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|
// SPDX-License-Identifier: MIT
/*
* Locking:
*
* The uvmm mutex protects any operations on the GPU VA space provided by the
* DRM GPU VA manager.
*
* The GEMs dma_resv lock protects the GEMs GPUVA list, hence link/unlink of a
* mapping to it's backing GEM must be performed under this lock.
*
* Actual map/unmap operations within the fence signalling critical path are
* protected by installing DMA fences to the corresponding GEMs DMA
* reservations, such that concurrent BO moves, which itself walk the GEMs GPUVA
* list in order to map/unmap it's entries, can't occur concurrently.
*
* Accessing the DRM_GPUVA_INVALIDATED flag doesn't need any separate
* protection, since there are no accesses other than from BO move callbacks
* and from the fence signalling critical path, which are already protected by
* the corresponding GEMs DMA reservation fence.
*/
#include "nouveau_drv.h"
#include "nouveau_gem.h"
#include "nouveau_mem.h"
#include "nouveau_uvmm.h"
#include <nvif/vmm.h>
#include <nvif/mem.h>
#include <nvif/class.h>
#include <nvif/if000c.h>
#include <nvif/if900d.h>
#define NOUVEAU_VA_SPACE_BITS 47 /* FIXME */
#define NOUVEAU_VA_SPACE_START 0x0
#define NOUVEAU_VA_SPACE_END (1ULL << NOUVEAU_VA_SPACE_BITS)
#define list_last_op(_ops) list_last_entry(_ops, struct bind_job_op, entry)
#define list_prev_op(_op) list_prev_entry(_op, entry)
#define list_for_each_op(_op, _ops) list_for_each_entry(_op, _ops, entry)
#define list_for_each_op_from_reverse(_op, _ops) \
list_for_each_entry_from_reverse(_op, _ops, entry)
#define list_for_each_op_safe(_op, _n, _ops) list_for_each_entry_safe(_op, _n, _ops, entry)
enum vm_bind_op {
OP_MAP = DRM_NOUVEAU_VM_BIND_OP_MAP,
OP_UNMAP = DRM_NOUVEAU_VM_BIND_OP_UNMAP,
OP_MAP_SPARSE,
OP_UNMAP_SPARSE,
};
struct nouveau_uvma_prealloc {
struct nouveau_uvma *map;
struct nouveau_uvma *prev;
struct nouveau_uvma *next;
};
struct bind_job_op {
struct list_head entry;
enum vm_bind_op op;
u32 flags;
struct drm_gpuvm_bo *vm_bo;
struct {
u64 addr;
u64 range;
} va;
struct {
u32 handle;
u64 offset;
struct drm_gem_object *obj;
} gem;
struct nouveau_uvma_region *reg;
struct nouveau_uvma_prealloc new;
struct drm_gpuva_ops *ops;
};
struct uvmm_map_args {
struct nouveau_uvma_region *region;
u64 addr;
u64 range;
u8 kind;
};
static int
nouveau_uvmm_vmm_sparse_ref(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
return nvif_vmm_raw_sparse(vmm, addr, range, true);
}
static int
nouveau_uvmm_vmm_sparse_unref(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
return nvif_vmm_raw_sparse(vmm, addr, range, false);
}
static int
nouveau_uvmm_vmm_get(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
return nvif_vmm_raw_get(vmm, addr, range, PAGE_SHIFT);
}
static int
nouveau_uvmm_vmm_put(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
return nvif_vmm_raw_put(vmm, addr, range, PAGE_SHIFT);
}
static int
nouveau_uvmm_vmm_unmap(struct nouveau_uvmm *uvmm,
u64 addr, u64 range, bool sparse)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
return nvif_vmm_raw_unmap(vmm, addr, range, PAGE_SHIFT, sparse);
}
static int
nouveau_uvmm_vmm_map(struct nouveau_uvmm *uvmm,
u64 addr, u64 range,
u64 bo_offset, u8 kind,
struct nouveau_mem *mem)
{
struct nvif_vmm *vmm = &uvmm->vmm.vmm;
union {
struct gf100_vmm_map_v0 gf100;
} args;
u32 argc = 0;
switch (vmm->object.oclass) {
case NVIF_CLASS_VMM_GF100:
case NVIF_CLASS_VMM_GM200:
case NVIF_CLASS_VMM_GP100:
args.gf100.version = 0;
if (mem->mem.type & NVIF_MEM_VRAM)
args.gf100.vol = 0;
else
args.gf100.vol = 1;
args.gf100.ro = 0;
args.gf100.priv = 0;
args.gf100.kind = kind;
argc = sizeof(args.gf100);
break;
default:
WARN_ON(1);
return -ENOSYS;
}
return nvif_vmm_raw_map(vmm, addr, range, PAGE_SHIFT,
&args, argc,
&mem->mem, bo_offset);
}
static int
nouveau_uvma_region_sparse_unref(struct nouveau_uvma_region *reg)
{
u64 addr = reg->va.addr;
u64 range = reg->va.range;
return nouveau_uvmm_vmm_sparse_unref(reg->uvmm, addr, range);
}
static int
nouveau_uvma_vmm_put(struct nouveau_uvma *uvma)
{
u64 addr = uvma->va.va.addr;
u64 range = uvma->va.va.range;
return nouveau_uvmm_vmm_put(to_uvmm(uvma), addr, range);
}
static int
nouveau_uvma_map(struct nouveau_uvma *uvma,
struct nouveau_mem *mem)
{
u64 addr = uvma->va.va.addr;
u64 offset = uvma->va.gem.offset;
u64 range = uvma->va.va.range;
return nouveau_uvmm_vmm_map(to_uvmm(uvma), addr, range,
offset, uvma->kind, mem);
}
static int
nouveau_uvma_unmap(struct nouveau_uvma *uvma)
{
u64 addr = uvma->va.va.addr;
u64 range = uvma->va.va.range;
bool sparse = !!uvma->region;
if (drm_gpuva_invalidated(&uvma->va))
return 0;
return nouveau_uvmm_vmm_unmap(to_uvmm(uvma), addr, range, sparse);
}
static int
nouveau_uvma_alloc(struct nouveau_uvma **puvma)
{
*puvma = kzalloc(sizeof(**puvma), GFP_KERNEL);
if (!*puvma)
return -ENOMEM;
return 0;
}
static void
nouveau_uvma_free(struct nouveau_uvma *uvma)
{
kfree(uvma);
}
static void
nouveau_uvma_gem_get(struct nouveau_uvma *uvma)
{
drm_gem_object_get(uvma->va.gem.obj);
}
static void
nouveau_uvma_gem_put(struct nouveau_uvma *uvma)
{
drm_gem_object_put(uvma->va.gem.obj);
}
static int
nouveau_uvma_region_alloc(struct nouveau_uvma_region **preg)
{
*preg = kzalloc(sizeof(**preg), GFP_KERNEL);
if (!*preg)
return -ENOMEM;
kref_init(&(*preg)->kref);
return 0;
}
static void
nouveau_uvma_region_free(struct kref *kref)
{
struct nouveau_uvma_region *reg =
container_of(kref, struct nouveau_uvma_region, kref);
kfree(reg);
}
static void
nouveau_uvma_region_get(struct nouveau_uvma_region *reg)
{
kref_get(®->kref);
}
static void
nouveau_uvma_region_put(struct nouveau_uvma_region *reg)
{
kref_put(®->kref, nouveau_uvma_region_free);
}
static int
__nouveau_uvma_region_insert(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_region *reg)
{
u64 addr = reg->va.addr;
u64 range = reg->va.range;
u64 last = addr + range - 1;
MA_STATE(mas, &uvmm->region_mt, addr, addr);
if (unlikely(mas_walk(&mas)))
return -EEXIST;
if (unlikely(mas.last < last))
return -EEXIST;
mas.index = addr;
mas.last = last;
mas_store_gfp(&mas, reg, GFP_KERNEL);
reg->uvmm = uvmm;
return 0;
}
static int
nouveau_uvma_region_insert(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_region *reg,
u64 addr, u64 range)
{
int ret;
reg->uvmm = uvmm;
reg->va.addr = addr;
reg->va.range = range;
ret = __nouveau_uvma_region_insert(uvmm, reg);
if (ret)
return ret;
return 0;
}
static void
nouveau_uvma_region_remove(struct nouveau_uvma_region *reg)
{
struct nouveau_uvmm *uvmm = reg->uvmm;
MA_STATE(mas, &uvmm->region_mt, reg->va.addr, 0);
mas_erase(&mas);
}
static int
nouveau_uvma_region_create(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nouveau_uvma_region *reg;
int ret;
if (!drm_gpuvm_interval_empty(&uvmm->base, addr, range))
return -ENOSPC;
ret = nouveau_uvma_region_alloc(®);
if (ret)
return ret;
ret = nouveau_uvma_region_insert(uvmm, reg, addr, range);
if (ret)
goto err_free_region;
ret = nouveau_uvmm_vmm_sparse_ref(uvmm, addr, range);
if (ret)
goto err_region_remove;
return 0;
err_region_remove:
nouveau_uvma_region_remove(reg);
err_free_region:
nouveau_uvma_region_put(reg);
return ret;
}
static struct nouveau_uvma_region *
nouveau_uvma_region_find_first(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
MA_STATE(mas, &uvmm->region_mt, addr, 0);
return mas_find(&mas, addr + range - 1);
}
static struct nouveau_uvma_region *
nouveau_uvma_region_find(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nouveau_uvma_region *reg;
reg = nouveau_uvma_region_find_first(uvmm, addr, range);
if (!reg)
return NULL;
if (reg->va.addr != addr ||
reg->va.range != range)
return NULL;
return reg;
}
static bool
nouveau_uvma_region_empty(struct nouveau_uvma_region *reg)
{
struct nouveau_uvmm *uvmm = reg->uvmm;
return drm_gpuvm_interval_empty(&uvmm->base,
reg->va.addr,
reg->va.range);
}
static int
__nouveau_uvma_region_destroy(struct nouveau_uvma_region *reg)
{
struct nouveau_uvmm *uvmm = reg->uvmm;
u64 addr = reg->va.addr;
u64 range = reg->va.range;
if (!nouveau_uvma_region_empty(reg))
return -EBUSY;
nouveau_uvma_region_remove(reg);
nouveau_uvmm_vmm_sparse_unref(uvmm, addr, range);
nouveau_uvma_region_put(reg);
return 0;
}
static int
nouveau_uvma_region_destroy(struct nouveau_uvmm *uvmm,
u64 addr, u64 range)
{
struct nouveau_uvma_region *reg;
reg = nouveau_uvma_region_find(uvmm, addr, range);
if (!reg)
return -ENOENT;
return __nouveau_uvma_region_destroy(reg);
}
static void
nouveau_uvma_region_dirty(struct nouveau_uvma_region *reg)
{
init_completion(®->complete);
reg->dirty = true;
}
static void
nouveau_uvma_region_complete(struct nouveau_uvma_region *reg)
{
complete_all(®->complete);
}
static void
op_map_prepare_unwind(struct nouveau_uvma *uvma)
{
struct drm_gpuva *va = &uvma->va;
nouveau_uvma_gem_put(uvma);
drm_gpuva_remove(va);
nouveau_uvma_free(uvma);
}
static void
op_unmap_prepare_unwind(struct drm_gpuva *va)
{
drm_gpuva_insert(va->vm, va);
}
static void
nouveau_uvmm_sm_prepare_unwind(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops,
struct drm_gpuva_op *last,
struct uvmm_map_args *args)
{
struct drm_gpuva_op *op = last;
u64 vmm_get_start = args ? args->addr : 0;
u64 vmm_get_end = args ? args->addr + args->range : 0;
/* Unwind GPUVA space. */
drm_gpuva_for_each_op_from_reverse(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP:
op_map_prepare_unwind(new->map);
break;
case DRM_GPUVA_OP_REMAP: {
struct drm_gpuva_op_remap *r = &op->remap;
struct drm_gpuva *va = r->unmap->va;
if (r->next)
op_map_prepare_unwind(new->next);
if (r->prev)
op_map_prepare_unwind(new->prev);
op_unmap_prepare_unwind(va);
break;
}
case DRM_GPUVA_OP_UNMAP:
op_unmap_prepare_unwind(op->unmap.va);
break;
default:
break;
}
}
/* Unmap operation don't allocate page tables, hence skip the following
* page table unwind.
*/
if (!args)
return;
drm_gpuva_for_each_op(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP: {
u64 vmm_get_range = vmm_get_end - vmm_get_start;
if (vmm_get_range)
nouveau_uvmm_vmm_put(uvmm, vmm_get_start,
vmm_get_range);
break;
}
case DRM_GPUVA_OP_REMAP: {
struct drm_gpuva_op_remap *r = &op->remap;
struct drm_gpuva *va = r->unmap->va;
u64 ustart = va->va.addr;
u64 urange = va->va.range;
u64 uend = ustart + urange;
if (r->prev)
vmm_get_start = uend;
if (r->next)
vmm_get_end = ustart;
if (r->prev && r->next)
vmm_get_start = vmm_get_end = 0;
break;
}
case DRM_GPUVA_OP_UNMAP: {
struct drm_gpuva_op_unmap *u = &op->unmap;
struct drm_gpuva *va = u->va;
u64 ustart = va->va.addr;
u64 urange = va->va.range;
u64 uend = ustart + urange;
/* Nothing to do for mappings we merge with. */
if (uend == vmm_get_start ||
ustart == vmm_get_end)
break;
if (ustart > vmm_get_start) {
u64 vmm_get_range = ustart - vmm_get_start;
nouveau_uvmm_vmm_put(uvmm, vmm_get_start,
vmm_get_range);
}
vmm_get_start = uend;
break;
}
default:
break;
}
if (op == last)
break;
}
}
static void
nouveau_uvmm_sm_map_prepare_unwind(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops,
u64 addr, u64 range)
{
struct drm_gpuva_op *last = drm_gpuva_last_op(ops);
struct uvmm_map_args args = {
.addr = addr,
.range = range,
};
nouveau_uvmm_sm_prepare_unwind(uvmm, new, ops, last, &args);
}
static void
nouveau_uvmm_sm_unmap_prepare_unwind(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
struct drm_gpuva_op *last = drm_gpuva_last_op(ops);
nouveau_uvmm_sm_prepare_unwind(uvmm, new, ops, last, NULL);
}
static int
op_map_prepare(struct nouveau_uvmm *uvmm,
struct nouveau_uvma **puvma,
struct drm_gpuva_op_map *op,
struct uvmm_map_args *args)
{
struct nouveau_uvma *uvma;
int ret;
ret = nouveau_uvma_alloc(&uvma);
if (ret)
return ret;
uvma->region = args->region;
uvma->kind = args->kind;
drm_gpuva_map(&uvmm->base, &uvma->va, op);
/* Keep a reference until this uvma is destroyed. */
nouveau_uvma_gem_get(uvma);
*puvma = uvma;
return 0;
}
static void
op_unmap_prepare(struct drm_gpuva_op_unmap *u)
{
drm_gpuva_unmap(u);
}
/*
* Note: @args should not be NULL when calling for a map operation.
*/
static int
nouveau_uvmm_sm_prepare(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops,
struct uvmm_map_args *args)
{
struct drm_gpuva_op *op;
u64 vmm_get_start = args ? args->addr : 0;
u64 vmm_get_end = args ? args->addr + args->range : 0;
int ret;
drm_gpuva_for_each_op(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP: {
u64 vmm_get_range = vmm_get_end - vmm_get_start;
ret = op_map_prepare(uvmm, &new->map, &op->map, args);
if (ret)
goto unwind;
if (vmm_get_range) {
ret = nouveau_uvmm_vmm_get(uvmm, vmm_get_start,
vmm_get_range);
if (ret) {
op_map_prepare_unwind(new->map);
goto unwind;
}
}
break;
}
case DRM_GPUVA_OP_REMAP: {
struct drm_gpuva_op_remap *r = &op->remap;
struct drm_gpuva *va = r->unmap->va;
struct uvmm_map_args remap_args = {
.kind = uvma_from_va(va)->kind,
.region = uvma_from_va(va)->region,
};
u64 ustart = va->va.addr;
u64 urange = va->va.range;
u64 uend = ustart + urange;
op_unmap_prepare(r->unmap);
if (r->prev) {
ret = op_map_prepare(uvmm, &new->prev, r->prev,
&remap_args);
if (ret)
goto unwind;
if (args)
vmm_get_start = uend;
}
if (r->next) {
ret = op_map_prepare(uvmm, &new->next, r->next,
&remap_args);
if (ret) {
if (r->prev)
op_map_prepare_unwind(new->prev);
goto unwind;
}
if (args)
vmm_get_end = ustart;
}
if (args && (r->prev && r->next))
vmm_get_start = vmm_get_end = 0;
break;
}
case DRM_GPUVA_OP_UNMAP: {
struct drm_gpuva_op_unmap *u = &op->unmap;
struct drm_gpuva *va = u->va;
u64 ustart = va->va.addr;
u64 urange = va->va.range;
u64 uend = ustart + urange;
op_unmap_prepare(u);
if (!args)
break;
/* Nothing to do for mappings we merge with. */
if (uend == vmm_get_start ||
ustart == vmm_get_end)
break;
if (ustart > vmm_get_start) {
u64 vmm_get_range = ustart - vmm_get_start;
ret = nouveau_uvmm_vmm_get(uvmm, vmm_get_start,
vmm_get_range);
if (ret) {
op_unmap_prepare_unwind(va);
goto unwind;
}
}
vmm_get_start = uend;
break;
}
default:
ret = -EINVAL;
goto unwind;
}
}
return 0;
unwind:
if (op != drm_gpuva_first_op(ops))
nouveau_uvmm_sm_prepare_unwind(uvmm, new, ops,
drm_gpuva_prev_op(op),
args);
return ret;
}
static int
nouveau_uvmm_sm_map_prepare(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct nouveau_uvma_region *region,
struct drm_gpuva_ops *ops,
u64 addr, u64 range, u8 kind)
{
struct uvmm_map_args args = {
.region = region,
.addr = addr,
.range = range,
.kind = kind,
};
return nouveau_uvmm_sm_prepare(uvmm, new, ops, &args);
}
static int
nouveau_uvmm_sm_unmap_prepare(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
return nouveau_uvmm_sm_prepare(uvmm, new, ops, NULL);
}
static struct drm_gem_object *
op_gem_obj(struct drm_gpuva_op *op)
{
switch (op->op) {
case DRM_GPUVA_OP_MAP:
return op->map.gem.obj;
case DRM_GPUVA_OP_REMAP:
/* Actually, we're looking for the GEMs backing remap.prev and
* remap.next, but since this is a remap they're identical to
* the GEM backing the unmapped GPUVA.
*/
return op->remap.unmap->va->gem.obj;
case DRM_GPUVA_OP_UNMAP:
return op->unmap.va->gem.obj;
default:
WARN(1, "Unknown operation.\n");
return NULL;
}
}
static void
op_map(struct nouveau_uvma *uvma)
{
struct nouveau_bo *nvbo = nouveau_gem_object(uvma->va.gem.obj);
nouveau_uvma_map(uvma, nouveau_mem(nvbo->bo.resource));
}
static void
op_unmap(struct drm_gpuva_op_unmap *u)
{
struct drm_gpuva *va = u->va;
struct nouveau_uvma *uvma = uvma_from_va(va);
/* nouveau_uvma_unmap() does not unmap if backing BO is evicted. */
if (!u->keep)
nouveau_uvma_unmap(uvma);
}
static void
op_unmap_range(struct drm_gpuva_op_unmap *u,
u64 addr, u64 range)
{
struct nouveau_uvma *uvma = uvma_from_va(u->va);
bool sparse = !!uvma->region;
if (!drm_gpuva_invalidated(u->va))
nouveau_uvmm_vmm_unmap(to_uvmm(uvma), addr, range, sparse);
}
static void
op_remap(struct drm_gpuva_op_remap *r,
struct nouveau_uvma_prealloc *new)
{
struct drm_gpuva_op_unmap *u = r->unmap;
struct nouveau_uvma *uvma = uvma_from_va(u->va);
u64 addr = uvma->va.va.addr;
u64 end = uvma->va.va.addr + uvma->va.va.range;
if (r->prev)
addr = r->prev->va.addr + r->prev->va.range;
if (r->next)
end = r->next->va.addr;
op_unmap_range(u, addr, end - addr);
}
static int
nouveau_uvmm_sm(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
struct drm_gpuva_op *op;
drm_gpuva_for_each_op(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP:
op_map(new->map);
break;
case DRM_GPUVA_OP_REMAP:
op_remap(&op->remap, new);
break;
case DRM_GPUVA_OP_UNMAP:
op_unmap(&op->unmap);
break;
default:
break;
}
}
return 0;
}
static int
nouveau_uvmm_sm_map(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
return nouveau_uvmm_sm(uvmm, new, ops);
}
static int
nouveau_uvmm_sm_unmap(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
return nouveau_uvmm_sm(uvmm, new, ops);
}
static void
nouveau_uvmm_sm_cleanup(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops, bool unmap)
{
struct drm_gpuva_op *op;
drm_gpuva_for_each_op(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP:
break;
case DRM_GPUVA_OP_REMAP: {
struct drm_gpuva_op_remap *r = &op->remap;
struct drm_gpuva_op_map *p = r->prev;
struct drm_gpuva_op_map *n = r->next;
struct drm_gpuva *va = r->unmap->va;
struct nouveau_uvma *uvma = uvma_from_va(va);
if (unmap) {
u64 addr = va->va.addr;
u64 end = addr + va->va.range;
if (p)
addr = p->va.addr + p->va.range;
if (n)
end = n->va.addr;
nouveau_uvmm_vmm_put(uvmm, addr, end - addr);
}
nouveau_uvma_gem_put(uvma);
nouveau_uvma_free(uvma);
break;
}
case DRM_GPUVA_OP_UNMAP: {
struct drm_gpuva_op_unmap *u = &op->unmap;
struct drm_gpuva *va = u->va;
struct nouveau_uvma *uvma = uvma_from_va(va);
if (unmap)
nouveau_uvma_vmm_put(uvma);
nouveau_uvma_gem_put(uvma);
nouveau_uvma_free(uvma);
break;
}
default:
break;
}
}
}
static void
nouveau_uvmm_sm_map_cleanup(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
nouveau_uvmm_sm_cleanup(uvmm, new, ops, false);
}
static void
nouveau_uvmm_sm_unmap_cleanup(struct nouveau_uvmm *uvmm,
struct nouveau_uvma_prealloc *new,
struct drm_gpuva_ops *ops)
{
nouveau_uvmm_sm_cleanup(uvmm, new, ops, true);
}
static int
nouveau_uvmm_validate_range(struct nouveau_uvmm *uvmm, u64 addr, u64 range)
{
if (addr & ~PAGE_MASK)
return -EINVAL;
if (range & ~PAGE_MASK)
return -EINVAL;
if (!drm_gpuvm_range_valid(&uvmm->base, addr, range))
return -EINVAL;
return 0;
}
static int
nouveau_uvmm_bind_job_alloc(struct nouveau_uvmm_bind_job **pjob)
{
*pjob = kzalloc(sizeof(**pjob), GFP_KERNEL);
if (!*pjob)
return -ENOMEM;
kref_init(&(*pjob)->kref);
return 0;
}
static void
nouveau_uvmm_bind_job_free(struct kref *kref)
{
struct nouveau_uvmm_bind_job *job =
container_of(kref, struct nouveau_uvmm_bind_job, kref);
struct bind_job_op *op, *next;
list_for_each_op_safe(op, next, &job->ops) {
list_del(&op->entry);
kfree(op);
}
nouveau_job_free(&job->base);
kfree(job);
}
static void
nouveau_uvmm_bind_job_get(struct nouveau_uvmm_bind_job *job)
{
kref_get(&job->kref);
}
static void
nouveau_uvmm_bind_job_put(struct nouveau_uvmm_bind_job *job)
{
kref_put(&job->kref, nouveau_uvmm_bind_job_free);
}
static int
bind_validate_op(struct nouveau_job *job,
struct bind_job_op *op)
{
struct nouveau_uvmm *uvmm = nouveau_cli_uvmm(job->cli);
struct drm_gem_object *obj = op->gem.obj;
if (op->op == OP_MAP) {
if (op->gem.offset & ~PAGE_MASK)
return -EINVAL;
if (obj->size <= op->gem.offset)
return -EINVAL;
if (op->va.range > (obj->size - op->gem.offset))
return -EINVAL;
}
return nouveau_uvmm_validate_range(uvmm, op->va.addr, op->va.range);
}
static void
bind_validate_map_sparse(struct nouveau_job *job, u64 addr, u64 range)
{
struct nouveau_sched *sched = job->sched;
struct nouveau_job *__job;
struct bind_job_op *op;
u64 end = addr + range;
again:
spin_lock(&sched->job.list.lock);
list_for_each_entry(__job, &sched->job.list.head, entry) {
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(__job);
list_for_each_op(op, &bind_job->ops) {
if (op->op == OP_UNMAP) {
u64 op_addr = op->va.addr;
u64 op_end = op_addr + op->va.range;
if (!(end <= op_addr || addr >= op_end)) {
nouveau_uvmm_bind_job_get(bind_job);
spin_unlock(&sched->job.list.lock);
wait_for_completion(&bind_job->complete);
nouveau_uvmm_bind_job_put(bind_job);
goto again;
}
}
}
}
spin_unlock(&sched->job.list.lock);
}
static int
bind_validate_map_common(struct nouveau_job *job, u64 addr, u64 range,
bool sparse)
{
struct nouveau_uvmm *uvmm = nouveau_cli_uvmm(job->cli);
struct nouveau_uvma_region *reg;
u64 reg_addr, reg_end;
u64 end = addr + range;
again:
nouveau_uvmm_lock(uvmm);
reg = nouveau_uvma_region_find_first(uvmm, addr, range);
if (!reg) {
nouveau_uvmm_unlock(uvmm);
return 0;
}
/* Generally, job submits are serialized, hence only
* dirty regions can be modified concurrently.
*/
if (reg->dirty) {
nouveau_uvma_region_get(reg);
nouveau_uvmm_unlock(uvmm);
wait_for_completion(®->complete);
nouveau_uvma_region_put(reg);
goto again;
}
nouveau_uvmm_unlock(uvmm);
if (sparse)
return -ENOSPC;
reg_addr = reg->va.addr;
reg_end = reg_addr + reg->va.range;
/* Make sure the mapping is either outside of a
* region or fully enclosed by a region.
*/
if (reg_addr > addr || reg_end < end)
return -ENOSPC;
return 0;
}
static int
bind_validate_region(struct nouveau_job *job)
{
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(job);
struct bind_job_op *op;
int ret;
list_for_each_op(op, &bind_job->ops) {
u64 op_addr = op->va.addr;
u64 op_range = op->va.range;
bool sparse = false;
switch (op->op) {
case OP_MAP_SPARSE:
sparse = true;
bind_validate_map_sparse(job, op_addr, op_range);
fallthrough;
case OP_MAP:
ret = bind_validate_map_common(job, op_addr, op_range,
sparse);
if (ret)
return ret;
break;
default:
break;
}
}
return 0;
}
static void
bind_link_gpuvas(struct bind_job_op *bop)
{
struct nouveau_uvma_prealloc *new = &bop->new;
struct drm_gpuvm_bo *vm_bo = bop->vm_bo;
struct drm_gpuva_ops *ops = bop->ops;
struct drm_gpuva_op *op;
drm_gpuva_for_each_op(op, ops) {
switch (op->op) {
case DRM_GPUVA_OP_MAP:
drm_gpuva_link(&new->map->va, vm_bo);
break;
case DRM_GPUVA_OP_REMAP: {
struct drm_gpuva *va = op->remap.unmap->va;
if (op->remap.prev)
drm_gpuva_link(&new->prev->va, va->vm_bo);
if (op->remap.next)
drm_gpuva_link(&new->next->va, va->vm_bo);
drm_gpuva_unlink(va);
break;
}
case DRM_GPUVA_OP_UNMAP:
drm_gpuva_unlink(op->unmap.va);
break;
default:
break;
}
}
}
static int
bind_lock_validate(struct nouveau_job *job, struct drm_exec *exec,
unsigned int num_fences)
{
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(job);
struct bind_job_op *op;
int ret;
list_for_each_op(op, &bind_job->ops) {
struct drm_gpuva_op *va_op;
if (!op->ops)
continue;
drm_gpuva_for_each_op(va_op, op->ops) {
struct drm_gem_object *obj = op_gem_obj(va_op);
if (unlikely(!obj))
continue;
ret = drm_exec_prepare_obj(exec, obj, num_fences);
if (ret)
return ret;
/* Don't validate GEMs backing mappings we're about to
* unmap, it's not worth the effort.
*/
if (va_op->op == DRM_GPUVA_OP_UNMAP)
continue;
ret = nouveau_bo_validate(nouveau_gem_object(obj),
true, false);
if (ret)
return ret;
}
}
return 0;
}
static int
nouveau_uvmm_bind_job_submit(struct nouveau_job *job,
struct drm_gpuvm_exec *vme)
{
struct nouveau_uvmm *uvmm = nouveau_cli_uvmm(job->cli);
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(job);
struct drm_exec *exec = &vme->exec;
struct bind_job_op *op;
int ret;
list_for_each_op(op, &bind_job->ops) {
if (op->op == OP_MAP) {
struct drm_gem_object *obj = op->gem.obj =
drm_gem_object_lookup(job->file_priv,
op->gem.handle);
if (!obj)
return -ENOENT;
dma_resv_lock(obj->resv, NULL);
op->vm_bo = drm_gpuvm_bo_obtain(&uvmm->base, obj);
dma_resv_unlock(obj->resv);
if (IS_ERR(op->vm_bo))
return PTR_ERR(op->vm_bo);
drm_gpuvm_bo_extobj_add(op->vm_bo);
}
ret = bind_validate_op(job, op);
if (ret)
return ret;
}
/* If a sparse region or mapping overlaps a dirty region, we need to
* wait for the region to complete the unbind process. This is due to
* how page table management is currently implemented. A future
* implementation might change this.
*/
ret = bind_validate_region(job);
if (ret)
return ret;
/* Once we start modifying the GPU VA space we need to keep holding the
* uvmm lock until we can't fail anymore. This is due to the set of GPU
* VA space changes must appear atomically and we need to be able to
* unwind all GPU VA space changes on failure.
*/
nouveau_uvmm_lock(uvmm);
list_for_each_op(op, &bind_job->ops) {
switch (op->op) {
case OP_MAP_SPARSE:
ret = nouveau_uvma_region_create(uvmm,
op->va.addr,
op->va.range);
if (ret)
goto unwind_continue;
break;
case OP_UNMAP_SPARSE:
op->reg = nouveau_uvma_region_find(uvmm, op->va.addr,
op->va.range);
if (!op->reg || op->reg->dirty) {
ret = -ENOENT;
goto unwind_continue;
}
op->ops = drm_gpuvm_sm_unmap_ops_create(&uvmm->base,
op->va.addr,
op->va.range);
if (IS_ERR(op->ops)) {
ret = PTR_ERR(op->ops);
goto unwind_continue;
}
ret = nouveau_uvmm_sm_unmap_prepare(uvmm, &op->new,
op->ops);
if (ret) {
drm_gpuva_ops_free(&uvmm->base, op->ops);
op->ops = NULL;
op->reg = NULL;
goto unwind_continue;
}
nouveau_uvma_region_dirty(op->reg);
break;
case OP_MAP: {
struct nouveau_uvma_region *reg;
reg = nouveau_uvma_region_find_first(uvmm,
op->va.addr,
op->va.range);
if (reg) {
u64 reg_addr = reg->va.addr;
u64 reg_end = reg_addr + reg->va.range;
u64 op_addr = op->va.addr;
u64 op_end = op_addr + op->va.range;
if (unlikely(reg->dirty)) {
ret = -EINVAL;
goto unwind_continue;
}
/* Make sure the mapping is either outside of a
* region or fully enclosed by a region.
*/
if (reg_addr > op_addr || reg_end < op_end) {
ret = -ENOSPC;
goto unwind_continue;
}
}
op->ops = drm_gpuvm_sm_map_ops_create(&uvmm->base,
op->va.addr,
op->va.range,
op->gem.obj,
op->gem.offset);
if (IS_ERR(op->ops)) {
ret = PTR_ERR(op->ops);
goto unwind_continue;
}
ret = nouveau_uvmm_sm_map_prepare(uvmm, &op->new,
reg, op->ops,
op->va.addr,
op->va.range,
op->flags & 0xff);
if (ret) {
drm_gpuva_ops_free(&uvmm->base, op->ops);
op->ops = NULL;
goto unwind_continue;
}
break;
}
case OP_UNMAP:
op->ops = drm_gpuvm_sm_unmap_ops_create(&uvmm->base,
op->va.addr,
op->va.range);
if (IS_ERR(op->ops)) {
ret = PTR_ERR(op->ops);
goto unwind_continue;
}
ret = nouveau_uvmm_sm_unmap_prepare(uvmm, &op->new,
op->ops);
if (ret) {
drm_gpuva_ops_free(&uvmm->base, op->ops);
op->ops = NULL;
goto unwind_continue;
}
break;
default:
ret = -EINVAL;
goto unwind_continue;
}
}
drm_exec_init(exec, vme->flags, 0);
drm_exec_until_all_locked(exec) {
ret = bind_lock_validate(job, exec, vme->num_fences);
drm_exec_retry_on_contention(exec);
if (ret) {
op = list_last_op(&bind_job->ops);
goto unwind;
}
}
/* Link and unlink GPUVAs while holding the dma_resv lock.
*
* As long as we validate() all GEMs and add fences to all GEMs DMA
* reservations backing map and remap operations we can be sure there
* won't be any concurrent (in)validations during job execution, hence
* we're safe to check drm_gpuva_invalidated() within the fence
* signalling critical path without holding a separate lock.
*
* GPUVAs about to be unmapped are safe as well, since they're unlinked
* already.
*
* GEMs from map and remap operations must be validated before linking
* their corresponding mappings to prevent the actual PT update to
* happen right away in validate() rather than asynchronously as
* intended.
*
* Note that after linking and unlinking the GPUVAs in this loop this
* function cannot fail anymore, hence there is no need for an unwind
* path.
*/
list_for_each_op(op, &bind_job->ops) {
switch (op->op) {
case OP_UNMAP_SPARSE:
case OP_MAP:
case OP_UNMAP:
bind_link_gpuvas(op);
break;
default:
break;
}
}
nouveau_uvmm_unlock(uvmm);
return 0;
unwind_continue:
op = list_prev_op(op);
unwind:
list_for_each_op_from_reverse(op, &bind_job->ops) {
switch (op->op) {
case OP_MAP_SPARSE:
nouveau_uvma_region_destroy(uvmm, op->va.addr,
op->va.range);
break;
case OP_UNMAP_SPARSE:
__nouveau_uvma_region_insert(uvmm, op->reg);
nouveau_uvmm_sm_unmap_prepare_unwind(uvmm, &op->new,
op->ops);
break;
case OP_MAP:
nouveau_uvmm_sm_map_prepare_unwind(uvmm, &op->new,
op->ops,
op->va.addr,
op->va.range);
break;
case OP_UNMAP:
nouveau_uvmm_sm_unmap_prepare_unwind(uvmm, &op->new,
op->ops);
break;
}
drm_gpuva_ops_free(&uvmm->base, op->ops);
op->ops = NULL;
op->reg = NULL;
}
nouveau_uvmm_unlock(uvmm);
drm_gpuvm_exec_unlock(vme);
return ret;
}
static void
nouveau_uvmm_bind_job_armed_submit(struct nouveau_job *job,
struct drm_gpuvm_exec *vme)
{
drm_gpuvm_exec_resv_add_fence(vme, job->done_fence,
job->resv_usage, job->resv_usage);
drm_gpuvm_exec_unlock(vme);
}
static struct dma_fence *
nouveau_uvmm_bind_job_run(struct nouveau_job *job)
{
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(job);
struct nouveau_uvmm *uvmm = nouveau_cli_uvmm(job->cli);
struct bind_job_op *op;
int ret = 0;
list_for_each_op(op, &bind_job->ops) {
switch (op->op) {
case OP_MAP_SPARSE:
/* noop */
break;
case OP_MAP:
ret = nouveau_uvmm_sm_map(uvmm, &op->new, op->ops);
if (ret)
goto out;
break;
case OP_UNMAP_SPARSE:
fallthrough;
case OP_UNMAP:
ret = nouveau_uvmm_sm_unmap(uvmm, &op->new, op->ops);
if (ret)
goto out;
break;
}
}
out:
if (ret)
NV_PRINTK(err, job->cli, "bind job failed: %d\n", ret);
return ERR_PTR(ret);
}
static void
nouveau_uvmm_bind_job_cleanup(struct nouveau_job *job)
{
struct nouveau_uvmm_bind_job *bind_job = to_uvmm_bind_job(job);
struct nouveau_uvmm *uvmm = nouveau_cli_uvmm(job->cli);
struct bind_job_op *op;
list_for_each_op(op, &bind_job->ops) {
struct drm_gem_object *obj = op->gem.obj;
/* When nouveau_uvmm_bind_job_submit() fails op->ops and op->reg
* will be NULL, hence skip the cleanup.
*/
switch (op->op) {
case OP_MAP_SPARSE:
/* noop */
break;
case OP_UNMAP_SPARSE:
if (!IS_ERR_OR_NULL(op->ops))
nouveau_uvmm_sm_unmap_cleanup(uvmm, &op->new,
op->ops);
if (op->reg) {
nouveau_uvma_region_sparse_unref(op->reg);
nouveau_uvmm_lock(uvmm);
nouveau_uvma_region_remove(op->reg);
nouveau_uvmm_unlock(uvmm);
nouveau_uvma_region_complete(op->reg);
nouveau_uvma_region_put(op->reg);
}
break;
case OP_MAP:
if (!IS_ERR_OR_NULL(op->ops))
nouveau_uvmm_sm_map_cleanup(uvmm, &op->new,
op->ops);
break;
case OP_UNMAP:
if (!IS_ERR_OR_NULL(op->ops))
nouveau_uvmm_sm_unmap_cleanup(uvmm, &op->new,
op->ops);
break;
}
if (!IS_ERR_OR_NULL(op->ops))
drm_gpuva_ops_free(&uvmm->base, op->ops);
if (!IS_ERR_OR_NULL(op->vm_bo)) {
dma_resv_lock(obj->resv, NULL);
drm_gpuvm_bo_put(op->vm_bo);
dma_resv_unlock(obj->resv);
}
if (obj)
drm_gem_object_put(obj);
}
nouveau_job_done(job);
complete_all(&bind_job->complete);
nouveau_uvmm_bind_job_put(bind_job);
}
static struct nouveau_job_ops nouveau_bind_job_ops = {
.submit = nouveau_uvmm_bind_job_submit,
.armed_submit = nouveau_uvmm_bind_job_armed_submit,
.run = nouveau_uvmm_bind_job_run,
.free = nouveau_uvmm_bind_job_cleanup,
};
static int
bind_job_op_from_uop(struct bind_job_op **pop,
struct drm_nouveau_vm_bind_op *uop)
{
struct bind_job_op *op;
op = *pop = kzalloc(sizeof(*op), GFP_KERNEL);
if (!op)
return -ENOMEM;
switch (uop->op) {
case OP_MAP:
op->op = uop->flags & DRM_NOUVEAU_VM_BIND_SPARSE ?
OP_MAP_SPARSE : OP_MAP;
break;
case OP_UNMAP:
op->op = uop->flags & DRM_NOUVEAU_VM_BIND_SPARSE ?
OP_UNMAP_SPARSE : OP_UNMAP;
break;
default:
op->op = uop->op;
break;
}
op->flags = uop->flags;
op->va.addr = uop->addr;
op->va.range = uop->range;
op->gem.handle = uop->handle;
op->gem.offset = uop->bo_offset;
return 0;
}
static void
bind_job_ops_free(struct list_head *ops)
{
struct bind_job_op *op, *next;
list_for_each_op_safe(op, next, ops) {
list_del(&op->entry);
kfree(op);
}
}
static int
nouveau_uvmm_bind_job_init(struct nouveau_uvmm_bind_job **pjob,
struct nouveau_uvmm_bind_job_args *__args)
{
struct nouveau_uvmm_bind_job *job;
struct nouveau_job_args args = {};
struct bind_job_op *op;
int i, ret;
ret = nouveau_uvmm_bind_job_alloc(&job);
if (ret)
return ret;
INIT_LIST_HEAD(&job->ops);
for (i = 0; i < __args->op.count; i++) {
ret = bind_job_op_from_uop(&op, &__args->op.s[i]);
if (ret)
goto err_free;
list_add_tail(&op->entry, &job->ops);
}
init_completion(&job->complete);
args.file_priv = __args->file_priv;
args.sched = __args->sched;
args.credits = 1;
args.in_sync.count = __args->in_sync.count;
args.in_sync.s = __args->in_sync.s;
args.out_sync.count = __args->out_sync.count;
args.out_sync.s = __args->out_sync.s;
args.sync = !(__args->flags & DRM_NOUVEAU_VM_BIND_RUN_ASYNC);
args.ops = &nouveau_bind_job_ops;
args.resv_usage = DMA_RESV_USAGE_BOOKKEEP;
ret = nouveau_job_init(&job->base, &args);
if (ret)
goto err_free;
*pjob = job;
return 0;
err_free:
bind_job_ops_free(&job->ops);
kfree(job);
*pjob = NULL;
return ret;
}
static int
nouveau_uvmm_vm_bind(struct nouveau_uvmm_bind_job_args *args)
{
struct nouveau_uvmm_bind_job *job;
int ret;
ret = nouveau_uvmm_bind_job_init(&job, args);
if (ret)
return ret;
ret = nouveau_job_submit(&job->base);
if (ret)
goto err_job_fini;
return 0;
err_job_fini:
nouveau_job_fini(&job->base);
return ret;
}
static int
nouveau_uvmm_vm_bind_ucopy(struct nouveau_uvmm_bind_job_args *args,
struct drm_nouveau_vm_bind *req)
{
struct drm_nouveau_sync **s;
u32 inc = req->wait_count;
u64 ins = req->wait_ptr;
u32 outc = req->sig_count;
u64 outs = req->sig_ptr;
u32 opc = req->op_count;
u64 ops = req->op_ptr;
int ret;
args->flags = req->flags;
if (opc) {
args->op.count = opc;
args->op.s = u_memcpya(ops, opc,
sizeof(*args->op.s));
if (IS_ERR(args->op.s))
return PTR_ERR(args->op.s);
}
if (inc) {
s = &args->in_sync.s;
args->in_sync.count = inc;
*s = u_memcpya(ins, inc, sizeof(**s));
if (IS_ERR(*s)) {
ret = PTR_ERR(*s);
goto err_free_ops;
}
}
if (outc) {
s = &args->out_sync.s;
args->out_sync.count = outc;
*s = u_memcpya(outs, outc, sizeof(**s));
if (IS_ERR(*s)) {
ret = PTR_ERR(*s);
goto err_free_ins;
}
}
return 0;
err_free_ops:
u_free(args->op.s);
err_free_ins:
u_free(args->in_sync.s);
return ret;
}
static void
nouveau_uvmm_vm_bind_ufree(struct nouveau_uvmm_bind_job_args *args)
{
u_free(args->op.s);
u_free(args->in_sync.s);
u_free(args->out_sync.s);
}
int
nouveau_uvmm_ioctl_vm_bind(struct drm_device *dev,
void *data,
struct drm_file *file_priv)
{
struct nouveau_cli *cli = nouveau_cli(file_priv);
struct nouveau_uvmm_bind_job_args args = {};
struct drm_nouveau_vm_bind *req = data;
int ret = 0;
if (unlikely(!nouveau_cli_uvmm_locked(cli)))
return -ENOSYS;
ret = nouveau_uvmm_vm_bind_ucopy(&args, req);
if (ret)
return ret;
args.sched = cli->sched;
args.file_priv = file_priv;
ret = nouveau_uvmm_vm_bind(&args);
if (ret)
goto out_free_args;
out_free_args:
nouveau_uvmm_vm_bind_ufree(&args);
return ret;
}
void
nouveau_uvmm_bo_map_all(struct nouveau_bo *nvbo, struct nouveau_mem *mem)
{
struct drm_gem_object *obj = &nvbo->bo.base;
struct drm_gpuvm_bo *vm_bo;
struct drm_gpuva *va;
dma_resv_assert_held(obj->resv);
drm_gem_for_each_gpuvm_bo(vm_bo, obj) {
drm_gpuvm_bo_for_each_va(va, vm_bo) {
struct nouveau_uvma *uvma = uvma_from_va(va);
nouveau_uvma_map(uvma, mem);
drm_gpuva_invalidate(va, false);
}
}
}
void
nouveau_uvmm_bo_unmap_all(struct nouveau_bo *nvbo)
{
struct drm_gem_object *obj = &nvbo->bo.base;
struct drm_gpuvm_bo *vm_bo;
struct drm_gpuva *va;
dma_resv_assert_held(obj->resv);
drm_gem_for_each_gpuvm_bo(vm_bo, obj) {
drm_gpuvm_bo_for_each_va(va, vm_bo) {
struct nouveau_uvma *uvma = uvma_from_va(va);
nouveau_uvma_unmap(uvma);
drm_gpuva_invalidate(va, true);
}
}
}
static void
nouveau_uvmm_free(struct drm_gpuvm *gpuvm)
{
struct nouveau_uvmm *uvmm = uvmm_from_gpuvm(gpuvm);
kfree(uvmm);
}
static int
nouveau_uvmm_bo_validate(struct drm_gpuvm_bo *vm_bo, struct drm_exec *exec)
{
struct nouveau_bo *nvbo = nouveau_gem_object(vm_bo->obj);
nouveau_bo_placement_set(nvbo, nvbo->valid_domains, 0);
return nouveau_bo_validate(nvbo, true, false);
}
static const struct drm_gpuvm_ops gpuvm_ops = {
.vm_free = nouveau_uvmm_free,
.vm_bo_validate = nouveau_uvmm_bo_validate,
};
int
nouveau_uvmm_ioctl_vm_init(struct drm_device *dev,
void *data,
struct drm_file *file_priv)
{
struct nouveau_uvmm *uvmm;
struct nouveau_cli *cli = nouveau_cli(file_priv);
struct drm_device *drm = cli->drm->dev;
struct drm_gem_object *r_obj;
struct drm_nouveau_vm_init *init = data;
u64 kernel_managed_end;
int ret;
if (check_add_overflow(init->kernel_managed_addr,
init->kernel_managed_size,
&kernel_managed_end))
return -EINVAL;
if (kernel_managed_end > NOUVEAU_VA_SPACE_END)
return -EINVAL;
mutex_lock(&cli->mutex);
if (unlikely(cli->uvmm.disabled)) {
ret = -ENOSYS;
goto out_unlock;
}
uvmm = kzalloc(sizeof(*uvmm), GFP_KERNEL);
if (!uvmm) {
ret = -ENOMEM;
goto out_unlock;
}
r_obj = drm_gpuvm_resv_object_alloc(drm);
if (!r_obj) {
kfree(uvmm);
ret = -ENOMEM;
goto out_unlock;
}
mutex_init(&uvmm->mutex);
mt_init_flags(&uvmm->region_mt, MT_FLAGS_LOCK_EXTERN);
mt_set_external_lock(&uvmm->region_mt, &uvmm->mutex);
drm_gpuvm_init(&uvmm->base, cli->name, 0, drm, r_obj,
NOUVEAU_VA_SPACE_START,
NOUVEAU_VA_SPACE_END,
init->kernel_managed_addr,
init->kernel_managed_size,
&gpuvm_ops);
/* GPUVM takes care from here on. */
drm_gem_object_put(r_obj);
ret = nvif_vmm_ctor(&cli->mmu, "uvmm",
cli->vmm.vmm.object.oclass, RAW,
init->kernel_managed_addr,
init->kernel_managed_size,
NULL, 0, &uvmm->vmm.vmm);
if (ret)
goto out_gpuvm_fini;
uvmm->vmm.cli = cli;
cli->uvmm.ptr = uvmm;
mutex_unlock(&cli->mutex);
return 0;
out_gpuvm_fini:
drm_gpuvm_put(&uvmm->base);
out_unlock:
mutex_unlock(&cli->mutex);
return ret;
}
void
nouveau_uvmm_fini(struct nouveau_uvmm *uvmm)
{
MA_STATE(mas, &uvmm->region_mt, 0, 0);
struct nouveau_uvma_region *reg;
struct nouveau_cli *cli = uvmm->vmm.cli;
struct drm_gpuva *va, *next;
nouveau_uvmm_lock(uvmm);
drm_gpuvm_for_each_va_safe(va, next, &uvmm->base) {
struct nouveau_uvma *uvma = uvma_from_va(va);
struct drm_gem_object *obj = va->gem.obj;
if (unlikely(va == &uvmm->base.kernel_alloc_node))
continue;
drm_gpuva_remove(va);
dma_resv_lock(obj->resv, NULL);
drm_gpuva_unlink(va);
dma_resv_unlock(obj->resv);
nouveau_uvma_unmap(uvma);
nouveau_uvma_vmm_put(uvma);
nouveau_uvma_gem_put(uvma);
nouveau_uvma_free(uvma);
}
mas_for_each(&mas, reg, ULONG_MAX) {
mas_erase(&mas);
nouveau_uvma_region_sparse_unref(reg);
nouveau_uvma_region_put(reg);
}
WARN(!mtree_empty(&uvmm->region_mt),
"nouveau_uvma_region tree not empty, potentially leaking memory.");
__mt_destroy(&uvmm->region_mt);
nouveau_uvmm_unlock(uvmm);
mutex_lock(&cli->mutex);
nouveau_vmm_fini(&uvmm->vmm);
drm_gpuvm_put(&uvmm->base);
mutex_unlock(&cli->mutex);
}
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