1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "components/variations/entropy_provider.h"
11 #include "base/logging.h"
12 #include "base/rand_util.h"
13 #include "base/sha1.h"
14 #include "base/sys_byteorder.h"
15 #include "components/variations/metrics_util.h"
21 SeededRandGenerator::SeededRandGenerator(uint32 seed
) {
22 mersenne_twister_
.init_genrand(seed
);
25 SeededRandGenerator::~SeededRandGenerator() {
28 uint32
SeededRandGenerator::operator()(uint32 range
) {
29 // Based on base::RandGenerator().
32 // We must discard random results above this number, as they would
33 // make the random generator non-uniform (consider e.g. if
34 // MAX_UINT64 was 7 and |range| was 5, then a result of 1 would be twice
35 // as likely as a result of 3 or 4).
36 uint32 max_acceptable_value
=
37 (std::numeric_limits
<uint32
>::max() / range
) * range
- 1;
41 value
= mersenne_twister_
.genrand_int32();
42 } while (value
> max_acceptable_value
);
47 void PermuteMappingUsingRandomizationSeed(uint32 randomization_seed
,
48 std::vector
<uint16
>* mapping
) {
49 for (size_t i
= 0; i
< mapping
->size(); ++i
)
50 (*mapping
)[i
] = static_cast<uint16
>(i
);
52 SeededRandGenerator
generator(randomization_seed
);
54 // Do a deterministic random shuffle of the mapping using |generator|.
56 // Note: This logic is identical to the following call with libstdc++ and VS:
58 // std::random_shuffle(mapping->begin(), mapping->end(), generator);
60 // However, this is not guaranteed by the spec and some implementations (e.g.
61 // libc++) use a different algorithm. To ensure results are consistent
62 // regardless of the compiler toolchain used, use our own version.
63 for (size_t i
= 1; i
< mapping
->size(); ++i
) {
64 // Pick an element in mapping[:i+1] with which to exchange mapping[i].
65 size_t j
= generator(i
+ 1);
66 std::swap((*mapping
)[i
], (*mapping
)[j
]);
70 } // namespace internal
72 SHA1EntropyProvider::SHA1EntropyProvider(const std::string
& entropy_source
)
73 : entropy_source_(entropy_source
) {
76 SHA1EntropyProvider::~SHA1EntropyProvider() {
79 double SHA1EntropyProvider::GetEntropyForTrial(
80 const std::string
& trial_name
,
81 uint32 randomization_seed
) const {
82 // Given enough input entropy, SHA-1 will produce a uniformly random spread
83 // in its output space. In this case, the input entropy that is used is the
84 // combination of the original |entropy_source_| and the |trial_name|.
86 // Note: If |entropy_source_| has very low entropy, such as 13 bits or less,
87 // it has been observed that this method does not result in a uniform
88 // distribution given the same |trial_name|. When using such a low entropy
89 // source, PermutedEntropyProvider should be used instead.
90 std::string
input(entropy_source_
+ trial_name
);
91 unsigned char sha1_hash
[base::kSHA1Length
];
92 base::SHA1HashBytes(reinterpret_cast<const unsigned char*>(input
.c_str()),
97 COMPILE_ASSERT(sizeof(bits
) < sizeof(sha1_hash
), need_more_data
);
98 memcpy(&bits
, sha1_hash
, sizeof(bits
));
99 bits
= base::ByteSwapToLE64(bits
);
101 return base::BitsToOpenEndedUnitInterval(bits
);
104 PermutedEntropyProvider::PermutedEntropyProvider(
105 uint16 low_entropy_source
,
106 size_t low_entropy_source_max
)
107 : low_entropy_source_(low_entropy_source
),
108 low_entropy_source_max_(low_entropy_source_max
) {
109 DCHECK_LT(low_entropy_source
, low_entropy_source_max
);
110 DCHECK_LE(low_entropy_source_max
, std::numeric_limits
<uint16
>::max());
113 PermutedEntropyProvider::~PermutedEntropyProvider() {
116 double PermutedEntropyProvider::GetEntropyForTrial(
117 const std::string
& trial_name
,
118 uint32 randomization_seed
) const {
119 if (randomization_seed
== 0)
120 randomization_seed
= HashName(trial_name
);
122 return GetPermutedValue(randomization_seed
) /
123 static_cast<double>(low_entropy_source_max_
);
126 uint16
PermutedEntropyProvider::GetPermutedValue(
127 uint32 randomization_seed
) const {
128 std::vector
<uint16
> mapping(low_entropy_source_max_
);
129 internal::PermuteMappingUsingRandomizationSeed(randomization_seed
, &mapping
);
130 return mapping
[low_entropy_source_
];
133 } // namespace metrics