// Copyright 2022 gRPC authors. // // 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. #ifndef GRPC_EVENT_ENGINE_SLICE_H #define GRPC_EVENT_ENGINE_SLICE_H #include #include #include #include #include #include #include #include "absl/strings/string_view.h" // This public slice definition largely based of the internal grpc_core::Slice // implementation. Changes to this implementation might warrant changes to the // internal grpc_core::Slice type as well. namespace grpc_event_engine { namespace experimental { // Forward declarations class Slice; class MutableSlice; namespace slice_detail { // Returns an empty slice. static constexpr grpc_slice EmptySlice() { return {nullptr, {}}; } // BaseSlice holds the grpc_slice object, but does not apply refcounting policy. // It does export immutable access into the slice, such that this can be shared // by all storage policies. class BaseSlice { public: BaseSlice(const BaseSlice&) = delete; BaseSlice& operator=(const BaseSlice&) = delete; BaseSlice(BaseSlice&& other) = delete; BaseSlice& operator=(BaseSlice&& other) = delete; // Iterator access to the underlying bytes const uint8_t* begin() const { return GRPC_SLICE_START_PTR(c_slice()); } const uint8_t* end() const { return GRPC_SLICE_END_PTR(c_slice()); } const uint8_t* cbegin() const { return GRPC_SLICE_START_PTR(c_slice()); } const uint8_t* cend() const { return GRPC_SLICE_END_PTR(c_slice()); } // Retrieve a borrowed reference to the underlying grpc_slice. const grpc_slice& c_slice() const { return slice_; } // Retrieve the underlying grpc_slice, and replace the one in this object with // EmptySlice(). grpc_slice TakeCSlice() { grpc_slice out = slice_; slice_ = EmptySlice(); return out; } // As other things... borrowed references. absl::string_view as_string_view() const { return absl::string_view(reinterpret_cast(data()), size()); } // Array access uint8_t operator[](size_t i) const { return GRPC_SLICE_START_PTR(c_slice())[i]; } // Access underlying data const uint8_t* data() const { return GRPC_SLICE_START_PTR(c_slice()); } // Size of the slice size_t size() const { return GRPC_SLICE_LENGTH(c_slice()); } size_t length() const { return size(); } bool empty() const { return size() == 0; } // For inlined slices - are these two slices equal? // For non-inlined slices - do these two slices refer to the same block of // memory? bool is_equivalent(const BaseSlice& other) const { return grpc_slice_is_equivalent(slice_, other.slice_); } uint32_t Hash() const; protected: BaseSlice() : slice_(EmptySlice()) {} explicit BaseSlice(const grpc_slice& slice) : slice_(slice) {} ~BaseSlice() = default; void Swap(BaseSlice* other) { std::swap(slice_, other->slice_); } void SetCSlice(const grpc_slice& slice) { slice_ = slice; } uint8_t* mutable_data() { return GRPC_SLICE_START_PTR(slice_); } grpc_slice* c_slice_ptr() { return &slice_; } private: grpc_slice slice_; }; inline bool operator==(const BaseSlice& a, const BaseSlice& b) { return grpc_slice_eq(a.c_slice(), b.c_slice()) != 0; } inline bool operator!=(const BaseSlice& a, const BaseSlice& b) { return grpc_slice_eq(a.c_slice(), b.c_slice()) == 0; } inline bool operator==(const BaseSlice& a, absl::string_view b) { return a.as_string_view() == b; } inline bool operator!=(const BaseSlice& a, absl::string_view b) { return a.as_string_view() != b; } inline bool operator==(absl::string_view a, const BaseSlice& b) { return a == b.as_string_view(); } inline bool operator!=(absl::string_view a, const BaseSlice& b) { return a != b.as_string_view(); } inline bool operator==(const BaseSlice& a, const grpc_slice& b) { return grpc_slice_eq(a.c_slice(), b) != 0; } inline bool operator!=(const BaseSlice& a, const grpc_slice& b) { return grpc_slice_eq(a.c_slice(), b) == 0; } inline bool operator==(const grpc_slice& a, const BaseSlice& b) { return grpc_slice_eq(a, b.c_slice()) != 0; } inline bool operator!=(const grpc_slice& a, const BaseSlice& b) { return grpc_slice_eq(a, b.c_slice()) == 0; } template struct CopyConstructors { static Out FromCopiedString(const char* s) { return FromCopiedBuffer(s, strlen(s)); } static Out FromCopiedString(absl::string_view s) { return FromCopiedBuffer(s.data(), s.size()); } static Out FromCopiedString(std::string s); static Out FromCopiedBuffer(const char* p, size_t len) { return Out(grpc_slice_from_copied_buffer(p, len)); } static Out FromCopiedBuffer(const uint8_t* p, size_t len) { return Out( grpc_slice_from_copied_buffer(reinterpret_cast(p), len)); } template static Out FromCopiedBuffer(const Buffer& buffer) { return FromCopiedBuffer(reinterpret_cast(buffer.data()), buffer.size()); } }; } // namespace slice_detail class GPR_MSVC_EMPTY_BASE_CLASS_WORKAROUND MutableSlice : public slice_detail::BaseSlice, public slice_detail::CopyConstructors { public: MutableSlice() = default; explicit MutableSlice(const grpc_slice& slice); ~MutableSlice(); MutableSlice(const MutableSlice&) = delete; MutableSlice& operator=(const MutableSlice&) = delete; MutableSlice(MutableSlice&& other) noexcept : slice_detail::BaseSlice(other.TakeCSlice()) {} MutableSlice& operator=(MutableSlice&& other) noexcept { Swap(&other); return *this; } static MutableSlice CreateUninitialized(size_t length) { return MutableSlice(grpc_slice_malloc(length)); } // Return a sub slice of this one. Leaves this slice in an indeterminate but // valid state. MutableSlice TakeSubSlice(size_t pos, size_t n) { return MutableSlice(grpc_slice_sub_no_ref(TakeCSlice(), pos, pos + n)); } // Iterator access to the underlying bytes uint8_t* begin() { return mutable_data(); } uint8_t* end() { return mutable_data() + size(); } uint8_t* data() { return mutable_data(); } // Array access uint8_t& operator[](size_t i) { return mutable_data()[i]; } }; class GPR_MSVC_EMPTY_BASE_CLASS_WORKAROUND Slice : public slice_detail::BaseSlice, public slice_detail::CopyConstructors { public: Slice() = default; ~Slice(); explicit Slice(const grpc_slice& slice) : slice_detail::BaseSlice(slice) {} explicit Slice(slice_detail::BaseSlice&& other) : slice_detail::BaseSlice(other.TakeCSlice()) {} Slice(const Slice&) = delete; Slice& operator=(const Slice&) = delete; Slice(Slice&& other) noexcept : slice_detail::BaseSlice(other.TakeCSlice()) {} Slice& operator=(Slice&& other) noexcept { Swap(&other); return *this; } // A slice might refer to some memory that we keep a refcount to (this is // owned), or some memory that's inlined into the slice (also owned), or some // other block of memory that we know will be available for the lifetime of // some operation in the common case (not owned). In the *less common* case // that we need to keep that slice text for longer than our API's guarantee us // access, we need to take a copy and turn this into something that we do own. // TakeOwned returns an owned slice regardless of current ownership, and // leaves the current slice in a valid but externally unpredictable state - in // doing so it can avoid adding a ref to the underlying slice. Slice TakeOwned(); // AsOwned returns an owned slice but does not mutate the current slice, // meaning that it may add a reference to the underlying slice. Slice AsOwned() const; // TakeMutable returns a MutableSlice, and leaves the current slice in an // indeterminate but valid state. // A mutable slice requires only one reference to the bytes of the slice - // this can be achieved either with inlined storage or with a single // reference. // If the current slice is refcounted and there are more than one references // to that slice, then the slice is copied in order to achieve a mutable // version. MutableSlice TakeMutable(); // Return a sub slice of this one. Leaves this slice in an indeterminate but // valid state. Slice TakeSubSlice(size_t pos, size_t n) { return Slice(grpc_slice_sub_no_ref(TakeCSlice(), pos, pos + n)); } // Return a sub slice of this one. Adds a reference to the underlying slice. Slice RefSubSlice(size_t pos, size_t n) const { return Slice(grpc_slice_sub(c_slice(), pos, pos + n)); } // Split this slice, returning a new slice containing (split:end] and // leaving this slice with [begin:split). Slice Split(size_t split) { return Slice(grpc_slice_split_tail(c_slice_ptr(), split)); } Slice Ref() const; Slice Copy() const { return Slice(grpc_slice_copy(c_slice())); } static Slice FromRefcountAndBytes(grpc_slice_refcount* r, const uint8_t* begin, const uint8_t* end); }; namespace internal { template <> struct SliceCastable {}; template <> struct SliceCastable {}; template <> struct SliceCastable {}; template <> struct SliceCastable {}; template <> struct SliceCastable {}; template <> struct SliceCastable {}; } // namespace internal } // namespace experimental } // namespace grpc_event_engine #endif // GRPC_EVENT_ENGINE_SLICE_H