http2/test_tools/http2_random.h - quiche - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_
 #define QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_

 #include <cmath>
 #include <cstdint>
 #include <limits>
 #include <random>
 #include <string>

 #include "net/third_party/quiche/src/http2/platform/api/http2_string_piece.h"

 namespace http2 {
 namespace test {

 // The random number generator used for unit tests.  Since the algorithm is
 // deterministic and fixed, this can be used to reproduce flakes in the unit
 // tests caused by specific random values.
 class Http2Random {
  public:
   Http2Random();

   Http2Random(const Http2Random&) = delete;
   Http2Random& operator=(const Http2Random&) = delete;

   // Reproducible random number generation: by using the same key, the same
   // sequence of results is obtained.
   explicit Http2Random(Http2StringPiece key);
   std::string Key() const;

   void FillRandom(void* buffer, size_t buffer_size);
   std::string RandString(int length);

   // Returns a random 64-bit value.
   uint64_t Rand64();

   // Return a uniformly distrubted random number in [0, n).
   uint32_t Uniform(uint32_t n) { return Rand64() % n; }
   // Return a uniformly distrubted random number in [lo, hi).
   uint64_t UniformInRange(uint64_t lo, uint64_t hi) {
     return lo + Rand64() % (hi - lo);
   }
   // Return an integer of logarithmically random scale.
   uint32_t Skewed(uint32_t max_log) {
     const uint32_t base = Rand32() % (max_log + 1);
     const uint32_t mask = ((base < 32) ? (1u << base) : 0u) - 1u;
     return Rand32() & mask;
   }
   // Return a random number in [0, max] range that skews low.
   uint64_t RandomSizeSkewedLow(uint64_t max) {
     return std::round(max * std::pow(RandDouble(), 2));
   }

   // Returns a random double between 0 and 1.
   double RandDouble();
   float RandFloat() { return RandDouble(); }

   // Has 1/n chance of returning true.
   bool OneIn(int n) { return Uniform(n) == 0; }

   uint8_t Rand8() { return Rand64(); }
   uint16_t Rand16() { return Rand64(); }
   uint32_t Rand32() { return Rand64(); }

   // Return a random string consisting of the characters from the specified
   // alphabet.
   std::string RandStringWithAlphabet(int length, Http2StringPiece alphabet);

   // STL UniformRandomNumberGenerator implementation.
   using result_type = uint64_t;
   static constexpr result_type min() { return 0; }
   static constexpr result_type max() {
     return std::numeric_limits<result_type>::max();
   }
   result_type operator()() { return Rand64(); }

  private:
   uint8_t key_[32];
   uint32_t counter_ = 0;
 };

 }  // namespace test
 }  // namespace http2

 #endif  // QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_
	#define QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_

	#include <cmath>
	#include <cstdint>
	#include <limits>
	#include <random>
	#include <string>

	#include "net/third_party/quiche/src/http2/platform/api/http2_string_piece.h"

	namespace http2 {
	namespace test {

	// The random number generator used for unit tests. Since the algorithm is
	// deterministic and fixed, this can be used to reproduce flakes in the unit
	// tests caused by specific random values.
	class Http2Random {
	public:
	Http2Random();

	Http2Random(const Http2Random&) = delete;
	Http2Random& operator=(const Http2Random&) = delete;

	// Reproducible random number generation: by using the same key, the same
	// sequence of results is obtained.
	explicit Http2Random(Http2StringPiece key);
	std::string Key() const;

	void FillRandom(void* buffer, size_t buffer_size);
	std::string RandString(int length);

	// Returns a random 64-bit value.
	uint64_t Rand64();

	// Return a uniformly distrubted random number in [0, n).
	uint32_t Uniform(uint32_t n) { return Rand64() % n; }
	// Return a uniformly distrubted random number in [lo, hi).
	uint64_t UniformInRange(uint64_t lo, uint64_t hi) {
	return lo + Rand64() % (hi - lo);
	}
	// Return an integer of logarithmically random scale.
	uint32_t Skewed(uint32_t max_log) {
	const uint32_t base = Rand32() % (max_log + 1);
	const uint32_t mask = ((base < 32) ? (1u << base) : 0u) - 1u;
	return Rand32() & mask;
	}
	// Return a random number in [0, max] range that skews low.
	uint64_t RandomSizeSkewedLow(uint64_t max) {
	return std::round(max * std::pow(RandDouble(), 2));
	}

	// Returns a random double between 0 and 1.
	double RandDouble();
	float RandFloat() { return RandDouble(); }

	// Has 1/n chance of returning true.
	bool OneIn(int n) { return Uniform(n) == 0; }

	uint8_t Rand8() { return Rand64(); }
	uint16_t Rand16() { return Rand64(); }
	uint32_t Rand32() { return Rand64(); }

	// Return a random string consisting of the characters from the specified
	// alphabet.
	std::string RandStringWithAlphabet(int length, Http2StringPiece alphabet);

	// STL UniformRandomNumberGenerator implementation.
	using result_type = uint64_t;
	static constexpr result_type min() { return 0; }
	static constexpr result_type max() {
	return std::numeric_limits<result_type>::max();
	}
	result_type operator()() { return Rand64(); }

	private:
	uint8_t key_[32];
	uint32_t counter_ = 0;
	};

	} // namespace test
	} // namespace http2

	#endif // QUICHE_HTTP2_TEST_TOOLS_HTTP2_RANDOM_H_