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https://github.com/NVIDIA/open-gpu-kernel-modules.git
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436 lines
13 KiB
C
436 lines
13 KiB
C
/*******************************************************************************
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Copyright (c) 2015-2021 NVIDIA Corporation
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to
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deal in the Software without restriction, including without limitation the
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rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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sell copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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DEALINGS IN THE SOFTWARE.
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*******************************************************************************/
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#include "uvm_rm_mem.h"
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#include "uvm_gpu.h"
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#include "uvm_global.h"
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#include "uvm_kvmalloc.h"
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#include "uvm_linux.h"
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#include "nv_uvm_interface.h"
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bool uvm_rm_mem_mapped_on_gpu(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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return uvm_global_processor_mask_test(&rm_mem->mapped_on, gpu->global_id);
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}
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bool uvm_rm_mem_mapped_on_gpu_proxy(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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if (rm_mem->proxy_vas == NULL)
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return false;
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if (rm_mem->proxy_vas[uvm_global_id_value(gpu->global_id)] == 0)
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return false;
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UVM_ASSERT(uvm_rm_mem_mapped_on_gpu(rm_mem, gpu));
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UVM_ASSERT(uvm_gpu_uses_proxy_channel_pool(gpu));
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return true;
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}
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bool uvm_rm_mem_mapped_on_cpu(uvm_rm_mem_t *rm_mem)
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{
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return uvm_global_processor_mask_test(&rm_mem->mapped_on, UVM_GLOBAL_ID_CPU);
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}
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static void rm_mem_set_gpu_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu, NvU64 va)
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{
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rm_mem->vas[uvm_global_id_value(gpu->global_id)] = va;
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uvm_global_processor_mask_set(&rm_mem->mapped_on, gpu->global_id);
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}
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static void rm_mem_set_gpu_proxy_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu, NvU64 va)
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{
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rm_mem->proxy_vas[uvm_global_id_value(gpu->global_id)] = va;
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}
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static void rm_mem_set_cpu_va(uvm_rm_mem_t *rm_mem, void *va)
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{
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rm_mem->vas[UVM_GLOBAL_ID_CPU_VALUE] = (uintptr_t) va;
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uvm_global_processor_mask_set(&rm_mem->mapped_on, UVM_GLOBAL_ID_CPU);
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}
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static void rm_mem_clear_gpu_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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UVM_ASSERT(!uvm_rm_mem_mapped_on_gpu_proxy(rm_mem, gpu));
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uvm_global_processor_mask_clear(&rm_mem->mapped_on, gpu->global_id);
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rm_mem->vas[uvm_global_id_value(gpu->global_id)] = 0;
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}
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static void rm_mem_clear_gpu_proxy_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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rm_mem->proxy_vas[uvm_global_id_value(gpu->global_id)] = 0;
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}
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static void rm_mem_clear_cpu_va(uvm_rm_mem_t *rm_mem)
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{
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uvm_global_processor_mask_clear(&rm_mem->mapped_on, UVM_GLOBAL_ID_CPU);
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rm_mem->vas[UVM_GLOBAL_ID_CPU_VALUE] = 0;
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}
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NvU64 uvm_rm_mem_get_gpu_uvm_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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UVM_ASSERT_MSG(uvm_rm_mem_mapped_on_gpu(rm_mem, gpu), "GPU %s\n", uvm_gpu_name(gpu));
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return rm_mem->vas[uvm_global_id_value(gpu->global_id)];
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}
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NvU64 uvm_rm_mem_get_gpu_proxy_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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UVM_ASSERT(uvm_rm_mem_mapped_on_gpu_proxy(rm_mem, gpu));
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return rm_mem->proxy_vas[uvm_global_id_value(gpu->global_id)];
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}
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NvU64 uvm_rm_mem_get_gpu_va(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu, bool is_proxy_va_space)
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{
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if (is_proxy_va_space)
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return uvm_rm_mem_get_gpu_proxy_va(rm_mem, gpu);
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else
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return uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu);
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}
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void *uvm_rm_mem_get_cpu_va(uvm_rm_mem_t *rm_mem)
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{
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UVM_ASSERT(uvm_rm_mem_mapped_on_cpu(rm_mem));
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return (void *)(uintptr_t)rm_mem->vas[UVM_GLOBAL_ID_CPU_VALUE];
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}
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static NV_STATUS rm_mem_map_gpu_proxy(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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NV_STATUS status;
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uvm_gpu_t *gpu_owner;
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NvU64 gpu_owner_va;
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NvU64 proxy_va;
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UVM_ASSERT(uvm_rm_mem_mapped_on_gpu(rm_mem, gpu));
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if (!uvm_gpu_uses_proxy_channel_pool(gpu))
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return NV_OK;
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if (uvm_rm_mem_mapped_on_gpu_proxy(rm_mem, gpu))
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return NV_OK;
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if (rm_mem->proxy_vas == NULL) {
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NvU64 *proxy_vas = uvm_kvmalloc_zero(sizeof(rm_mem->vas));
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if (proxy_vas == NULL)
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return NV_ERR_NO_MEMORY;
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rm_mem->proxy_vas = proxy_vas;
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}
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gpu_owner = rm_mem->gpu_owner;
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gpu_owner_va = uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu_owner);
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status = uvm_rm_locked_call(nvUvmInterfacePagingChannelsMap(gpu_owner->rm_address_space,
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gpu_owner_va,
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uvm_gpu_device_handle(gpu),
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&proxy_va));
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if (status != NV_OK) {
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UVM_ERR_PRINT("nvUvmInterfacePagingChannelsMap() failed: %s, src GPU %s, dst GPU %s\n",
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nvstatusToString(status),
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uvm_gpu_name(gpu_owner),
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uvm_gpu_name(gpu));
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return status;
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}
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rm_mem_set_gpu_proxy_va(rm_mem, gpu, proxy_va);
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return NV_OK;
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}
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static void rm_mem_unmap_gpu_proxy(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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uvm_gpu_t *gpu_owner;
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NvU64 gpu_owner_va;
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if (!uvm_rm_mem_mapped_on_gpu_proxy(rm_mem, gpu))
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return;
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gpu_owner = rm_mem->gpu_owner;
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gpu_owner_va = uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu_owner);
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uvm_rm_locked_call_void(nvUvmInterfacePagingChannelsUnmap(gpu_owner->rm_address_space,
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gpu_owner_va,
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uvm_gpu_device_handle(gpu)));
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rm_mem_clear_gpu_proxy_va(rm_mem, gpu);
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}
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NV_STATUS uvm_rm_mem_alloc(uvm_gpu_t *gpu, uvm_rm_mem_type_t type, NvLength size, uvm_rm_mem_t **rm_mem_out)
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{
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NV_STATUS status = NV_OK;
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uvm_rm_mem_t *rm_mem;
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UvmGpuAllocInfo alloc_info = {0};
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NvU64 gpu_va;
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UVM_ASSERT(gpu);
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UVM_ASSERT((type == UVM_RM_MEM_TYPE_SYS) || (type == UVM_RM_MEM_TYPE_GPU));
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UVM_ASSERT(size != 0);
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rm_mem = uvm_kvmalloc_zero(sizeof(*rm_mem));
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if (rm_mem == NULL)
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return NV_ERR_NO_MEMORY;
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if (type == UVM_RM_MEM_TYPE_SYS)
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status = uvm_rm_locked_call(nvUvmInterfaceMemoryAllocSys(gpu->rm_address_space, size, &gpu_va, &alloc_info));
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else
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status = uvm_rm_locked_call(nvUvmInterfaceMemoryAllocFB(gpu->rm_address_space, size, &gpu_va, &alloc_info));
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if (status != NV_OK) {
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UVM_ERR_PRINT("nvUvmInterfaceMemoryAlloc%s() failed: %s, GPU %s\n",
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type == UVM_RM_MEM_TYPE_SYS ? "Sys" : "FB",
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nvstatusToString(status),
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uvm_gpu_name(gpu));
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goto error;
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}
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rm_mem->gpu_owner = gpu;
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rm_mem->type = type;
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rm_mem->size = size;
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rm_mem_set_gpu_va(rm_mem, gpu, gpu_va);
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status = rm_mem_map_gpu_proxy(rm_mem, gpu);
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if (status != NV_OK)
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goto error;
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*rm_mem_out = rm_mem;
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return NV_OK;
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error:
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uvm_rm_mem_free(rm_mem);
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return status;
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}
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NV_STATUS uvm_rm_mem_map_cpu(uvm_rm_mem_t *rm_mem)
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{
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NV_STATUS status;
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uvm_gpu_t *gpu;
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NvU64 gpu_va;
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void *cpu_va;
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UVM_ASSERT(rm_mem);
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if (uvm_rm_mem_mapped_on_cpu(rm_mem))
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return NV_OK;
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gpu = rm_mem->gpu_owner;
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gpu_va = uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu);
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status = uvm_rm_locked_call(nvUvmInterfaceMemoryCpuMap(gpu->rm_address_space,
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gpu_va,
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rm_mem->size,
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&cpu_va,
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UVM_PAGE_SIZE_DEFAULT));
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if (status != NV_OK) {
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UVM_ERR_PRINT("nvUvmInterfaceMemoryCpuMap() failed: %s, GPU %s\n", nvstatusToString(status), uvm_gpu_name(gpu));
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return status;
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}
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rm_mem_set_cpu_va(rm_mem, cpu_va);
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return NV_OK;
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}
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void uvm_rm_mem_unmap_cpu(uvm_rm_mem_t *rm_mem)
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{
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UVM_ASSERT(rm_mem);
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if (!uvm_rm_mem_mapped_on_cpu(rm_mem))
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return;
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uvm_rm_locked_call_void(nvUvmInterfaceMemoryCpuUnMap(rm_mem->gpu_owner->rm_address_space,
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uvm_rm_mem_get_cpu_va(rm_mem)));
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rm_mem_clear_cpu_va(rm_mem);
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}
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NV_STATUS uvm_rm_mem_map_gpu(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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NV_STATUS status;
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uvm_gpu_t *gpu_owner;
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NvU64 gpu_owner_va;
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NvU64 gpu_va;
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UVM_ASSERT(rm_mem);
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UVM_ASSERT(gpu);
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// Peer mappings not supported yet
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UVM_ASSERT(rm_mem->type == UVM_RM_MEM_TYPE_SYS);
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if (uvm_rm_mem_mapped_on_gpu(rm_mem, gpu))
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return NV_OK;
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gpu_owner = rm_mem->gpu_owner;
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gpu_owner_va = uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu_owner);
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status = uvm_rm_locked_call(nvUvmInterfaceDupAllocation(gpu_owner->rm_address_space,
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gpu_owner_va,
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gpu->rm_address_space,
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&gpu_va));
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if (status != NV_OK) {
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UVM_ERR_PRINT("nvUvmInterfaceDupAllocation() failed: %s, src GPU %s, dest GPU %s\n",
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nvstatusToString(status),
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uvm_gpu_name(gpu_owner),
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uvm_gpu_name(gpu));
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return status;
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}
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rm_mem_set_gpu_va(rm_mem, gpu, gpu_va);
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// Map to proxy VA space, if applicable
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return rm_mem_map_gpu_proxy(rm_mem, gpu);
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}
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// This internal unmap variant allows the GPU owner to be unmapped, unlike
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// uvm_rm_mem_unmap_gpu
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static void rm_mem_unmap_gpu(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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NvU64 va;
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if (!uvm_rm_mem_mapped_on_gpu(rm_mem, gpu))
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return;
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// Remove mappings in proxy address space, if any
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rm_mem_unmap_gpu_proxy(rm_mem, gpu);
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va = uvm_rm_mem_get_gpu_uvm_va(rm_mem, gpu);
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uvm_rm_locked_call_void(nvUvmInterfaceMemoryFree(gpu->rm_address_space, va));
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rm_mem_clear_gpu_va(rm_mem, gpu);
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}
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void uvm_rm_mem_unmap_gpu(uvm_rm_mem_t *rm_mem, uvm_gpu_t *gpu)
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{
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UVM_ASSERT(rm_mem);
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UVM_ASSERT(gpu);
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// Cannot unmap from the gpu that owns the allocation.
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UVM_ASSERT_MSG(rm_mem->gpu_owner != gpu, "GPU %s\n", uvm_gpu_name(gpu));
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rm_mem_unmap_gpu(rm_mem, gpu);
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}
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void uvm_rm_mem_free(uvm_rm_mem_t *rm_mem)
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{
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uvm_global_gpu_id_t gpu_id;
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uvm_gpu_t *gpu_owner;
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if (rm_mem == NULL)
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return;
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// If the GPU owner is not set, allocation of backing storage by RM failed
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gpu_owner = rm_mem->gpu_owner;
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if (gpu_owner == NULL) {
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uvm_kvfree(rm_mem);
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return;
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}
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uvm_rm_mem_unmap_cpu(rm_mem);
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// Don't use for_each_global_gpu_in_mask() as the owning GPU might be being
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// destroyed and already removed from the global GPU array causing the iteration
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// to stop prematurely.
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for_each_global_gpu_id_in_mask(gpu_id, &rm_mem->mapped_on) {
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if (!uvm_global_id_equal(gpu_id, gpu_owner->global_id))
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uvm_rm_mem_unmap_gpu(rm_mem, uvm_gpu_get(gpu_id));
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}
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rm_mem_unmap_gpu(rm_mem, gpu_owner);
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UVM_ASSERT_MSG(uvm_global_processor_mask_empty(&rm_mem->mapped_on),
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"Left-over %u mappings in rm_mem\n",
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uvm_global_processor_mask_get_count(&rm_mem->mapped_on));
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uvm_kvfree(rm_mem->proxy_vas);
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uvm_kvfree(rm_mem);
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}
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NV_STATUS uvm_rm_mem_alloc_and_map_cpu(uvm_gpu_t *gpu, uvm_rm_mem_type_t type, NvLength size, uvm_rm_mem_t **rm_mem_out)
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{
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uvm_rm_mem_t *rm_mem;
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NV_STATUS status;
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status = uvm_rm_mem_alloc(gpu, type, size, &rm_mem);
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if (status != NV_OK)
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return status;
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status = uvm_rm_mem_map_cpu(rm_mem);
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if (status != NV_OK)
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goto error;
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*rm_mem_out = rm_mem;
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return NV_OK;
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error:
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uvm_rm_mem_free(rm_mem);
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return status;
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}
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NV_STATUS uvm_rm_mem_map_all_gpus(uvm_rm_mem_t *rm_mem)
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{
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uvm_gpu_t *gpu;
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UVM_ASSERT(rm_mem);
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for_each_global_gpu(gpu) {
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NV_STATUS status = uvm_rm_mem_map_gpu(rm_mem, gpu);
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if (status != NV_OK)
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return status;
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}
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return NV_OK;
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}
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NV_STATUS uvm_rm_mem_alloc_and_map_all(uvm_gpu_t *gpu, uvm_rm_mem_type_t type, NvLength size, uvm_rm_mem_t **rm_mem_out)
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{
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uvm_rm_mem_t *rm_mem;
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NV_STATUS status;
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UVM_ASSERT(gpu);
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status = uvm_rm_mem_alloc_and_map_cpu(gpu, type, size, &rm_mem);
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if (status != NV_OK)
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return status;
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status = uvm_rm_mem_map_all_gpus(rm_mem);
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if (status != NV_OK)
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goto error;
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*rm_mem_out = rm_mem;
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return NV_OK;
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error:
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uvm_rm_mem_free(rm_mem);
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return status;
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}
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