# Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # This file is a part of the vllm-ascend project. from unittest.mock import MagicMock import numpy as np import pytest import torch from vllm_ascend.worker.pcp_utils import PCPManager @pytest.mark.parametrize( "pcp_size, dcp_size, num_reqs, query_lens, num_decodes, use_mla, total_tokens, expect_not_none", [ (1, 1, 5, [10, 20, 30, 40, 50], 2, False, 100, False), (1, 2, 3, [20, 30, 40], 1, False, 50, True), (2, 1, 4, [5, 10, 40, 60], 2, False, 100, True), (2, 1, 4, [5, 10, 40, 60], 2, True, 100, True), (2, 1, 3, [5, 10, 15], 3, False, 50, True), (2, 1, 3, [40, 50, 60], 0, False, 150, True), ]) def test_generate_pcp_metadata_basic(pcp_size, dcp_size, num_reqs, query_lens, num_decodes, use_mla, total_tokens, expect_not_none): vllm_config = MagicMock() vllm_config.model_config = MagicMock() vllm_config.model_config.use_mla = use_mla vllm_config.parallel_config.cp_kv_cache_interleave_size = 64 vllm_config.speculative_config.num_speculative_tokens = 0 pcp_manager = PCPManager(pcp_world_size=pcp_size, pcp_rank=0, dcp_world_size=dcp_size, dcp_rank=0, max_buffer_num_tokens=10000, max_num_reqs=1000, device="cpu", vllm_config=vllm_config, pin_memory=False) input_batch = MagicMock() input_batch.num_reqs = num_reqs num_computed_tokens = [] num_prompt_tokens = [] num_tokens = [] for i in range(num_reqs): if i < num_decodes: num_computed_tokens.append(query_lens[i]) num_prompt_tokens.append(query_lens[i] // 2) num_tokens.append(query_lens[i]) else: num_computed_tokens.append(0) num_prompt_tokens.append(query_lens[i]) num_tokens.append(query_lens[i]) input_batch.num_computed_tokens_cpu = torch.tensor(num_computed_tokens) input_batch.num_prompt_tokens = torch.tensor(num_prompt_tokens) input_batch.num_tokens = torch.tensor(num_tokens) query_lens = torch.tensor(query_lens) result = pcp_manager.generate_pcp_metadata(total_tokens, query_lens, None, input_batch) if not expect_not_none: assert result is None, f"Expected to return None, but got {type(result)}" else: assert result is not None, "Expected to return a metadata object, but got None." assert hasattr(result, 'num_actual_tokens_pcp_padded') assert hasattr(result, 'num_computed_tokens_of_pcp_dcp') if pcp_size > 1: assert hasattr(result, 'pcp_allgather_restore_idx') has_prefill_requests = (num_reqs - num_decodes) > 0 if has_prefill_requests: assert hasattr(result, 'q_head_idx_tensor') assert hasattr(result, 'q_tail_idx_tensor') assert hasattr(result, 'q_full_idx') assert hasattr(result, 'kv_with_q_head_nomask_idx_tensor') assert hasattr(result, 'kv_with_q_head_mask_idx_tensor') assert hasattr(result, 'kv_with_q_tail_nomask_idx_tensor') assert hasattr(result, 'kv_with_q_tail_mask_idx_tensor') assert hasattr(result, 'attn_mask_seqlens') assert hasattr(result, 'head_attn_nomask_seqlens') assert hasattr(result, 'tail_attn_nomask_seqlens') if hasattr(result, 'pcp_prefill_mask' ) and result.pcp_prefill_mask is not None: if use_mla: assert result.pcp_prefill_mask.shape == (512, 512) else: assert result.pcp_prefill_mask.shape == (2048, 2048) else: if hasattr(result, 'pcp_prefill_mask'): if result.pcp_prefill_mask is not None: if use_mla: assert result.pcp_prefill_mask.shape == (512, 512) else: assert result.pcp_prefill_mask.shape == (2048, 2048) @pytest.mark.parametrize( "tokens, num_reqs, num_computed_tokens, num_prompt_tokens, pcp_size, pcp_rank, expected_pcp_tokens", [ # Case 1: prefill only ([8, 12, 16], 3, [0, 0, 0], [8, 12, 16], 4, 0, [2, 4, 4]), # # Case 2: mix prefill and decode ([8, 4, 12], 3, [8, 4, 0], [8, 0, 12], 4, 0, [2, 2, 4]), # # Case 3: request which need to be padded ([3, 7, 9], 3, [0, 0, 0], [3, 7, 9], 4, 0, [2, 2, 4]), # Case 4: single request ([10], 1, [0], [10], 4, 0, [4]), ]) def test_update_tokens_for_pcp_basic(tokens, num_reqs, num_computed_tokens, num_prompt_tokens, pcp_size, pcp_rank, expected_pcp_tokens): vllm_config = MagicMock() vllm_config.model_config = MagicMock() vllm_config.speculative_config.num_speculative_tokens = 0 pcp_manager = PCPManager(pcp_world_size=pcp_size, pcp_rank=0, dcp_world_size=1, dcp_rank=0, max_buffer_num_tokens=10000, max_num_reqs=1000, device="cpu", vllm_config=vllm_config, pin_memory=False) input_batch = MagicMock() input_batch.num_reqs = num_reqs input_batch.num_computed_tokens_cpu = np.array(num_computed_tokens, dtype=np.int32) input_batch.num_prompt_tokens = np.array(num_prompt_tokens, dtype=np.int32) arange_np = np.arange(10000) pcp_tokens_result, positions_result = pcp_manager.update_tokens_for_pcp( np.array(tokens), arange_np, num_reqs, 1) assert np.array_equal(pcp_tokens_result, expected_pcp_tokens), \ f"Expected pcp_tokens: {expected_pcp_tokens}, got: {pcp_tokens_result}" total_pcp_tokens: int = np.sum(pcp_tokens_result) assert positions_result.shape == (total_pcp_tokens,), \ f"Positions shape mismatch. Expected length {total_pcp_tokens}, got {positions_result.shape}" # yapf: disable @pytest.mark.parametrize( "seq_lens, pcp_world_size, dcp_world_size, cp_kv_cache_interleave_size, target", [ # without pcp and dcp (torch.tensor([1, 2, 128, 129]), 1, 1, 1, torch.tensor([[[1]], [[2]], [[128]], [[129]]])), # pcp (torch.tensor([1, 2, 128, 129]), 2, 1, 1, torch.tensor([[[1], [0]], [[1], [1]], [[64], [64]], [[65], [64]]])), # dcp (torch.tensor([1, 2, 128, 129]), 1, 2, 1, torch.tensor([[[1, 0]], [[1, 1]], [[64, 64]], [[65, 64]]])), # pcp + dcp (torch.tensor([1, 2, 128, 129]), 2, 2, 1, torch.tensor([[[1, 0], [0, 0]], [[1, 1], [0, 0]], [[32, 32], [32, 32]], [[33, 32], [32, 32]]])), # specify interleave_size (torch.tensor([1, 2, 128, 129]), 2, 1, 2, torch.tensor([[[1], [0]], [[2], [0]], [[64], [64]], [[65], [64]]])), (torch.tensor([1, 2, 128, 129]), 2, 1, 128, torch.tensor([[[1], [0]], [[2], [0]], [[128], [0]], [[128], [1]]])), (torch.tensor([1, 2, 128, 129, 256, 257]), 2, 2, 128, torch.tensor([[[1, 0], [0, 0]], [[2, 0], [0, 0]], [[128, 0], [0, 0]], [[128, 1], [0, 0]], [[128, 128], [0, 0]], [[128, 128], [1, 0]]])), ] ) # yapf: enable def test_get_cp_local_seq_lens( seq_lens, pcp_world_size, dcp_world_size, cp_kv_cache_interleave_size, target, ): vllm_config = MagicMock() vllm_config.model_config = MagicMock() vllm_config.speculative_config.num_speculative_tokens = 0 pcp_manager = PCPManager(pcp_world_size=pcp_world_size, pcp_rank=0, dcp_world_size=dcp_world_size, dcp_rank=0, max_buffer_num_tokens=10000, max_num_reqs=1000, device="cpu", vllm_config=vllm_config, pin_memory=False) ret = pcp_manager._get_cp_local_seq_lens(seq_lens, pcp_world_size, dcp_world_size, cp_kv_cache_interleave_size) assert torch.equal(ret, target) # yapf: disable @pytest.mark.parametrize( "req_ids, num_computed_tokens," \ "token_ids_tensor_list," \ "num_reqs, total_num_scheduled_tokens, num_scheduled_tokens," \ "target_input_ids_pcp_full, target_query_start_loc_pcp_full", [ # prefill ( ['0'], np.array([0]), [torch.tensor([0, 671, 6102, 294, 8760, 344])], 1, 6, {'0': 6}, torch.tensor([0, 671, 6102, 294, 8760, 344]), torch.tensor([0, 6]) ), # decode ( ['0'], np.array([6]), [torch.tensor([0, 671, 6102, 294, 8760, 344, 88907, 0])], 1, 2, {'0': 2}, torch.tensor([88907, 0]), torch.tensor([0, 2]) ), # decode + prefill ( ['0', '1'], np.array([6, 0]), [ torch.tensor([0, 671, 6102, 294, 8760, 344, 88907, 0]), torch.tensor([0, 19923, 14, 1026, 2329, 344, 9807, 14, 342, 1030]), ], 2, 12, {'0': 2, '1': 10}, torch.tensor([88907, 0, 0, 19923, 14, 1026, 2329, 344, 9807, 14, 342, 1030]), torch.tensor([0, 2, 12]) ), # decodes + prefills ( ['0', '1', '2', '3'], np.array([6, 8, 0, 0]), [ torch.tensor([0, 671, 6102, 294, 8760, 344, 88907, 0]), torch.tensor([0, 19923, 14, 1026, 2329, 344, 9807, 14, 342, 0]), torch.tensor([0, 671, 8749, 294, 3702, 4106, 344, 88907]), torch.tensor([0, 671, 5335, 1469, 7539, 305, 6397]), ], 4, 19, {'0': 2, '1': 2, '2': 8, '3': 7}, torch.tensor([88907, 0, 342, 0, 0, 671, 8749, 294, 3702, 4106, 344, 88907, 0, 671, 5335, 1469, 7539, 305, 6397]), torch.tensor([0, 2, 4, 12, 19]) ), ]) # yapf: enable def test_generate_pcp_mtp_input( req_ids, num_computed_tokens, token_ids_tensor_list, num_reqs, total_num_scheduled_tokens, num_scheduled_tokens, target_input_ids_pcp_full, target_query_start_loc_pcp_full, ): max_num_reqs = 4 max_model_len = 4096 max_num_tokens = 4096 vllm_config = MagicMock() vllm_config.model_config = MagicMock() vllm_config.speculative_config.num_speculative_tokens = 1 vllm_config.scheduler_config.max_num_seqs = max_num_reqs vllm_config.scheduler_config.max_num_batched_tokens = max_model_len pcp_manager = PCPManager(pcp_world_size=2, pcp_rank=0, dcp_world_size=1, dcp_rank=0, max_buffer_num_tokens=max_num_tokens, max_num_reqs=max_num_reqs, device="cpu", vllm_config=vllm_config, pin_memory=False) arange_np = np.arange(max_model_len) input_batch = MagicMock() input_batch.num_computed_tokens_cpu = \ np.zeros(max_num_reqs, dtype=np.int32) token_ids_cpu_tensor = torch.zeros( (max_num_reqs, max_model_len), device="cpu", dtype=torch.int32, ) input_batch.token_ids_cpu_tensor = token_ids_cpu_tensor input_batch.token_ids_cpu = token_ids_cpu_tensor.numpy() token_ids_cpu_tensor = input_batch.token_ids_cpu_tensor # Set input_batch input_batch.req_ids = req_ids input_batch.num_computed_tokens_cpu[:num_computed_tokens. size] = num_computed_tokens for i, token_ids_tensor in enumerate(token_ids_tensor_list): token_ids_cpu_tensor[i][:token_ids_tensor.size(0)] = token_ids_tensor pcp_manager.generate_pcp_mtp_input(num_reqs, total_num_scheduled_tokens, num_scheduled_tokens, False, input_batch, arange_np) assert torch.equal( pcp_manager.input_ids_pcp_full.cpu[:total_num_scheduled_tokens], target_input_ids_pcp_full) assert torch.equal(pcp_manager.query_start_loc_pcp_full.cpu[:num_reqs + 1], target_query_start_loc_pcp_full)