summaryrefslogtreecommitdiff
diff options
context:
space:
mode:
authorAkshata Jahagirdar <akshata.jahagirdar@intel.com>2024-07-17 21:10:05 +0000
committerMatt Roper <matthew.d.roper@intel.com>2024-07-17 17:02:30 -0700
commit2b808d6b2919cb2fe92901e5087da7b4ed4b9e07 (patch)
tree2a2dbb2cf801a656af2c6d58eef18c4096917ca6
parent8d79acd567db183e675cccc6cc737d2959e2a2d9 (diff)
downloadlwn-2b808d6b2919cb2fe92901e5087da7b4ed4b9e07.tar.gz
lwn-2b808d6b2919cb2fe92901e5087da7b4ed4b9e07.zip
drm/xe/xe2: Introduce identity map for compressed pat for vram
Xe2+ has unified compression (exactly one compression mode/format), where compression is now controlled via PAT at PTE level. This simplifies KMD operations, as it can now decompress freely without concern for the buffer's original compression format—unlike DG2, which had multiple compression formats and thus required copying the raw CCS state during VRAM eviction. In addition mixed VRAM and system memory buffers were not supported with compression enabled. On Xe2 dGPU compression is still only supported with VRAM, however we can now support compression with VRAM and system memory buffers, with GPU access being seamless underneath. So long as when doing VRAM -> system memory the KMD uses compressed -> uncompressed, to decompress it. This also allows CPU access to such buffers, assuming that userspace first decompress the corresponding pages being accessed. If the pages are already in system memory then KMD would have already decompressed them. When restoring such buffers with sysmem -> VRAM the KMD can't easily know which pages were originally compressed, so we always use uncompressed -> uncompressed here. With this it also means we can drop all the raw CCS handling on such platforms (including needing to allocate extra CCS storage). In order to support this we now need to have two different identity mappings for compressed and uncompressed VRAM. In this patch, we set up the additional identity map for the VRAM with compressed pat_index. We then select the appropriate mapping during migration/clear. During eviction (vram->sysmem), we use the mapping from compressed -> uncompressed. During restore (sysmem->vram), we need the mapping from uncompressed -> uncompressed. Therefore, we need to have two different mappings for compressed and uncompressed vram. We set up an additional identity map for the vram with compressed pat_index. We then select the appropriate mapping during migration/clear. v2: Formatting nits, Updated code to match recent changes in xe_migrate_prepare_vm(). (Matt) v3: Move identity map loop to a helper function. (Matt Brost) v4: Split helper function in different patch, and add asserts and nits. (Matt Brost) v5: Convert the 2 bool arguments of pte_update_size to flags argument (Matt Brost) v6: Formatting nits (Matt Brost) Signed-off-by: Akshata Jahagirdar <akshata.jahagirdar@intel.com> Reviewed-by: Himal Prasad Ghimiray <himal.prasad.ghimiray@intel.com> Reviewed-by: Matthew Brost <matthew.brost@intel.com> Signed-off-by: Matt Roper <matthew.d.roper@intel.com> Link: https://patchwork.freedesktop.org/patch/msgid/b00db5c7267e54260cb6183ba24b15c1e6ae52a3.1721250309.git.akshata.jahagirdar@intel.com
-rw-r--r--drivers/gpu/drm/xe/tests/xe_migrate.c9
-rw-r--r--drivers/gpu/drm/xe/xe_migrate.c81
2 files changed, 66 insertions, 24 deletions
diff --git a/drivers/gpu/drm/xe/tests/xe_migrate.c b/drivers/gpu/drm/xe/tests/xe_migrate.c
index 353b908845f7..4af27847f3fd 100644
--- a/drivers/gpu/drm/xe/tests/xe_migrate.c
+++ b/drivers/gpu/drm/xe/tests/xe_migrate.c
@@ -393,17 +393,22 @@ static struct dma_fence *blt_copy(struct xe_tile *tile,
u32 flush_flags = 0;
u32 update_idx;
u32 avail_pts = max_mem_transfer_per_pass(xe) / LEVEL0_PAGE_TABLE_ENCODE_SIZE;
+ u32 pte_flags;
src_L0 = xe_migrate_res_sizes(m, &src_it);
dst_L0 = xe_migrate_res_sizes(m, &dst_it);
src_L0 = min(src_L0, dst_L0);
- batch_size += pte_update_size(m, src_is_vram, src_is_vram, src, &src_it, &src_L0,
+ pte_flags = src_is_vram ? (PTE_UPDATE_FLAG_IS_VRAM |
+ PTE_UPDATE_FLAG_IS_COMP_PTE) : 0;
+ batch_size += pte_update_size(m, pte_flags, src, &src_it, &src_L0,
&src_L0_ofs, &src_L0_pt, 0, 0,
avail_pts);
- batch_size += pte_update_size(m, dst_is_vram, dst_is_vram, dst, &dst_it, &src_L0,
+ pte_flags = dst_is_vram ? (PTE_UPDATE_FLAG_IS_VRAM |
+ PTE_UPDATE_FLAG_IS_COMP_PTE) : 0;
+ batch_size += pte_update_size(m, pte_flags, dst, &dst_it, &src_L0,
&dst_L0_ofs, &dst_L0_pt, 0,
avail_pts, avail_pts);
diff --git a/drivers/gpu/drm/xe/xe_migrate.c b/drivers/gpu/drm/xe/xe_migrate.c
index 49ad5d8443cf..c1c751952ce8 100644
--- a/drivers/gpu/drm/xe/xe_migrate.c
+++ b/drivers/gpu/drm/xe/xe_migrate.c
@@ -73,6 +73,7 @@ struct xe_migrate {
#define NUM_PT_SLOTS 32
#define LEVEL0_PAGE_TABLE_ENCODE_SIZE SZ_2M
#define MAX_NUM_PTE 512
+#define IDENTITY_OFFSET 256ULL
/*
* Although MI_STORE_DATA_IMM's "length" field is 10-bits, 0x3FE is the largest
@@ -120,14 +121,19 @@ static u64 xe_migrate_vm_addr(u64 slot, u32 level)
return (slot + 1ULL) << xe_pt_shift(level + 1);
}
-static u64 xe_migrate_vram_ofs(struct xe_device *xe, u64 addr)
+static u64 xe_migrate_vram_ofs(struct xe_device *xe, u64 addr, bool is_comp_pte)
{
/*
* Remove the DPA to get a correct offset into identity table for the
* migrate offset
*/
+ u64 identity_offset = IDENTITY_OFFSET;
+
+ if (GRAPHICS_VER(xe) >= 20 && is_comp_pte)
+ identity_offset += DIV_ROUND_UP_ULL(xe->mem.vram.actual_physical_size, SZ_1G);
+
addr -= xe->mem.vram.dpa_base;
- return addr + (256ULL << xe_pt_shift(2));
+ return addr + (identity_offset << xe_pt_shift(2));
}
static void xe_migrate_program_identity(struct xe_device *xe, struct xe_vm *vm, struct xe_bo *bo,
@@ -181,11 +187,13 @@ static int xe_migrate_prepare_vm(struct xe_tile *tile, struct xe_migrate *m,
struct xe_device *xe = tile_to_xe(tile);
u16 pat_index = xe->pat.idx[XE_CACHE_WB];
u8 id = tile->id;
- u32 num_entries = NUM_PT_SLOTS, num_level = vm->pt_root[id]->level,
- num_setup = num_level + 1;
+ u32 num_entries = NUM_PT_SLOTS, num_level = vm->pt_root[id]->level;
+#define VRAM_IDENTITY_MAP_COUNT 2
+ u32 num_setup = num_level + VRAM_IDENTITY_MAP_COUNT;
+#undef VRAM_IDENTITY_MAP_COUNT
u32 map_ofs, level, i;
struct xe_bo *bo, *batch = tile->mem.kernel_bb_pool->bo;
- u64 entry, pt30_ofs;
+ u64 entry, pt29_ofs;
/* Can't bump NUM_PT_SLOTS too high */
BUILD_BUG_ON(NUM_PT_SLOTS > SZ_2M/XE_PAGE_SIZE);
@@ -205,9 +213,9 @@ static int xe_migrate_prepare_vm(struct xe_tile *tile, struct xe_migrate *m,
if (IS_ERR(bo))
return PTR_ERR(bo);
- /* PT31 reserved for 2M identity map */
- pt30_ofs = bo->size - 2 * XE_PAGE_SIZE;
- entry = vm->pt_ops->pde_encode_bo(bo, pt30_ofs, pat_index);
+ /* PT30 & PT31 reserved for 2M identity map */
+ pt29_ofs = bo->size - 3 * XE_PAGE_SIZE;
+ entry = vm->pt_ops->pde_encode_bo(bo, pt29_ofs, pat_index);
xe_pt_write(xe, &vm->pt_root[id]->bo->vmap, 0, entry);
map_ofs = (num_entries - num_setup) * XE_PAGE_SIZE;
@@ -259,12 +267,12 @@ static int xe_migrate_prepare_vm(struct xe_tile *tile, struct xe_migrate *m,
} else {
u64 batch_addr = xe_bo_addr(batch, 0, XE_PAGE_SIZE);
- m->batch_base_ofs = xe_migrate_vram_ofs(xe, batch_addr);
+ m->batch_base_ofs = xe_migrate_vram_ofs(xe, batch_addr, false);
if (xe->info.has_usm) {
batch = tile->primary_gt->usm.bb_pool->bo;
batch_addr = xe_bo_addr(batch, 0, XE_PAGE_SIZE);
- m->usm_batch_base_ofs = xe_migrate_vram_ofs(xe, batch_addr);
+ m->usm_batch_base_ofs = xe_migrate_vram_ofs(xe, batch_addr, false);
}
}
@@ -298,18 +306,36 @@ static int xe_migrate_prepare_vm(struct xe_tile *tile, struct xe_migrate *m,
/* Identity map the entire vram at 256GiB offset */
if (IS_DGFX(xe)) {
- u64 pt31_ofs = bo->size - XE_PAGE_SIZE;
+ u64 pt30_ofs = bo->size - 2 * XE_PAGE_SIZE;
- xe_migrate_program_identity(xe, vm, bo, map_ofs, 256, pat_index, pt31_ofs);
- xe_assert(xe, (xe->mem.vram.actual_physical_size <= SZ_256G));
+ xe_migrate_program_identity(xe, vm, bo, map_ofs, IDENTITY_OFFSET,
+ pat_index, pt30_ofs);
+ xe_assert(xe, xe->mem.vram.actual_physical_size <=
+ (MAX_NUM_PTE - IDENTITY_OFFSET) * SZ_1G);
+
+ /*
+ * Identity map the entire vram for compressed pat_index for xe2+
+ * if flat ccs is enabled.
+ */
+ if (GRAPHICS_VER(xe) >= 20 && xe_device_has_flat_ccs(xe)) {
+ u16 comp_pat_index = xe->pat.idx[XE_CACHE_NONE_COMPRESSION];
+ u64 vram_offset = IDENTITY_OFFSET +
+ DIV_ROUND_UP_ULL(xe->mem.vram.actual_physical_size, SZ_1G);
+ u64 pt31_ofs = bo->size - XE_PAGE_SIZE;
+
+ xe_assert(xe, xe->mem.vram.actual_physical_size <= (MAX_NUM_PTE -
+ IDENTITY_OFFSET - IDENTITY_OFFSET / 2) * SZ_1G);
+ xe_migrate_program_identity(xe, vm, bo, map_ofs, vram_offset,
+ comp_pat_index, pt31_ofs);
+ }
}
/*
* Example layout created above, with root level = 3:
* [PT0...PT7]: kernel PT's for copy/clear; 64 or 4KiB PTE's
* [PT8]: Kernel PT for VM_BIND, 4 KiB PTE's
- * [PT9...PT27]: Userspace PT's for VM_BIND, 4 KiB PTE's
- * [PT28 = PDE 0] [PT29 = PDE 1] [PT30 = PDE 2] [PT31 = 2M vram identity map]
+ * [PT9...PT26]: Userspace PT's for VM_BIND, 4 KiB PTE's
+ * [PT27 = PDE 0] [PT28 = PDE 1] [PT29 = PDE 2] [PT30 & PT31 = 2M vram identity map]
*
* This makes the lowest part of the VM point to the pagetables.
* Hence the lowest 2M in the vm should point to itself, with a few writes
@@ -487,20 +513,26 @@ static bool xe_migrate_allow_identity(u64 size, const struct xe_res_cursor *cur)
return cur->size >= size;
}
+#define PTE_UPDATE_FLAG_IS_VRAM BIT(0)
+#define PTE_UPDATE_FLAG_IS_COMP_PTE BIT(1)
+
static u32 pte_update_size(struct xe_migrate *m,
- bool is_vram,
+ u32 flags,
struct ttm_resource *res,
struct xe_res_cursor *cur,
u64 *L0, u64 *L0_ofs, u32 *L0_pt,
u32 cmd_size, u32 pt_ofs, u32 avail_pts)
{
u32 cmds = 0;
+ bool is_vram = PTE_UPDATE_FLAG_IS_VRAM & flags;
+ bool is_comp_pte = PTE_UPDATE_FLAG_IS_COMP_PTE & flags;
*L0_pt = pt_ofs;
if (is_vram && xe_migrate_allow_identity(*L0, cur)) {
/* Offset into identity map. */
*L0_ofs = xe_migrate_vram_ofs(tile_to_xe(m->tile),
- cur->start + vram_region_gpu_offset(res));
+ cur->start + vram_region_gpu_offset(res),
+ is_comp_pte);
cmds += cmd_size;
} else {
/* Clip L0 to available size */
@@ -779,6 +811,7 @@ struct dma_fence *xe_migrate_copy(struct xe_migrate *m,
u32 update_idx;
u64 ccs_ofs, ccs_size;
u32 ccs_pt;
+ u32 pte_flags;
bool usm = xe->info.has_usm;
u32 avail_pts = max_mem_transfer_per_pass(xe) / LEVEL0_PAGE_TABLE_ENCODE_SIZE;
@@ -791,17 +824,19 @@ struct dma_fence *xe_migrate_copy(struct xe_migrate *m,
src_L0 = min(src_L0, dst_L0);
- batch_size += pte_update_size(m, src_is_vram, src, &src_it, &src_L0,
+ pte_flags = src_is_vram ? PTE_UPDATE_FLAG_IS_VRAM : 0;
+ batch_size += pte_update_size(m, pte_flags, src, &src_it, &src_L0,
&src_L0_ofs, &src_L0_pt, 0, 0,
avail_pts);
- batch_size += pte_update_size(m, dst_is_vram, dst, &dst_it, &src_L0,
+ pte_flags = dst_is_vram ? PTE_UPDATE_FLAG_IS_VRAM : 0;
+ batch_size += pte_update_size(m, pte_flags, dst, &dst_it, &src_L0,
&dst_L0_ofs, &dst_L0_pt, 0,
avail_pts, avail_pts);
if (copy_system_ccs) {
ccs_size = xe_device_ccs_bytes(xe, src_L0);
- batch_size += pte_update_size(m, false, NULL, &ccs_it, &ccs_size,
+ batch_size += pte_update_size(m, 0, NULL, &ccs_it, &ccs_size,
&ccs_ofs, &ccs_pt, 0,
2 * avail_pts,
avail_pts);
@@ -1034,6 +1069,7 @@ struct dma_fence *xe_migrate_clear(struct xe_migrate *m,
struct xe_sched_job *job;
struct xe_bb *bb;
u32 batch_size, update_idx;
+ u32 pte_flags;
bool usm = xe->info.has_usm;
u32 avail_pts = max_mem_transfer_per_pass(xe) / LEVEL0_PAGE_TABLE_ENCODE_SIZE;
@@ -1041,8 +1077,9 @@ struct dma_fence *xe_migrate_clear(struct xe_migrate *m,
clear_L0 = xe_migrate_res_sizes(m, &src_it);
/* Calculate final sizes and batch size.. */
+ pte_flags = clear_vram ? PTE_UPDATE_FLAG_IS_VRAM : 0;
batch_size = 2 +
- pte_update_size(m, clear_vram, src, &src_it,
+ pte_update_size(m, pte_flags, src, &src_it,
&clear_L0, &clear_L0_ofs, &clear_L0_pt,
clear_system_ccs ? 0 : emit_clear_cmd_len(gt), 0,
avail_pts);
@@ -1159,7 +1196,7 @@ static void write_pgtable(struct xe_tile *tile, struct xe_bb *bb, u64 ppgtt_ofs,
if (!ppgtt_ofs)
ppgtt_ofs = xe_migrate_vram_ofs(tile_to_xe(tile),
xe_bo_addr(update->pt_bo, 0,
- XE_PAGE_SIZE));
+ XE_PAGE_SIZE), false);
do {
u64 addr = ppgtt_ofs + ofs * 8;