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source: vbox/trunk/include/iprt/bignum.h@ 81025

Last change on this file since 81025 was 76585, checked in by vboxsync, 6 years ago

*: scm --fix-header-guard-endif

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File size: 6.6 KB
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1/** @file
2 * IPRT - Big Integer Numbers.
3 */
4
5/*
6 * Copyright (C) 2006-2019 Oracle Corporation
7 *
8 * This file is part of VirtualBox Open Source Edition (OSE), as
9 * available from http://www.virtualbox.org. This file is free software;
10 * you can redistribute it and/or modify it under the terms of the GNU
11 * General Public License (GPL) as published by the Free Software
12 * Foundation, in version 2 as it comes in the "COPYING" file of the
13 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
14 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
15 *
16 * The contents of this file may alternatively be used under the terms
17 * of the Common Development and Distribution License Version 1.0
18 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
19 * VirtualBox OSE distribution, in which case the provisions of the
20 * CDDL are applicable instead of those of the GPL.
21 *
22 * You may elect to license modified versions of this file under the
23 * terms and conditions of either the GPL or the CDDL or both.
24 */
25
26#ifndef IPRT_INCLUDED_bignum_h
27#define IPRT_INCLUDED_bignum_h
28#ifndef RT_WITHOUT_PRAGMA_ONCE
29# pragma once
30#endif
31
32#include <iprt/types.h>
33
34RT_C_DECLS_BEGIN
35
36/** @defgroup grp_rtbignum RTBigNum - Big Integer Numbers
37 * @ingroup grp_rt
38 * @{
39 */
40
41/** The big integer number element type. */
42#if ARCH_BITS == 64
43typedef uint64_t RTBIGNUMELEMENT;
44#else
45typedef uint32_t RTBIGNUMELEMENT;
46#endif
47/** Pointer to a big integer number element. */
48typedef RTBIGNUMELEMENT *PRTBIGNUMELEMENT;
49/** Pointer to a const big integer number element. */
50typedef RTBIGNUMELEMENT const *PCRTBIGNUMELEMENT;
51
52/** The size (in bytes) of one array element. */
53#if ARCH_BITS == 64
54# define RTBIGNUM_ELEMENT_SIZE 8
55#else
56# define RTBIGNUM_ELEMENT_SIZE 4
57#endif
58/** The number of bits in one array element. */
59#define RTBIGNUM_ELEMENT_BITS (RTBIGNUM_ELEMENT_SIZE * 8)
60/** Returns the bitmask corrsponding to given bit number. */
61#if ARCH_BITS == 64
62# define RTBIGNUM_ELEMENT_BIT(iBit) RT_BIT_64(iBit)
63#else
64# define RTBIGNUM_ELEMENT_BIT(iBit) RT_BIT_32(iBit)
65#endif
66/** The maximum value one element can hold. */
67#if ARCH_BITS == 64
68# define RTBIGNUM_ELEMENT_MAX UINT64_MAX
69#else
70# define RTBIGNUM_ELEMENT_MAX UINT32_MAX
71#endif
72/** Mask including all the element bits set to 1. */
73#define RTBIGNUM_ELEMENT_MASK RTBIGNUM_ELEMENT_MAX
74
75
76/**
77 * IPRT big integer number.
78 */
79typedef struct RTBIGNUM
80{
81 /** Elements array where the magnitue of the value is stored. */
82 RTBIGNUMELEMENT *pauElements;
83 /** The current number of elements we're using in the pauElements array. */
84 uint32_t cUsed;
85 /** The current allocation size of pauElements. */
86 uint32_t cAllocated;
87 /** Reserved for future use. */
88 uint32_t uReserved;
89
90 /** Set if it's a negative number, clear if positive or zero. */
91 uint32_t fNegative : 1;
92
93 /** Whether to use a the data is sensitive (RTBIGNUMINIT_F_SENSITIVE). */
94 uint32_t fSensitive : 1;
95 /** The number is currently scrambled */
96 uint32_t fCurScrambled : 1;
97
98 /** Bits reserved for future use. */
99 uint32_t fReserved : 30;
100} RTBIGNUM;
101
102
103RTDECL(int) RTBigNumInit(PRTBIGNUM pBigNum, uint32_t fFlags, void const *pvRaw, size_t cbRaw);
104RTDECL(int) RTBigNumInitZero(PRTBIGNUM pBigNum, uint32_t fFlags);
105
106/** @name RTBIGNUMINIT_F_XXX - RTBigNumInit flags.
107 * @{ */
108/** The number is sensitive so use a safer allocator, scramble it when not
109 * in use, and apply RTMemWipeThoroughly before freeing. The RTMemSafer API
110 * takes care of these things.
111 * @note When using this flag, concurrent access is not possible! */
112#define RTBIGNUMINIT_F_SENSITIVE RT_BIT(0)
113/** Big endian number. */
114#define RTBIGNUMINIT_F_ENDIAN_BIG RT_BIT(1)
115/** Little endian number. */
116#define RTBIGNUMINIT_F_ENDIAN_LITTLE RT_BIT(2)
117/** The raw number is unsigned. */
118#define RTBIGNUMINIT_F_UNSIGNED RT_BIT(3)
119/** The raw number is signed. */
120#define RTBIGNUMINIT_F_SIGNED RT_BIT(4)
121/** @} */
122
123RTDECL(int) RTBigNumClone(PRTBIGNUM pBigNum, PCRTBIGNUM pSrc);
124
125RTDECL(int) RTBigNumDestroy(PRTBIGNUM pBigNum);
126
127
128/**
129 * The minimum number of bits require store the two's complement representation
130 * of the number.
131 *
132 * @returns Width in number of bits.
133 * @param pBigNum The big number.
134 */
135RTDECL(uint32_t) RTBigNumBitWidth(PCRTBIGNUM pBigNum);
136RTDECL(uint32_t) RTBigNumByteWidth(PCRTBIGNUM pBigNum);
137
138
139/**
140 * Converts the big number to a sign-extended big endian byte sequence.
141 *
142 * @returns IPRT status code
143 * @retval VERR_BUFFER_OVERFLOW if the specified buffer is too small.
144 * @param pBigNum The big number.
145 * @param pvBuf The output buffer (size is at least cbWanted).
146 * @param cbWanted The number of bytes wanted.
147 */
148RTDECL(int) RTBigNumToBytesBigEndian(PCRTBIGNUM pBigNum, void *pvBuf, size_t cbWanted);
149
150/**
151 * Compares two numbers.
152 *
153 * @retval -1 if pLeft < pRight.
154 * @retval 0 if pLeft == pRight.
155 * @retval 1 if pLeft > pRight.
156 *
157 * @param pLeft The left side number.
158 * @param pRight The right side number.
159 */
160RTDECL(int) RTBigNumCompare(PRTBIGNUM pLeft, PRTBIGNUM pRight);
161RTDECL(int) RTBigNumCompareWithU64(PRTBIGNUM pLeft, uint64_t uRight);
162RTDECL(int) RTBigNumCompareWithS64(PRTBIGNUM pLeft, int64_t iRight);
163
164RTDECL(int) RTBigNumAssign(PRTBIGNUM pDst, PCRTBIGNUM pSrc);
165RTDECL(int) RTBigNumNegate(PRTBIGNUM pResult, PCRTBIGNUM pBigNum);
166RTDECL(int) RTBigNumNegateThis(PRTBIGNUM pThis);
167
168RTDECL(int) RTBigNumAdd(PRTBIGNUM pResult, PCRTBIGNUM pAugend, PCRTBIGNUM pAddend);
169RTDECL(int) RTBigNumSubtract(PRTBIGNUM pResult, PCRTBIGNUM pMinuend, PCRTBIGNUM pSubtrahend);
170RTDECL(int) RTBigNumMultiply(PRTBIGNUM pResult, PCRTBIGNUM pMultiplicand, PCRTBIGNUM pMultiplier);
171RTDECL(int) RTBigNumDivide(PRTBIGNUM pQuotient, PRTBIGNUM pRemainder, PCRTBIGNUM pDividend, PCRTBIGNUM pDivisor);
172RTDECL(int) RTBigNumDivideKnuth(PRTBIGNUM pQuotient, PRTBIGNUM pRemainder, PCRTBIGNUM pDividend, PCRTBIGNUM pDivisor);
173RTDECL(int) RTBigNumDivideLong(PRTBIGNUM pQuotient, PRTBIGNUM pRemainder, PCRTBIGNUM pDividend, PCRTBIGNUM pDivisor);
174RTDECL(int) RTBigNumModulo(PRTBIGNUM pRemainder, PCRTBIGNUM pDividend, PCRTBIGNUM pDivisor);
175RTDECL(int) RTBigNumExponentiate(PRTBIGNUM pResult, PCRTBIGNUM pBase, PCRTBIGNUM pExponent);
176RTDECL(int) RTBigNumShiftLeft(PRTBIGNUM pResult, PCRTBIGNUM pValue, uint32_t cBits);
177RTDECL(int) RTBigNumShiftRight(PRTBIGNUM pResult, PCRTBIGNUM pValue, uint32_t cBits);
178
179RTDECL(int) RTBigNumModExp(PRTBIGNUM pResult, PRTBIGNUM pBase, PRTBIGNUM pExponent, PRTBIGNUM pModulus);
180
181
182/** @} */
183
184RT_C_DECLS_END
185
186#endif /* !IPRT_INCLUDED_bignum_h */
187
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