ struct intel_allocator_record *rec;
+ struct intel_allocator_simple *ials;
+ uint64_t offset;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+ igt_assert(handle);
+ alignment = alignment > 0 ? alignment : 1;
+
+ rec = igt_map_search(ials->objects, &handle);
+ if (rec) {
+ offset = rec->offset;
+ igt_assert(rec->size == size);
+ } else {
+ if (!simple_vma_heap_alloc(&ials->heap, &offset,
+ size, alignment))
+ return ALLOC_INVALID_ADDRESS;
+
+ rec = malloc(sizeof(*rec));
+ rec->handle = handle;
+ rec->offset = offset;
+ rec->size = size;
+
+ igt_map_insert(ials->objects, &rec->handle, rec);
+ ials->allocated_objects++;
+ ials->allocated_size += size;
+ }
+
+ return offset;
+}
+
+static bool intel_allocator_simple_free(struct intel_allocator *ial, uint32_t handle)
+{
+ struct intel_allocator_record *rec = NULL;
+ struct intel_allocator_simple *ials;
+ struct igt_map_entry *entry;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+
+ entry = igt_map_search_entry(ials->objects, &handle);
+ if (entry) {
+ igt_map_remove_entry(ials->objects, entry);
+ if (entry->data) {
+ rec = (struct intel_allocator_record *) entry->data;
+ simple_vma_heap_free(&ials->heap, rec->offset, rec->size);
+ ials->allocated_objects--;
+ ials->allocated_size -= rec->size;
+ free(rec);
+
+ return true;
+ }
+ }
+
+ return false;
+}
+
+static inline bool __same(const struct intel_allocator_record *rec,
+ uint32_t handle, uint64_t size, uint64_t offset)
+{
+ return rec->handle == handle && rec->size == size &&
+ DECANONICAL(rec->offset) == DECANONICAL(offset);
+}
+
+static bool intel_allocator_simple_is_allocated(struct intel_allocator *ial,
+ uint32_t handle, uint64_t size,
+ uint64_t offset)
+{
+ struct intel_allocator_record *rec;
+ struct intel_allocator_simple *ials;
+ bool same = false;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+ igt_assert(handle);
+
+ rec = igt_map_search(ials->objects, &handle);
+ if (rec && __same(rec, handle, size, offset))
+ same = true;
+
+ return same;
+}
+
+static uint64_t get_size(uint64_t start, uint64_t end)
+{
+ end = end ? end : 1ull << GEN8_GTT_ADDRESS_WIDTH;
+
+ return end - start;
+}
+
+static bool intel_allocator_simple_reserve(struct intel_allocator *ial,
+ uint32_t handle,
+ uint64_t start, uint64_t end)
+{
+ uint64_t size;
+ struct intel_allocator_record *rec = NULL;
+ struct intel_allocator_simple *ials;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+
+ /* don't allow end equal to 0 before decanonical */
+ igt_assert(end);
+
+ /* clear [63:48] bits to get rid of canonical form */
+ start = DECANONICAL(start);
+ end = DECANONICAL(end);
+ igt_assert(end > start || end == 0);
+ size = get_size(start, end);
+
+ if (simple_vma_heap_alloc_addr(ials, start, size)) {
+ rec = malloc(sizeof(*rec));
+ rec->handle = handle;
+ rec->offset = start;
+ rec->size = size;
+
+ igt_map_insert(ials->reserved, &rec->offset, rec);
+
+ ials->reserved_areas++;
+ ials->reserved_size += rec->size;
+ return true;
+ }
+
+ igt_debug("Failed to reserve %llx + %llx\n", (long long)start, (long long)size);
+ return false;
+}
+
+static bool intel_allocator_simple_unreserve(struct intel_allocator *ial,
+ uint32_t handle,
+ uint64_t start, uint64_t end)
+{
+ uint64_t size;
+ struct intel_allocator_record *rec = NULL;
+ struct intel_allocator_simple *ials;
+ struct igt_map_entry *entry;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+
+ /* don't allow end equal to 0 before decanonical */
+ igt_assert(end);
+
+ /* clear [63:48] bits to get rid of canonical form */
+ start = DECANONICAL(start);
+ end = DECANONICAL(end);
+ igt_assert(end > start || end == 0);
+ size = get_size(start, end);
+
+ entry = igt_map_search_entry(ials->reserved, &start);
+
+ if (!entry || !entry->data) {
+ igt_debug("Only reserved blocks can be unreserved\n");
+ return false;
+ }
+ rec = entry->data;
+
+ if (rec->size != size) {
+ igt_debug("Only the whole block unreservation allowed\n");
+ return false;
+ }
+
+ if (rec->handle != handle) {
+ igt_debug("Handle %u doesn't match reservation handle: %u\n",
+ rec->handle, handle);
+ return false;
+ }
+
+ igt_map_remove_entry(ials->reserved, entry);
+ ials->reserved_areas--;
+ ials->reserved_size -= rec->size;
+ free(rec);
+ simple_vma_heap_free(&ials->heap, start, size);
+
+ return true;
+}
+
+static bool intel_allocator_simple_is_reserved(struct intel_allocator *ial,
+ uint64_t start, uint64_t end)
+{
+ uint64_t size;
+ struct intel_allocator_record *rec = NULL;
+ struct intel_allocator_simple *ials;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+
+ /* don't allow end equal to 0 before decanonical */
+ igt_assert(end);
+
+ /* clear [63:48] bits to get rid of canonical form */
+ start = DECANONICAL(start);
+ end = DECANONICAL(end);
+ igt_assert(end > start || end == 0);
+ size = get_size(start, end);
+
+ rec = igt_map_search(ials->reserved, &start);
+
+ if (!rec)
+ return false;
+
+ if (rec->offset == start && rec->size == size)
+ return true;
+
+ return false;
+}
+
+static void intel_allocator_simple_destroy(struct intel_allocator *ial)
+{
+ struct intel_allocator_simple *ials;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ simple_vma_heap_finish(&ials->heap);
+
+ igt_map_destroy(ials->objects, map_entry_free_func);
+
+ igt_map_destroy(ials->reserved, map_entry_free_func);
+
+ free(ial->priv);
+ free(ial);
+}
+
+static bool intel_allocator_simple_is_empty(struct intel_allocator *ial)
+{
+ struct intel_allocator_simple *ials = ial->priv;
+
+ igt_debug("<ial: %p, fd: %d> objects: %" PRId64
+ ", reserved_areas: %" PRId64 "\n",
+ ial, ial->fd,
+ ials->allocated_objects, ials->reserved_areas);
+
+ return !ials->allocated_objects && !ials->reserved_areas;
+}
+
+static void intel_allocator_simple_print(struct intel_allocator *ial, bool full)
+{
+ struct intel_allocator_simple *ials;
+ struct simple_vma_hole *hole;
+ struct simple_vma_heap *heap;
+ struct igt_map_entry *pos;
+ uint64_t total_free = 0, allocated_size = 0, allocated_objects = 0;
+ uint64_t reserved_size = 0, reserved_areas = 0;
+
+ igt_assert(ial);
+ ials = (struct intel_allocator_simple *) ial->priv;
+ igt_assert(ials);
+ heap = &ials->heap;
+
+ igt_info("intel_allocator_simple <ial: %p, fd: %d> on "
+ "[0x%"PRIx64" : 0x%"PRIx64"]:\n", ial, ial->fd,
+ ials->start, ials->end);
+
+ if (full) {
+ igt_info("holes:\n");
+ simple_vma_foreach_hole(hole, heap) {
+ igt_info("offset = %"PRIu64" (0x%"PRIx64", "
+ "size = %"PRIu64" (0x%"PRIx64")\n",
+ hole->offset, hole->offset, hole->size,
+ hole->size);
+ total_free += hole->size;
+ }
+ igt_assert(total_free <= ials->total_size);
+ igt_info("total_free: %" PRIx64
+ ", total_size: %" PRIx64
+ ", allocated_size: %" PRIx64
+ ", reserved_size: %" PRIx64 "\n",
+ total_free, ials->total_size, ials->allocated_size,
+ ials->reserved_size);
+ igt_assert(total_free ==
+ ials->total_size - ials->allocated_size - ials->reserved_size);
+
+ igt_info("objects:\n");
+ igt_map_foreach(ials->objects, pos) {
+ struct intel_allocator_record *rec = pos->data;
+
+ igt_info("handle = %d, offset = %"PRIu64" "
+ "(0x%"PRIx64", size = %"PRIu64" (0x%"PRIx64")\n",
+ rec->handle, rec->offset, rec->offset,
+ rec->size, rec->size);
+ allocated_objects++;
+ allocated_size += rec->size;
+ }
+ igt_assert(ials->allocated_size == allocated_size);
+ igt_assert(ials->allocated_objects == allocated_objects);
+
+ igt_info("reserved areas:\n");
+ igt_map_foreach(ials->reserved, pos) {
+ struct intel_allocator_record *rec = pos->data;
+
+ igt_info("offset = %"PRIu64" (0x%"PRIx64", "
+ "size = %"PRIu64" (0x%"PRIx64")\n",
+ rec->offset, rec->offset,
+ rec->size, rec->size);
+ reserved_areas++;
+ reserved_size += rec->size;
+ }
+ igt_assert(ials->reserved_areas == reserved_areas);
+ igt_assert(ials->reserved_size == reserved_size);
+ } else {
+ simple_vma_foreach_hole(hole, heap)
+ total_free += hole->size;
+ }
+
+ igt_info("free space: %"PRIu64"B (0x%"PRIx64") (%.2f%% full)\n"
+ "allocated objects: %"PRIu64", reserved areas: %"PRIu64"\n",
+ total_free, total_free,
+ ((double) (ials->total_size - total_free) /
+ (double) ials->total_size) * 100,
+ ials->allocated_objects, ials->reserved_areas);
+}
+
+static struct intel_allocator *
+__intel_allocator_simple_create(int fd, uint64_t start, uint64_t end,
+ enum allocator_strategy strategy)
+{
+ struct intel_allocator *ial;
+ struct intel_allocator_simple *ials;
+
+ igt_debug("Using simple allocator\n");
+
+ ial = calloc(1, sizeof(*ial));
+ igt_assert(ial);
+
+ ial->fd = fd;
+ ial->get_address_range = intel_allocator_simple_get_address_range;
+ ial->alloc = intel_allocator_simple_alloc;
+ ial->free = intel_allocator_simple_free;
+ ial->is_allocated = intel_allocator_simple_is_allocated;
+ ial->reserve = intel_allocator_simple_reserve;
+ ial->unreserve = intel_allocator_simple_unreserve;
+ ial->is_reserved = intel_allocator_simple_is_reserved;
+ ial->destroy = intel_allocator_simple_destroy;
+ ial->is_empty = intel_allocator_simple_is_empty;
+ ial->print = intel_allocator_simple_print;
+ ials = ial->priv = malloc(sizeof(struct intel_allocator_simple));
+ igt_assert(ials);
+
+ ials->objects = igt_map_create(hash_handles, equal_handles);
+ ials->reserved = igt_map_create(hash_offsets, equal_offsets);
+ igt_assert(ials->objects && ials->reserved);
+
+ ials->start = start;
+ ials->end = end;
+ ials->total_size = end - start;
+ simple_vma_heap_init(&ials->heap, ials->start, ials->total_size,
+ strategy);
+
+ ials->allocated_size = 0;
+ ials->allocated_objects = 0;
+ ials->reserved_size = 0;
+ ials->reserved_areas = 0;
+
+ return ial;
+}
+
+struct intel_allocator *
+intel_allocator_simple_create(int fd)
+{
+ uint64_t gtt_size = gem_aperture_size(fd);
+
+ if (!gem_uses_full_ppgtt(fd))
+ gtt_size /= 2;
+ else
+ gtt_size -= RESERVED;
+
+ return __intel_allocator_simple_create(fd, 0, gtt_size,
+ ALLOC_STRATEGY_HIGH_TO_LOW);
+}
+
+struct intel_allocator *
+intel_allocator_simple_create_full(int fd, uint64_t start, uint64_t end,
+ enum allocator_strategy strategy)
+{
+ uint64_t gtt_size = gem_aperture_size(fd);
+
+ igt_assert(end <= gtt_size);
+ if (!gem_uses_full_ppgtt(fd))
+ gtt_size /= 2;
+ igt_assert(end - start <= gtt_size);
+
+ return __intel_allocator_simple_create(fd, start, end, strategy);
+}
--
2.26.0
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