sglang_v0.5.2/flashinfer_0.3.1/csrc/batch_decode.cu

/*
 * Copyright (c) 2023 by FlashInfer team.
 *
 * 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.
 */
#include <flashinfer/attention/scheduler.cuh>
#include <flashinfer/pos_enc.cuh>
#include <flashinfer/utils.cuh>
#include <optional>

#include "batch_decode_config.inc"
#include "pytorch_conversion_utils.h"
#include "pytorch_extension_utils.h"

namespace flashinfer {

template <uint32_t HEAD_DIM, PosEncodingMode POS_ENCODING_MODE, typename AttentionVariant,
          typename Params>
cudaError_t BatchDecodeWithPagedKVCacheDispatched(Params params, typename Params::DTypeO* tmp_v,
                                                  float* tmp_s, bool enable_pdl,
                                                  cudaStream_t stream);

}  // namespace flashinfer

using namespace flashinfer;

at::Tensor BatchDecodeWithPagedKVCachePlan(
    at::Tensor float_workspace_buffer, at::Tensor int_workspace_buffer,
    at::Tensor page_locked_int_workspace_buffer, at::Tensor indptr, int64_t batch_size,
    int64_t num_qo_heads, int64_t num_kv_heads, int64_t page_size, bool enable_cuda_graph,
    int64_t window_left, double logits_soft_cap, int64_t head_dim_qk, int64_t head_dim_vo,
    at::Tensor empty_q_data, at::Tensor empty_kv_data) {
  size_t float_workspace_size_in_bytes =
      float_workspace_buffer.size(0) * float_workspace_buffer.element_size();
  size_t int_workspace_size_in_bytes =
      int_workspace_buffer.size(0) * int_workspace_buffer.element_size();

  DecodePlanInfo plan_info;

  auto q_scalar_type = empty_q_data.scalar_type();
  auto kv_scalar_type = empty_kv_data.scalar_type();

  TORCH_CHECK(head_dim_qk == head_dim_vo,
              "CUDA cores template only supports equal head dim for QK and VO, please use tensor "
              "cores template for different head dim");

  const c10::cuda::OptionalCUDAGuard device_guard(float_workspace_buffer.device());
  const cudaStream_t stream = c10::cuda::getCurrentCUDAStream();
  DISPATCH_context(
      DTypeQ, DTypeKV, DTypeO, IdType, HEAD_DIM_QK, HEAD_DIM_VO, POS_ENCODING_MODE,
      USE_SLIDING_WINDOW, USE_LOGITS_SOFT_CAP, AttentionVariant, Params, [&] {
        DISPATCH_GQA_GROUP_SIZE(num_qo_heads / num_kv_heads, GROUP_SIZE, {
          auto work_estimation_func = BatchDecodeWithPagedKVCacheWorkEstimationDispatched<
              GROUP_SIZE, HEAD_DIM_QK, POS_ENCODING_MODE, AttentionVariant, Params>;
          cudaError_t status = DecodePlan<HEAD_DIM_QK, POS_ENCODING_MODE, AttentionVariant, Params>(
              static_cast<void*>(float_workspace_buffer.data_ptr()), float_workspace_size_in_bytes,
              static_cast<void*>(int_workspace_buffer.data_ptr()),
              static_cast<void*>(page_locked_int_workspace_buffer.data_ptr()),
              int_workspace_size_in_bytes, plan_info, static_cast<IdType*>(indptr.data_ptr()),
              batch_size, num_qo_heads, page_size, enable_cuda_graph,
              /*stream=*/stream, work_estimation_func);

          TORCH_CHECK(status == cudaSuccess, "BatchDecodeWithPagedKVCache failed with error ",
                      cudaGetErrorString(status));
          return true;
        });
      });

  return vec_to_tensor(plan_info.ToVector());
}

void BatchDecodeWithPagedKVCacheRun(at::Tensor float_workspace_buffer,
                                    at::Tensor int_workspace_buffer, at::Tensor plan_info_vec,
                                    at::Tensor q, at::Tensor paged_k_cache,
                                    at::Tensor paged_v_cache, at::Tensor paged_kv_indptr,
                                    at::Tensor paged_kv_indices, at::Tensor paged_kv_last_page_len,
                                    at::Tensor o, std::optional<at::Tensor> maybe_lse,
                                    int64_t kv_layout_code, int64_t window_left,
                                    bool enable_pdl ADDITIONAL_FUNC_PARAMS) {
  DecodePlanInfo plan_info;
  plan_info.FromVector(tensor_to_vec(plan_info_vec));
  QKVLayout kv_layout = static_cast<QKVLayout>(kv_layout_code);
  auto device = q.device();
  int64_t batch_size = q.size(0);
  int64_t num_qo_heads = q.size(1);
  int64_t num_kv_heads, page_size;

  if (kv_layout == QKVLayout::kHND) {
    num_kv_heads = paged_k_cache.size(1);
    page_size = paged_k_cache.size(2);
  } else {
    page_size = paged_k_cache.size(1);
    num_kv_heads = paged_k_cache.size(2);
  }
  uint32_t head_dim_qk = q.size(2);
  uint32_t head_dim_vo = paged_v_cache.size(3);

  TORCH_CHECK(head_dim_qk == head_dim_vo,
              "CUDA cores template only supports equal head dim for QK and VO, please use tensor "
              "cores template for different head dim");

  if (maybe_lse) {
    const auto& lse = *maybe_lse;
    TORCH_CHECK(lse.size(0) == batch_size, lse.size(0), q.size(0));
    TORCH_CHECK(lse.size(1) == num_qo_heads, lse.size(1), q.size(1));
  }

  void* float_buffer = static_cast<void*>(float_workspace_buffer.data_ptr());
  void* int_buffer = static_cast<void*>(int_workspace_buffer.data_ptr());

  // get q_scalar_type and kv_scalar_type
  auto q_scalar_type = q.scalar_type();
  auto kv_scalar_type = paged_k_cache.scalar_type();

  // get q_stride_n and q_stride_h
  const auto q_stride_n = q.stride(0);
  const auto q_stride_h = q.stride(1);

  // get kv_cache_strides
  const int64_t* kv_cache_strides = nullptr;
  auto k_strides = paged_k_cache.strides();
  auto v_strides = paged_v_cache.strides();
  TORCH_CHECK(k_strides == v_strides, "k/v strides must be identical");
  kv_cache_strides = k_strides.data();

  const c10::cuda::OptionalCUDAGuard device_guard(device);
  const cudaStream_t stream = c10::cuda::getCurrentCUDAStream();

  DISPATCH_context(
      DTypeQ, DTypeKV, DTypeO, IdType, HEAD_DIM_QK, HEAD_DIM_VO, POS_ENCODING_MODE,
      USE_SLIDING_WINDOW, USE_LOGITS_SOFT_CAP, AttentionVariant, Params, [&] {
        paged_kv_t<DTypeKV, IdType> paged_kv(
            num_kv_heads, page_size, HEAD_DIM_QK, batch_size, kv_layout,
            static_cast<DTypeKV*>(paged_k_cache.data_ptr()),
            static_cast<DTypeKV*>(paged_v_cache.data_ptr()), kv_cache_strides,
            static_cast<IdType*>(paged_kv_indices.data_ptr()),
            static_cast<IdType*>(paged_kv_indptr.data_ptr()),
            static_cast<IdType*>(paged_kv_last_page_len.data_ptr()));

        Params params;
        params.q = static_cast<DTypeQ*>(q.data_ptr());
        params.paged_kv = paged_kv;
        params.o = static_cast<DTypeO*>(o.data_ptr());
        params.lse = maybe_lse ? static_cast<float*>(maybe_lse->data_ptr()) : nullptr;
        params.padded_batch_size = 0;
        params.num_qo_heads = num_qo_heads;
        params.q_stride_n = q_stride_n;
        params.q_stride_h = q_stride_h;
        params.window_left = window_left;
        params.request_indices = nullptr;
        params.kv_tile_indices = nullptr;
        params.o_indptr = nullptr;
        params.kv_chunk_size_ptr = nullptr;
        params.block_valid_mask = nullptr;
        params.partition_kv = false;

        ADDITIONAL_PARAMS_SETTER

        DTypeO* tmp_v = nullptr;
        float* tmp_s = nullptr;
        params.request_indices =
            GetPtrFromBaseOffset<IdType>(int_buffer, plan_info.request_indices_offset);
        params.kv_tile_indices =
            GetPtrFromBaseOffset<IdType>(int_buffer, plan_info.kv_tile_indices_offset);
        params.o_indptr = GetPtrFromBaseOffset<IdType>(int_buffer, plan_info.o_indptr_offset);
        params.kv_chunk_size_ptr =
            GetPtrFromBaseOffset<IdType>(int_buffer, plan_info.kv_chunk_size_ptr_offset);
        if (plan_info.split_kv) {
          tmp_v = GetPtrFromBaseOffset<DTypeO>(float_buffer, plan_info.v_offset);
          tmp_s = GetPtrFromBaseOffset<float>(float_buffer, plan_info.s_offset);
          if (plan_info.enable_cuda_graph) {
            params.block_valid_mask =
                GetPtrFromBaseOffset<bool>(int_buffer, plan_info.block_valid_mask_offset);
          }
        }
        params.padded_batch_size = plan_info.padded_batch_size;

        cudaError_t status =
            flashinfer::BatchDecodeWithPagedKVCacheDispatched<HEAD_DIM_QK, POS_ENCODING_MODE,
                                                              AttentionVariant>(params, tmp_v,
                                                                                tmp_s, enable_pdl,
                                                                                /*stream=*/stream);
        TORCH_CHECK(status == cudaSuccess, "BatchDecodeWithPagedKVCache failed with error ",
                    cudaGetErrorString(status));
        return true;
      });
}