/* * Copyright (C) 2017 The Android Open Source Project * * 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 NETUTILS_SLICE_H #define NETUTILS_SLICE_H #include #include #include #include #include #include namespace android { namespace netdutils { // Immutable wrapper for a linear region of unowned bytes. // Slice represents memory as a half-closed interval [base, limit). // // Note that without manually invoking the Slice() constructor, it is // impossible to increase the size of a slice. This guarantees that // applications that properly use the slice API will never access // memory outside of a slice. // // Note that const Slice still wraps mutable memory, however copy // assignment and move assignment to slice are disabled. class Slice { public: Slice() = default; // Create a slice beginning at base and continuing to but not including limit Slice(void* base, void* limit) : mBase(toUint8(base)), mLimit(toUint8(limit)) {} // Create a slice beginning at base and continuing for size bytes Slice(void* base, size_t size) : Slice(base, toUint8(base) + size) {} // Return the address of the first byte in this slice uint8_t* base() const { return mBase; } // Return the address of the first byte following this slice uint8_t* limit() const { return mLimit; } // Return the size of this slice in bytes size_t size() const { return limit() - base(); } // Return true if size() == 0 bool empty() const { return base() == limit(); } private: static uint8_t* toUint8(void* ptr) { return reinterpret_cast(ptr); } uint8_t* mBase = nullptr; uint8_t* mLimit = nullptr; }; // Return slice representation of ref which must be a POD type template inline const Slice makeSlice(const T& ref) { static_assert(std::is_pod::value, "value must be a POD type"); static_assert(!std::is_pointer::value, "value must not be a pointer type"); return {const_cast(&ref), sizeof(ref)}; } // Return slice representation of string data() inline const Slice makeSlice(const std::string& s) { using ValueT = std::string::value_type; return {const_cast(s.data()), s.size() * sizeof(ValueT)}; } // Return slice representation of vector data() template inline const Slice makeSlice(const std::vector& v) { return {const_cast(v.data()), v.size() * sizeof(T)}; } // Return slice representation of array data() template inline const Slice makeSlice(const std::array& a) { return {const_cast(a.data()), a.size() * sizeof(U)}; } // Return prefix and suffix of Slice s ending and starting at position cut inline std::pair split(const Slice s, size_t cut) { const size_t tmp = std::min(cut, s.size()); return {{s.base(), s.base() + tmp}, {s.base() + tmp, s.limit()}}; } // Return prefix of Slice s ending at position cut inline const Slice take(const Slice s, size_t cut) { return std::get<0>(split(s, cut)); } // Return suffix of Slice s starting at position cut inline const Slice drop(const Slice s, size_t cut) { return std::get<1>(split(s, cut)); } // Copy from src into dst. Bytes copied is the lesser of dst.size() and src.size() inline size_t copy(const Slice dst, const Slice src) { const auto min = std::min(dst.size(), src.size()); memcpy(dst.base(), src.base(), min); return min; } // Base case for variadic extract below template inline size_t extract(const Slice src, Head& head) { return copy(makeSlice(head), src); } // Copy from src into one or more pointers to POD data. If src.size() // is less than the sum of all data pointers a suffix of data will be // left unmodified. Return the number of bytes copied. template inline size_t extract(const Slice src, Head& head, Tail&... tail) { const auto extracted = extract(src, head); return extracted + extract(drop(src, extracted), tail...); } // Return a string containing a copy of the contents of s std::string toString(const Slice s); // Return a string containing a hexadecimal representation of the contents of s. // This function inserts a newline into its output every wrap bytes. std::string toHex(const Slice s, int wrap = INT_MAX); inline bool operator==(const Slice& lhs, const Slice& rhs) { return (lhs.base() == rhs.base()) && (lhs.limit() == rhs.limit()); } inline bool operator!=(const Slice& lhs, const Slice& rhs) { return !(lhs == rhs); } std::ostream& operator<<(std::ostream& os, const Slice& slice); // Return suffix of Slice s starting at the first match of byte c. If no matched // byte, return an empty Slice. inline const Slice findFirstMatching(const Slice s, uint8_t c) { uint8_t* match = (uint8_t*)memchr(s.base(), c, s.size()); if (!match) return Slice(); return drop(s, match - s.base()); } } // namespace netdutils } // namespace android #endif /* NETUTILS_SLICE_H */