from typing import List from unittest.mock import MagicMock, patch import torch from vllm.distributed.parallel_state import GroupCoordinator from tests.ut.base import TestBase from vllm_ascend.attention.attention_cp import AscendAttentionCPImpl from vllm_ascend.attention.attention_v1 import (AscendMetadata, AscendMetadataForPrefill) class TestAscendAttentionCPImpl(TestBase): @patch('vllm_ascend.attention.attention_cp.get_pcp_group') @patch('vllm.distributed.parallel_state._PCP', new_callable=lambda: MagicMock(spec=GroupCoordinator)) @patch('vllm_ascend.attention.attention_cp.get_dcp_group') @patch('vllm.distributed.parallel_state._DCP', new_callable=lambda: MagicMock(spec=GroupCoordinator)) @patch("vllm.distributed.get_decode_context_model_parallel_world_size", return_value=1) def setUp(self, mock_get_dcp_size, mock_dcp, mock_get_dcp_group, mock_pcp, mock_get_pcp_group): mock_dcp.world_size = 2 mock_dcp.rank_in_group = 0 dcp_group = MagicMock(spec=GroupCoordinator) dcp_group.rank_in_group = 0 dcp_group.world_size = 2 dcp_group.device_group = MagicMock() mock_get_dcp_group.return_value = dcp_group mock_pcp.world_size = 2 mock_pcp.rank_in_group = 0 pcp_group = MagicMock(spec=GroupCoordinator) pcp_group.rank_in_group = 0 pcp_group.world_size = 2 pcp_group.device_group = MagicMock() mock_get_pcp_group.return_value = pcp_group self.layer = MagicMock() self.layer.layer_name = "test_layer" self.layer._k_scale_float = 1.0 self.layer._v_scale_float = 1.0 self.attention_type = MagicMock() self.attention_type.DECODER = "decoder" self.attention_type.ENCODER = "encoder" self.attn_metadata = MagicMock() self.attn_metadata.return_value = "1" self.layer_no_quant = MagicMock( spec=['layer_name', '_k_scale_float', '_v_scale_float']) self.layer_no_quant.layer_name = "test_layer" self.layer_no_quant._k_scale_float = 1.0 self.layer_no_quant._v_scale_float = 1.0 self.impl = AscendAttentionCPImpl( num_heads=8, head_size=64, scale=1.0, num_kv_heads=8, alibi_slopes=None, sliding_window=None, kv_cache_dtype="float16", logits_soft_cap=None, attn_type=self.attention_type.DECODER, kv_sharing_target_layer_name=None) def test_init(self): self.assertEqual(self.impl.pcp_size, 2) self.assertEqual(self.impl.pcp_rank, 0) self.assertEqual(self.impl.dcp_size, 2) self.assertEqual(self.impl.dcp_rank, 0) def test_forward_prefill_cp(self): query = torch.randn(2, 4, 128) key = torch.randn(4, 1, 128) value = torch.randn(4, 1, 128) def mock_attention_with_nomask_and_mask(q, k_mask, **kwargs): mock_output = torch.randn_like(q) mock_lse = torch.randn_like(k_mask) return mock_output, mock_lse self.impl._attention_with_nomask_and_mask = MagicMock() self.impl._attention_with_nomask_and_mask.side_effect = mock_attention_with_nomask_and_mask attn_metadata = MagicMock() attn_metadata.prefill = MagicMock() attn_metadata.prefill.pcp_metadata.q_head_idx = torch.tensor([0]) attn_metadata.prefill.pcp_metadata.q_tail_idx = torch.tensor([1]) attn_metadata.prefill.pcp_metadata.q_full_idx = torch.tensor([0, 1]) attn_metadata.prefill.pcp_metadata.kv_with_q_head_mask_idx = torch.tensor( [0]) attn_metadata.prefill.pcp_metadata.kv_with_q_tail_nomask_idx = torch.tensor( [0]) attn_metadata.prefill.pcp_metadata.kv_with_q_tail_mask_idx = torch.tensor( [0]) output, attn_lse = self.impl._forward_prefill_cp( query, key, value, attn_metadata) self.assertEqual(output.shape[0], 2) self.assertEqual(output.shape[1], 4) self.assertEqual(output.shape[2], 128) @patch('vllm_ascend.attention.attention_cp.get_dcp_group') @patch('vllm.distributed.parallel_state._DCP') @patch("torch_npu.npu_fused_infer_attention_score") @patch("torch.distributed.all_gather") @patch("torch.distributed.all_to_all_single") @patch('vllm_ascend.attention.attention_cp.get_forward_context') def test_forward_decode_pcp_dcp(self, mock_get_forward_context, mock_all_to_all_single, mock_all_gather, mock_npu_fused_infer_attention_score, mock_dcp, mock_get_dcp_group): def mock_dcp_all_gather_func(tensor, dim): return torch.cat([tensor, tensor], dim=dim) mock_dcp.world_size = 2 mock_dcp.rank_in_group = 0 dcp_group = MagicMock(spec=GroupCoordinator) dcp_group.rank_in_group = 0 dcp_group.world_size = 2 dcp_group.device_group = MagicMock() dcp_group.all_gather = mock_dcp_all_gather_func mock_get_dcp_group.return_value = dcp_group query = torch.randn(2, 4, 128) self.impl.key_cache = torch.randn(100, 128, 1, 128) self.impl.value_cache = torch.randn(100, 128, 1, 128) def mock_npu_attention_update(attn_out_lse_list): mock_output = torch.randn(attn_out_lse_list[0].shape[0], attn_out_lse_list[0].shape[1], attn_out_lse_list[0].shape[2] - 1) return mock_output self.impl._npu_attention_update = MagicMock() self.impl._npu_attention_update.side_effect = mock_npu_attention_update mock_get_forward_context.return_value = MagicMock(capturing=False) mock_all_to_all_single.side_effect = lambda output, input, *args, **kwargs: output.copy_( input) def mock_all_gather_func(tensor_list, tensor, group=None): tensor_list[0] = tensor tensor_list[1] = tensor.clone() mock_all_gather.side_effect = mock_all_gather_func def mock_npu_fused_infer_attention_score_func(query, k_nope, value, **common_kwargs): mock_output = torch.randn_like(query) mock_lse = torch.randn(query.shape[0], query.shape[1], 1) return mock_output, mock_lse mock_npu_fused_infer_attention_score.side_effect = mock_npu_fused_infer_attention_score_func attn_metadata = MagicMock() attn_metadata.decode_meta = MagicMock() attn_metadata.decode_meta.batch_seq_mask = torch.tensor( [1, 0], dtype=torch.bool) output = self.impl._forward_decode_pcp_dcp(query, attn_metadata) self.assertEqual(output.shape[0], 2) self.assertEqual(output.shape[1], 4) self.assertEqual(output.shape[2], 128) @patch('vllm_ascend.attention.attention_cp.get_pcp_group') @patch('vllm.distributed.parallel_state._PCP') @patch('vllm_ascend.attention.attention_cp.get_dcp_group') @patch('vllm.distributed.parallel_state._DCP') def test_prefill_query_all_gather(self, mock_dcp, mock_get_dcp_group, mock_pcp, mock_get_pcp_group): query = torch.randn(2, 4, 128) def mock_all_gather_func(tensor, dim): return torch.cat([tensor, tensor], dim=dim) dcp_group = MagicMock(spec=GroupCoordinator) dcp_group.all_gather = mock_all_gather_func mock_get_dcp_group.return_value = dcp_group pcp_group = MagicMock(spec=GroupCoordinator) pcp_group.all_gather = mock_all_gather_func mock_get_pcp_group.return_value = pcp_group attn_metadata = MagicMock() attn_metadata.prefill = MagicMock() attn_metadata.prefill.chunked_context = MagicMock() attn_metadata.prefill.chunked_context.cp_kv_recover_idx_for_chunk = torch.tensor( [1, 2, 3, 0]) output = self.impl._prefill_query_all_gather(attn_metadata, query) self.assertEqual(output.shape[0], 4) self.assertEqual(output.shape[1], 8) self.assertEqual(output.shape[2], 128) @patch('torch.ops.npu.npu_fused_infer_attention_score') def test_compute_prefill_context(self, mock_npu_attention): block_num = 100 block_size = 128 kv_num_heads = 1 head_size = 128 kv_cache = (torch.randn(block_num, block_size, kv_num_heads, head_size), torch.randn(block_num, block_size, kv_num_heads, head_size)) batch_size = 1024 self.impl.head_size = head_size self.impl.num_heads = 4 num_heads = self.impl.num_heads * self.impl.dcp_size query = torch.randn(batch_size, num_heads, head_size) attn_metadata = MagicMock() attn_metadata.prefill = MagicMock() attn_metadata.prefill.chunked_context = MagicMock() attn_metadata.prefill.chunked_context.local_context_lens_allranks = torch.tensor( [[[256, 256], [256, 256]]]) attn_metadata.prefill.chunked_context.batch_chunk_seq_mask = torch.randint( 0, 2, (1024, ), dtype=torch.bool) def mock_load_kv_for_chunk(attn_metadata, kv_cache, local_chunked_kv_lens_rank, query, total_toks): return torch.randn(total_toks, kv_num_heads, head_size), torch.randn(total_toks, kv_num_heads, head_size) self.impl._load_kv_for_chunk = MagicMock() self.impl._load_kv_for_chunk.side_effect = mock_load_kv_for_chunk mock_npu_attention.return_value = torch.randn(batch_size, num_heads, head_size), torch.randn( batch_size, num_heads, 1) result_output, result_lse = self.impl._compute_prefill_context( query, kv_cache, attn_metadata) self.assertEqual(result_output.shape[0], batch_size) self.assertEqual(result_output.shape[1], self.impl.num_heads) self.assertEqual(result_output.shape[2], head_size) self.assertEqual(result_lse.shape[0], batch_size) self.assertEqual(result_lse.shape[1], self.impl.num_heads) self.assertEqual(result_lse.shape[2], 1) @patch('torch_npu.atb.npu_paged_cache_load') def test_load_kv_for_chunk(self, mock_npu_paged_cache_load): block_num = 100 block_size = 128 num_heads = 1 head_size = 128 kv_cache = (torch.randn(block_num, block_size, num_heads, head_size), torch.randn(block_num, block_size, num_heads, head_size)) query = torch.randn(4, 8, 128) total_toks = 256 local_chunked_kv_lens_rank = torch.randn(total_toks) attn_metadata = MagicMock() key, value = self.impl._load_kv_for_chunk(attn_metadata, kv_cache, local_chunked_kv_lens_rank, query, total_toks) self.assertEqual(key.shape[0], total_toks) self.assertEqual(key.shape[1], num_heads) self.assertEqual(key.shape[2], head_size) self.assertEqual(value.shape[0], total_toks) self.assertEqual(value.shape[1], num_heads) self.assertEqual(value.shape[2], head_size) @patch('vllm_ascend.attention.attention_cp.get_pcp_group') @patch('vllm.distributed.parallel_state._PCP') @patch('torch_npu._npu_reshape_and_cache') def test_reshape_and_cache(self, mock_npu_reshape_and_cache, mock_pcp, mock_get_pcp_group): num_tokens = 4 block_num = 100 block_size = 128 num_heads = 1 head_size = 128 self.impl.head_size = head_size kv_cache = (torch.randn(block_num, block_size, num_heads, head_size), torch.randn(block_num, block_size, num_heads, head_size)) attn_metadata = MagicMock() attn_metadata.num_decode_tokens = 1 attn_metadata.num_decodes = 1 attn_metadata.num_prefills = 1 attn_metadata.slot_mapping = torch.randn(2) attn_metadata.num_actual_tokens_pcp_padded = num_tokens * self.impl.pcp_size attn_metadata.prefill = MagicMock() attn_metadata.prefill.pcp_allgather_restore_idx = torch.tensor( [0, 3, 1, 2, 0, 0, 0, 0]) key = torch.randn(num_tokens, num_heads, head_size) value = torch.randn(num_tokens, num_heads, head_size) def mock_all_gather_func(tensor, dim): return torch.cat([tensor, tensor], dim=dim) pcp_group = MagicMock(spec=GroupCoordinator) pcp_group.all_gather = mock_all_gather_func mock_get_pcp_group.return_value = pcp_group key, value = self.impl.reshape_and_cache(key, value, kv_cache, attn_metadata) self.assertEqual(key.shape[0], num_tokens * self.impl.pcp_size) self.assertEqual(key.shape[1], num_heads) self.assertEqual(key.shape[2], head_size) self.assertEqual(value.shape[0], num_tokens * self.impl.pcp_size) self.assertEqual(value.shape[1], num_heads) self.assertEqual(value.shape[2], head_size) class TestUpdateNpuAttnOutLse(TestBase): @patch('vllm.distributed.parallel_state.get_pcp_group') @patch('vllm.distributed.parallel_state._PCP', new_callable=lambda: MagicMock(spec=GroupCoordinator)) @patch('vllm.distributed.parallel_state.get_dcp_group') @patch('vllm.distributed.parallel_state._DCP', new_callable=lambda: MagicMock(spec=GroupCoordinator)) @patch("vllm.distributed.get_decode_context_model_parallel_world_size", return_value=1) def setUp(self, mock_get_dcp_size, mock_dcp, mock_get_dcp_group, mock_pcp, mock_get_pcp_group): mock_dcp.world_size = 1 dcp_group = MagicMock(spec=GroupCoordinator) dcp_group.rank_in_group = 0 dcp_group.world_size = 1 dcp_group.device_group = MagicMock() mock_get_dcp_group.return_value = dcp_group mock_pcp.world_size = 1 pcp_group = MagicMock(spec=GroupCoordinator) pcp_group.rank_in_group = 0 pcp_group.world_size = 1 pcp_group.device_group = MagicMock() mock_get_pcp_group.return_value = pcp_group self.layer = MagicMock() self.layer.layer_name = "test_layer" self.layer._k_scale_float = 1.0 self.layer._v_scale_float = 1.0 self.attention_type = MagicMock() self.attention_type.DECODER = "decoder" self.attention_type.ENCODER = "encoder" self.attn_metadata = MagicMock() self.attn_metadata.return_value = "1" self.layer_no_quant = MagicMock( spec=['layer_name', '_k_scale_float', '_v_scale_float']) self.layer_no_quant.layer_name = "test_layer" self.layer_no_quant._k_scale_float = 1.0 self.layer_no_quant._v_scale_float = 1.0 self.impl = AscendAttentionCPImpl( num_heads=8, head_size=64, scale=0.125, num_kv_heads=2, alibi_slopes=None, sliding_window=None, kv_cache_dtype="float16", logits_soft_cap=None, attn_type=self.attention_type.DECODER, kv_sharing_target_layer_name=None) self.impl.pcp_size = 1 self.batch_size = 2 # sequence length per batch self.q_lens_per_batch = [32, 64] self.kv_lens_nomask_per_batch = [32, 64] self.kv_lens_mask_per_batch = [32, 64] # TND layout requires cumulative sum computation. self.q_seqlens_cumsum = self._cumsum(self.q_lens_per_batch) # [32, 96] self.kv_seqlens_nomask_cumsum = self._cumsum( self.kv_lens_nomask_per_batch) # [32, 96] self.kv_seqlens_mask_cumsum = self._cumsum( self.kv_lens_mask_per_batch) # [32, 96] # Compute T value in TND layout self.q_total_tokens = self.q_seqlens_cumsum[-1] self.kv_total_nomask = self.kv_seqlens_nomask_cumsum[-1] # self.kv_total_mask = self.kv_seqlens_mask_cumsum[-1] def _cumsum(self, arr: List[int]) -> List[int]: result = [] total = 0 for val in arr: total += val result.append(total) return result def _build_attn_metadata(self, with_chunked_context=False): attn_metadata = AscendMetadata() attn_metadata.num_prefills = self.batch_size attn_metadata.num_decodes = 0 attn_metadata.num_actual_tokens = self.q_total_tokens prefill_metadata = AscendMetadataForPrefill() pcp_metadata = AscendMetadataForPrefill.AscendPCPMetadata() pcp_metadata.attn_mask_seqlens = self.kv_seqlens_mask_cumsum pcp_metadata.head_attn_nomask_seqlens = self.kv_seqlens_nomask_cumsum pcp_metadata.tail_attn_nomask_seqlens = self.kv_seqlens_nomask_cumsum prefill_metadata.pcp_metadata = pcp_metadata prefill_metadata.actual_seq_lengths_q = torch.tensor( self.q_seqlens_cumsum) if with_chunked_context: chunked_context = AscendMetadataForPrefill.ChunkedContextMetadata( actual_chunk_seq_lengths=self.kv_seqlens_mask_cumsum, actual_seq_lengths_kv=self.kv_seqlens_mask_cumsum, starts=None, chunk_seq_mask_filtered_indices=None) prefill_metadata.chunked_context = chunked_context else: prefill_metadata.chunked_context = None attn_metadata.prefill = prefill_metadata attn_metadata.decode_meta = None return attn_metadata @patch('torch.ops.npu.npu_fused_infer_attention_score') def test_attention_with_nomask_none(self, mock_npu_attention): # Mock input data q = torch.randn(self.q_total_tokens, self.impl.num_heads, self.impl.head_size) q_seqlens = self.q_seqlens_cumsum k_nomask = None v_nomask = None kv_seqlens_nomask = self.kv_seqlens_nomask_cumsum k_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) v_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) kv_seqlens_mask = self.kv_seqlens_mask_cumsum mask = torch.randn(self.q_total_tokens, self.kv_total_mask) attn_metadata = self._build_attn_metadata(with_chunked_context=False) # Mock output mock_npu_attention.return_value = torch.randn(96, 8, 64), torch.randn( 96, 8, 1) # Call the method under test output, attn_lse = self.impl._attention_with_nomask_and_mask( q, q_seqlens, k_nomask, v_nomask, kv_seqlens_nomask, k_mask, v_mask, kv_seqlens_mask, mask, attn_metadata) # Verify only mask attention was invoked mock_npu_attention.assert_called_with( q, k_mask, v_mask, num_heads=self.impl.num_heads, num_key_value_heads=self.impl.num_kv_heads, input_layout="TND", atten_mask=mask, scale=self.impl.scale, sparse_mode=3, antiquant_mode=0, antiquant_scale=None, softmax_lse_flag=True, actual_seq_lengths_kv=kv_seqlens_mask, actual_seq_lengths=q_seqlens) # Assert the method call self.assertEqual(mock_npu_attention.call_count, 1) self.assertIsInstance(output, torch.Tensor) self.assertIsInstance(attn_lse, torch.Tensor) self.assertEqual(output.shape, (96, 8, 64)) self.assertEqual(attn_lse.shape, (96, 8, 1)) @patch('torch.ops.npu.npu_fused_infer_attention_score') @patch( 'vllm_ascend.attention.attention_cp.AscendAttentionCPImpl._update_out_and_lse' ) def test_attention_with_nomask_and_mask_chunk( self, mock_update_out_and_lse, mock_npu_fused_infer_attention_score): # Mock input data q = torch.randn(self.q_total_tokens, self.impl.num_heads, self.impl.head_size) k_nomask = torch.randn(self.kv_total_nomask, self.impl.num_kv_heads, self.impl.head_size) v_nomask = torch.randn(self.kv_total_nomask, self.impl.num_kv_heads, self.impl.head_size) k_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) v_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) mask = torch.randn(self.q_total_tokens, self.kv_total_mask) attn_metadata = self._build_attn_metadata(with_chunked_context=True) # Mock output mock_npu_fused_infer_attention_score.return_value = torch.randn( self.q_total_tokens, self.impl.num_heads, self.impl.head_size), torch.randn(self.q_total_tokens, self.impl.num_heads, 1) mock_update_out_and_lse.return_value = torch.randn( self.q_total_tokens, self.impl.num_heads, self.impl.head_size), torch.randn(self.q_total_tokens, self.impl.num_heads, 1) # Call the method under test output, attn_lse = self.impl._attention_with_nomask_and_mask( q=q, q_seqlens=self.q_seqlens_cumsum, k_nomask=k_nomask, v_nomask=v_nomask, kv_seqlens_nomask=self.kv_seqlens_nomask_cumsum, k_mask=k_mask, v_mask=v_mask, kv_seqlens_mask=self.kv_seqlens_mask_cumsum, mask=mask, attn_metadata=attn_metadata) # Assert the method call self.assertEqual(mock_npu_fused_infer_attention_score.call_count, 2) self.assertIsNotNone(output) self.assertIsNotNone(attn_lse) @patch('torch.ops.npu.npu_fused_infer_attention_score') @patch( 'vllm_ascend.attention.attention_cp.AscendAttentionCPImpl._npu_attn_out_lse_update' ) def test_attention_with_nomask_and_mask_nochunk( self, mock_npu_attn_out_lse_update, mock_npu_fused_infer_attention_score): # Mock input data q = torch.randn(self.q_total_tokens, self.impl.num_heads, self.impl.head_size) k_nomask = torch.randn(self.kv_total_nomask, self.impl.num_kv_heads, self.impl.head_size) v_nomask = torch.randn(self.kv_total_nomask, self.impl.num_kv_heads, self.impl.head_size) k_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) v_mask = torch.randn(self.kv_total_mask, self.impl.num_kv_heads, self.impl.head_size) mask = torch.randn(self.q_total_tokens, self.kv_total_mask) attn_metadata = self._build_attn_metadata(with_chunked_context=True) attn_metadata.prefill.chunked_context = None # Mock output mock_npu_fused_infer_attention_score.return_value = torch.randn( self.q_total_tokens, self.impl.num_heads, self.impl.head_size), torch.randn(self.q_total_tokens, self.impl.num_heads, 1) mock_npu_attn_out_lse_update.return_value = torch.randn( self.q_total_tokens, self.impl.num_heads, self.impl.head_size) # Call the method under test output, attn_lse = self.impl._attention_with_nomask_and_mask( q=q, q_seqlens=self.q_seqlens_cumsum, k_nomask=k_nomask, v_nomask=v_nomask, kv_seqlens_nomask=self.kv_seqlens_nomask_cumsum, k_mask=k_mask, v_mask=v_mask, kv_seqlens_mask=self.kv_seqlens_mask_cumsum, mask=mask, attn_metadata=attn_metadata) # Assert the method call mock_npu_attn_out_lse_update.assert_called_once() self.assertEqual(mock_npu_fused_infer_attention_score.call_count, 2) self.assertIsNotNone(output) self.assertEqual(attn_lse, None) @patch( 'vllm_ascend.attention.attention_cp.AscendAttentionCPImpl._npu_attn_out_lse_update' ) def test_update_chunk_attn_out_lse_with_current_attn_out_lse( self, mock_npu_attn_out_lse_update): # Mock input data current_attn_output_prefill = torch.randn(32764, 8, 128) current_attn_lse_prefill = torch.randn(32764, 8, 1) attn_output_full_chunk = torch.randn(65528, 8, 128) attn_lse_full_chunk = torch.randn(65528, 8, 1) prefill_query = torch.randn(32764, 8, 128) # mock attn_metadata attn_metadata = self._build_attn_metadata(with_chunked_context=True) attn_metadata.prefill.chunked_context.chunk_seq_mask_filtered_indices = torch.arange( 32764, dtype=torch.int32) attn_metadata.prefill.chunked_context.kv_inverse_idx_for_chunk = torch.arange( 32764, dtype=torch.int32) # Mock output mock_npu_attn_out_lse_update.return_value = torch.randn(32764, 8, 128) # test pcp_size > 1 self.impl.pcp_size = 2 self.impl.pcp_rank = 0 self.impl.dcp_group = None self.impl.pcp_group = None # Call the method under test self.impl._update_chunk_attn_out_lse_with_current_attn_out_lse( current_attn_output_prefill, current_attn_lse_prefill, attn_output_full_chunk, attn_lse_full_chunk, prefill_query, attn_metadata) # Assert the method call self.impl._npu_attn_out_lse_update.assert_called_once() # test pcp_size = 1 self.impl.pcp_size = 1 self.impl._update_chunk_attn_out_lse_with_current_attn_out_lse( current_attn_output_prefill, current_attn_lse_prefill, attn_output_full_chunk, attn_lse_full_chunk, prefill_query, attn_metadata) self.assertEqual(self.impl._npu_attn_out_lse_update.call_count, 2) @patch('torch_npu.npu_attention_update') def test_npu_attn_out_lse_update(self, mock_npu_attention_update): # Mock input data attn_lse_mask = torch.randn(8, 128, 1) attn_lse_nomask = torch.randn(8, 128, 1) attn_out_mask = torch.randn(8, 128, 128) attn_out_nomask = torch.randn(8, 128, 128) # Mock output mock_npu_attention_update.return_value = (torch.randn(8 * 128, 128), None) # Call the method under test output = self.impl._npu_attn_out_lse_update(attn_lse_mask, attn_lse_nomask, attn_out_mask, attn_out_nomask) # Assert the method call self.assertIsInstance(output, torch.Tensor) self.assertEqual(output.shape, (8, 128, 128)) mock_npu_attention_update.assert_called_once() def test_update_out_and_lse(self): # Mock input data out_list = torch.randn(3, 2, 4, 8) # [N, batch_size, num_heads, head_size] lse_list = torch.randn(3, 2, 4, 1) # [N, batch_size, num_heads, 1] # Call the method under test out_final, lse_final = self.impl._update_out_and_lse( out_list, lse_list) # Assert the method call self.assertEqual(out_final.shape, (2, 4, 8)) # [batch_size, num_heads, head_size] self.assertEqual(lse_final.shape, (2, 4, 1)) # [batch_size, num_heads, 1] self.assertIsInstance(out_final, torch.Tensor) self.assertIsInstance(lse_final, torch.Tensor) @patch('torch.cat') @patch('torch.distributed.all_to_all_single') @patch('torch.distributed.all_gather') @patch('torch.stack') @patch('torch.split') def test_update_chunk_attn_out_lse_dcp_pcp_both_greater_than_1( self, mock_split, mock_stack, mock_all_gather, mock_all_to_all_single, mock_cat): # Mock input data prefix_chunk_output = torch.randn(2, 4, 8) prefix_chunk_lse = torch.randn(2, 4, 1) self.impl.dcp_size = 2 self.impl.pcp_size = 3 self.impl.head_size = 8 # Mock output mock_cat.return_value = torch.randn(2, 4, 9) mock_all_to_all_single.return_value = torch.randn(4, 9, 2) mock_all_gather.return_value = [(2, 4, 9), (2, 4, 9), (2, 4, 9)] mock_stack.return_value = torch.randn(6, 2, 2, 9) mock_split.return_value = (torch.randn(6, 2, 2, 8), torch.randn(6, 2, 2, 1)) # Call the method under test output, lse = self.impl._update_chunk_attn_out_lse( prefix_chunk_output, prefix_chunk_lse) # Assert the method call self.assertIsInstance(output, torch.Tensor) self.assertIsInstance(lse, torch.Tensor) self.assertEqual(output.shape, (2, 2, 8)) self.assertEqual(lse.shape, (2, 2, 1)) self.assertEqual(mock_cat.call_count, 1) mock_all_to_all_single.assert_called_once() mock_stack.assert_called_once() mock_split.assert_called_once() self.assertEqual(mock_all_gather.call_count, 1) @patch('torch.cat') @patch('torch.chunk') @patch('torch.stack') @patch('torch.split') @patch('torch.distributed.all_to_all_single') @patch('torch.distributed.all_gather') def test_update_chunk_attn_out_lse_dcp_greater_than_1_only( self, mock_all_gather, mock_all_to_all_single, mock_split, mock_stack, mock_chunk, mock_cat): # Mock input data prefix_chunk_output = torch.randn(2, 4, 8) prefix_chunk_lse = torch.randn(2, 4, 1) self.impl.dcp_size = 2 self.impl.pcp_size = 1 self.impl.head_size = 8 # Mock output mock_cat.return_value = torch.randn(2, 4, 9) mock_all_to_all_single.return_value = torch.randn(2, 4, 9) mock_chunk.return_value = [torch.randn(2, 2, 9), torch.randn(2, 2, 9)] mock_stack.return_value = torch.randn(2, 2, 2, 9) mock_split.return_value = [ torch.randn(2, 2, 2, 8), torch.randn(2, 2, 2, 1) ] # Call the method under test output, lse = self.impl._update_chunk_attn_out_lse( prefix_chunk_output, prefix_chunk_lse) # Assert the method call self.assertIsInstance(output, torch.Tensor) self.assertIsInstance(lse, torch.Tensor) self.assertEqual(output.shape, (2, 2, 8)) self.assertEqual(lse.shape, (2, 2, 1)) self.assertEqual(mock_cat.call_count, 1) mock_all_to_all_single.assert_called_once() mock_chunk.assert_called_once() mock_stack.assert_called_once() mock_split.assert_called_once() mock_all_gather.assert_not_called() @patch('torch.cat') @patch('torch.stack') @patch('torch.split') @patch('torch.distributed.all_to_all_single') @patch('torch.distributed.all_gather') @patch( 'vllm_ascend.attention.attention_cp.AscendAttentionCPImpl._update_out_and_lse' ) def test_update_chunk_attn_out_lse_pcp_greater_than_1_only( self, mock_update_out_and_lse, mock_all_gather, mock_all_to_all_single, mock_split, mock_stack, mock_cat): # Mock input data prefix_chunk_output = torch.randn(2, 4, 8) prefix_chunk_lse = torch.randn(2, 4, 1) self.impl.dcp_size = 1 self.impl.pcp_size = 2 self.impl.head_size = 8 # Mock output mock_cat.return_value = torch.randn(2, 4, 9) mock_all_gather.return_value = [(2, 4, 9), (2, 4, 9)] mock_stack.return_value = torch.randn(2, 2, 4, 9) mock_split.return_value = [ torch.randn(2, 2, 4, 8), torch.randn(2, 2, 4, 1) ] mock_update_out_and_lse.return_value = torch.randn(2, 4, 8), torch.randn( 2, 4, 1) # Call the method under test output, lse = self.impl._update_chunk_attn_out_lse( prefix_chunk_output, prefix_chunk_lse) # Assert the method call self.assertIsInstance(output, torch.Tensor) self.assertIsInstance(lse, torch.Tensor) self.assertEqual(output.shape, (2, 4, 8)) self.assertEqual(lse.shape, (2, 4, 1)) self.impl._update_out_and_lse.assert_called_once() self.assertEqual(mock_cat.call_count, 1) mock_all_to_all_single.assert_not_called() mock_stack.assert_called_once() mock_split.assert_called_once() mock_all_gather.assert_called_once()