File Coverage

src/int/i32_muladd.c
Criterion Covered Total %
statement 0 34 0.0
branch 0 6 0.0
condition n/a
subroutine n/a
pod n/a
total 0 40 0.0


line stmt bran cond sub pod time code
1             /*
2             * Copyright (c) 2016 Thomas Pornin
3             *
4             * Permission is hereby granted, free of charge, to any person obtaining
5             * a copy of this software and associated documentation files (the
6             * "Software"), to deal in the Software without restriction, including
7             * without limitation the rights to use, copy, modify, merge, publish,
8             * distribute, sublicense, and/or sell copies of the Software, and to
9             * permit persons to whom the Software is furnished to do so, subject to
10             * the following conditions:
11             *
12             * The above copyright notice and this permission notice shall be
13             * included in all copies or substantial portions of the Software.
14             *
15             * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
16             * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
17             * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
18             * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
19             * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
20             * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
21             * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
22             * SOFTWARE.
23             */
24              
25             #include "inner.h"
26              
27             /* see inner.h */
28             void
29 0           br_i32_muladd_small(uint32_t *x, uint32_t z, const uint32_t *m)
30             {
31             uint32_t m_bitlen;
32             size_t u, mlen;
33             uint32_t a0, a1, b0, hi, g, q, tb;
34             uint32_t chf, clow, under, over;
35             uint64_t cc;
36              
37             /*
38             * We can test on the modulus bit length since we accept to
39             * leak that length.
40             */
41 0           m_bitlen = m[0];
42 0 0         if (m_bitlen == 0) {
43 0           return;
44             }
45 0 0         if (m_bitlen <= 32) {
46 0           x[1] = br_rem(x[1], z, m[1]);
47 0           return;
48             }
49 0           mlen = (m_bitlen + 31) >> 5;
50              
51             /*
52             * Principle: we estimate the quotient (x*2^32+z)/m by
53             * doing a 64/32 division with the high words.
54             *
55             * Let:
56             * w = 2^32
57             * a = (w*a0 + a1) * w^N + a2
58             * b = b0 * w^N + b2
59             * such that:
60             * 0 <= a0 < w
61             * 0 <= a1 < w
62             * 0 <= a2 < w^N
63             * w/2 <= b0 < w
64             * 0 <= b2 < w^N
65             * a < w*b
66             * I.e. the two top words of a are a0:a1, the top word of b is
67             * b0, we ensured that b0 is "full" (high bit set), and a is
68             * such that the quotient q = a/b fits on one word (0 <= q < w).
69             *
70             * If a = b*q + r (with 0 <= r < q), we can estimate q by
71             * doing an Euclidean division on the top words:
72             * a0*w+a1 = b0*u + v (with 0 <= v < w)
73             * Then the following holds:
74             * 0 <= u <= w
75             * u-2 <= q <= u
76             */
77 0           a0 = br_i32_word(x, m_bitlen - 32);
78 0           hi = x[mlen];
79 0           memmove(x + 2, x + 1, (mlen - 1) * sizeof *x);
80 0           x[1] = z;
81 0           a1 = br_i32_word(x, m_bitlen - 32);
82 0           b0 = br_i32_word(m, m_bitlen - 32);
83              
84             /*
85             * We estimate a divisor q. If the quotient returned by br_div()
86             * is g:
87             * -- If a0 == b0 then g == 0; we want q = 0xFFFFFFFF.
88             * -- Otherwise:
89             * -- if g == 0 then we set q = 0;
90             * -- otherwise, we set q = g - 1.
91             * The properties described above then ensure that the true
92             * quotient is q-1, q or q+1.
93             */
94 0           g = br_div(a0, a1, b0);
95 0           q = MUX(EQ(a0, b0), 0xFFFFFFFF, MUX(EQ(g, 0), 0, g - 1));
96              
97             /*
98             * We subtract q*m from x (with the extra high word of value 'hi').
99             * Since q may be off by 1 (in either direction), we may have to
100             * add or subtract m afterwards.
101             *
102             * The 'tb' flag will be true (1) at the end of the loop if the
103             * result is greater than or equal to the modulus (not counting
104             * 'hi' or the carry).
105             */
106 0           cc = 0;
107 0           tb = 1;
108 0 0         for (u = 1; u <= mlen; u ++) {
109             uint32_t mw, zw, xw, nxw;
110             uint64_t zl;
111              
112 0           mw = m[u];
113 0           zl = MUL(mw, q) + cc;
114 0           cc = (uint32_t)(zl >> 32);
115 0           zw = (uint32_t)zl;
116 0           xw = x[u];
117 0           nxw = xw - zw;
118 0           cc += (uint64_t)GT(nxw, xw);
119 0           x[u] = nxw;
120 0           tb = MUX(EQ(nxw, mw), tb, GT(nxw, mw));
121             }
122              
123             /*
124             * If we underestimated q, then either cc < hi (one extra bit
125             * beyond the top array word), or cc == hi and tb is true (no
126             * extra bit, but the result is not lower than the modulus). In
127             * these cases we must subtract m once.
128             *
129             * Otherwise, we may have overestimated, which will show as
130             * cc > hi (thus a negative result). Correction is adding m once.
131             */
132 0           chf = (uint32_t)(cc >> 32);
133 0           clow = (uint32_t)cc;
134 0           over = chf | GT(clow, hi);
135 0           under = ~over & (tb | (~chf & LT(clow, hi)));
136 0           br_i32_add(x, m, over);
137 0           br_i32_sub(x, m, under);
138             }