net/dcsctp/common/sequence_numbers.h - src - Git at Google

 /*
  *  Copyright (c) 2021 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */
 #ifndef NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_
 #define NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_

 #include <cstdint>
 #include <limits>
 #include <utility>

 #include "net/dcsctp/common/internal_types.h"

 namespace dcsctp {

 // UnwrappedSequenceNumber handles wrapping sequence numbers and unwraps them to
 // an int64_t value space, to allow wrapped sequence numbers to be easily
 // compared for ordering.
 //
 // Sequence numbers are expected to be monotonically increasing, but they do not
 // need to be unwrapped in order, as long as the difference to the previous one
 // is not larger than half the range of the wrapped sequence number.
 //
 // The WrappedType must be a StrongAlias type.
 template <typename WrappedType>
 class UnwrappedSequenceNumber {
  public:
   static_assert(
       !std::numeric_limits<typename WrappedType::UnderlyingType>::is_signed,
       "The wrapped type must be unsigned");
   static_assert(
       std::numeric_limits<typename WrappedType::UnderlyingType>::max() <
           std::numeric_limits<int64_t>::max(),
       "The wrapped type must be less than the int64_t value space");

   // The unwrapper is a sort of factory and converts wrapped sequence numbers to
   // unwrapped ones.
   class Unwrapper {
    public:
     Unwrapper() : largest_(kValueLimit) {}
     Unwrapper(const Unwrapper&) = default;
     Unwrapper& operator=(const Unwrapper&) = default;

     // Given a wrapped `value`, and with knowledge of its current last seen
     // largest number, will return a value that can be compared using normal
     // operators, such as less-than, greater-than etc.
     //
     // This will also update the Unwrapper's state, to track the last seen
     // largest value.
     UnwrappedSequenceNumber<WrappedType> Unwrap(WrappedType value) {
       WrappedType wrapped_largest =
           static_cast<WrappedType>(largest_ % kValueLimit);
       int64_t result = largest_ + Delta(value, wrapped_largest);
       if (largest_ < result) {
         largest_ = result;
       }
       return UnwrappedSequenceNumber<WrappedType>(result);
     }

     // Similar to `Unwrap`, but will not update the Unwrappers's internal state.
     UnwrappedSequenceNumber<WrappedType> PeekUnwrap(WrappedType value) const {
       WrappedType uint32_largest =
           static_cast<WrappedType>(largest_ % kValueLimit);
       int64_t result = largest_ + Delta(value, uint32_largest);
       return UnwrappedSequenceNumber<WrappedType>(result);
     }

     // Resets the Unwrapper to its pristine state. Used when a sequence number
     // is to be reset to zero.
     void Reset() { largest_ = kValueLimit; }

    private:
     static int64_t Delta(WrappedType value, WrappedType prev_value) {
       static constexpr typename WrappedType::UnderlyingType kBreakpoint =
           kValueLimit / 2;
       typename WrappedType::UnderlyingType diff = *value - *prev_value;
       diff %= kValueLimit;
       if (diff < kBreakpoint) {
         return static_cast<int64_t>(diff);
       }
       return static_cast<int64_t>(diff) - kValueLimit;
     }

     int64_t largest_;
   };

   // Returns the wrapped value this type represents.
   WrappedType Wrap() const {
     return static_cast<WrappedType>(value_ % kValueLimit);
   }

   template <typename H>
   friend H AbslHashValue(H state,
                          const UnwrappedSequenceNumber<WrappedType>& hash) {
     return H::combine(std::move(state), hash.value_);
   }

   bool operator==(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ == other.value_;
   }
   bool operator!=(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ != other.value_;
   }
   bool operator<(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ < other.value_;
   }
   bool operator>(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ > other.value_;
   }
   bool operator>=(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ >= other.value_;
   }
   bool operator<=(const UnwrappedSequenceNumber<WrappedType>& other) const {
     return value_ <= other.value_;
   }

   // Increments the value.
   void Increment() { ++value_; }

   // Returns the next value relative to this sequence number.
   UnwrappedSequenceNumber<WrappedType> next_value() const {
     return UnwrappedSequenceNumber<WrappedType>(value_ + 1);
   }

   // Returns a new sequence number based on `value`, and adding `delta` (which
   // may be negative).
   static UnwrappedSequenceNumber<WrappedType> AddTo(
       UnwrappedSequenceNumber<WrappedType> value,
       int delta) {
     return UnwrappedSequenceNumber<WrappedType>(value.value_ + delta);
   }

   // Returns the absolute difference between `lhs` and `rhs`.
   static typename WrappedType::UnderlyingType Difference(
       UnwrappedSequenceNumber<WrappedType> lhs,
       UnwrappedSequenceNumber<WrappedType> rhs) {
     return (lhs.value_ > rhs.value_) ? (lhs.value_ - rhs.value_)
                                      : (rhs.value_ - lhs.value_);
   }

  private:
   explicit UnwrappedSequenceNumber(int64_t value) : value_(value) {}
   static constexpr int64_t kValueLimit =
       static_cast<int64_t>(1)
       << std::numeric_limits<typename WrappedType::UnderlyingType>::digits;

   int64_t value_;
 };

 // Unwrapped Transmission Sequence Numbers (TSN)
 using UnwrappedTSN = UnwrappedSequenceNumber<TSN>;

 // Unwrapped Stream Sequence Numbers (SSN)
 using UnwrappedSSN = UnwrappedSequenceNumber<SSN>;

 // Unwrapped Message Identifier (MID)
 using UnwrappedMID = UnwrappedSequenceNumber<MID>;

 }  // namespace dcsctp

 #endif  // NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_
	/*
	* Copyright (c) 2021 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/
	#ifndef NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_
	#define NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_

	#include <cstdint>
	#include <limits>
	#include <utility>

	#include "net/dcsctp/common/internal_types.h"

	namespace dcsctp {

	// UnwrappedSequenceNumber handles wrapping sequence numbers and unwraps them to
	// an int64_t value space, to allow wrapped sequence numbers to be easily
	// compared for ordering.
	//
	// Sequence numbers are expected to be monotonically increasing, but they do not
	// need to be unwrapped in order, as long as the difference to the previous one
	// is not larger than half the range of the wrapped sequence number.
	//
	// The WrappedType must be a StrongAlias type.
	template <typename WrappedType>
	class UnwrappedSequenceNumber {
	public:
	static_assert(
	!std::numeric_limits<typename WrappedType::UnderlyingType>::is_signed,
	"The wrapped type must be unsigned");
	static_assert(
	std::numeric_limits<typename WrappedType::UnderlyingType>::max() <
	std::numeric_limits<int64_t>::max(),
	"The wrapped type must be less than the int64_t value space");

	// The unwrapper is a sort of factory and converts wrapped sequence numbers to
	// unwrapped ones.
	class Unwrapper {
	public:
	Unwrapper() : largest_(kValueLimit) {}
	Unwrapper(const Unwrapper&) = default;
	Unwrapper& operator=(const Unwrapper&) = default;

	// Given a wrapped `value`, and with knowledge of its current last seen
	// largest number, will return a value that can be compared using normal
	// operators, such as less-than, greater-than etc.
	//
	// This will also update the Unwrapper's state, to track the last seen
	// largest value.
	UnwrappedSequenceNumber<WrappedType> Unwrap(WrappedType value) {
	WrappedType wrapped_largest =
	static_cast<WrappedType>(largest_ % kValueLimit);
	int64_t result = largest_ + Delta(value, wrapped_largest);
	if (largest_ < result) {
	largest_ = result;
	}
	return UnwrappedSequenceNumber<WrappedType>(result);
	}

	// Similar to `Unwrap`, but will not update the Unwrappers's internal state.
	UnwrappedSequenceNumber<WrappedType> PeekUnwrap(WrappedType value) const {
	WrappedType uint32_largest =
	static_cast<WrappedType>(largest_ % kValueLimit);
	int64_t result = largest_ + Delta(value, uint32_largest);
	return UnwrappedSequenceNumber<WrappedType>(result);
	}

	// Resets the Unwrapper to its pristine state. Used when a sequence number
	// is to be reset to zero.
	void Reset() { largest_ = kValueLimit; }

	private:
	static int64_t Delta(WrappedType value, WrappedType prev_value) {
	static constexpr typename WrappedType::UnderlyingType kBreakpoint =
	kValueLimit / 2;
	typename WrappedType::UnderlyingType diff = value - prev_value;
	diff %= kValueLimit;
	if (diff < kBreakpoint) {
	return static_cast<int64_t>(diff);
	}
	return static_cast<int64_t>(diff) - kValueLimit;
	}

	int64_t largest_;
	};

	// Returns the wrapped value this type represents.
	WrappedType Wrap() const {
	return static_cast<WrappedType>(value_ % kValueLimit);
	}

	template <typename H>
	friend H AbslHashValue(H state,
	const UnwrappedSequenceNumber<WrappedType>& hash) {
	return H::combine(std::move(state), hash.value_);
	}

	bool operator==(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ == other.value_;
	}
	bool operator!=(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ != other.value_;
	}
	bool operator<(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ < other.value_;
	}
	bool operator>(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ > other.value_;
	}
	bool operator>=(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ >= other.value_;
	}
	bool operator<=(const UnwrappedSequenceNumber<WrappedType>& other) const {
	return value_ <= other.value_;
	}

	// Increments the value.
	void Increment() { ++value_; }

	// Returns the next value relative to this sequence number.
	UnwrappedSequenceNumber<WrappedType> next_value() const {
	return UnwrappedSequenceNumber<WrappedType>(value_ + 1);
	}

	// Returns a new sequence number based on `value`, and adding `delta` (which
	// may be negative).
	static UnwrappedSequenceNumber<WrappedType> AddTo(
	UnwrappedSequenceNumber<WrappedType> value,
	int delta) {
	return UnwrappedSequenceNumber<WrappedType>(value.value_ + delta);
	}

	// Returns the absolute difference between `lhs` and `rhs`.
	static typename WrappedType::UnderlyingType Difference(
	UnwrappedSequenceNumber<WrappedType> lhs,
	UnwrappedSequenceNumber<WrappedType> rhs) {
	return (lhs.value_ > rhs.value_) ? (lhs.value_ - rhs.value_)
	: (rhs.value_ - lhs.value_);
	}

	private:
	explicit UnwrappedSequenceNumber(int64_t value) : value_(value) {}
	static constexpr int64_t kValueLimit =
	static_cast<int64_t>(1)
	<< std::numeric_limits<typename WrappedType::UnderlyingType>::digits;

	int64_t value_;
	};

	// Unwrapped Transmission Sequence Numbers (TSN)
	using UnwrappedTSN = UnwrappedSequenceNumber<TSN>;

	// Unwrapped Stream Sequence Numbers (SSN)
	using UnwrappedSSN = UnwrappedSequenceNumber<SSN>;

	// Unwrapped Message Identifier (MID)
	using UnwrappedMID = UnwrappedSequenceNumber<MID>;

	} // namespace dcsctp

	#endif // NET_DCSCTP_COMMON_SEQUENCE_NUMBERS_H_