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581 lines
33 KiB
C
581 lines
33 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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#ifndef __UVM_PROCESSORS_H__
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#define __UVM_PROCESSORS_H__
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#include "uvm_linux.h"
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#include "uvm_common.h"
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#define UVM_MAX_UNIQUE_GPU_PAIRS SUM_FROM_0_TO_N(UVM_MAX_GPUS - 1)
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// Processor identifiers
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// =====================
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//
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// UVM uses its own identifiers to refer to the processors in the system. For
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// simplicity (and performance), integers are used. However, in order to
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// provide type safety, they are wrapped within the uvm_processor_id_t struct.
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// The range of valid identifiers needs to cover the maximum number of
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// supported GPUs on a system plus the CPU. CPU is assigned value 0, and GPUs
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// range: [1, UVM_ID_MAX_GPUS].
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//
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// There are some functions that only expect GPU identifiers and, in order to
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// make it clearer, the uvm_gpu_id_t alias type is provided. However, as this
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// type is just a typedef of uvm_processor_id_t, there is no type checking
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// performed by the compiler.
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//
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// Identifier value vs index
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// -------------------------
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//
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// Although we can rely on helpers for most of the operations related to
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// processor ids, there are some scenarios in which we need to obtain their
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// numerical value. Notably:
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// - Logging
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// - Array indexing
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//
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// Therefore, a helper is provided to obtain this value. However, there is a
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// special case for array indexing, as there are some arrays that only contain
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// entries for GPUs. In that case, the array cannot be directly indexed with
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// the identifier's value. Instead, we use a helper that provides the index of
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// the GPU within the GPU id space (basically id - 1).
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//
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// In the diagram below, MAX_SUB is used to abbreviate
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// UVM_ID_MAX_SUB_PROCESSORS.
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//
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// |-------------------------- uvm_processor_id_t ----------------------|
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// | |
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// | |----------------------- uvm_gpu_id_t ------------------------||
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// | | ||
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// Proc type | CPU | GPU ... GPU ... GPU ||
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// | | ||
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// ID values | 0 | 1 ... i+1 ... UVM_ID_MAX_PROCESSORS-1 ||
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//
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// GPU index 0 ... i ... UVM_ID_MAX_GPUS-1
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// | | | |
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// | | | |
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// | |-------------| | |-----------------------------|
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// | | | |
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// | | | |
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// GPU index 0 ... MAX_SUB-1 ... i*MAX_SUB ... (i+1)*MAX_SUB-1 ... UVM_GLOBAL_ID_MAX_GPUS-1
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//
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// ID values | 0 | 1 ... MAX_SUB ... (i*MAX_SUB)+1 ... (i+1)*MAX_SUB ... UVM_GLOBAL_ID_MAX_PROCESSORS-1 ||
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// | | ||
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// Proc type | CPU | GPU ... GPU ... GPU ... GPU ... GPU ||
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// | | ||
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// | |-------------------------------------- uvm_global_gpu_id_t ---------------------------------------||
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// | |
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// |----------------------------------------- uvm_global_processor_id_t -------------------------------------|
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//
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// When SMC is enabled, each GPU partition gets its own uvm_gpu_t object.
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// However, there can only be a single partition per GPU in a VA space, so
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// uvm_processor_id_t/uvm_processor_mask_t can still be used when operating
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// in the context of a VA space. In the global context, types that can refer
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// to all individual partitions need to be used, though. Therefore, we
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// provide the uvm_global_gpu_id_t/uvm_global_processor_mask_t types and the
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// corresponding uvm_global_gpu_id*/uvm_global_processor_mask* helpers.
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#define UVM_PROCESSOR_MASK(mask_t, \
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prefix_fn_mask, \
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maxval, \
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proc_id_t, \
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proc_id_ctor) \
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\
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typedef struct \
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{ \
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DECLARE_BITMAP(bitmap, maxval); \
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} mask_t; \
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\
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static bool prefix_fn_mask##_test(const mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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return test_bit(id.val, mask->bitmap); \
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} \
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\
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static void prefix_fn_mask##_set_atomic(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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set_bit(id.val, mask->bitmap); \
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} \
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\
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static void prefix_fn_mask##_set(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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__set_bit(id.val, mask->bitmap); \
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} \
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\
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static void prefix_fn_mask##_clear_atomic(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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clear_bit(id.val, mask->bitmap); \
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} \
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\
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static void prefix_fn_mask##_clear(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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__clear_bit(id.val, mask->bitmap); \
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} \
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\
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static bool prefix_fn_mask##_test_and_set_atomic(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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return test_and_set_bit(id.val, mask->bitmap); \
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} \
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\
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static bool prefix_fn_mask##_test_and_set(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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return __test_and_set_bit(id.val, mask->bitmap); \
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} \
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\
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static bool prefix_fn_mask##_test_and_clear_atomic(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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return test_and_clear_bit(id.val, mask->bitmap); \
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} \
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\
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static bool prefix_fn_mask##_test_and_clear(mask_t *mask, proc_id_t id) \
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{ \
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UVM_ASSERT_MSG(id.val < (maxval), "id %u\n", id.val); \
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\
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return __test_and_clear_bit(id.val, mask->bitmap); \
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} \
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\
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static void prefix_fn_mask##_zero(mask_t *mask) \
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{ \
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bitmap_zero(mask->bitmap, (maxval)); \
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} \
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\
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static bool prefix_fn_mask##_empty(const mask_t *mask) \
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{ \
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return bitmap_empty(mask->bitmap, (maxval)); \
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} \
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\
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static void prefix_fn_mask##_copy(mask_t *dst, const mask_t *src) \
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{ \
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bitmap_copy(dst->bitmap, src->bitmap, (maxval)); \
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} \
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\
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static bool prefix_fn_mask##_and(mask_t *dst, const mask_t *src1, const mask_t *src2) \
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{ \
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return bitmap_and(dst->bitmap, src1->bitmap, src2->bitmap, (maxval)) != 0; \
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} \
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\
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static void prefix_fn_mask##_or(mask_t *dst, const mask_t *src1, const mask_t *src2) \
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{ \
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bitmap_or(dst->bitmap, src1->bitmap, src2->bitmap, (maxval)); \
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} \
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\
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static bool prefix_fn_mask##_andnot(mask_t *dst, const mask_t *src1, const mask_t *src2) \
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{ \
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return bitmap_andnot(dst->bitmap, src1->bitmap, src2->bitmap, (maxval)); \
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} \
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\
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static void prefix_fn_mask##_xor(mask_t *dst, const mask_t *src1, const mask_t *src2) \
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{ \
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bitmap_xor(dst->bitmap, src1->bitmap, src2->bitmap, (maxval)); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_first_id(const mask_t *mask) \
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{ \
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return proc_id_ctor(find_first_bit(mask->bitmap, (maxval))); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_first_gpu_id(const mask_t *mask) \
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{ \
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return proc_id_ctor(find_next_bit(mask->bitmap, (maxval), UVM_ID_GPU0_VALUE)); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_next_id(const mask_t *mask, proc_id_t min_id) \
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{ \
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return proc_id_ctor(find_next_bit(mask->bitmap, (maxval), min_id.val)); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_next_gpu_id(const mask_t *mask, proc_id_t min_gpu_id) \
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{ \
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return proc_id_ctor(find_next_bit(mask->bitmap, (maxval), min_gpu_id.val)); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_first_unset_id(const mask_t *mask) \
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{ \
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return proc_id_ctor(find_first_zero_bit(mask->bitmap, (maxval))); \
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} \
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\
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static proc_id_t prefix_fn_mask##_find_next_unset_id(const mask_t *mask, proc_id_t min_id) \
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{ \
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return proc_id_ctor(find_next_zero_bit(mask->bitmap, (maxval), min_id.val)); \
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} \
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\
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static bool prefix_fn_mask##_equal(const mask_t *mask_in1, const mask_t *mask_in2) \
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{ \
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return bitmap_equal(mask_in1->bitmap, mask_in2->bitmap, (maxval)) != 0; \
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} \
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\
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static bool prefix_fn_mask##_subset(const mask_t *subset, const mask_t *mask) \
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{ \
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return bitmap_subset(subset->bitmap, mask->bitmap, (maxval)) != 0; \
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} \
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\
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static NvU32 prefix_fn_mask##_get_count(const mask_t *mask) \
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{ \
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return bitmap_weight(mask->bitmap, (maxval)); \
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} \
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\
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static NvU32 prefix_fn_mask##_get_gpu_count(const mask_t *mask) \
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{ \
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NvU32 gpu_count = prefix_fn_mask##_get_count(mask); \
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\
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if (prefix_fn_mask##_test(mask, proc_id_ctor(UVM_ID_CPU_VALUE))) \
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--gpu_count; \
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\
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return gpu_count; \
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}
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typedef struct
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{
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NvU32 val;
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} uvm_processor_id_t;
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typedef struct
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{
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NvU32 val;
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} uvm_global_processor_id_t;
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typedef uvm_processor_id_t uvm_gpu_id_t;
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typedef uvm_global_processor_id_t uvm_global_gpu_id_t;
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// Static value assigned to the CPU
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#define UVM_ID_CPU_VALUE 0
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#define UVM_ID_GPU0_VALUE (UVM_ID_CPU_VALUE + 1)
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// ID values for the CPU and first GPU, respectively; the values for both types
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// of IDs must match to enable sharing of UVM_PROCESSOR_MASK().
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#define UVM_GLOBAL_ID_CPU_VALUE UVM_ID_CPU_VALUE
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#define UVM_GLOBAL_ID_GPU0_VALUE UVM_ID_GPU0_VALUE
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// Maximum number of GPUs/processors that can be represented with the id types
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#define UVM_ID_MAX_GPUS UVM_MAX_GPUS
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#define UVM_ID_MAX_PROCESSORS UVM_MAX_PROCESSORS
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#define UVM_ID_MAX_SUB_PROCESSORS 8
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#define UVM_GLOBAL_ID_MAX_GPUS (UVM_MAX_GPUS * UVM_ID_MAX_SUB_PROCESSORS)
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#define UVM_GLOBAL_ID_MAX_PROCESSORS (UVM_GLOBAL_ID_MAX_GPUS + 1)
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#define UVM_ID_CPU ((uvm_processor_id_t) { .val = UVM_ID_CPU_VALUE })
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#define UVM_ID_INVALID ((uvm_processor_id_t) { .val = UVM_ID_MAX_PROCESSORS })
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#define UVM_GLOBAL_ID_CPU ((uvm_global_processor_id_t) { .val = UVM_GLOBAL_ID_CPU_VALUE })
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#define UVM_GLOBAL_ID_INVALID ((uvm_global_processor_id_t) { .val = UVM_GLOBAL_ID_MAX_PROCESSORS })
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#define UVM_ID_CHECK_BOUNDS(id) UVM_ASSERT_MSG(id.val <= UVM_ID_MAX_PROCESSORS, "id %u\n", id.val)
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#define UVM_GLOBAL_ID_CHECK_BOUNDS(id) UVM_ASSERT_MSG(id.val <= UVM_GLOBAL_ID_MAX_PROCESSORS, "id %u\n", id.val)
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static int uvm_id_cmp(uvm_processor_id_t id1, uvm_processor_id_t id2)
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{
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UVM_ID_CHECK_BOUNDS(id1);
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UVM_ID_CHECK_BOUNDS(id2);
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return UVM_CMP_DEFAULT(id1.val, id2.val);
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}
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static bool uvm_id_equal(uvm_processor_id_t id1, uvm_processor_id_t id2)
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{
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UVM_ID_CHECK_BOUNDS(id1);
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UVM_ID_CHECK_BOUNDS(id2);
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return id1.val == id2.val;
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}
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static bool uvm_global_id_equal(uvm_global_processor_id_t id1, uvm_global_processor_id_t id2)
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{
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UVM_GLOBAL_ID_CHECK_BOUNDS(id1);
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UVM_GLOBAL_ID_CHECK_BOUNDS(id2);
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return id1.val == id2.val;
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}
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#define UVM_ID_IS_CPU(id) uvm_id_equal(id, UVM_ID_CPU)
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#define UVM_ID_IS_INVALID(id) uvm_id_equal(id, UVM_ID_INVALID)
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#define UVM_ID_IS_VALID(id) (!UVM_ID_IS_INVALID(id))
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#define UVM_ID_IS_GPU(id) (!UVM_ID_IS_CPU(id) && !UVM_ID_IS_INVALID(id))
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#define UVM_GLOBAL_ID_IS_CPU(id) uvm_global_id_equal(id, UVM_GLOBAL_ID_CPU)
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#define UVM_GLOBAL_ID_IS_INVALID(id) uvm_global_id_equal(id, UVM_GLOBAL_ID_INVALID)
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#define UVM_GLOBAL_ID_IS_VALID(id) (!UVM_GLOBAL_ID_IS_INVALID(id))
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#define UVM_GLOBAL_ID_IS_GPU(id) (!UVM_GLOBAL_ID_IS_CPU(id) && !UVM_GLOBAL_ID_IS_INVALID(id))
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static uvm_processor_id_t uvm_id_from_value(NvU32 val)
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{
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uvm_processor_id_t ret = { .val = val };
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UVM_ID_CHECK_BOUNDS(ret);
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return ret;
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}
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static uvm_gpu_id_t uvm_gpu_id_from_value(NvU32 val)
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{
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uvm_gpu_id_t ret = uvm_id_from_value(val);
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UVM_ASSERT(!UVM_ID_IS_CPU(ret));
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return ret;
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}
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static uvm_global_processor_id_t uvm_global_id_from_value(NvU32 val)
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{
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uvm_global_processor_id_t ret = { .val = val };
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UVM_GLOBAL_ID_CHECK_BOUNDS(ret);
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return ret;
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}
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static uvm_global_gpu_id_t uvm_global_gpu_id_from_value(NvU32 val)
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{
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uvm_global_gpu_id_t ret = uvm_global_id_from_value(val);
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UVM_ASSERT(!UVM_GLOBAL_ID_IS_CPU(ret));
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return ret;
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}
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// Create a GPU id from the given GPU id index (previously obtained via
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// uvm_id_gpu_index)
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static uvm_gpu_id_t uvm_gpu_id_from_index(NvU32 index)
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{
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return uvm_gpu_id_from_value(index + UVM_ID_GPU0_VALUE);
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}
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static uvm_processor_id_t uvm_id_next(uvm_processor_id_t id)
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{
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++id.val;
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UVM_ID_CHECK_BOUNDS(id);
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return id;
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}
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static uvm_gpu_id_t uvm_gpu_id_next(uvm_gpu_id_t id)
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{
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UVM_ASSERT(UVM_ID_IS_GPU(id));
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++id.val;
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UVM_ID_CHECK_BOUNDS(id);
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return id;
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}
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// Same as uvm_gpu_id_from_index but for uvm_global_processor_id_t
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static uvm_global_gpu_id_t uvm_global_gpu_id_from_index(NvU32 index)
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{
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return uvm_global_gpu_id_from_value(index + UVM_GLOBAL_ID_GPU0_VALUE);
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}
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static uvm_global_processor_id_t uvm_global_id_next(uvm_global_processor_id_t id)
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{
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++id.val;
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UVM_GLOBAL_ID_CHECK_BOUNDS(id);
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return id;
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}
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static uvm_global_gpu_id_t uvm_global_gpu_id_next(uvm_global_gpu_id_t id)
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{
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UVM_ASSERT(UVM_GLOBAL_ID_IS_GPU(id));
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++id.val;
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UVM_GLOBAL_ID_CHECK_BOUNDS(id);
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return id;
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}
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// This function returns the numerical value within [0, UVM_ID_MAX_PROCESSORS)
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// of the given processor id
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static NvU32 uvm_id_value(uvm_processor_id_t id)
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{
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UVM_ASSERT(UVM_ID_IS_VALID(id));
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return id.val;
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}
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// This function returns the numerical value within
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// [0, UVM_GLOBAL_ID_MAX_PROCESSORS) of the given processor id
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static NvU32 uvm_global_id_value(uvm_global_processor_id_t id)
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{
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UVM_ASSERT(UVM_GLOBAL_ID_IS_VALID(id));
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return id.val;
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}
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// This function returns the index of the given GPU id within the GPU id space
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// [0, UVM_ID_MAX_GPUS)
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static NvU32 uvm_id_gpu_index(uvm_gpu_id_t id)
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{
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UVM_ASSERT(UVM_ID_IS_GPU(id));
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return id.val - UVM_ID_GPU0_VALUE;
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}
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// This function returns the index of the given GPU id within the GPU id space
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// [0, UVM_GLOBAL_ID_MAX_GPUS)
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static NvU32 uvm_global_id_gpu_index(const uvm_global_gpu_id_t id)
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{
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UVM_ASSERT(UVM_GLOBAL_ID_IS_GPU(id));
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return id.val - UVM_GLOBAL_ID_GPU0_VALUE;
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}
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static NvU32 uvm_global_id_gpu_index_from_gpu_id(const uvm_gpu_id_t id)
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{
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UVM_ASSERT(UVM_ID_IS_GPU(id));
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return uvm_id_gpu_index(id) * UVM_ID_MAX_SUB_PROCESSORS;
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}
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static NvU32 uvm_id_gpu_index_from_global_gpu_id(const uvm_global_gpu_id_t id)
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{
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UVM_ASSERT(UVM_GLOBAL_ID_IS_GPU(id));
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return uvm_global_id_gpu_index(id) / UVM_ID_MAX_SUB_PROCESSORS;
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}
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static uvm_global_gpu_id_t uvm_global_gpu_id_from_gpu_id(const uvm_gpu_id_t id)
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{
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UVM_ASSERT(UVM_ID_IS_GPU(id));
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|
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return uvm_global_gpu_id_from_index(uvm_global_id_gpu_index_from_gpu_id(id));
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}
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static uvm_global_gpu_id_t uvm_global_gpu_id_from_parent_index(NvU32 index)
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{
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|
UVM_ASSERT(index < UVM_MAX_GPUS);
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|
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return uvm_global_gpu_id_from_gpu_id(uvm_gpu_id_from_value(index + UVM_GLOBAL_ID_GPU0_VALUE));
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}
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static uvm_global_gpu_id_t uvm_global_gpu_id_from_sub_processor_index(const uvm_gpu_id_t id, NvU32 sub_index)
|
|
{
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|
NvU32 index;
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|
|
|
UVM_ASSERT(sub_index < UVM_ID_MAX_SUB_PROCESSORS);
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|
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index = uvm_global_id_gpu_index_from_gpu_id(id) + sub_index;
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return uvm_global_gpu_id_from_index(index);
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}
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static uvm_gpu_id_t uvm_gpu_id_from_global_gpu_id(const uvm_global_gpu_id_t id)
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{
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|
UVM_ASSERT(UVM_GLOBAL_ID_IS_GPU(id));
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|
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return uvm_gpu_id_from_index(uvm_id_gpu_index_from_global_gpu_id(id));
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}
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static NvU32 uvm_global_id_sub_processor_index(const uvm_global_gpu_id_t id)
|
|
{
|
|
return uvm_global_id_gpu_index(id) % UVM_ID_MAX_SUB_PROCESSORS;
|
|
}
|
|
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UVM_PROCESSOR_MASK(uvm_processor_mask_t, \
|
|
uvm_processor_mask, \
|
|
UVM_ID_MAX_PROCESSORS, \
|
|
uvm_processor_id_t, \
|
|
uvm_id_from_value)
|
|
|
|
UVM_PROCESSOR_MASK(uvm_global_processor_mask_t, \
|
|
uvm_global_processor_mask, \
|
|
UVM_GLOBAL_ID_MAX_PROCESSORS, \
|
|
uvm_global_processor_id_t, \
|
|
uvm_global_id_from_value)
|
|
|
|
// Like uvm_processor_mask_subset but ignores the CPU in both masks. Returns
|
|
// whether the GPUs in subset are a subset of the GPUs in mask.
|
|
static bool uvm_processor_mask_gpu_subset(const uvm_processor_mask_t *subset, const uvm_processor_mask_t *mask)
|
|
{
|
|
uvm_processor_mask_t subset_gpus;
|
|
uvm_processor_mask_copy(&subset_gpus, subset);
|
|
uvm_processor_mask_clear(&subset_gpus, UVM_ID_CPU);
|
|
return uvm_processor_mask_subset(&subset_gpus, mask);
|
|
}
|
|
|
|
#define for_each_id_in_mask(id, mask) \
|
|
for ((id) = uvm_processor_mask_find_first_id(mask); \
|
|
UVM_ID_IS_VALID(id); \
|
|
(id) = uvm_processor_mask_find_next_id((mask), uvm_id_next(id)))
|
|
|
|
#define for_each_gpu_id_in_mask(gpu_id, mask) \
|
|
for ((gpu_id) = uvm_processor_mask_find_first_gpu_id((mask)); \
|
|
UVM_ID_IS_VALID(gpu_id); \
|
|
(gpu_id) = uvm_processor_mask_find_next_id((mask), uvm_gpu_id_next(gpu_id)))
|
|
|
|
#define for_each_global_id_in_mask(id, mask) \
|
|
for ((id) = uvm_global_processor_mask_find_first_id(mask); \
|
|
UVM_GLOBAL_ID_IS_VALID(id); \
|
|
(id) = uvm_global_processor_mask_find_next_id((mask), uvm_global_id_next(id)))
|
|
|
|
#define for_each_global_gpu_id_in_mask(gpu_id, mask) \
|
|
for ((gpu_id) = uvm_global_processor_mask_find_first_gpu_id((mask)); \
|
|
UVM_GLOBAL_ID_IS_VALID(gpu_id); \
|
|
(gpu_id) = uvm_global_processor_mask_find_next_id((mask), uvm_global_gpu_id_next(gpu_id)))
|
|
|
|
// Helper to iterate over all valid gpu ids
|
|
#define for_each_gpu_id(i) \
|
|
for (i = uvm_gpu_id_from_value(UVM_ID_GPU0_VALUE); UVM_ID_IS_VALID(i); i = uvm_gpu_id_next(i))
|
|
#define for_each_global_gpu_id(i) \
|
|
for (i = uvm_global_gpu_id_from_value(UVM_GLOBAL_ID_GPU0_VALUE); UVM_GLOBAL_ID_IS_VALID(i); i = uvm_global_gpu_id_next(i))
|
|
|
|
#define for_each_global_sub_processor_id_in_gpu(id, i) \
|
|
for (i = uvm_global_gpu_id_from_gpu_id(id); \
|
|
UVM_GLOBAL_ID_IS_VALID(i) && \
|
|
(uvm_global_id_value(i) < uvm_global_id_value(uvm_global_gpu_id_from_gpu_id(id)) + UVM_ID_MAX_SUB_PROCESSORS); \
|
|
i = uvm_global_gpu_id_next(i))
|
|
|
|
// Helper to iterate over all valid gpu ids
|
|
#define for_each_processor_id(i) for (i = UVM_ID_CPU; UVM_ID_IS_VALID(i); i = uvm_id_next(i))
|
|
|
|
#define for_each_global_id(i) for (i = UVM_GLOBAL_ID_CPU; UVM_GLOBAL_ID_IS_VALID(i); i = uvm_global_id_next(i))
|
|
|
|
static bool uvm_processor_uuid_eq(const NvProcessorUuid *uuid1, const NvProcessorUuid *uuid2)
|
|
{
|
|
return memcmp(uuid1, uuid2, sizeof(*uuid1)) == 0;
|
|
}
|
|
|
|
// Copies a UUID from source (src) to destination (dst).
|
|
static void uvm_processor_uuid_copy(NvProcessorUuid *dst, const NvProcessorUuid *src)
|
|
{
|
|
memcpy(dst, src, sizeof(*dst));
|
|
}
|
|
|
|
#endif
|