mirror of
https://github.com/NVIDIA/open-gpu-kernel-modules.git
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173 lines
6.6 KiB
C
173 lines
6.6 KiB
C
/*******************************************************************************
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Copyright (c) 2016-2019 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_test.h"
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#include "uvm_va_space.h"
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#include "uvm_mem.h"
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#include "uvm_push.h"
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#include "uvm_hal.h"
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#define MEM_ALLOCATION_SIZE (4 * 1024 * 1024)
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static NV_STATUS try_peer_access_remote_gpu_memory(uvm_gpu_t *local_gpu, uvm_gpu_t *peer_gpu)
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{
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NV_STATUS status = NV_OK;
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uvm_mem_t *vidmem = NULL;
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uvm_mem_t *sysmem = NULL;
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uvm_push_t push;
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uvm_gpu_address_t local_gpu_sysmem = {0};
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uvm_gpu_address_t peer_gpu_sysmem = {0};
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uvm_gpu_address_t peer_gpu_vidmem = {0};
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void *cpu_va = NULL;
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volatile NvU32 *cpu_array;
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NvU32 i;
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// allocate CPU memory
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status = uvm_mem_alloc_sysmem_and_map_cpu_kernel(MEM_ALLOCATION_SIZE, current->mm, &sysmem);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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// get CPU address
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cpu_va = uvm_mem_get_cpu_addr_kernel(sysmem);
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TEST_CHECK_GOTO(cpu_va != 0, cleanup);
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cpu_array = (volatile NvU32 *)cpu_va;
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// map sysmem to both GPUs
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status = uvm_mem_map_gpu_kernel(sysmem, local_gpu);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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status = uvm_mem_map_gpu_kernel(sysmem, peer_gpu);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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// get local GPU address for the sysmem
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local_gpu_sysmem = uvm_mem_gpu_address_virtual_kernel(sysmem, local_gpu);
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TEST_CHECK_GOTO(local_gpu_sysmem.address != 0, cleanup);
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peer_gpu_sysmem = uvm_mem_gpu_address_virtual_kernel(sysmem, peer_gpu);
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TEST_CHECK_GOTO(peer_gpu_sysmem.address != 0, cleanup);
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// allocate vidmem on remote GPU
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status = uvm_mem_alloc_vidmem(MEM_ALLOCATION_SIZE, peer_gpu, &vidmem);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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TEST_CHECK_GOTO(IS_ALIGNED(MEM_ALLOCATION_SIZE, vidmem->chunk_size), cleanup);
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// map onto GPU
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status = uvm_mem_map_gpu_kernel(vidmem, peer_gpu);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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// get remote GPU virtual address for its vidmem
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peer_gpu_vidmem = uvm_mem_gpu_address_virtual_kernel(vidmem, peer_gpu);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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// initialize memory using CPU
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for (i = 0; i < MEM_ALLOCATION_SIZE / sizeof(NvU32); i++)
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cpu_array[i] = i;
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// copy sysmem to remote GPUs memory
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status = uvm_push_begin(peer_gpu->channel_manager,
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UVM_CHANNEL_TYPE_CPU_TO_GPU,
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&push,
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"peer identity mapping test initialization");
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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peer_gpu->parent->ce_hal->memcopy(&push, peer_gpu_vidmem, peer_gpu_sysmem, MEM_ALLOCATION_SIZE);
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status = uvm_push_end_and_wait(&push);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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// set the sysmem back to zero
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memset((void *)cpu_array, '\0', MEM_ALLOCATION_SIZE);
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// use the peer mapping to copy back to sysmem
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status = uvm_push_begin(local_gpu->channel_manager,
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UVM_CHANNEL_TYPE_GPU_TO_GPU,
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&push,
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"peer identity mapping test");
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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for (i = 0; i < MEM_ALLOCATION_SIZE / vidmem->chunk_size; i++) {
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uvm_gpu_address_t local_gpu_peer = uvm_mem_gpu_address_copy(vidmem,
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local_gpu,
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vidmem->chunk_size * i,
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vidmem->chunk_size);
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uvm_gpu_address_t local_gpu_sysmem_offset = local_gpu_sysmem;
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local_gpu_sysmem_offset.address += vidmem->chunk_size * i;
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local_gpu->parent->ce_hal->memcopy(&push, local_gpu_sysmem_offset, local_gpu_peer, vidmem->chunk_size);
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}
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status = uvm_push_end_and_wait(&push);
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TEST_CHECK_GOTO(status == NV_OK, cleanup);
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for (i = 0; i < MEM_ALLOCATION_SIZE / sizeof(NvU32); i++) {
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if (cpu_array[i] != i) {
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UVM_TEST_PRINT("Expected %u at offset %u but got %u\n", i, i, cpu_array[i]);
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status = NV_ERR_INVALID_STATE;
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}
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}
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cleanup:
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uvm_mem_free(vidmem);
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uvm_mem_free(sysmem);
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return status;
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}
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NV_STATUS uvm_test_peer_identity_mappings(UVM_TEST_PEER_IDENTITY_MAPPINGS_PARAMS *params, struct file *filp)
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{
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NV_STATUS status;
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uvm_gpu_t *gpu_a;
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uvm_gpu_t *gpu_b;
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uvm_va_space_t *va_space = uvm_va_space_get(filp);
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uvm_va_space_down_read(va_space);
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gpu_a = uvm_va_space_get_gpu_by_uuid(va_space, ¶ms->gpuA);
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gpu_b = uvm_va_space_get_gpu_by_uuid(va_space, ¶ms->gpuB);
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if (gpu_a == NULL || gpu_b == NULL) {
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status = NV_ERR_INVALID_DEVICE;
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goto done;
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}
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if (gpu_a->parent->peer_copy_mode != gpu_b->parent->peer_copy_mode) {
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status = NV_ERR_INVALID_DEVICE;
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goto done;
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}
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if (gpu_a->parent->peer_copy_mode != UVM_GPU_PEER_COPY_MODE_VIRTUAL) {
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status = NV_WARN_NOTHING_TO_DO;
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goto done;
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}
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// Indirect peers don't use identity mappings
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if (!uvm_processor_mask_test(&va_space->can_access[uvm_id_value(gpu_a->id)], gpu_b->id) ||
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uvm_processor_mask_test(&va_space->indirect_peers[uvm_id_value(gpu_a->id)], gpu_b->id)) {
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status = NV_ERR_INVALID_DEVICE;
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goto done;
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}
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status = try_peer_access_remote_gpu_memory(gpu_a, gpu_b);
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if (status != NV_OK)
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goto done;
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status = try_peer_access_remote_gpu_memory(gpu_b, gpu_a);
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if (status != NV_OK)
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goto done;
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done:
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uvm_va_space_up_read(va_space);
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return status;
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}
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