1a6ff85d3SAlexandre Courbot /*
2a6ff85d3SAlexandre Courbot * Copyright (c) 2015, NVIDIA CORPORATION. All rights reserved.
3a6ff85d3SAlexandre Courbot *
4a6ff85d3SAlexandre Courbot * Permission is hereby granted, free of charge, to any person obtaining a
5a6ff85d3SAlexandre Courbot * copy of this software and associated documentation files (the "Software"),
6a6ff85d3SAlexandre Courbot * to deal in the Software without restriction, including without limitation
7a6ff85d3SAlexandre Courbot * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8a6ff85d3SAlexandre Courbot * and/or sell copies of the Software, and to permit persons to whom the
9a6ff85d3SAlexandre Courbot * Software is furnished to do so, subject to the following conditions:
10a6ff85d3SAlexandre Courbot *
11a6ff85d3SAlexandre Courbot * The above copyright notice and this permission notice shall be included in
12a6ff85d3SAlexandre Courbot * all copies or substantial portions of the Software.
13a6ff85d3SAlexandre Courbot *
14a6ff85d3SAlexandre Courbot * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15a6ff85d3SAlexandre Courbot * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16a6ff85d3SAlexandre Courbot * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
17a6ff85d3SAlexandre Courbot * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
18a6ff85d3SAlexandre Courbot * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
19a6ff85d3SAlexandre Courbot * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
20a6ff85d3SAlexandre Courbot * DEALINGS IN THE SOFTWARE.
21a6ff85d3SAlexandre Courbot */
22a6ff85d3SAlexandre Courbot
23a7f6da6eSAlexandre Courbot /*
24a7f6da6eSAlexandre Courbot * GK20A does not have dedicated video memory, and to accurately represent this
25a7f6da6eSAlexandre Courbot * fact Nouveau will not create a RAM device for it. Therefore its instmem
2669c49382SAlexandre Courbot * implementation must be done directly on top of system memory, while
2769c49382SAlexandre Courbot * preserving coherency for read and write operations.
28a7f6da6eSAlexandre Courbot *
29a7f6da6eSAlexandre Courbot * Instmem can be allocated through two means:
3069c49382SAlexandre Courbot * 1) If an IOMMU unit has been probed, the IOMMU API is used to make memory
31a7f6da6eSAlexandre Courbot * pages contiguous to the GPU. This is the preferred way.
3269c49382SAlexandre Courbot * 2) If no IOMMU unit is probed, the DMA API is used to allocate physically
33a7f6da6eSAlexandre Courbot * contiguous memory.
34a7f6da6eSAlexandre Courbot *
3569c49382SAlexandre Courbot * In both cases CPU read and writes are performed by creating a write-combined
3669c49382SAlexandre Courbot * mapping. The GPU L2 cache must thus be flushed/invalidated when required. To
3769c49382SAlexandre Courbot * be conservative we do this every time we acquire or release an instobj, but
3869c49382SAlexandre Courbot * ideally L2 management should be handled at a higher level.
3969c49382SAlexandre Courbot *
4069c49382SAlexandre Courbot * To improve performance, CPU mappings are not removed upon instobj release.
4169c49382SAlexandre Courbot * Instead they are placed into a LRU list to be recycled when the mapped space
4269c49382SAlexandre Courbot * goes beyond a certain threshold. At the moment this limit is 1MB.
43a7f6da6eSAlexandre Courbot */
44d8e83994SBen Skeggs #include "priv.h"
45a7f6da6eSAlexandre Courbot
46d8e83994SBen Skeggs #include <core/memory.h>
4743a70661SBen Skeggs #include <core/tegra.h>
4869c49382SAlexandre Courbot #include <subdev/ltc.h>
49f9463a4bSBen Skeggs #include <subdev/mmu.h>
50a6ff85d3SAlexandre Courbot
51c44c06aeSBen Skeggs struct gk20a_instobj {
52d8e83994SBen Skeggs struct nvkm_memory memory;
539202d732SBen Skeggs struct nvkm_mm_node *mn;
5469c49382SAlexandre Courbot struct gk20a_instmem *imem;
5569c49382SAlexandre Courbot
5669c49382SAlexandre Courbot /* CPU mapping */
5769c49382SAlexandre Courbot u32 *vaddr;
58a7f6da6eSAlexandre Courbot };
5969c49382SAlexandre Courbot #define gk20a_instobj(p) container_of((p), struct gk20a_instobj, memory)
60a7f6da6eSAlexandre Courbot
61a7f6da6eSAlexandre Courbot /*
62a7f6da6eSAlexandre Courbot * Used for objects allocated using the DMA API
63a7f6da6eSAlexandre Courbot */
64a7f6da6eSAlexandre Courbot struct gk20a_instobj_dma {
65c44c06aeSBen Skeggs struct gk20a_instobj base;
66a7f6da6eSAlexandre Courbot
67a6ff85d3SAlexandre Courbot dma_addr_t handle;
68a6ff85d3SAlexandre Courbot struct nvkm_mm_node r;
69a6ff85d3SAlexandre Courbot };
7069c49382SAlexandre Courbot #define gk20a_instobj_dma(p) \
7169c49382SAlexandre Courbot container_of(gk20a_instobj(p), struct gk20a_instobj_dma, base)
72a6ff85d3SAlexandre Courbot
73a7f6da6eSAlexandre Courbot /*
74a7f6da6eSAlexandre Courbot * Used for objects flattened using the IOMMU API
75a7f6da6eSAlexandre Courbot */
76a7f6da6eSAlexandre Courbot struct gk20a_instobj_iommu {
77c44c06aeSBen Skeggs struct gk20a_instobj base;
78a7f6da6eSAlexandre Courbot
79b306712dSAlexandre Courbot /* to link into gk20a_instmem::vaddr_lru */
80b306712dSAlexandre Courbot struct list_head vaddr_node;
81b306712dSAlexandre Courbot /* how many clients are using vaddr? */
82b306712dSAlexandre Courbot u32 use_cpt;
83b306712dSAlexandre Courbot
8469c49382SAlexandre Courbot /* will point to the higher half of pages */
8569c49382SAlexandre Courbot dma_addr_t *dma_addrs;
8669c49382SAlexandre Courbot /* array of base.mem->size pages (+ dma_addr_ts) */
87a7f6da6eSAlexandre Courbot struct page *pages[];
88a7f6da6eSAlexandre Courbot };
8969c49382SAlexandre Courbot #define gk20a_instobj_iommu(p) \
9069c49382SAlexandre Courbot container_of(gk20a_instobj(p), struct gk20a_instobj_iommu, base)
91a7f6da6eSAlexandre Courbot
92c44c06aeSBen Skeggs struct gk20a_instmem {
93a6ff85d3SAlexandre Courbot struct nvkm_instmem base;
9469c49382SAlexandre Courbot
9569c49382SAlexandre Courbot /* protects vaddr_* and gk20a_instobj::vaddr* */
96e5ffa727SThierry Reding struct mutex lock;
9769c49382SAlexandre Courbot
9869c49382SAlexandre Courbot /* CPU mappings LRU */
9969c49382SAlexandre Courbot unsigned int vaddr_use;
10069c49382SAlexandre Courbot unsigned int vaddr_max;
10169c49382SAlexandre Courbot struct list_head vaddr_lru;
102a7f6da6eSAlexandre Courbot
103a7f6da6eSAlexandre Courbot /* Only used if IOMMU if present */
104a7f6da6eSAlexandre Courbot struct mutex *mm_mutex;
105a7f6da6eSAlexandre Courbot struct nvkm_mm *mm;
106a7f6da6eSAlexandre Courbot struct iommu_domain *domain;
107a7f6da6eSAlexandre Courbot unsigned long iommu_pgshift;
10868b56653SAlexandre Courbot u16 iommu_bit;
109a7f6da6eSAlexandre Courbot
110a7f6da6eSAlexandre Courbot /* Only used by DMA API */
11100085f1eSKrzysztof Kozlowski unsigned long attrs;
112a6ff85d3SAlexandre Courbot };
11369c49382SAlexandre Courbot #define gk20a_instmem(p) container_of((p), struct gk20a_instmem, base)
114a6ff85d3SAlexandre Courbot
115d8e83994SBen Skeggs static enum nvkm_memory_target
gk20a_instobj_target(struct nvkm_memory * memory)116d8e83994SBen Skeggs gk20a_instobj_target(struct nvkm_memory *memory)
117d8e83994SBen Skeggs {
118d2ee3605SBen Skeggs return NVKM_MEM_TARGET_NCOH;
119d8e83994SBen Skeggs }
120d8e83994SBen Skeggs
121bd275f1dSBen Skeggs static u8
gk20a_instobj_page(struct nvkm_memory * memory)122bd275f1dSBen Skeggs gk20a_instobj_page(struct nvkm_memory *memory)
123bd275f1dSBen Skeggs {
124bd275f1dSBen Skeggs return 12;
125bd275f1dSBen Skeggs }
126bd275f1dSBen Skeggs
127d8e83994SBen Skeggs static u64
gk20a_instobj_addr(struct nvkm_memory * memory)128d8e83994SBen Skeggs gk20a_instobj_addr(struct nvkm_memory *memory)
129d8e83994SBen Skeggs {
1309202d732SBen Skeggs return (u64)gk20a_instobj(memory)->mn->offset << 12;
131d8e83994SBen Skeggs }
132d8e83994SBen Skeggs
133d8e83994SBen Skeggs static u64
gk20a_instobj_size(struct nvkm_memory * memory)134d8e83994SBen Skeggs gk20a_instobj_size(struct nvkm_memory *memory)
135d8e83994SBen Skeggs {
1369202d732SBen Skeggs return (u64)gk20a_instobj(memory)->mn->length << 12;
137d8e83994SBen Skeggs }
138d8e83994SBen Skeggs
13969c49382SAlexandre Courbot /*
140338840eeSAlexandre Courbot * Recycle the vaddr of obj. Must be called with gk20a_instmem::lock held.
141338840eeSAlexandre Courbot */
142338840eeSAlexandre Courbot static void
gk20a_instobj_iommu_recycle_vaddr(struct gk20a_instobj_iommu * obj)143b306712dSAlexandre Courbot gk20a_instobj_iommu_recycle_vaddr(struct gk20a_instobj_iommu *obj)
144338840eeSAlexandre Courbot {
145b306712dSAlexandre Courbot struct gk20a_instmem *imem = obj->base.imem;
146338840eeSAlexandre Courbot /* there should not be any user left... */
147338840eeSAlexandre Courbot WARN_ON(obj->use_cpt);
148338840eeSAlexandre Courbot list_del(&obj->vaddr_node);
149b306712dSAlexandre Courbot vunmap(obj->base.vaddr);
150b306712dSAlexandre Courbot obj->base.vaddr = NULL;
151b306712dSAlexandre Courbot imem->vaddr_use -= nvkm_memory_size(&obj->base.memory);
152338840eeSAlexandre Courbot nvkm_debug(&imem->base.subdev, "vaddr used: %x/%x\n", imem->vaddr_use,
153338840eeSAlexandre Courbot imem->vaddr_max);
154338840eeSAlexandre Courbot }
155338840eeSAlexandre Courbot
156338840eeSAlexandre Courbot /*
157338840eeSAlexandre Courbot * Must be called while holding gk20a_instmem::lock
15869c49382SAlexandre Courbot */
15969c49382SAlexandre Courbot static void
gk20a_instmem_vaddr_gc(struct gk20a_instmem * imem,const u64 size)16069c49382SAlexandre Courbot gk20a_instmem_vaddr_gc(struct gk20a_instmem *imem, const u64 size)
16169c49382SAlexandre Courbot {
16269c49382SAlexandre Courbot while (imem->vaddr_use + size > imem->vaddr_max) {
16369c49382SAlexandre Courbot /* no candidate that can be unmapped, abort... */
16469c49382SAlexandre Courbot if (list_empty(&imem->vaddr_lru))
16569c49382SAlexandre Courbot break;
16669c49382SAlexandre Courbot
167b306712dSAlexandre Courbot gk20a_instobj_iommu_recycle_vaddr(
168b306712dSAlexandre Courbot list_first_entry(&imem->vaddr_lru,
169b306712dSAlexandre Courbot struct gk20a_instobj_iommu, vaddr_node));
17069c49382SAlexandre Courbot }
17169c49382SAlexandre Courbot }
17269c49382SAlexandre Courbot
17369c49382SAlexandre Courbot static void __iomem *
gk20a_instobj_acquire_dma(struct nvkm_memory * memory)174b306712dSAlexandre Courbot gk20a_instobj_acquire_dma(struct nvkm_memory *memory)
175d8e83994SBen Skeggs {
17669c49382SAlexandre Courbot struct gk20a_instobj *node = gk20a_instobj(memory);
17769c49382SAlexandre Courbot struct gk20a_instmem *imem = node->imem;
17869c49382SAlexandre Courbot struct nvkm_ltc *ltc = imem->base.subdev.device->ltc;
179b306712dSAlexandre Courbot
180b306712dSAlexandre Courbot nvkm_ltc_flush(ltc);
181b306712dSAlexandre Courbot
182b306712dSAlexandre Courbot return node->vaddr;
183b306712dSAlexandre Courbot }
184b306712dSAlexandre Courbot
185b306712dSAlexandre Courbot static void __iomem *
gk20a_instobj_acquire_iommu(struct nvkm_memory * memory)186b306712dSAlexandre Courbot gk20a_instobj_acquire_iommu(struct nvkm_memory *memory)
187b306712dSAlexandre Courbot {
188b306712dSAlexandre Courbot struct gk20a_instobj_iommu *node = gk20a_instobj_iommu(memory);
189b306712dSAlexandre Courbot struct gk20a_instmem *imem = node->base.imem;
190b306712dSAlexandre Courbot struct nvkm_ltc *ltc = imem->base.subdev.device->ltc;
19169c49382SAlexandre Courbot const u64 size = nvkm_memory_size(memory);
19269c49382SAlexandre Courbot
19369c49382SAlexandre Courbot nvkm_ltc_flush(ltc);
19469c49382SAlexandre Courbot
195e5ffa727SThierry Reding mutex_lock(&imem->lock);
19669c49382SAlexandre Courbot
197b306712dSAlexandre Courbot if (node->base.vaddr) {
198338840eeSAlexandre Courbot if (!node->use_cpt) {
199338840eeSAlexandre Courbot /* remove from LRU list since mapping in use again */
20069c49382SAlexandre Courbot list_del(&node->vaddr_node);
201338840eeSAlexandre Courbot }
20269c49382SAlexandre Courbot goto out;
20369c49382SAlexandre Courbot }
20469c49382SAlexandre Courbot
20569c49382SAlexandre Courbot /* try to free some address space if we reached the limit */
20669c49382SAlexandre Courbot gk20a_instmem_vaddr_gc(imem, size);
20769c49382SAlexandre Courbot
208b306712dSAlexandre Courbot /* map the pages */
209b306712dSAlexandre Courbot node->base.vaddr = vmap(node->pages, size >> PAGE_SHIFT, VM_MAP,
210b306712dSAlexandre Courbot pgprot_writecombine(PAGE_KERNEL));
211b306712dSAlexandre Courbot if (!node->base.vaddr) {
21269c49382SAlexandre Courbot nvkm_error(&imem->base.subdev, "cannot map instobj - "
21369c49382SAlexandre Courbot "this is not going to end well...\n");
21469c49382SAlexandre Courbot goto out;
21569c49382SAlexandre Courbot }
21669c49382SAlexandre Courbot
21769c49382SAlexandre Courbot imem->vaddr_use += size;
21869c49382SAlexandre Courbot nvkm_debug(&imem->base.subdev, "vaddr used: %x/%x\n",
21969c49382SAlexandre Courbot imem->vaddr_use, imem->vaddr_max);
22069c49382SAlexandre Courbot
22169c49382SAlexandre Courbot out:
222338840eeSAlexandre Courbot node->use_cpt++;
223e5ffa727SThierry Reding mutex_unlock(&imem->lock);
22469c49382SAlexandre Courbot
225b306712dSAlexandre Courbot return node->base.vaddr;
226d8e83994SBen Skeggs }
227d8e83994SBen Skeggs
228d8e83994SBen Skeggs static void
gk20a_instobj_release_dma(struct nvkm_memory * memory)229b306712dSAlexandre Courbot gk20a_instobj_release_dma(struct nvkm_memory *memory)
230d8e83994SBen Skeggs {
23169c49382SAlexandre Courbot struct gk20a_instobj *node = gk20a_instobj(memory);
23269c49382SAlexandre Courbot struct gk20a_instmem *imem = node->imem;
23369c49382SAlexandre Courbot struct nvkm_ltc *ltc = imem->base.subdev.device->ltc;
234b306712dSAlexandre Courbot
235e02d586dSAlexandre Courbot /* in case we got a write-combined mapping */
236e02d586dSAlexandre Courbot wmb();
237b306712dSAlexandre Courbot nvkm_ltc_invalidate(ltc);
238b306712dSAlexandre Courbot }
239b306712dSAlexandre Courbot
240b306712dSAlexandre Courbot static void
gk20a_instobj_release_iommu(struct nvkm_memory * memory)241b306712dSAlexandre Courbot gk20a_instobj_release_iommu(struct nvkm_memory *memory)
242b306712dSAlexandre Courbot {
243b306712dSAlexandre Courbot struct gk20a_instobj_iommu *node = gk20a_instobj_iommu(memory);
244b306712dSAlexandre Courbot struct gk20a_instmem *imem = node->base.imem;
245b306712dSAlexandre Courbot struct nvkm_ltc *ltc = imem->base.subdev.device->ltc;
246d8e83994SBen Skeggs
247e5ffa727SThierry Reding mutex_lock(&imem->lock);
24869c49382SAlexandre Courbot
249338840eeSAlexandre Courbot /* we should at least have one user to release... */
250338840eeSAlexandre Courbot if (WARN_ON(node->use_cpt == 0))
251338840eeSAlexandre Courbot goto out;
252338840eeSAlexandre Courbot
253338840eeSAlexandre Courbot /* add unused objs to the LRU list to recycle their mapping */
254338840eeSAlexandre Courbot if (--node->use_cpt == 0)
25569c49382SAlexandre Courbot list_add_tail(&node->vaddr_node, &imem->vaddr_lru);
25669c49382SAlexandre Courbot
257338840eeSAlexandre Courbot out:
258e5ffa727SThierry Reding mutex_unlock(&imem->lock);
25969c49382SAlexandre Courbot
26069c49382SAlexandre Courbot wmb();
26169c49382SAlexandre Courbot nvkm_ltc_invalidate(ltc);
26269c49382SAlexandre Courbot }
263a7f6da6eSAlexandre Courbot
264a6ff85d3SAlexandre Courbot static u32
gk20a_instobj_rd32(struct nvkm_memory * memory,u64 offset)265d8e83994SBen Skeggs gk20a_instobj_rd32(struct nvkm_memory *memory, u64 offset)
266a6ff85d3SAlexandre Courbot {
267d8e83994SBen Skeggs struct gk20a_instobj *node = gk20a_instobj(memory);
268a6ff85d3SAlexandre Courbot
26969c49382SAlexandre Courbot return node->vaddr[offset / 4];
270a6ff85d3SAlexandre Courbot }
271a6ff85d3SAlexandre Courbot
272a6ff85d3SAlexandre Courbot static void
gk20a_instobj_wr32(struct nvkm_memory * memory,u64 offset,u32 data)273d8e83994SBen Skeggs gk20a_instobj_wr32(struct nvkm_memory *memory, u64 offset, u32 data)
274a6ff85d3SAlexandre Courbot {
275d8e83994SBen Skeggs struct gk20a_instobj *node = gk20a_instobj(memory);
276a6ff85d3SAlexandre Courbot
27769c49382SAlexandre Courbot node->vaddr[offset / 4] = data;
278d8e83994SBen Skeggs }
279d8e83994SBen Skeggs
28019a82e49SBen Skeggs static int
gk20a_instobj_map(struct nvkm_memory * memory,u64 offset,struct nvkm_vmm * vmm,struct nvkm_vma * vma,void * argv,u32 argc)28119a82e49SBen Skeggs gk20a_instobj_map(struct nvkm_memory *memory, u64 offset, struct nvkm_vmm *vmm,
28219a82e49SBen Skeggs struct nvkm_vma *vma, void *argv, u32 argc)
283d8e83994SBen Skeggs {
284d8e83994SBen Skeggs struct gk20a_instobj *node = gk20a_instobj(memory);
2859202d732SBen Skeggs struct nvkm_vmm_map map = {
2869202d732SBen Skeggs .memory = &node->memory,
2879202d732SBen Skeggs .offset = offset,
2889202d732SBen Skeggs .mem = node->mn,
2899202d732SBen Skeggs };
2909202d732SBen Skeggs
2919202d732SBen Skeggs return nvkm_vmm_map(vmm, vma, argv, argc, &map);
2929202d732SBen Skeggs }
2939202d732SBen Skeggs
29469c49382SAlexandre Courbot static void *
gk20a_instobj_dtor_dma(struct nvkm_memory * memory)29569c49382SAlexandre Courbot gk20a_instobj_dtor_dma(struct nvkm_memory *memory)
296a7f6da6eSAlexandre Courbot {
29769c49382SAlexandre Courbot struct gk20a_instobj_dma *node = gk20a_instobj_dma(memory);
29869c49382SAlexandre Courbot struct gk20a_instmem *imem = node->base.imem;
29969c49382SAlexandre Courbot struct device *dev = imem->base.subdev.device->dev;
30069c49382SAlexandre Courbot
301b306712dSAlexandre Courbot if (unlikely(!node->base.vaddr))
30269c49382SAlexandre Courbot goto out;
30369c49382SAlexandre Courbot
3049202d732SBen Skeggs dma_free_attrs(dev, (u64)node->base.mn->length << PAGE_SHIFT,
3059202d732SBen Skeggs node->base.vaddr, node->handle, imem->attrs);
30669c49382SAlexandre Courbot
30769c49382SAlexandre Courbot out:
30869c49382SAlexandre Courbot return node;
30969c49382SAlexandre Courbot }
31069c49382SAlexandre Courbot
31169c49382SAlexandre Courbot static void *
gk20a_instobj_dtor_iommu(struct nvkm_memory * memory)31269c49382SAlexandre Courbot gk20a_instobj_dtor_iommu(struct nvkm_memory *memory)
31369c49382SAlexandre Courbot {
31469c49382SAlexandre Courbot struct gk20a_instobj_iommu *node = gk20a_instobj_iommu(memory);
31569c49382SAlexandre Courbot struct gk20a_instmem *imem = node->base.imem;
31669c49382SAlexandre Courbot struct device *dev = imem->base.subdev.device->dev;
3179202d732SBen Skeggs struct nvkm_mm_node *r = node->base.mn;
318a7f6da6eSAlexandre Courbot int i;
319a7f6da6eSAlexandre Courbot
320134fdc1aSBen Skeggs if (unlikely(!r))
32169c49382SAlexandre Courbot goto out;
32269c49382SAlexandre Courbot
323e5ffa727SThierry Reding mutex_lock(&imem->lock);
324b306712dSAlexandre Courbot
325b306712dSAlexandre Courbot /* vaddr has already been recycled */
326b306712dSAlexandre Courbot if (node->base.vaddr)
327b306712dSAlexandre Courbot gk20a_instobj_iommu_recycle_vaddr(node);
328b306712dSAlexandre Courbot
329e5ffa727SThierry Reding mutex_unlock(&imem->lock);
330b306712dSAlexandre Courbot
33168b56653SAlexandre Courbot /* clear IOMMU bit to unmap pages */
33268b56653SAlexandre Courbot r->offset &= ~BIT(imem->iommu_bit - imem->iommu_pgshift);
333a7f6da6eSAlexandre Courbot
334a7f6da6eSAlexandre Courbot /* Unmap pages from GPU address space and free them */
3359202d732SBen Skeggs for (i = 0; i < node->base.mn->length; i++) {
336c44c06aeSBen Skeggs iommu_unmap(imem->domain,
337c44c06aeSBen Skeggs (r->offset + i) << imem->iommu_pgshift, PAGE_SIZE);
33869c49382SAlexandre Courbot dma_unmap_page(dev, node->dma_addrs[i], PAGE_SIZE,
33969c49382SAlexandre Courbot DMA_BIDIRECTIONAL);
340a7f6da6eSAlexandre Courbot __free_page(node->pages[i]);
341a7f6da6eSAlexandre Courbot }
342a7f6da6eSAlexandre Courbot
343a7f6da6eSAlexandre Courbot /* Release area from GPU address space */
344c44c06aeSBen Skeggs mutex_lock(imem->mm_mutex);
345c44c06aeSBen Skeggs nvkm_mm_free(imem->mm, &r);
346c44c06aeSBen Skeggs mutex_unlock(imem->mm_mutex);
347a7f6da6eSAlexandre Courbot
34869c49382SAlexandre Courbot out:
349d8e83994SBen Skeggs return node;
350a6ff85d3SAlexandre Courbot }
351a6ff85d3SAlexandre Courbot
352d8e83994SBen Skeggs static const struct nvkm_memory_func
35369c49382SAlexandre Courbot gk20a_instobj_func_dma = {
35469c49382SAlexandre Courbot .dtor = gk20a_instobj_dtor_dma,
35569c49382SAlexandre Courbot .target = gk20a_instobj_target,
356bd275f1dSBen Skeggs .page = gk20a_instobj_page,
35769c49382SAlexandre Courbot .addr = gk20a_instobj_addr,
35869c49382SAlexandre Courbot .size = gk20a_instobj_size,
359b306712dSAlexandre Courbot .acquire = gk20a_instobj_acquire_dma,
360b306712dSAlexandre Courbot .release = gk20a_instobj_release_dma,
36169c49382SAlexandre Courbot .map = gk20a_instobj_map,
36269c49382SAlexandre Courbot };
36369c49382SAlexandre Courbot
36469c49382SAlexandre Courbot static const struct nvkm_memory_func
36569c49382SAlexandre Courbot gk20a_instobj_func_iommu = {
36669c49382SAlexandre Courbot .dtor = gk20a_instobj_dtor_iommu,
367d8e83994SBen Skeggs .target = gk20a_instobj_target,
368bd275f1dSBen Skeggs .page = gk20a_instobj_page,
369d8e83994SBen Skeggs .addr = gk20a_instobj_addr,
370d8e83994SBen Skeggs .size = gk20a_instobj_size,
371b306712dSAlexandre Courbot .acquire = gk20a_instobj_acquire_iommu,
372b306712dSAlexandre Courbot .release = gk20a_instobj_release_iommu,
37307bbc1c5SBen Skeggs .map = gk20a_instobj_map,
37407bbc1c5SBen Skeggs };
37507bbc1c5SBen Skeggs
37607bbc1c5SBen Skeggs static const struct nvkm_memory_ptrs
37707bbc1c5SBen Skeggs gk20a_instobj_ptrs = {
378d8e83994SBen Skeggs .rd32 = gk20a_instobj_rd32,
379d8e83994SBen Skeggs .wr32 = gk20a_instobj_wr32,
380d8e83994SBen Skeggs };
381d8e83994SBen Skeggs
382a6ff85d3SAlexandre Courbot static int
gk20a_instobj_ctor_dma(struct gk20a_instmem * imem,u32 npages,u32 align,struct gk20a_instobj ** _node)383d8e83994SBen Skeggs gk20a_instobj_ctor_dma(struct gk20a_instmem *imem, u32 npages, u32 align,
384c44c06aeSBen Skeggs struct gk20a_instobj **_node)
385a6ff85d3SAlexandre Courbot {
386a7f6da6eSAlexandre Courbot struct gk20a_instobj_dma *node;
38700c55507SBen Skeggs struct nvkm_subdev *subdev = &imem->base.subdev;
388d8e83994SBen Skeggs struct device *dev = subdev->device->dev;
389a6ff85d3SAlexandre Courbot
390d8e83994SBen Skeggs if (!(node = kzalloc(sizeof(*node), GFP_KERNEL)))
391d8e83994SBen Skeggs return -ENOMEM;
392a7f6da6eSAlexandre Courbot *_node = &node->base;
393a6ff85d3SAlexandre Courbot
39469c49382SAlexandre Courbot nvkm_memory_ctor(&gk20a_instobj_func_dma, &node->base.memory);
39507bbc1c5SBen Skeggs node->base.memory.ptrs = &gk20a_instobj_ptrs;
39669c49382SAlexandre Courbot
397b306712dSAlexandre Courbot node->base.vaddr = dma_alloc_attrs(dev, npages << PAGE_SHIFT,
3985dc240bcSAlexandre Courbot &node->handle, GFP_KERNEL,
39900085f1eSKrzysztof Kozlowski imem->attrs);
400b306712dSAlexandre Courbot if (!node->base.vaddr) {
40100c55507SBen Skeggs nvkm_error(subdev, "cannot allocate DMA memory\n");
402a6ff85d3SAlexandre Courbot return -ENOMEM;
403a6ff85d3SAlexandre Courbot }
404a6ff85d3SAlexandre Courbot
405a6ff85d3SAlexandre Courbot /* alignment check */
406a6ff85d3SAlexandre Courbot if (unlikely(node->handle & (align - 1)))
40700c55507SBen Skeggs nvkm_warn(subdev,
40800c55507SBen Skeggs "memory not aligned as requested: %pad (0x%x)\n",
409a6ff85d3SAlexandre Courbot &node->handle, align);
410a6ff85d3SAlexandre Courbot
411a7f6da6eSAlexandre Courbot /* present memory for being mapped using small pages */
412a7f6da6eSAlexandre Courbot node->r.type = 12;
413a7f6da6eSAlexandre Courbot node->r.offset = node->handle >> 12;
414a7f6da6eSAlexandre Courbot node->r.length = (npages << PAGE_SHIFT) >> 12;
415a7f6da6eSAlexandre Courbot
4169202d732SBen Skeggs node->base.mn = &node->r;
417a7f6da6eSAlexandre Courbot return 0;
418a7f6da6eSAlexandre Courbot }
419a7f6da6eSAlexandre Courbot
420a7f6da6eSAlexandre Courbot static int
gk20a_instobj_ctor_iommu(struct gk20a_instmem * imem,u32 npages,u32 align,struct gk20a_instobj ** _node)421d8e83994SBen Skeggs gk20a_instobj_ctor_iommu(struct gk20a_instmem *imem, u32 npages, u32 align,
422c44c06aeSBen Skeggs struct gk20a_instobj **_node)
423a7f6da6eSAlexandre Courbot {
424a7f6da6eSAlexandre Courbot struct gk20a_instobj_iommu *node;
42500c55507SBen Skeggs struct nvkm_subdev *subdev = &imem->base.subdev;
42669c49382SAlexandre Courbot struct device *dev = subdev->device->dev;
427a7f6da6eSAlexandre Courbot struct nvkm_mm_node *r;
428a7f6da6eSAlexandre Courbot int ret;
429a7f6da6eSAlexandre Courbot int i;
430a7f6da6eSAlexandre Courbot
43169c49382SAlexandre Courbot /*
43269c49382SAlexandre Courbot * despite their variable size, instmem allocations are small enough
43369c49382SAlexandre Courbot * (< 1 page) to be handled by kzalloc
43469c49382SAlexandre Courbot */
43569c49382SAlexandre Courbot if (!(node = kzalloc(sizeof(*node) + ((sizeof(node->pages[0]) +
43669c49382SAlexandre Courbot sizeof(*node->dma_addrs)) * npages), GFP_KERNEL)))
437d8e83994SBen Skeggs return -ENOMEM;
438a7f6da6eSAlexandre Courbot *_node = &node->base;
43969c49382SAlexandre Courbot node->dma_addrs = (void *)(node->pages + npages);
44069c49382SAlexandre Courbot
44169c49382SAlexandre Courbot nvkm_memory_ctor(&gk20a_instobj_func_iommu, &node->base.memory);
44207bbc1c5SBen Skeggs node->base.memory.ptrs = &gk20a_instobj_ptrs;
443a7f6da6eSAlexandre Courbot
444a7f6da6eSAlexandre Courbot /* Allocate backing memory */
445a7f6da6eSAlexandre Courbot for (i = 0; i < npages; i++) {
446a7f6da6eSAlexandre Courbot struct page *p = alloc_page(GFP_KERNEL);
44769c49382SAlexandre Courbot dma_addr_t dma_adr;
448a7f6da6eSAlexandre Courbot
449a7f6da6eSAlexandre Courbot if (p == NULL) {
450a7f6da6eSAlexandre Courbot ret = -ENOMEM;
451a7f6da6eSAlexandre Courbot goto free_pages;
452a7f6da6eSAlexandre Courbot }
453a7f6da6eSAlexandre Courbot node->pages[i] = p;
45469c49382SAlexandre Courbot dma_adr = dma_map_page(dev, p, 0, PAGE_SIZE, DMA_BIDIRECTIONAL);
45569c49382SAlexandre Courbot if (dma_mapping_error(dev, dma_adr)) {
45669c49382SAlexandre Courbot nvkm_error(subdev, "DMA mapping error!\n");
45769c49382SAlexandre Courbot ret = -ENOMEM;
45869c49382SAlexandre Courbot goto free_pages;
45969c49382SAlexandre Courbot }
46069c49382SAlexandre Courbot node->dma_addrs[i] = dma_adr;
461a7f6da6eSAlexandre Courbot }
462a7f6da6eSAlexandre Courbot
463c44c06aeSBen Skeggs mutex_lock(imem->mm_mutex);
464a7f6da6eSAlexandre Courbot /* Reserve area from GPU address space */
465c44c06aeSBen Skeggs ret = nvkm_mm_head(imem->mm, 0, 1, npages, npages,
466c44c06aeSBen Skeggs align >> imem->iommu_pgshift, &r);
467c44c06aeSBen Skeggs mutex_unlock(imem->mm_mutex);
468a7f6da6eSAlexandre Courbot if (ret) {
46969c49382SAlexandre Courbot nvkm_error(subdev, "IOMMU space is full!\n");
470a7f6da6eSAlexandre Courbot goto free_pages;
471a7f6da6eSAlexandre Courbot }
472a7f6da6eSAlexandre Courbot
473a7f6da6eSAlexandre Courbot /* Map into GPU address space */
474a7f6da6eSAlexandre Courbot for (i = 0; i < npages; i++) {
475c44c06aeSBen Skeggs u32 offset = (r->offset + i) << imem->iommu_pgshift;
476a7f6da6eSAlexandre Courbot
47769c49382SAlexandre Courbot ret = iommu_map(imem->domain, offset, node->dma_addrs[i],
478*1369459bSJason Gunthorpe PAGE_SIZE, IOMMU_READ | IOMMU_WRITE,
479*1369459bSJason Gunthorpe GFP_KERNEL);
480a7f6da6eSAlexandre Courbot if (ret < 0) {
48100c55507SBen Skeggs nvkm_error(subdev, "IOMMU mapping failure: %d\n", ret);
482a7f6da6eSAlexandre Courbot
483a7f6da6eSAlexandre Courbot while (i-- > 0) {
484a7f6da6eSAlexandre Courbot offset -= PAGE_SIZE;
485c44c06aeSBen Skeggs iommu_unmap(imem->domain, offset, PAGE_SIZE);
486a7f6da6eSAlexandre Courbot }
487a7f6da6eSAlexandre Courbot goto release_area;
488a7f6da6eSAlexandre Courbot }
489a7f6da6eSAlexandre Courbot }
490a7f6da6eSAlexandre Courbot
49168b56653SAlexandre Courbot /* IOMMU bit tells that an address is to be resolved through the IOMMU */
49268b56653SAlexandre Courbot r->offset |= BIT(imem->iommu_bit - imem->iommu_pgshift);
493a7f6da6eSAlexandre Courbot
4949202d732SBen Skeggs node->base.mn = r;
495a7f6da6eSAlexandre Courbot return 0;
496a7f6da6eSAlexandre Courbot
497a7f6da6eSAlexandre Courbot release_area:
498c44c06aeSBen Skeggs mutex_lock(imem->mm_mutex);
499c44c06aeSBen Skeggs nvkm_mm_free(imem->mm, &r);
500c44c06aeSBen Skeggs mutex_unlock(imem->mm_mutex);
501a7f6da6eSAlexandre Courbot
502a7f6da6eSAlexandre Courbot free_pages:
50369c49382SAlexandre Courbot for (i = 0; i < npages && node->pages[i] != NULL; i++) {
50469c49382SAlexandre Courbot dma_addr_t dma_addr = node->dma_addrs[i];
50569c49382SAlexandre Courbot if (dma_addr)
50669c49382SAlexandre Courbot dma_unmap_page(dev, dma_addr, PAGE_SIZE,
50769c49382SAlexandre Courbot DMA_BIDIRECTIONAL);
508a7f6da6eSAlexandre Courbot __free_page(node->pages[i]);
50969c49382SAlexandre Courbot }
510a7f6da6eSAlexandre Courbot
511a7f6da6eSAlexandre Courbot return ret;
512a7f6da6eSAlexandre Courbot }
513a7f6da6eSAlexandre Courbot
514a7f6da6eSAlexandre Courbot static int
gk20a_instobj_new(struct nvkm_instmem * base,u32 size,u32 align,bool zero,struct nvkm_memory ** pmemory)515d8e83994SBen Skeggs gk20a_instobj_new(struct nvkm_instmem *base, u32 size, u32 align, bool zero,
516d8e83994SBen Skeggs struct nvkm_memory **pmemory)
517a7f6da6eSAlexandre Courbot {
518d8e83994SBen Skeggs struct gk20a_instmem *imem = gk20a_instmem(base);
51900c55507SBen Skeggs struct nvkm_subdev *subdev = &imem->base.subdev;
52069c49382SAlexandre Courbot struct gk20a_instobj *node = NULL;
521a7f6da6eSAlexandre Courbot int ret;
522a7f6da6eSAlexandre Courbot
52300c55507SBen Skeggs nvkm_debug(subdev, "%s (%s): size: %x align: %x\n", __func__,
524d8e83994SBen Skeggs imem->domain ? "IOMMU" : "DMA", size, align);
525a7f6da6eSAlexandre Courbot
526a7f6da6eSAlexandre Courbot /* Round size and align to page bounds */
527d8e83994SBen Skeggs size = max(roundup(size, PAGE_SIZE), PAGE_SIZE);
528d8e83994SBen Skeggs align = max(roundup(align, PAGE_SIZE), PAGE_SIZE);
529a7f6da6eSAlexandre Courbot
530c44c06aeSBen Skeggs if (imem->domain)
531d8e83994SBen Skeggs ret = gk20a_instobj_ctor_iommu(imem, size >> PAGE_SHIFT,
532d8e83994SBen Skeggs align, &node);
533a7f6da6eSAlexandre Courbot else
534d8e83994SBen Skeggs ret = gk20a_instobj_ctor_dma(imem, size >> PAGE_SHIFT,
535d8e83994SBen Skeggs align, &node);
536b7a2bc18SBen Skeggs *pmemory = node ? &node->memory : NULL;
537a7f6da6eSAlexandre Courbot if (ret)
538a7f6da6eSAlexandre Courbot return ret;
539a7f6da6eSAlexandre Courbot
540d8e83994SBen Skeggs node->imem = imem;
541a7f6da6eSAlexandre Courbot
54200c55507SBen Skeggs nvkm_debug(subdev, "alloc size: 0x%x, align: 0x%x, gaddr: 0x%llx\n",
5439202d732SBen Skeggs size, align, (u64)node->mn->offset << 12);
544a6ff85d3SAlexandre Courbot
545a6ff85d3SAlexandre Courbot return 0;
546a6ff85d3SAlexandre Courbot }
547a6ff85d3SAlexandre Courbot
54869c49382SAlexandre Courbot static void *
gk20a_instmem_dtor(struct nvkm_instmem * base)54969c49382SAlexandre Courbot gk20a_instmem_dtor(struct nvkm_instmem *base)
550a6ff85d3SAlexandre Courbot {
55169c49382SAlexandre Courbot struct gk20a_instmem *imem = gk20a_instmem(base);
55269c49382SAlexandre Courbot
55369c49382SAlexandre Courbot /* perform some sanity checks... */
55469c49382SAlexandre Courbot if (!list_empty(&imem->vaddr_lru))
55569c49382SAlexandre Courbot nvkm_warn(&base->subdev, "instobj LRU not empty!\n");
55669c49382SAlexandre Courbot
55769c49382SAlexandre Courbot if (imem->vaddr_use != 0)
55869c49382SAlexandre Courbot nvkm_warn(&base->subdev, "instobj vmap area not empty! "
55969c49382SAlexandre Courbot "0x%x bytes still mapped\n", imem->vaddr_use);
56069c49382SAlexandre Courbot
56169c49382SAlexandre Courbot return imem;
562a6ff85d3SAlexandre Courbot }
563a6ff85d3SAlexandre Courbot
564b7a2bc18SBen Skeggs static const struct nvkm_instmem_func
565b7a2bc18SBen Skeggs gk20a_instmem = {
56669c49382SAlexandre Courbot .dtor = gk20a_instmem_dtor,
567b7a2bc18SBen Skeggs .memory_new = gk20a_instobj_new,
568b7a2bc18SBen Skeggs .zero = false,
569b7a2bc18SBen Skeggs };
570b7a2bc18SBen Skeggs
571b7a2bc18SBen Skeggs int
gk20a_instmem_new(struct nvkm_device * device,enum nvkm_subdev_type type,int inst,struct nvkm_instmem ** pimem)572d9691a22SBen Skeggs gk20a_instmem_new(struct nvkm_device *device, enum nvkm_subdev_type type, int inst,
573b7a2bc18SBen Skeggs struct nvkm_instmem **pimem)
574a6ff85d3SAlexandre Courbot {
57543a70661SBen Skeggs struct nvkm_device_tegra *tdev = device->func->tegra(device);
576c44c06aeSBen Skeggs struct gk20a_instmem *imem;
577a6ff85d3SAlexandre Courbot
578b7a2bc18SBen Skeggs if (!(imem = kzalloc(sizeof(*imem), GFP_KERNEL)))
579b7a2bc18SBen Skeggs return -ENOMEM;
580d9691a22SBen Skeggs nvkm_instmem_ctor(&gk20a_instmem, device, type, inst, &imem->base);
581e5ffa727SThierry Reding mutex_init(&imem->lock);
582b7a2bc18SBen Skeggs *pimem = &imem->base;
583a6ff85d3SAlexandre Courbot
58469c49382SAlexandre Courbot /* do not allow more than 1MB of CPU-mapped instmem */
58569c49382SAlexandre Courbot imem->vaddr_use = 0;
58669c49382SAlexandre Courbot imem->vaddr_max = 0x100000;
58769c49382SAlexandre Courbot INIT_LIST_HEAD(&imem->vaddr_lru);
58869c49382SAlexandre Courbot
58943a70661SBen Skeggs if (tdev->iommu.domain) {
59043a70661SBen Skeggs imem->mm_mutex = &tdev->iommu.mutex;
59169c49382SAlexandre Courbot imem->mm = &tdev->iommu.mm;
59269c49382SAlexandre Courbot imem->domain = tdev->iommu.domain;
59369c49382SAlexandre Courbot imem->iommu_pgshift = tdev->iommu.pgshift;
59468b56653SAlexandre Courbot imem->iommu_bit = tdev->func->iommu_bit;
595a7f6da6eSAlexandre Courbot
59600c55507SBen Skeggs nvkm_info(&imem->base.subdev, "using IOMMU\n");
597a7f6da6eSAlexandre Courbot } else {
598e0ec8a4dSChristoph Hellwig imem->attrs = DMA_ATTR_WEAK_ORDERING |
59900085f1eSKrzysztof Kozlowski DMA_ATTR_WRITE_COMBINE;
6005dc240bcSAlexandre Courbot
60100c55507SBen Skeggs nvkm_info(&imem->base.subdev, "using DMA API\n");
602a7f6da6eSAlexandre Courbot }
603a7f6da6eSAlexandre Courbot
604a6ff85d3SAlexandre Courbot return 0;
605a6ff85d3SAlexandre Courbot }
606