Debugging: Add code to print backtrace for guest on SIGSEGV
[nativeclient.git] / service_runtime / nacl_secure_random_common.c
blob30df7942a8c53ddff136935719b46a1ae01ffba9
1 /*
2 * Copyright 2008, Google Inc.
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33 * NaCl Service Runtime. Secure RNG implementation.
36 #include "native_client/service_runtime/nacl_secure_random.h"
38 #include "native_client/service_runtime/nacl_log.h"
40 uint32_t NaClSecureRngGenUint32(struct NaClSecureRng *self)
42 uint32_t rv;
44 rv = (0xff & NaClSecureRngGenByte(self));
45 rv <<= 8;
46 rv |= (0xff & NaClSecureRngGenByte(self));
47 rv <<= 8;
48 rv |= (0xff & NaClSecureRngGenByte(self));
49 rv <<= 8;
50 rv |= (0xff & NaClSecureRngGenByte(self));
51 return rv;
54 void NaClSecureRngGenBytes(struct NaClSecureRng *self,
55 char *buf,
56 size_t nbytes)
58 size_t i;
60 for (i = 0; i < nbytes; ++i) {
61 buf[i] = NaClSecureRngGenByte(self);
65 uint32_t NaClSecureRngUniform(struct NaClSecureRng *self,
66 uint32_t range_max)
68 uint32_t bias;
69 uint32_t v;
72 * First, is range_max a power of 2? If so, we can just keep the
73 * low order bits.
75 if (0 == (range_max & (range_max - 1))) {
76 return NaClSecureRngGenUint32(self) & (range_max - 1);
78 /* post condition: range_max is not a power of 2 */
81 * Generator output range is uniform in [0, ~(uint32_t) 0] or [0, 2^{32}).
83 * NB: Number of integer values in the range [0, n) is n,
84 * and number of integer values in the range [m, n) is n-m,
85 * (n and m are integers).
87 bias = ((~(uint32_t) 0) % range_max) + 1;
89 * bias = (2^{32}-1 \bmod range_max) + 1
91 * 1 <= bias <= range_max.
93 * Aside: bias = range_max is impossible. Here's why:
95 * Suppose bias = range_max. Then,
97 * 2^{32}-1 \bmod range_max + 1 = range_max
98 * 2^{32}-1 \bmod range_max = range_max - 1
99 * 2^{32}-1 = k range_max + range_max - 1 for some k \in Z.
100 * 2^{32}-1 = (k+1) range_max - 1
101 * 2^{32} = (k+1) range_max
103 * Since range_max evenly divides the right hand side, it must
104 * divide the left. However, the only divisors of 2^{32} are powers
105 * of 2. Thus, range_max must also be a power of 2. =><=
107 * Therefore, bias \ne range_max. QED.
109 * post condition: 1 <= bias < range_max.
113 do {
114 v = NaClSecureRngGenUint32(self);
115 /* v is uniform in [0, 2^{32}) */
116 } while (v < bias);
118 * v is uniform in [bias, 2^{32}).
120 * the number of integers in the half-open interval is
122 * 2^{32} - bias = 2^{32} - ((2^{32}-1 \bmod range_max + 1))
123 * = 2^{32}-1 - (2^{32}-1 \bmod range_max)
124 * = range_max * \lfloor (2^{32}-1)/range_max \rfloor
126 * and range_max clearly divides the size of the range.
128 * The mapping v \rightarrow v % range_max takes values from [bias,
129 * 2^{32}) to [0, range_max). Each integer in the range interval
130 * [0, range_max) will have exactly \lfloor (2^{32}-1)/range_max
131 * \rfloor preimages from the domain interval.
133 * Therefore, v % range_max is uniform over [0, range_max). QED.
136 return v % range_max;