From 6ecc0a74e87656400bdea4bbadd75762bb80a33f Mon Sep 17 00:00:00 2001 From: Peter Eisentraut Date: Sat, 30 Oct 2021 13:57:26 +0200 Subject: [PATCH v1] Remove non-OpenSSL support from pgcrypto Discussion: https://www.postgresql.org/message-id/flat/0b42f1df-8cba-6a30-77d7-acc241cc88c1%40enterprisedb.com --- contrib/Makefile | 5 +- contrib/pgcrypto/Makefile | 17 +- contrib/pgcrypto/blf.c | 499 ---- contrib/pgcrypto/blf.h | 46 - contrib/pgcrypto/imath.c | 3588 --------------------------- contrib/pgcrypto/imath.h | 445 ---- contrib/pgcrypto/internal-sha2.c | 206 -- contrib/pgcrypto/internal.c | 585 ----- contrib/pgcrypto/pgp-mpi-internal.c | 304 --- contrib/pgcrypto/rijndael.c | 677 ----- contrib/pgcrypto/rijndael.h | 59 - contrib/pgcrypto/rijndael.tbl | 1138 --------- doc/src/sgml/pgcrypto.sgml | 108 +- src/tools/msvc/Mkvcbuild.pm | 15 +- src/tools/msvc/vcregress.pl | 4 +- 15 files changed, 12 insertions(+), 7684 deletions(-) delete mode 100644 contrib/pgcrypto/blf.c delete mode 100644 contrib/pgcrypto/blf.h delete mode 100644 contrib/pgcrypto/imath.c delete mode 100644 contrib/pgcrypto/imath.h delete mode 100644 contrib/pgcrypto/internal-sha2.c delete mode 100644 contrib/pgcrypto/internal.c delete mode 100644 contrib/pgcrypto/pgp-mpi-internal.c delete mode 100644 contrib/pgcrypto/rijndael.c delete mode 100644 contrib/pgcrypto/rijndael.h delete mode 100644 contrib/pgcrypto/rijndael.tbl diff --git a/contrib/Makefile b/contrib/Makefile index f27e458482..87bf87ab90 100644 --- a/contrib/Makefile +++ b/contrib/Makefile @@ -36,7 +36,6 @@ SUBDIRS = \ pg_stat_statements \ pg_surgery \ pg_trgm \ - pgcrypto \ pgrowlocks \ pgstattuple \ pg_visibility \ @@ -52,9 +51,9 @@ SUBDIRS = \ vacuumlo ifeq ($(with_ssl),openssl) -SUBDIRS += sslinfo +SUBDIRS += pgcrypto sslinfo else -ALWAYS_SUBDIRS += sslinfo +ALWAYS_SUBDIRS += pgcrypto sslinfo endif ifneq ($(with_uuid),no) diff --git a/contrib/pgcrypto/Makefile b/contrib/pgcrypto/Makefile index c0b4f1fcf6..c5a493a68a 100644 --- a/contrib/pgcrypto/Makefile +++ b/contrib/pgcrypto/Makefile @@ -1,17 +1,13 @@ # contrib/pgcrypto/Makefile -INT_SRCS = internal.c internal-sha2.c blf.c rijndael.c \ - pgp-mpi-internal.c imath.c -INT_TESTS = sha2 - OSSL_SRCS = openssl.c pgp-mpi-openssl.c OSSL_TESTS = sha2 des 3des cast5 ZLIB_TST = pgp-compression ZLIB_OFF_TST = pgp-zlib-DISABLED -CF_SRCS = $(if $(subst openssl,,$(with_ssl)), $(INT_SRCS), $(OSSL_SRCS)) -CF_TESTS = $(if $(subst openssl,,$(with_ssl)), $(INT_TESTS), $(OSSL_TESTS)) +CF_SRCS = $(OSSL_SRCS) +CF_TESTS = $(OSSL_TESTS) CF_PGP_TESTS = $(if $(subst no,,$(with_zlib)), $(ZLIB_TST), $(ZLIB_OFF_TST)) SRCS = \ @@ -77,12 +73,3 @@ SHLIB_LINK += $(filter -leay32, $(LIBS)) # those must be at the end SHLIB_LINK += -lws2_32 endif - -# Upstream uses a larger subset of C99. -imath.o: CFLAGS+=$(PERMIT_DECLARATION_AFTER_STATEMENT) - -rijndael.o: rijndael.tbl - -rijndael.tbl: - $(CC) $(CPPFLAGS) $(CFLAGS) -DPRINT_TABS rijndael.c -o gen-rtab - ./gen-rtab > rijndael.tbl diff --git a/contrib/pgcrypto/blf.c b/contrib/pgcrypto/blf.c deleted file mode 100644 index f8a2c63c9f..0000000000 --- a/contrib/pgcrypto/blf.c +++ /dev/null @@ -1,499 +0,0 @@ -/* - * Butchered version of sshblowf.c from putty-0.59. - * - * contrib/pgcrypto/blf.c - */ - -/* - * PuTTY is copyright 1997-2007 Simon Tatham. - * - * Portions copyright Robert de Bath, Joris van Rantwijk, Delian - * Delchev, Andreas Schultz, Jeroen Massar, Wez Furlong, Nicolas Barry, - * Justin Bradford, Ben Harris, Malcolm Smith, Ahmad Khalifa, Markus - * Kuhn, and CORE SDI S.A. - * - * Permission is hereby granted, free of charge, to any person - * obtaining a copy of this software and associated documentation files - * (the "Software"), to deal in the Software without restriction, - * including without limitation the rights to use, copy, modify, merge, - * publish, distribute, sublicense, and/or sell copies of the Software, - * and to permit persons to whom the Software is furnished to do so, - * subject to the following conditions: - * - * The above copyright notice and this permission notice shall be - * included in all copies or substantial portions of the Software. - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF - * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NONINFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE - * FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF - * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION - * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. - */ - -/* - * Blowfish implementation for PuTTY. - * - * Coded from scratch from the algorithm description. - */ - -#include "postgres.h" -#include "blf.h" - -#define GET_32BIT_MSB_FIRST(p) ( \ - ((p)[0] << 24) | ((p)[1] << 16) | ((p)[2] << 8) | ((p)[3]) ) - -#define PUT_32BIT_MSB_FIRST(p, v) do { \ - (p)[0] = v >> 24; \ - (p)[1] = v >> 16; \ - (p)[2] = v >> 8; \ - (p)[3] = v; \ -} while (0) - -/* - * The Blowfish init data: hex digits of the fractional part of pi. - * (ie pi as a hex fraction is 3.243F6A8885A308D3...) - */ -static const uint32 parray[] = { - 0x243F6A88, 0x85A308D3, 0x13198A2E, 0x03707344, 0xA4093822, 0x299F31D0, - 0x082EFA98, 0xEC4E6C89, 0x452821E6, 0x38D01377, 0xBE5466CF, 0x34E90C6C, - 0xC0AC29B7, 0xC97C50DD, 0x3F84D5B5, 0xB5470917, 0x9216D5D9, 0x8979FB1B, -}; - -static const uint32 sbox0[] = { - 0xD1310BA6, 0x98DFB5AC, 0x2FFD72DB, 0xD01ADFB7, 0xB8E1AFED, 0x6A267E96, - 0xBA7C9045, 0xF12C7F99, 0x24A19947, 0xB3916CF7, 0x0801F2E2, 0x858EFC16, - 0x636920D8, 0x71574E69, 0xA458FEA3, 0xF4933D7E, 0x0D95748F, 0x728EB658, - 0x718BCD58, 0x82154AEE, 0x7B54A41D, 0xC25A59B5, 0x9C30D539, 0x2AF26013, - 0xC5D1B023, 0x286085F0, 0xCA417918, 0xB8DB38EF, 0x8E79DCB0, 0x603A180E, - 0x6C9E0E8B, 0xB01E8A3E, 0xD71577C1, 0xBD314B27, 0x78AF2FDA, 0x55605C60, - 0xE65525F3, 0xAA55AB94, 0x57489862, 0x63E81440, 0x55CA396A, 0x2AAB10B6, - 0xB4CC5C34, 0x1141E8CE, 0xA15486AF, 0x7C72E993, 0xB3EE1411, 0x636FBC2A, - 0x2BA9C55D, 0x741831F6, 0xCE5C3E16, 0x9B87931E, 0xAFD6BA33, 0x6C24CF5C, - 0x7A325381, 0x28958677, 0x3B8F4898, 0x6B4BB9AF, 0xC4BFE81B, 0x66282193, - 0x61D809CC, 0xFB21A991, 0x487CAC60, 0x5DEC8032, 0xEF845D5D, 0xE98575B1, - 0xDC262302, 0xEB651B88, 0x23893E81, 0xD396ACC5, 0x0F6D6FF3, 0x83F44239, - 0x2E0B4482, 0xA4842004, 0x69C8F04A, 0x9E1F9B5E, 0x21C66842, 0xF6E96C9A, - 0x670C9C61, 0xABD388F0, 0x6A51A0D2, 0xD8542F68, 0x960FA728, 0xAB5133A3, - 0x6EEF0B6C, 0x137A3BE4, 0xBA3BF050, 0x7EFB2A98, 0xA1F1651D, 0x39AF0176, - 0x66CA593E, 0x82430E88, 0x8CEE8619, 0x456F9FB4, 0x7D84A5C3, 0x3B8B5EBE, - 0xE06F75D8, 0x85C12073, 0x401A449F, 0x56C16AA6, 0x4ED3AA62, 0x363F7706, - 0x1BFEDF72, 0x429B023D, 0x37D0D724, 0xD00A1248, 0xDB0FEAD3, 0x49F1C09B, - 0x075372C9, 0x80991B7B, 0x25D479D8, 0xF6E8DEF7, 0xE3FE501A, 0xB6794C3B, - 0x976CE0BD, 0x04C006BA, 0xC1A94FB6, 0x409F60C4, 0x5E5C9EC2, 0x196A2463, - 0x68FB6FAF, 0x3E6C53B5, 0x1339B2EB, 0x3B52EC6F, 0x6DFC511F, 0x9B30952C, - 0xCC814544, 0xAF5EBD09, 0xBEE3D004, 0xDE334AFD, 0x660F2807, 0x192E4BB3, - 0xC0CBA857, 0x45C8740F, 0xD20B5F39, 0xB9D3FBDB, 0x5579C0BD, 0x1A60320A, - 0xD6A100C6, 0x402C7279, 0x679F25FE, 0xFB1FA3CC, 0x8EA5E9F8, 0xDB3222F8, - 0x3C7516DF, 0xFD616B15, 0x2F501EC8, 0xAD0552AB, 0x323DB5FA, 0xFD238760, - 0x53317B48, 0x3E00DF82, 0x9E5C57BB, 0xCA6F8CA0, 0x1A87562E, 0xDF1769DB, - 0xD542A8F6, 0x287EFFC3, 0xAC6732C6, 0x8C4F5573, 0x695B27B0, 0xBBCA58C8, - 0xE1FFA35D, 0xB8F011A0, 0x10FA3D98, 0xFD2183B8, 0x4AFCB56C, 0x2DD1D35B, - 0x9A53E479, 0xB6F84565, 0xD28E49BC, 0x4BFB9790, 0xE1DDF2DA, 0xA4CB7E33, - 0x62FB1341, 0xCEE4C6E8, 0xEF20CADA, 0x36774C01, 0xD07E9EFE, 0x2BF11FB4, - 0x95DBDA4D, 0xAE909198, 0xEAAD8E71, 0x6B93D5A0, 0xD08ED1D0, 0xAFC725E0, - 0x8E3C5B2F, 0x8E7594B7, 0x8FF6E2FB, 0xF2122B64, 0x8888B812, 0x900DF01C, - 0x4FAD5EA0, 0x688FC31C, 0xD1CFF191, 0xB3A8C1AD, 0x2F2F2218, 0xBE0E1777, - 0xEA752DFE, 0x8B021FA1, 0xE5A0CC0F, 0xB56F74E8, 0x18ACF3D6, 0xCE89E299, - 0xB4A84FE0, 0xFD13E0B7, 0x7CC43B81, 0xD2ADA8D9, 0x165FA266, 0x80957705, - 0x93CC7314, 0x211A1477, 0xE6AD2065, 0x77B5FA86, 0xC75442F5, 0xFB9D35CF, - 0xEBCDAF0C, 0x7B3E89A0, 0xD6411BD3, 0xAE1E7E49, 0x00250E2D, 0x2071B35E, - 0x226800BB, 0x57B8E0AF, 0x2464369B, 0xF009B91E, 0x5563911D, 0x59DFA6AA, - 0x78C14389, 0xD95A537F, 0x207D5BA2, 0x02E5B9C5, 0x83260376, 0x6295CFA9, - 0x11C81968, 0x4E734A41, 0xB3472DCA, 0x7B14A94A, 0x1B510052, 0x9A532915, - 0xD60F573F, 0xBC9BC6E4, 0x2B60A476, 0x81E67400, 0x08BA6FB5, 0x571BE91F, - 0xF296EC6B, 0x2A0DD915, 0xB6636521, 0xE7B9F9B6, 0xFF34052E, 0xC5855664, - 0x53B02D5D, 0xA99F8FA1, 0x08BA4799, 0x6E85076A, -}; - -static const uint32 sbox1[] = { - 0x4B7A70E9, 0xB5B32944, 0xDB75092E, 0xC4192623, 0xAD6EA6B0, 0x49A7DF7D, - 0x9CEE60B8, 0x8FEDB266, 0xECAA8C71, 0x699A17FF, 0x5664526C, 0xC2B19EE1, - 0x193602A5, 0x75094C29, 0xA0591340, 0xE4183A3E, 0x3F54989A, 0x5B429D65, - 0x6B8FE4D6, 0x99F73FD6, 0xA1D29C07, 0xEFE830F5, 0x4D2D38E6, 0xF0255DC1, - 0x4CDD2086, 0x8470EB26, 0x6382E9C6, 0x021ECC5E, 0x09686B3F, 0x3EBAEFC9, - 0x3C971814, 0x6B6A70A1, 0x687F3584, 0x52A0E286, 0xB79C5305, 0xAA500737, - 0x3E07841C, 0x7FDEAE5C, 0x8E7D44EC, 0x5716F2B8, 0xB03ADA37, 0xF0500C0D, - 0xF01C1F04, 0x0200B3FF, 0xAE0CF51A, 0x3CB574B2, 0x25837A58, 0xDC0921BD, - 0xD19113F9, 0x7CA92FF6, 0x94324773, 0x22F54701, 0x3AE5E581, 0x37C2DADC, - 0xC8B57634, 0x9AF3DDA7, 0xA9446146, 0x0FD0030E, 0xECC8C73E, 0xA4751E41, - 0xE238CD99, 0x3BEA0E2F, 0x3280BBA1, 0x183EB331, 0x4E548B38, 0x4F6DB908, - 0x6F420D03, 0xF60A04BF, 0x2CB81290, 0x24977C79, 0x5679B072, 0xBCAF89AF, - 0xDE9A771F, 0xD9930810, 0xB38BAE12, 0xDCCF3F2E, 0x5512721F, 0x2E6B7124, - 0x501ADDE6, 0x9F84CD87, 0x7A584718, 0x7408DA17, 0xBC9F9ABC, 0xE94B7D8C, - 0xEC7AEC3A, 0xDB851DFA, 0x63094366, 0xC464C3D2, 0xEF1C1847, 0x3215D908, - 0xDD433B37, 0x24C2BA16, 0x12A14D43, 0x2A65C451, 0x50940002, 0x133AE4DD, - 0x71DFF89E, 0x10314E55, 0x81AC77D6, 0x5F11199B, 0x043556F1, 0xD7A3C76B, - 0x3C11183B, 0x5924A509, 0xF28FE6ED, 0x97F1FBFA, 0x9EBABF2C, 0x1E153C6E, - 0x86E34570, 0xEAE96FB1, 0x860E5E0A, 0x5A3E2AB3, 0x771FE71C, 0x4E3D06FA, - 0x2965DCB9, 0x99E71D0F, 0x803E89D6, 0x5266C825, 0x2E4CC978, 0x9C10B36A, - 0xC6150EBA, 0x94E2EA78, 0xA5FC3C53, 0x1E0A2DF4, 0xF2F74EA7, 0x361D2B3D, - 0x1939260F, 0x19C27960, 0x5223A708, 0xF71312B6, 0xEBADFE6E, 0xEAC31F66, - 0xE3BC4595, 0xA67BC883, 0xB17F37D1, 0x018CFF28, 0xC332DDEF, 0xBE6C5AA5, - 0x65582185, 0x68AB9802, 0xEECEA50F, 0xDB2F953B, 0x2AEF7DAD, 0x5B6E2F84, - 0x1521B628, 0x29076170, 0xECDD4775, 0x619F1510, 0x13CCA830, 0xEB61BD96, - 0x0334FE1E, 0xAA0363CF, 0xB5735C90, 0x4C70A239, 0xD59E9E0B, 0xCBAADE14, - 0xEECC86BC, 0x60622CA7, 0x9CAB5CAB, 0xB2F3846E, 0x648B1EAF, 0x19BDF0CA, - 0xA02369B9, 0x655ABB50, 0x40685A32, 0x3C2AB4B3, 0x319EE9D5, 0xC021B8F7, - 0x9B540B19, 0x875FA099, 0x95F7997E, 0x623D7DA8, 0xF837889A, 0x97E32D77, - 0x11ED935F, 0x16681281, 0x0E358829, 0xC7E61FD6, 0x96DEDFA1, 0x7858BA99, - 0x57F584A5, 0x1B227263, 0x9B83C3FF, 0x1AC24696, 0xCDB30AEB, 0x532E3054, - 0x8FD948E4, 0x6DBC3128, 0x58EBF2EF, 0x34C6FFEA, 0xFE28ED61, 0xEE7C3C73, - 0x5D4A14D9, 0xE864B7E3, 0x42105D14, 0x203E13E0, 0x45EEE2B6, 0xA3AAABEA, - 0xDB6C4F15, 0xFACB4FD0, 0xC742F442, 0xEF6ABBB5, 0x654F3B1D, 0x41CD2105, - 0xD81E799E, 0x86854DC7, 0xE44B476A, 0x3D816250, 0xCF62A1F2, 0x5B8D2646, - 0xFC8883A0, 0xC1C7B6A3, 0x7F1524C3, 0x69CB7492, 0x47848A0B, 0x5692B285, - 0x095BBF00, 0xAD19489D, 0x1462B174, 0x23820E00, 0x58428D2A, 0x0C55F5EA, - 0x1DADF43E, 0x233F7061, 0x3372F092, 0x8D937E41, 0xD65FECF1, 0x6C223BDB, - 0x7CDE3759, 0xCBEE7460, 0x4085F2A7, 0xCE77326E, 0xA6078084, 0x19F8509E, - 0xE8EFD855, 0x61D99735, 0xA969A7AA, 0xC50C06C2, 0x5A04ABFC, 0x800BCADC, - 0x9E447A2E, 0xC3453484, 0xFDD56705, 0x0E1E9EC9, 0xDB73DBD3, 0x105588CD, - 0x675FDA79, 0xE3674340, 0xC5C43465, 0x713E38D8, 0x3D28F89E, 0xF16DFF20, - 0x153E21E7, 0x8FB03D4A, 0xE6E39F2B, 0xDB83ADF7, -}; - -static const uint32 sbox2[] = { - 0xE93D5A68, 0x948140F7, 0xF64C261C, 0x94692934, 0x411520F7, 0x7602D4F7, - 0xBCF46B2E, 0xD4A20068, 0xD4082471, 0x3320F46A, 0x43B7D4B7, 0x500061AF, - 0x1E39F62E, 0x97244546, 0x14214F74, 0xBF8B8840, 0x4D95FC1D, 0x96B591AF, - 0x70F4DDD3, 0x66A02F45, 0xBFBC09EC, 0x03BD9785, 0x7FAC6DD0, 0x31CB8504, - 0x96EB27B3, 0x55FD3941, 0xDA2547E6, 0xABCA0A9A, 0x28507825, 0x530429F4, - 0x0A2C86DA, 0xE9B66DFB, 0x68DC1462, 0xD7486900, 0x680EC0A4, 0x27A18DEE, - 0x4F3FFEA2, 0xE887AD8C, 0xB58CE006, 0x7AF4D6B6, 0xAACE1E7C, 0xD3375FEC, - 0xCE78A399, 0x406B2A42, 0x20FE9E35, 0xD9F385B9, 0xEE39D7AB, 0x3B124E8B, - 0x1DC9FAF7, 0x4B6D1856, 0x26A36631, 0xEAE397B2, 0x3A6EFA74, 0xDD5B4332, - 0x6841E7F7, 0xCA7820FB, 0xFB0AF54E, 0xD8FEB397, 0x454056AC, 0xBA489527, - 0x55533A3A, 0x20838D87, 0xFE6BA9B7, 0xD096954B, 0x55A867BC, 0xA1159A58, - 0xCCA92963, 0x99E1DB33, 0xA62A4A56, 0x3F3125F9, 0x5EF47E1C, 0x9029317C, - 0xFDF8E802, 0x04272F70, 0x80BB155C, 0x05282CE3, 0x95C11548, 0xE4C66D22, - 0x48C1133F, 0xC70F86DC, 0x07F9C9EE, 0x41041F0F, 0x404779A4, 0x5D886E17, - 0x325F51EB, 0xD59BC0D1, 0xF2BCC18F, 0x41113564, 0x257B7834, 0x602A9C60, - 0xDFF8E8A3, 0x1F636C1B, 0x0E12B4C2, 0x02E1329E, 0xAF664FD1, 0xCAD18115, - 0x6B2395E0, 0x333E92E1, 0x3B240B62, 0xEEBEB922, 0x85B2A20E, 0xE6BA0D99, - 0xDE720C8C, 0x2DA2F728, 0xD0127845, 0x95B794FD, 0x647D0862, 0xE7CCF5F0, - 0x5449A36F, 0x877D48FA, 0xC39DFD27, 0xF33E8D1E, 0x0A476341, 0x992EFF74, - 0x3A6F6EAB, 0xF4F8FD37, 0xA812DC60, 0xA1EBDDF8, 0x991BE14C, 0xDB6E6B0D, - 0xC67B5510, 0x6D672C37, 0x2765D43B, 0xDCD0E804, 0xF1290DC7, 0xCC00FFA3, - 0xB5390F92, 0x690FED0B, 0x667B9FFB, 0xCEDB7D9C, 0xA091CF0B, 0xD9155EA3, - 0xBB132F88, 0x515BAD24, 0x7B9479BF, 0x763BD6EB, 0x37392EB3, 0xCC115979, - 0x8026E297, 0xF42E312D, 0x6842ADA7, 0xC66A2B3B, 0x12754CCC, 0x782EF11C, - 0x6A124237, 0xB79251E7, 0x06A1BBE6, 0x4BFB6350, 0x1A6B1018, 0x11CAEDFA, - 0x3D25BDD8, 0xE2E1C3C9, 0x44421659, 0x0A121386, 0xD90CEC6E, 0xD5ABEA2A, - 0x64AF674E, 0xDA86A85F, 0xBEBFE988, 0x64E4C3FE, 0x9DBC8057, 0xF0F7C086, - 0x60787BF8, 0x6003604D, 0xD1FD8346, 0xF6381FB0, 0x7745AE04, 0xD736FCCC, - 0x83426B33, 0xF01EAB71, 0xB0804187, 0x3C005E5F, 0x77A057BE, 0xBDE8AE24, - 0x55464299, 0xBF582E61, 0x4E58F48F, 0xF2DDFDA2, 0xF474EF38, 0x8789BDC2, - 0x5366F9C3, 0xC8B38E74, 0xB475F255, 0x46FCD9B9, 0x7AEB2661, 0x8B1DDF84, - 0x846A0E79, 0x915F95E2, 0x466E598E, 0x20B45770, 0x8CD55591, 0xC902DE4C, - 0xB90BACE1, 0xBB8205D0, 0x11A86248, 0x7574A99E, 0xB77F19B6, 0xE0A9DC09, - 0x662D09A1, 0xC4324633, 0xE85A1F02, 0x09F0BE8C, 0x4A99A025, 0x1D6EFE10, - 0x1AB93D1D, 0x0BA5A4DF, 0xA186F20F, 0x2868F169, 0xDCB7DA83, 0x573906FE, - 0xA1E2CE9B, 0x4FCD7F52, 0x50115E01, 0xA70683FA, 0xA002B5C4, 0x0DE6D027, - 0x9AF88C27, 0x773F8641, 0xC3604C06, 0x61A806B5, 0xF0177A28, 0xC0F586E0, - 0x006058AA, 0x30DC7D62, 0x11E69ED7, 0x2338EA63, 0x53C2DD94, 0xC2C21634, - 0xBBCBEE56, 0x90BCB6DE, 0xEBFC7DA1, 0xCE591D76, 0x6F05E409, 0x4B7C0188, - 0x39720A3D, 0x7C927C24, 0x86E3725F, 0x724D9DB9, 0x1AC15BB4, 0xD39EB8FC, - 0xED545578, 0x08FCA5B5, 0xD83D7CD3, 0x4DAD0FC4, 0x1E50EF5E, 0xB161E6F8, - 0xA28514D9, 0x6C51133C, 0x6FD5C7E7, 0x56E14EC4, 0x362ABFCE, 0xDDC6C837, - 0xD79A3234, 0x92638212, 0x670EFA8E, 0x406000E0, -}; - -static const uint32 sbox3[] = { - 0x3A39CE37, 0xD3FAF5CF, 0xABC27737, 0x5AC52D1B, 0x5CB0679E, 0x4FA33742, - 0xD3822740, 0x99BC9BBE, 0xD5118E9D, 0xBF0F7315, 0xD62D1C7E, 0xC700C47B, - 0xB78C1B6B, 0x21A19045, 0xB26EB1BE, 0x6A366EB4, 0x5748AB2F, 0xBC946E79, - 0xC6A376D2, 0x6549C2C8, 0x530FF8EE, 0x468DDE7D, 0xD5730A1D, 0x4CD04DC6, - 0x2939BBDB, 0xA9BA4650, 0xAC9526E8, 0xBE5EE304, 0xA1FAD5F0, 0x6A2D519A, - 0x63EF8CE2, 0x9A86EE22, 0xC089C2B8, 0x43242EF6, 0xA51E03AA, 0x9CF2D0A4, - 0x83C061BA, 0x9BE96A4D, 0x8FE51550, 0xBA645BD6, 0x2826A2F9, 0xA73A3AE1, - 0x4BA99586, 0xEF5562E9, 0xC72FEFD3, 0xF752F7DA, 0x3F046F69, 0x77FA0A59, - 0x80E4A915, 0x87B08601, 0x9B09E6AD, 0x3B3EE593, 0xE990FD5A, 0x9E34D797, - 0x2CF0B7D9, 0x022B8B51, 0x96D5AC3A, 0x017DA67D, 0xD1CF3ED6, 0x7C7D2D28, - 0x1F9F25CF, 0xADF2B89B, 0x5AD6B472, 0x5A88F54C, 0xE029AC71, 0xE019A5E6, - 0x47B0ACFD, 0xED93FA9B, 0xE8D3C48D, 0x283B57CC, 0xF8D56629, 0x79132E28, - 0x785F0191, 0xED756055, 0xF7960E44, 0xE3D35E8C, 0x15056DD4, 0x88F46DBA, - 0x03A16125, 0x0564F0BD, 0xC3EB9E15, 0x3C9057A2, 0x97271AEC, 0xA93A072A, - 0x1B3F6D9B, 0x1E6321F5, 0xF59C66FB, 0x26DCF319, 0x7533D928, 0xB155FDF5, - 0x03563482, 0x8ABA3CBB, 0x28517711, 0xC20AD9F8, 0xABCC5167, 0xCCAD925F, - 0x4DE81751, 0x3830DC8E, 0x379D5862, 0x9320F991, 0xEA7A90C2, 0xFB3E7BCE, - 0x5121CE64, 0x774FBE32, 0xA8B6E37E, 0xC3293D46, 0x48DE5369, 0x6413E680, - 0xA2AE0810, 0xDD6DB224, 0x69852DFD, 0x09072166, 0xB39A460A, 0x6445C0DD, - 0x586CDECF, 0x1C20C8AE, 0x5BBEF7DD, 0x1B588D40, 0xCCD2017F, 0x6BB4E3BB, - 0xDDA26A7E, 0x3A59FF45, 0x3E350A44, 0xBCB4CDD5, 0x72EACEA8, 0xFA6484BB, - 0x8D6612AE, 0xBF3C6F47, 0xD29BE463, 0x542F5D9E, 0xAEC2771B, 0xF64E6370, - 0x740E0D8D, 0xE75B1357, 0xF8721671, 0xAF537D5D, 0x4040CB08, 0x4EB4E2CC, - 0x34D2466A, 0x0115AF84, 0xE1B00428, 0x95983A1D, 0x06B89FB4, 0xCE6EA048, - 0x6F3F3B82, 0x3520AB82, 0x011A1D4B, 0x277227F8, 0x611560B1, 0xE7933FDC, - 0xBB3A792B, 0x344525BD, 0xA08839E1, 0x51CE794B, 0x2F32C9B7, 0xA01FBAC9, - 0xE01CC87E, 0xBCC7D1F6, 0xCF0111C3, 0xA1E8AAC7, 0x1A908749, 0xD44FBD9A, - 0xD0DADECB, 0xD50ADA38, 0x0339C32A, 0xC6913667, 0x8DF9317C, 0xE0B12B4F, - 0xF79E59B7, 0x43F5BB3A, 0xF2D519FF, 0x27D9459C, 0xBF97222C, 0x15E6FC2A, - 0x0F91FC71, 0x9B941525, 0xFAE59361, 0xCEB69CEB, 0xC2A86459, 0x12BAA8D1, - 0xB6C1075E, 0xE3056A0C, 0x10D25065, 0xCB03A442, 0xE0EC6E0E, 0x1698DB3B, - 0x4C98A0BE, 0x3278E964, 0x9F1F9532, 0xE0D392DF, 0xD3A0342B, 0x8971F21E, - 0x1B0A7441, 0x4BA3348C, 0xC5BE7120, 0xC37632D8, 0xDF359F8D, 0x9B992F2E, - 0xE60B6F47, 0x0FE3F11D, 0xE54CDA54, 0x1EDAD891, 0xCE6279CF, 0xCD3E7E6F, - 0x1618B166, 0xFD2C1D05, 0x848FD2C5, 0xF6FB2299, 0xF523F357, 0xA6327623, - 0x93A83531, 0x56CCCD02, 0xACF08162, 0x5A75EBB5, 0x6E163697, 0x88D273CC, - 0xDE966292, 0x81B949D0, 0x4C50901B, 0x71C65614, 0xE6C6C7BD, 0x327A140A, - 0x45E1D006, 0xC3F27B9A, 0xC9AA53FD, 0x62A80F00, 0xBB25BFE2, 0x35BDD2F6, - 0x71126905, 0xB2040222, 0xB6CBCF7C, 0xCD769C2B, 0x53113EC0, 0x1640E3D3, - 0x38ABBD60, 0x2547ADF0, 0xBA38209C, 0xF746CE76, 0x77AFA1C5, 0x20756060, - 0x85CBFE4E, 0x8AE88DD8, 0x7AAAF9B0, 0x4CF9AA7E, 0x1948C25C, 0x02FB8A8C, - 0x01C36AE4, 0xD6EBE1F9, 0x90D4F869, 0xA65CDEA0, 0x3F09252D, 0xC208E69F, - 0xB74E6132, 0xCE77E25B, 0x578FDFE3, 0x3AC372E6, -}; - -#define Fprime(a,b,c,d) ( ( (S0[a] + S1[b]) ^ S2[c] ) + S3[d] ) -#define F(x) Fprime( ((x>>24)&0xFF), ((x>>16)&0xFF), ((x>>8)&0xFF), (x&0xFF) ) -#define ROUND(n) ( xL ^= P[n], t = xL, xL = F(xL) ^ xR, xR = t ) - -static void -blowfish_encrypt(uint32 xL, uint32 xR, uint32 *output, - BlowfishContext *ctx) -{ - uint32 *S0 = ctx->S0; - uint32 *S1 = ctx->S1; - uint32 *S2 = ctx->S2; - uint32 *S3 = ctx->S3; - uint32 *P = ctx->P; - uint32 t; - - ROUND(0); - ROUND(1); - ROUND(2); - ROUND(3); - ROUND(4); - ROUND(5); - ROUND(6); - ROUND(7); - ROUND(8); - ROUND(9); - ROUND(10); - ROUND(11); - ROUND(12); - ROUND(13); - ROUND(14); - ROUND(15); - xL ^= P[16]; - xR ^= P[17]; - - output[0] = xR; - output[1] = xL; -} - -static void -blowfish_decrypt(uint32 xL, uint32 xR, uint32 *output, - BlowfishContext *ctx) -{ - uint32 *S0 = ctx->S0; - uint32 *S1 = ctx->S1; - uint32 *S2 = ctx->S2; - uint32 *S3 = ctx->S3; - uint32 *P = ctx->P; - uint32 t; - - ROUND(17); - ROUND(16); - ROUND(15); - ROUND(14); - ROUND(13); - ROUND(12); - ROUND(11); - ROUND(10); - ROUND(9); - ROUND(8); - ROUND(7); - ROUND(6); - ROUND(5); - ROUND(4); - ROUND(3); - ROUND(2); - xL ^= P[1]; - xR ^= P[0]; - - output[0] = xR; - output[1] = xL; -} - -void -blowfish_encrypt_cbc(uint8 *blk, int len, BlowfishContext *ctx) -{ - uint32 xL, - xR, - out[2], - iv0, - iv1; - - Assert((len & 7) == 0); - - iv0 = ctx->iv0; - iv1 = ctx->iv1; - - while (len > 0) - { - xL = GET_32BIT_MSB_FIRST(blk); - xR = GET_32BIT_MSB_FIRST(blk + 4); - iv0 ^= xL; - iv1 ^= xR; - blowfish_encrypt(iv0, iv1, out, ctx); - iv0 = out[0]; - iv1 = out[1]; - PUT_32BIT_MSB_FIRST(blk, iv0); - PUT_32BIT_MSB_FIRST(blk + 4, iv1); - blk += 8; - len -= 8; - } - - ctx->iv0 = iv0; - ctx->iv1 = iv1; -} - -void -blowfish_decrypt_cbc(uint8 *blk, int len, BlowfishContext *ctx) -{ - uint32 xL, - xR, - out[2], - iv0, - iv1; - - Assert((len & 7) == 0); - - iv0 = ctx->iv0; - iv1 = ctx->iv1; - - while (len > 0) - { - xL = GET_32BIT_MSB_FIRST(blk); - xR = GET_32BIT_MSB_FIRST(blk + 4); - blowfish_decrypt(xL, xR, out, ctx); - iv0 ^= out[0]; - iv1 ^= out[1]; - PUT_32BIT_MSB_FIRST(blk, iv0); - PUT_32BIT_MSB_FIRST(blk + 4, iv1); - iv0 = xL; - iv1 = xR; - blk += 8; - len -= 8; - } - - ctx->iv0 = iv0; - ctx->iv1 = iv1; -} - -void -blowfish_encrypt_ecb(uint8 *blk, int len, BlowfishContext *ctx) -{ - uint32 xL, - xR, - out[2]; - - Assert((len & 7) == 0); - - while (len > 0) - { - xL = GET_32BIT_MSB_FIRST(blk); - xR = GET_32BIT_MSB_FIRST(blk + 4); - blowfish_encrypt(xL, xR, out, ctx); - PUT_32BIT_MSB_FIRST(blk, out[0]); - PUT_32BIT_MSB_FIRST(blk + 4, out[1]); - blk += 8; - len -= 8; - } -} - -void -blowfish_decrypt_ecb(uint8 *blk, int len, BlowfishContext *ctx) -{ - uint32 xL, - xR, - out[2]; - - Assert((len & 7) == 0); - - while (len > 0) - { - xL = GET_32BIT_MSB_FIRST(blk); - xR = GET_32BIT_MSB_FIRST(blk + 4); - blowfish_decrypt(xL, xR, out, ctx); - PUT_32BIT_MSB_FIRST(blk, out[0]); - PUT_32BIT_MSB_FIRST(blk + 4, out[1]); - blk += 8; - len -= 8; - } -} - -void -blowfish_setkey(BlowfishContext *ctx, - const uint8 *key, short keybytes) -{ - uint32 *S0 = ctx->S0; - uint32 *S1 = ctx->S1; - uint32 *S2 = ctx->S2; - uint32 *S3 = ctx->S3; - uint32 *P = ctx->P; - uint32 str[2]; - int i; - - Assert(keybytes > 0 && keybytes <= (448 / 8)); - - for (i = 0; i < 18; i++) - { - P[i] = parray[i]; - P[i] ^= ((uint32) key[(i * 4 + 0) % keybytes]) << 24; - P[i] ^= ((uint32) key[(i * 4 + 1) % keybytes]) << 16; - P[i] ^= ((uint32) key[(i * 4 + 2) % keybytes]) << 8; - P[i] ^= ((uint32) key[(i * 4 + 3) % keybytes]); - } - - for (i = 0; i < 256; i++) - { - S0[i] = sbox0[i]; - S1[i] = sbox1[i]; - S2[i] = sbox2[i]; - S3[i] = sbox3[i]; - } - - str[0] = str[1] = 0; - - for (i = 0; i < 18; i += 2) - { - blowfish_encrypt(str[0], str[1], str, ctx); - P[i] = str[0]; - P[i + 1] = str[1]; - } - - for (i = 0; i < 256; i += 2) - { - blowfish_encrypt(str[0], str[1], str, ctx); - S0[i] = str[0]; - S0[i + 1] = str[1]; - } - for (i = 0; i < 256; i += 2) - { - blowfish_encrypt(str[0], str[1], str, ctx); - S1[i] = str[0]; - S1[i + 1] = str[1]; - } - for (i = 0; i < 256; i += 2) - { - blowfish_encrypt(str[0], str[1], str, ctx); - S2[i] = str[0]; - S2[i + 1] = str[1]; - } - for (i = 0; i < 256; i += 2) - { - blowfish_encrypt(str[0], str[1], str, ctx); - S3[i] = str[0]; - S3[i + 1] = str[1]; - } -} - -void -blowfish_setiv(BlowfishContext *ctx, const uint8 *iv) -{ - ctx->iv0 = GET_32BIT_MSB_FIRST(iv); - ctx->iv1 = GET_32BIT_MSB_FIRST(iv + 4); -} diff --git a/contrib/pgcrypto/blf.h b/contrib/pgcrypto/blf.h deleted file mode 100644 index 84aba37ba8..0000000000 --- a/contrib/pgcrypto/blf.h +++ /dev/null @@ -1,46 +0,0 @@ -/* contrib/pgcrypto/blf.h */ -/* - * PuTTY is copyright 1997-2007 Simon Tatham. - * - * Portions copyright Robert de Bath, Joris van Rantwijk, Delian - * Delchev, Andreas Schultz, Jeroen Massar, Wez Furlong, Nicolas Barry, - * Justin Bradford, Ben Harris, Malcolm Smith, Ahmad Khalifa, Markus - * Kuhn, and CORE SDI S.A. - * - * Permission is hereby granted, free of charge, to any person - * obtaining a copy of this software and associated documentation files - * (the "Software"), to deal in the Software without restriction, - * including without limitation the rights to use, copy, modify, merge, - * publish, distribute, sublicense, and/or sell copies of the Software, - * and to permit persons to whom the Software is furnished to do so, - * subject to the following conditions: - * - * The above copyright notice and this permission notice shall be - * included in all copies or substantial portions of the Software. - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, - * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF - * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND - * NONINFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE - * FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF - * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION - * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. - */ - -typedef struct -{ - uint32 S0[256], - S1[256], - S2[256], - S3[256], - P[18]; - uint32 iv0, - iv1; /* for CBC mode */ -} BlowfishContext; - -void blowfish_setkey(BlowfishContext *ctx, const uint8 *key, short keybytes); -void blowfish_setiv(BlowfishContext *ctx, const uint8 *iv); -void blowfish_encrypt_cbc(uint8 *blk, int len, BlowfishContext *ctx); -void blowfish_decrypt_cbc(uint8 *blk, int len, BlowfishContext *ctx); -void blowfish_encrypt_ecb(uint8 *blk, int len, BlowfishContext *ctx); -void blowfish_decrypt_ecb(uint8 *blk, int len, BlowfishContext *ctx); diff --git a/contrib/pgcrypto/imath.c b/contrib/pgcrypto/imath.c deleted file mode 100644 index 0bfa080fa5..0000000000 --- a/contrib/pgcrypto/imath.c +++ /dev/null @@ -1,3588 +0,0 @@ -/*------------------------------------------------------------------------- - * - * imath.c - * - * Last synchronized from https://github.com/creachadair/imath/tree/v1.29, - * using the following procedure: - * - * 1. Download imath.c and imath.h of the last synchronized version. Remove - * "#ifdef __cplusplus" blocks, which upset pgindent. Run pgindent on the - * two files. Filter the two files through "unexpand -t4 --first-only". - * Diff the result against the PostgreSQL versions. As of the last - * synchronization, changes were as follows: - * - * - replace malloc(), realloc() and free() with px_ versions - * - redirect assert() to Assert() - * - #undef MIN, #undef MAX before defining them - * - remove includes covered by c.h - * - rename DEBUG to IMATH_DEBUG - * - replace stdint.h usage with c.h equivalents - * - suppress MSVC warning 4146 - * - add required PG_USED_FOR_ASSERTS_ONLY - * - * 2. Download a newer imath.c and imath.h. Transform them like in step 1. - * Apply to these files the diff you saved in step 1. Look for new lines - * requiring the same kind of change, such as new malloc() calls. - * - * 3. Configure PostgreSQL using --without-openssl. Run "make -C - * contrib/pgcrypto check". - * - * 4. Update this header comment. - * - * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group - * - * IDENTIFICATION - * contrib/pgcrypto/imath.c - * - * Upstream copyright terms follow. - *------------------------------------------------------------------------- - */ - -/* - Name: imath.c - Purpose: Arbitrary precision integer arithmetic routines. - Author: M. J. Fromberger - - Copyright (C) 2002-2007 Michael J. Fromberger, All Rights Reserved. - - Permission is hereby granted, free of charge, to any person obtaining a copy - of this software and associated documentation files (the "Software"), to deal - in the Software without restriction, including without limitation the rights - to use, copy, modify, merge, publish, distribute, sublicense, and/or sell - copies of the Software, and to permit persons to whom the Software is - furnished to do so, subject to the following conditions: - - The above copyright notice and this permission notice shall be included in - all copies or substantial portions of the Software. - - THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR - IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, - FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE - AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, - OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE - SOFTWARE. - */ - -#include "postgres.h" - -#include "imath.h" -#include "px.h" - -#undef assert -#define assert(TEST) Assert(TEST) - -const mp_result MP_OK = 0; /* no error, all is well */ -const mp_result MP_FALSE = 0; /* boolean false */ -const mp_result MP_TRUE = -1; /* boolean true */ -const mp_result MP_MEMORY = -2; /* out of memory */ -const mp_result MP_RANGE = -3; /* argument out of range */ -const mp_result MP_UNDEF = -4; /* result undefined */ -const mp_result MP_TRUNC = -5; /* output truncated */ -const mp_result MP_BADARG = -6; /* invalid null argument */ -const mp_result MP_MINERR = -6; - -const mp_sign MP_NEG = 1; /* value is strictly negative */ -const mp_sign MP_ZPOS = 0; /* value is non-negative */ - -static const char *s_unknown_err = "unknown result code"; -static const char *s_error_msg[] = {"error code 0", "boolean true", - "out of memory", "argument out of range", - "result undefined", "output truncated", -"invalid argument", NULL}; - -/* The ith entry of this table gives the value of log_i(2). - - An integer value n requires ceil(log_i(n)) digits to be represented - in base i. Since it is easy to compute lg(n), by counting bits, we - can compute log_i(n) = lg(n) * log_i(2). - - The use of this table eliminates a dependency upon linkage against - the standard math libraries. - - If MP_MAX_RADIX is increased, this table should be expanded too. - */ -static const double s_log2[] = { - 0.000000000, 0.000000000, 1.000000000, 0.630929754, /* (D)(D) 2 3 */ - 0.500000000, 0.430676558, 0.386852807, 0.356207187, /* 4 5 6 7 */ - 0.333333333, 0.315464877, 0.301029996, 0.289064826, /* 8 9 10 11 */ - 0.278942946, 0.270238154, 0.262649535, 0.255958025, /* 12 13 14 15 */ - 0.250000000, 0.244650542, 0.239812467, 0.235408913, /* 16 17 18 19 */ - 0.231378213, 0.227670249, 0.224243824, 0.221064729, /* 20 21 22 23 */ - 0.218104292, 0.215338279, 0.212746054, 0.210309918, /* 24 25 26 27 */ - 0.208014598, 0.205846832, 0.203795047, 0.201849087, /* 28 29 30 31 */ - 0.200000000, 0.198239863, 0.196561632, 0.194959022, /* 32 33 34 35 */ - 0.193426404, /* 36 */ -}; - -/* Return the number of digits needed to represent a static value */ -#define MP_VALUE_DIGITS(V) \ - ((sizeof(V) + (sizeof(mp_digit) - 1)) / sizeof(mp_digit)) - -/* Round precision P to nearest word boundary */ -static inline mp_size -s_round_prec(mp_size P) -{ - return 2 * ((P + 1) / 2); -} - -/* Set array P of S digits to zero */ -static inline void -ZERO(mp_digit *P, mp_size S) -{ - mp_size i__ = S * sizeof(mp_digit); - mp_digit *p__ = P; - - memset(p__, 0, i__); -} - -/* Copy S digits from array P to array Q */ -static inline void -COPY(mp_digit *P, mp_digit *Q, mp_size S) -{ - mp_size i__ = S * sizeof(mp_digit); - mp_digit *p__ = P; - mp_digit *q__ = Q; - - memcpy(q__, p__, i__); -} - -/* Reverse N elements of unsigned char in A. */ -static inline void -REV(unsigned char *A, int N) -{ - unsigned char *u_ = A; - unsigned char *v_ = u_ + N - 1; - - while (u_ < v_) - { - unsigned char xch = *u_; - - *u_++ = *v_; - *v_-- = xch; - } -} - -/* Strip leading zeroes from z_ in-place. */ -static inline void -CLAMP(mp_int z_) -{ - mp_size uz_ = MP_USED(z_); - mp_digit *dz_ = MP_DIGITS(z_) + uz_ - 1; - - while (uz_ > 1 && (*dz_-- == 0)) - --uz_; - z_->used = uz_; -} - -/* Select min/max. */ -#undef MIN -#undef MAX -static inline int -MIN(int A, int B) -{ - return (B < A ? B : A); -} -static inline mp_size -MAX(mp_size A, mp_size B) -{ - return (B > A ? B : A); -} - -/* Exchange lvalues A and B of type T, e.g. - SWAP(int, x, y) where x and y are variables of type int. */ -#define SWAP(T, A, B) \ - do { \ - T t_ = (A); \ - A = (B); \ - B = t_; \ - } while (0) - -/* Declare a block of N temporary mpz_t values. - These values are initialized to zero. - You must add CLEANUP_TEMP() at the end of the function. - Use TEMP(i) to access a pointer to the ith value. - */ -#define DECLARE_TEMP(N) \ - struct { \ - mpz_t value[(N)]; \ - int len; \ - mp_result err; \ - } temp_ = { \ - .len = (N), \ - .err = MP_OK, \ - }; \ - do { \ - for (int i = 0; i < temp_.len; i++) { \ - mp_int_init(TEMP(i)); \ - } \ - } while (0) - -/* Clear all allocated temp values. */ -#define CLEANUP_TEMP() \ - CLEANUP: \ - do { \ - for (int i = 0; i < temp_.len; i++) { \ - mp_int_clear(TEMP(i)); \ - } \ - if (temp_.err != MP_OK) { \ - return temp_.err; \ - } \ - } while (0) - -/* A pointer to the kth temp value. */ -#define TEMP(K) (temp_.value + (K)) - -/* Evaluate E, an expression of type mp_result expected to return MP_OK. If - the value is not MP_OK, the error is cached and control resumes at the - cleanup handler, which returns it. -*/ -#define REQUIRE(E) \ - do { \ - temp_.err = (E); \ - if (temp_.err != MP_OK) goto CLEANUP; \ - } while (0) - -/* Compare value to zero. */ -static inline int -CMPZ(mp_int Z) -{ - if (Z->used == 1 && Z->digits[0] == 0) - return 0; - return (Z->sign == MP_NEG) ? -1 : 1; -} - -static inline mp_word -UPPER_HALF(mp_word W) -{ - return (W >> MP_DIGIT_BIT); -} -static inline mp_digit -LOWER_HALF(mp_word W) -{ - return (mp_digit) (W); -} - -/* Report whether the highest-order bit of W is 1. */ -static inline bool -HIGH_BIT_SET(mp_word W) -{ - return (W >> (MP_WORD_BIT - 1)) != 0; -} - -/* Report whether adding W + V will carry out. */ -static inline bool -ADD_WILL_OVERFLOW(mp_word W, mp_word V) -{ - return ((MP_WORD_MAX - V) < W); -} - -/* Default number of digits allocated to a new mp_int */ -static mp_size default_precision = 8; - -void -mp_int_default_precision(mp_size size) -{ - assert(size > 0); - default_precision = size; -} - -/* Minimum number of digits to invoke recursive multiply */ -static mp_size multiply_threshold = 32; - -void -mp_int_multiply_threshold(mp_size thresh) -{ - assert(thresh >= sizeof(mp_word)); - multiply_threshold = thresh; -} - -/* Allocate a buffer of (at least) num digits, or return - NULL if that couldn't be done. */ -static mp_digit *s_alloc(mp_size num); - -/* Release a buffer of digits allocated by s_alloc(). */ -static void s_free(void *ptr); - -/* Insure that z has at least min digits allocated, resizing if - necessary. Returns true if successful, false if out of memory. */ -static bool s_pad(mp_int z, mp_size min); - -/* Ensure Z has at least N digits allocated. */ -static inline mp_result -GROW(mp_int Z, mp_size N) -{ - return s_pad(Z, N) ? MP_OK : MP_MEMORY; -} - -/* Fill in a "fake" mp_int on the stack with a given value */ -static void s_fake(mp_int z, mp_small value, mp_digit vbuf[]); -static void s_ufake(mp_int z, mp_usmall value, mp_digit vbuf[]); - -/* Compare two runs of digits of given length, returns <0, 0, >0 */ -static int s_cdig(mp_digit *da, mp_digit *db, mp_size len); - -/* Pack the unsigned digits of v into array t */ -static int s_uvpack(mp_usmall v, mp_digit t[]); - -/* Compare magnitudes of a and b, returns <0, 0, >0 */ -static int s_ucmp(mp_int a, mp_int b); - -/* Compare magnitudes of a and v, returns <0, 0, >0 */ -static int s_vcmp(mp_int a, mp_small v); -static int s_uvcmp(mp_int a, mp_usmall uv); - -/* Unsigned magnitude addition; assumes dc is big enough. - Carry out is returned (no memory allocated). */ -static mp_digit s_uadd(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b); - -/* Unsigned magnitude subtraction. Assumes dc is big enough. */ -static void s_usub(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b); - -/* Unsigned recursive multiplication. Assumes dc is big enough. */ -static int s_kmul(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b); - -/* Unsigned magnitude multiplication. Assumes dc is big enough. */ -static void s_umul(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b); - -/* Unsigned recursive squaring. Assumes dc is big enough. */ -static int s_ksqr(mp_digit *da, mp_digit *dc, mp_size size_a); - -/* Unsigned magnitude squaring. Assumes dc is big enough. */ -static void s_usqr(mp_digit *da, mp_digit *dc, mp_size size_a); - -/* Single digit addition. Assumes a is big enough. */ -static void s_dadd(mp_int a, mp_digit b); - -/* Single digit multiplication. Assumes a is big enough. */ -static void s_dmul(mp_int a, mp_digit b); - -/* Single digit multiplication on buffers; assumes dc is big enough. */ -static void s_dbmul(mp_digit *da, mp_digit b, mp_digit *dc, mp_size size_a); - -/* Single digit division. Replaces a with the quotient, - returns the remainder. */ -static mp_digit s_ddiv(mp_int a, mp_digit b); - -/* Quick division by a power of 2, replaces z (no allocation) */ -static void s_qdiv(mp_int z, mp_size p2); - -/* Quick remainder by a power of 2, replaces z (no allocation) */ -static void s_qmod(mp_int z, mp_size p2); - -/* Quick multiplication by a power of 2, replaces z. - Allocates if necessary; returns false in case this fails. */ -static int s_qmul(mp_int z, mp_size p2); - -/* Quick subtraction from a power of 2, replaces z. - Allocates if necessary; returns false in case this fails. */ -static int s_qsub(mp_int z, mp_size p2); - -/* Return maximum k such that 2^k divides z. */ -static int s_dp2k(mp_int z); - -/* Return k >= 0 such that z = 2^k, or -1 if there is no such k. */ -static int s_isp2(mp_int z); - -/* Set z to 2^k. May allocate; returns false in case this fails. */ -static int s_2expt(mp_int z, mp_small k); - -/* Normalize a and b for division, returns normalization constant */ -static int s_norm(mp_int a, mp_int b); - -/* Compute constant mu for Barrett reduction, given modulus m, result - replaces z, m is untouched. */ -static mp_result s_brmu(mp_int z, mp_int m); - -/* Reduce a modulo m, using Barrett's algorithm. */ -static int s_reduce(mp_int x, mp_int m, mp_int mu, mp_int q1, mp_int q2); - -/* Modular exponentiation, using Barrett reduction */ -static mp_result s_embar(mp_int a, mp_int b, mp_int m, mp_int mu, mp_int c); - -/* Unsigned magnitude division. Assumes |a| > |b|. Allocates temporaries; - overwrites a with quotient, b with remainder. */ -static mp_result s_udiv_knuth(mp_int a, mp_int b); - -/* Compute the number of digits in radix r required to represent the given - value. Does not account for sign flags, terminators, etc. */ -static int s_outlen(mp_int z, mp_size r); - -/* Guess how many digits of precision will be needed to represent a radix r - value of the specified number of digits. Returns a value guaranteed to be - no smaller than the actual number required. */ -static mp_size s_inlen(int len, mp_size r); - -/* Convert a character to a digit value in radix r, or - -1 if out of range */ -static int s_ch2val(char c, int r); - -/* Convert a digit value to a character */ -static char s_val2ch(int v, int caps); - -/* Take 2's complement of a buffer in place */ -static void s_2comp(unsigned char *buf, int len); - -/* Convert a value to binary, ignoring sign. On input, *limpos is the bound on - how many bytes should be written to buf; on output, *limpos is set to the - number of bytes actually written. */ -static mp_result s_tobin(mp_int z, unsigned char *buf, int *limpos, int pad); - -/* Multiply X by Y into Z, ignoring signs. Requires that Z have enough storage - preallocated to hold the result. */ -static inline void -UMUL(mp_int X, mp_int Y, mp_int Z) -{ - mp_size ua_ = MP_USED(X); - mp_size ub_ = MP_USED(Y); - mp_size o_ = ua_ + ub_; - - ZERO(MP_DIGITS(Z), o_); - (void) s_kmul(MP_DIGITS(X), MP_DIGITS(Y), MP_DIGITS(Z), ua_, ub_); - Z->used = o_; - CLAMP(Z); -} - -/* Square X into Z. Requires that Z have enough storage to hold the result. */ -static inline void -USQR(mp_int X, mp_int Z) -{ - mp_size ua_ = MP_USED(X); - mp_size o_ = ua_ + ua_; - - ZERO(MP_DIGITS(Z), o_); - (void) s_ksqr(MP_DIGITS(X), MP_DIGITS(Z), ua_); - Z->used = o_; - CLAMP(Z); -} - -mp_result -mp_int_init(mp_int z) -{ - if (z == NULL) - return MP_BADARG; - - z->single = 0; - z->digits = &(z->single); - z->alloc = 1; - z->used = 1; - z->sign = MP_ZPOS; - - return MP_OK; -} - -mp_int -mp_int_alloc(void) -{ - mp_int out = palloc(sizeof(mpz_t)); - - if (out != NULL) - mp_int_init(out); - - return out; -} - -mp_result -mp_int_init_size(mp_int z, mp_size prec) -{ - assert(z != NULL); - - if (prec == 0) - { - prec = default_precision; - } - else if (prec == 1) - { - return mp_int_init(z); - } - else - { - prec = s_round_prec(prec); - } - - z->digits = s_alloc(prec); - if (MP_DIGITS(z) == NULL) - return MP_MEMORY; - - z->digits[0] = 0; - z->used = 1; - z->alloc = prec; - z->sign = MP_ZPOS; - - return MP_OK; -} - -mp_result -mp_int_init_copy(mp_int z, mp_int old) -{ - assert(z != NULL && old != NULL); - - mp_size uold = MP_USED(old); - - if (uold == 1) - { - mp_int_init(z); - } - else - { - mp_size target = MAX(uold, default_precision); - mp_result res = mp_int_init_size(z, target); - - if (res != MP_OK) - return res; - } - - z->used = uold; - z->sign = old->sign; - COPY(MP_DIGITS(old), MP_DIGITS(z), uold); - - return MP_OK; -} - -mp_result -mp_int_init_value(mp_int z, mp_small value) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - return mp_int_init_copy(z, &vtmp); -} - -mp_result -mp_int_init_uvalue(mp_int z, mp_usmall uvalue) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(uvalue)]; - - s_ufake(&vtmp, uvalue, vbuf); - return mp_int_init_copy(z, &vtmp); -} - -mp_result -mp_int_set_value(mp_int z, mp_small value) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - return mp_int_copy(&vtmp, z); -} - -mp_result -mp_int_set_uvalue(mp_int z, mp_usmall uvalue) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(uvalue)]; - - s_ufake(&vtmp, uvalue, vbuf); - return mp_int_copy(&vtmp, z); -} - -void -mp_int_clear(mp_int z) -{ - if (z == NULL) - return; - - if (MP_DIGITS(z) != NULL) - { - if (MP_DIGITS(z) != &(z->single)) - s_free(MP_DIGITS(z)); - - z->digits = NULL; - } -} - -void -mp_int_free(mp_int z) -{ - assert(z != NULL); - - mp_int_clear(z); - pfree(z); /* note: NOT s_free() */ -} - -mp_result -mp_int_copy(mp_int a, mp_int c) -{ - assert(a != NULL && c != NULL); - - if (a != c) - { - mp_size ua = MP_USED(a); - mp_digit *da, - *dc; - - if (!s_pad(c, ua)) - return MP_MEMORY; - - da = MP_DIGITS(a); - dc = MP_DIGITS(c); - COPY(da, dc, ua); - - c->used = ua; - c->sign = a->sign; - } - - return MP_OK; -} - -void -mp_int_swap(mp_int a, mp_int c) -{ - if (a != c) - { - mpz_t tmp = *a; - - *a = *c; - *c = tmp; - - if (MP_DIGITS(a) == &(c->single)) - a->digits = &(a->single); - if (MP_DIGITS(c) == &(a->single)) - c->digits = &(c->single); - } -} - -void -mp_int_zero(mp_int z) -{ - assert(z != NULL); - - z->digits[0] = 0; - z->used = 1; - z->sign = MP_ZPOS; -} - -mp_result -mp_int_abs(mp_int a, mp_int c) -{ - assert(a != NULL && c != NULL); - - mp_result res; - - if ((res = mp_int_copy(a, c)) != MP_OK) - return res; - - c->sign = MP_ZPOS; - return MP_OK; -} - -mp_result -mp_int_neg(mp_int a, mp_int c) -{ - assert(a != NULL && c != NULL); - - mp_result res; - - if ((res = mp_int_copy(a, c)) != MP_OK) - return res; - - if (CMPZ(c) != 0) - c->sign = 1 - MP_SIGN(a); - - return MP_OK; -} - -mp_result -mp_int_add(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - - mp_size ua = MP_USED(a); - mp_size ub = MP_USED(b); - mp_size max = MAX(ua, ub); - - if (MP_SIGN(a) == MP_SIGN(b)) - { - /* Same sign -- add magnitudes, preserve sign of addends */ - if (!s_pad(c, max)) - return MP_MEMORY; - - mp_digit carry = s_uadd(MP_DIGITS(a), MP_DIGITS(b), MP_DIGITS(c), ua, ub); - mp_size uc = max; - - if (carry) - { - if (!s_pad(c, max + 1)) - return MP_MEMORY; - - c->digits[max] = carry; - ++uc; - } - - c->used = uc; - c->sign = a->sign; - - } - else - { - /* Different signs -- subtract magnitudes, preserve sign of greater */ - int cmp = s_ucmp(a, b); /* magnitude comparision, sign ignored */ - - /* - * Set x to max(a, b), y to min(a, b) to simplify later code. A - * special case yields zero for equal magnitudes. - */ - mp_int x, - y; - - if (cmp == 0) - { - mp_int_zero(c); - return MP_OK; - } - else if (cmp < 0) - { - x = b; - y = a; - } - else - { - x = a; - y = b; - } - - if (!s_pad(c, MP_USED(x))) - return MP_MEMORY; - - /* Subtract smaller from larger */ - s_usub(MP_DIGITS(x), MP_DIGITS(y), MP_DIGITS(c), MP_USED(x), MP_USED(y)); - c->used = x->used; - CLAMP(c); - - /* Give result the sign of the larger */ - c->sign = x->sign; - } - - return MP_OK; -} - -mp_result -mp_int_add_value(mp_int a, mp_small value, mp_int c) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - return mp_int_add(a, &vtmp, c); -} - -mp_result -mp_int_sub(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - - mp_size ua = MP_USED(a); - mp_size ub = MP_USED(b); - mp_size max = MAX(ua, ub); - - if (MP_SIGN(a) != MP_SIGN(b)) - { - /* Different signs -- add magnitudes and keep sign of a */ - if (!s_pad(c, max)) - return MP_MEMORY; - - mp_digit carry = s_uadd(MP_DIGITS(a), MP_DIGITS(b), MP_DIGITS(c), ua, ub); - mp_size uc = max; - - if (carry) - { - if (!s_pad(c, max + 1)) - return MP_MEMORY; - - c->digits[max] = carry; - ++uc; - } - - c->used = uc; - c->sign = a->sign; - - } - else - { - /* Same signs -- subtract magnitudes */ - if (!s_pad(c, max)) - return MP_MEMORY; - mp_int x, - y; - mp_sign osign; - - int cmp = s_ucmp(a, b); - - if (cmp >= 0) - { - x = a; - y = b; - osign = MP_ZPOS; - } - else - { - x = b; - y = a; - osign = MP_NEG; - } - - if (MP_SIGN(a) == MP_NEG && cmp != 0) - osign = 1 - osign; - - s_usub(MP_DIGITS(x), MP_DIGITS(y), MP_DIGITS(c), MP_USED(x), MP_USED(y)); - c->used = x->used; - CLAMP(c); - - c->sign = osign; - } - - return MP_OK; -} - -mp_result -mp_int_sub_value(mp_int a, mp_small value, mp_int c) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - return mp_int_sub(a, &vtmp, c); -} - -mp_result -mp_int_mul(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - - /* If either input is zero, we can shortcut multiplication */ - if (mp_int_compare_zero(a) == 0 || mp_int_compare_zero(b) == 0) - { - mp_int_zero(c); - return MP_OK; - } - - /* Output is positive if inputs have same sign, otherwise negative */ - mp_sign osign = (MP_SIGN(a) == MP_SIGN(b)) ? MP_ZPOS : MP_NEG; - - /* - * If the output is not identical to any of the inputs, we'll write the - * results directly; otherwise, allocate a temporary space. - */ - mp_size ua = MP_USED(a); - mp_size ub = MP_USED(b); - mp_size osize = MAX(ua, ub); - - osize = 4 * ((osize + 1) / 2); - - mp_digit *out; - mp_size p = 0; - - if (c == a || c == b) - { - p = MAX(s_round_prec(osize), default_precision); - - if ((out = s_alloc(p)) == NULL) - return MP_MEMORY; - } - else - { - if (!s_pad(c, osize)) - return MP_MEMORY; - - out = MP_DIGITS(c); - } - ZERO(out, osize); - - if (!s_kmul(MP_DIGITS(a), MP_DIGITS(b), out, ua, ub)) - return MP_MEMORY; - - /* - * If we allocated a new buffer, get rid of whatever memory c was already - * using, and fix up its fields to reflect that. - */ - if (out != MP_DIGITS(c)) - { - if ((void *) MP_DIGITS(c) != (void *) c) - s_free(MP_DIGITS(c)); - c->digits = out; - c->alloc = p; - } - - c->used = osize; /* might not be true, but we'll fix it ... */ - CLAMP(c); /* ... right here */ - c->sign = osign; - - return MP_OK; -} - -mp_result -mp_int_mul_value(mp_int a, mp_small value, mp_int c) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - return mp_int_mul(a, &vtmp, c); -} - -mp_result -mp_int_mul_pow2(mp_int a, mp_small p2, mp_int c) -{ - assert(a != NULL && c != NULL && p2 >= 0); - - mp_result res = mp_int_copy(a, c); - - if (res != MP_OK) - return res; - - if (s_qmul(c, (mp_size) p2)) - { - return MP_OK; - } - else - { - return MP_MEMORY; - } -} - -mp_result -mp_int_sqr(mp_int a, mp_int c) -{ - assert(a != NULL && c != NULL); - - /* Get a temporary buffer big enough to hold the result */ - mp_size osize = (mp_size) 4 * ((MP_USED(a) + 1) / 2); - mp_size p = 0; - mp_digit *out; - - if (a == c) - { - p = s_round_prec(osize); - p = MAX(p, default_precision); - - if ((out = s_alloc(p)) == NULL) - return MP_MEMORY; - } - else - { - if (!s_pad(c, osize)) - return MP_MEMORY; - - out = MP_DIGITS(c); - } - ZERO(out, osize); - - s_ksqr(MP_DIGITS(a), out, MP_USED(a)); - - /* - * Get rid of whatever memory c was already using, and fix up its fields - * to reflect the new digit array it's using - */ - if (out != MP_DIGITS(c)) - { - if ((void *) MP_DIGITS(c) != (void *) c) - s_free(MP_DIGITS(c)); - c->digits = out; - c->alloc = p; - } - - c->used = osize; /* might not be true, but we'll fix it ... */ - CLAMP(c); /* ... right here */ - c->sign = MP_ZPOS; - - return MP_OK; -} - -mp_result -mp_int_div(mp_int a, mp_int b, mp_int q, mp_int r) -{ - assert(a != NULL && b != NULL && q != r); - - int cmp; - mp_result res = MP_OK; - mp_int qout, - rout; - mp_sign sa = MP_SIGN(a); - mp_sign sb = MP_SIGN(b); - - if (CMPZ(b) == 0) - { - return MP_UNDEF; - } - else if ((cmp = s_ucmp(a, b)) < 0) - { - /* - * If |a| < |b|, no division is required: q = 0, r = a - */ - if (r && (res = mp_int_copy(a, r)) != MP_OK) - return res; - - if (q) - mp_int_zero(q); - - return MP_OK; - } - else if (cmp == 0) - { - /* - * If |a| = |b|, no division is required: q = 1 or -1, r = 0 - */ - if (r) - mp_int_zero(r); - - if (q) - { - mp_int_zero(q); - q->digits[0] = 1; - - if (sa != sb) - q->sign = MP_NEG; - } - - return MP_OK; - } - - /* - * When |a| > |b|, real division is required. We need someplace to store - * quotient and remainder, but q and r are allowed to be NULL or to - * overlap with the inputs. - */ - DECLARE_TEMP(2); - int lg; - - if ((lg = s_isp2(b)) < 0) - { - if (q && b != q) - { - REQUIRE(mp_int_copy(a, q)); - qout = q; - } - else - { - REQUIRE(mp_int_copy(a, TEMP(0))); - qout = TEMP(0); - } - - if (r && a != r) - { - REQUIRE(mp_int_copy(b, r)); - rout = r; - } - else - { - REQUIRE(mp_int_copy(b, TEMP(1))); - rout = TEMP(1); - } - - REQUIRE(s_udiv_knuth(qout, rout)); - } - else - { - if (q) - REQUIRE(mp_int_copy(a, q)); - if (r) - REQUIRE(mp_int_copy(a, r)); - - if (q) - s_qdiv(q, (mp_size) lg); - qout = q; - if (r) - s_qmod(r, (mp_size) lg); - rout = r; - } - - /* Recompute signs for output */ - if (rout) - { - rout->sign = sa; - if (CMPZ(rout) == 0) - rout->sign = MP_ZPOS; - } - if (qout) - { - qout->sign = (sa == sb) ? MP_ZPOS : MP_NEG; - if (CMPZ(qout) == 0) - qout->sign = MP_ZPOS; - } - - if (q) - REQUIRE(mp_int_copy(qout, q)); - if (r) - REQUIRE(mp_int_copy(rout, r)); - CLEANUP_TEMP(); - return res; -} - -mp_result -mp_int_mod(mp_int a, mp_int m, mp_int c) -{ - DECLARE_TEMP(1); - mp_int out = (m == c) ? TEMP(0) : c; - - REQUIRE(mp_int_div(a, m, NULL, out)); - if (CMPZ(out) < 0) - { - REQUIRE(mp_int_add(out, m, c)); - } - else - { - REQUIRE(mp_int_copy(out, c)); - } - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_div_value(mp_int a, mp_small value, mp_int q, mp_small *r) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - DECLARE_TEMP(1); - REQUIRE(mp_int_div(a, &vtmp, q, TEMP(0))); - - if (r) - (void) mp_int_to_int(TEMP(0), r); /* can't fail */ - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_div_pow2(mp_int a, mp_small p2, mp_int q, mp_int r) -{ - assert(a != NULL && p2 >= 0 && q != r); - - mp_result res = MP_OK; - - if (q != NULL && (res = mp_int_copy(a, q)) == MP_OK) - { - s_qdiv(q, (mp_size) p2); - } - - if (res == MP_OK && r != NULL && (res = mp_int_copy(a, r)) == MP_OK) - { - s_qmod(r, (mp_size) p2); - } - - return res; -} - -mp_result -mp_int_expt(mp_int a, mp_small b, mp_int c) -{ - assert(c != NULL); - if (b < 0) - return MP_RANGE; - - DECLARE_TEMP(1); - REQUIRE(mp_int_copy(a, TEMP(0))); - - (void) mp_int_set_value(c, 1); - unsigned int v = labs(b); - - while (v != 0) - { - if (v & 1) - { - REQUIRE(mp_int_mul(c, TEMP(0), c)); - } - - v >>= 1; - if (v == 0) - break; - - REQUIRE(mp_int_sqr(TEMP(0), TEMP(0))); - } - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_expt_value(mp_small a, mp_small b, mp_int c) -{ - assert(c != NULL); - if (b < 0) - return MP_RANGE; - - DECLARE_TEMP(1); - REQUIRE(mp_int_set_value(TEMP(0), a)); - - (void) mp_int_set_value(c, 1); - unsigned int v = labs(b); - - while (v != 0) - { - if (v & 1) - { - REQUIRE(mp_int_mul(c, TEMP(0), c)); - } - - v >>= 1; - if (v == 0) - break; - - REQUIRE(mp_int_sqr(TEMP(0), TEMP(0))); - } - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_expt_full(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - if (MP_SIGN(b) == MP_NEG) - return MP_RANGE; - - DECLARE_TEMP(1); - REQUIRE(mp_int_copy(a, TEMP(0))); - - (void) mp_int_set_value(c, 1); - for (unsigned ix = 0; ix < MP_USED(b); ++ix) - { - mp_digit d = b->digits[ix]; - - for (unsigned jx = 0; jx < MP_DIGIT_BIT; ++jx) - { - if (d & 1) - { - REQUIRE(mp_int_mul(c, TEMP(0), c)); - } - - d >>= 1; - if (d == 0 && ix + 1 == MP_USED(b)) - break; - REQUIRE(mp_int_sqr(TEMP(0), TEMP(0))); - } - } - - CLEANUP_TEMP(); - return MP_OK; -} - -int -mp_int_compare(mp_int a, mp_int b) -{ - assert(a != NULL && b != NULL); - - mp_sign sa = MP_SIGN(a); - - if (sa == MP_SIGN(b)) - { - int cmp = s_ucmp(a, b); - - /* - * If they're both zero or positive, the normal comparison applies; if - * both negative, the sense is reversed. - */ - if (sa == MP_ZPOS) - { - return cmp; - } - else - { - return -cmp; - } - } - else if (sa == MP_ZPOS) - { - return 1; - } - else - { - return -1; - } -} - -int -mp_int_compare_unsigned(mp_int a, mp_int b) -{ - assert(a != NULL && b != NULL); - - return s_ucmp(a, b); -} - -int -mp_int_compare_zero(mp_int z) -{ - assert(z != NULL); - - if (MP_USED(z) == 1 && z->digits[0] == 0) - { - return 0; - } - else if (MP_SIGN(z) == MP_ZPOS) - { - return 1; - } - else - { - return -1; - } -} - -int -mp_int_compare_value(mp_int z, mp_small value) -{ - assert(z != NULL); - - mp_sign vsign = (value < 0) ? MP_NEG : MP_ZPOS; - - if (vsign == MP_SIGN(z)) - { - int cmp = s_vcmp(z, value); - - return (vsign == MP_ZPOS) ? cmp : -cmp; - } - else - { - return (value < 0) ? 1 : -1; - } -} - -int -mp_int_compare_uvalue(mp_int z, mp_usmall uv) -{ - assert(z != NULL); - - if (MP_SIGN(z) == MP_NEG) - { - return -1; - } - else - { - return s_uvcmp(z, uv); - } -} - -mp_result -mp_int_exptmod(mp_int a, mp_int b, mp_int m, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL && m != NULL); - - /* Zero moduli and negative exponents are not considered. */ - if (CMPZ(m) == 0) - return MP_UNDEF; - if (CMPZ(b) < 0) - return MP_RANGE; - - mp_size um = MP_USED(m); - - DECLARE_TEMP(3); - REQUIRE(GROW(TEMP(0), 2 * um)); - REQUIRE(GROW(TEMP(1), 2 * um)); - - mp_int s; - - if (c == b || c == m) - { - REQUIRE(GROW(TEMP(2), 2 * um)); - s = TEMP(2); - } - else - { - s = c; - } - - REQUIRE(mp_int_mod(a, m, TEMP(0))); - REQUIRE(s_brmu(TEMP(1), m)); - REQUIRE(s_embar(TEMP(0), b, m, TEMP(1), s)); - REQUIRE(mp_int_copy(s, c)); - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_exptmod_evalue(mp_int a, mp_small value, mp_int m, mp_int c) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - return mp_int_exptmod(a, &vtmp, m, c); -} - -mp_result -mp_int_exptmod_bvalue(mp_small value, mp_int b, mp_int m, mp_int c) -{ - mpz_t vtmp; - mp_digit vbuf[MP_VALUE_DIGITS(value)]; - - s_fake(&vtmp, value, vbuf); - - return mp_int_exptmod(&vtmp, b, m, c); -} - -mp_result -mp_int_exptmod_known(mp_int a, mp_int b, mp_int m, mp_int mu, - mp_int c) -{ - assert(a && b && m && c); - - /* Zero moduli and negative exponents are not considered. */ - if (CMPZ(m) == 0) - return MP_UNDEF; - if (CMPZ(b) < 0) - return MP_RANGE; - - DECLARE_TEMP(2); - mp_size um = MP_USED(m); - - REQUIRE(GROW(TEMP(0), 2 * um)); - - mp_int s; - - if (c == b || c == m) - { - REQUIRE(GROW(TEMP(1), 2 * um)); - s = TEMP(1); - } - else - { - s = c; - } - - REQUIRE(mp_int_mod(a, m, TEMP(0))); - REQUIRE(s_embar(TEMP(0), b, m, mu, s)); - REQUIRE(mp_int_copy(s, c)); - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_redux_const(mp_int m, mp_int c) -{ - assert(m != NULL && c != NULL && m != c); - - return s_brmu(c, m); -} - -mp_result -mp_int_invmod(mp_int a, mp_int m, mp_int c) -{ - assert(a != NULL && m != NULL && c != NULL); - - if (CMPZ(a) == 0 || CMPZ(m) <= 0) - return MP_RANGE; - - DECLARE_TEMP(2); - - REQUIRE(mp_int_egcd(a, m, TEMP(0), TEMP(1), NULL)); - - if (mp_int_compare_value(TEMP(0), 1) != 0) - { - REQUIRE(MP_UNDEF); - } - - /* It is first necessary to constrain the value to the proper range */ - REQUIRE(mp_int_mod(TEMP(1), m, TEMP(1))); - - /* - * Now, if 'a' was originally negative, the value we have is actually the - * magnitude of the negative representative; to get the positive value we - * have to subtract from the modulus. Otherwise, the value is okay as it - * stands. - */ - if (MP_SIGN(a) == MP_NEG) - { - REQUIRE(mp_int_sub(m, TEMP(1), c)); - } - else - { - REQUIRE(mp_int_copy(TEMP(1), c)); - } - - CLEANUP_TEMP(); - return MP_OK; -} - -/* Binary GCD algorithm due to Josef Stein, 1961 */ -mp_result -mp_int_gcd(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - - int ca = CMPZ(a); - int cb = CMPZ(b); - - if (ca == 0 && cb == 0) - { - return MP_UNDEF; - } - else if (ca == 0) - { - return mp_int_abs(b, c); - } - else if (cb == 0) - { - return mp_int_abs(a, c); - } - - DECLARE_TEMP(3); - REQUIRE(mp_int_copy(a, TEMP(0))); - REQUIRE(mp_int_copy(b, TEMP(1))); - - TEMP(0)->sign = MP_ZPOS; - TEMP(1)->sign = MP_ZPOS; - - int k = 0; - - { /* Divide out common factors of 2 from u and v */ - int div2_u = s_dp2k(TEMP(0)); - int div2_v = s_dp2k(TEMP(1)); - - k = MIN(div2_u, div2_v); - s_qdiv(TEMP(0), (mp_size) k); - s_qdiv(TEMP(1), (mp_size) k); - } - - if (mp_int_is_odd(TEMP(0))) - { - REQUIRE(mp_int_neg(TEMP(1), TEMP(2))); - } - else - { - REQUIRE(mp_int_copy(TEMP(0), TEMP(2))); - } - - for (;;) - { - s_qdiv(TEMP(2), s_dp2k(TEMP(2))); - - if (CMPZ(TEMP(2)) > 0) - { - REQUIRE(mp_int_copy(TEMP(2), TEMP(0))); - } - else - { - REQUIRE(mp_int_neg(TEMP(2), TEMP(1))); - } - - REQUIRE(mp_int_sub(TEMP(0), TEMP(1), TEMP(2))); - - if (CMPZ(TEMP(2)) == 0) - break; - } - - REQUIRE(mp_int_abs(TEMP(0), c)); - if (!s_qmul(c, (mp_size) k)) - REQUIRE(MP_MEMORY); - - CLEANUP_TEMP(); - return MP_OK; -} - -/* This is the binary GCD algorithm again, but this time we keep track of the - elementary matrix operations as we go, so we can get values x and y - satisfying c = ax + by. - */ -mp_result -mp_int_egcd(mp_int a, mp_int b, mp_int c, mp_int x, mp_int y) -{ - assert(a != NULL && b != NULL && c != NULL && (x != NULL || y != NULL)); - - mp_result res = MP_OK; - int ca = CMPZ(a); - int cb = CMPZ(b); - - if (ca == 0 && cb == 0) - { - return MP_UNDEF; - } - else if (ca == 0) - { - if ((res = mp_int_abs(b, c)) != MP_OK) - return res; - mp_int_zero(x); - (void) mp_int_set_value(y, 1); - return MP_OK; - } - else if (cb == 0) - { - if ((res = mp_int_abs(a, c)) != MP_OK) - return res; - (void) mp_int_set_value(x, 1); - mp_int_zero(y); - return MP_OK; - } - - /* - * Initialize temporaries: A:0, B:1, C:2, D:3, u:4, v:5, ou:6, ov:7 - */ - DECLARE_TEMP(8); - REQUIRE(mp_int_set_value(TEMP(0), 1)); - REQUIRE(mp_int_set_value(TEMP(3), 1)); - REQUIRE(mp_int_copy(a, TEMP(4))); - REQUIRE(mp_int_copy(b, TEMP(5))); - - /* We will work with absolute values here */ - TEMP(4)->sign = MP_ZPOS; - TEMP(5)->sign = MP_ZPOS; - - int k = 0; - - { /* Divide out common factors of 2 from u and v */ - int div2_u = s_dp2k(TEMP(4)), - div2_v = s_dp2k(TEMP(5)); - - k = MIN(div2_u, div2_v); - s_qdiv(TEMP(4), k); - s_qdiv(TEMP(5), k); - } - - REQUIRE(mp_int_copy(TEMP(4), TEMP(6))); - REQUIRE(mp_int_copy(TEMP(5), TEMP(7))); - - for (;;) - { - while (mp_int_is_even(TEMP(4))) - { - s_qdiv(TEMP(4), 1); - - if (mp_int_is_odd(TEMP(0)) || mp_int_is_odd(TEMP(1))) - { - REQUIRE(mp_int_add(TEMP(0), TEMP(7), TEMP(0))); - REQUIRE(mp_int_sub(TEMP(1), TEMP(6), TEMP(1))); - } - - s_qdiv(TEMP(0), 1); - s_qdiv(TEMP(1), 1); - } - - while (mp_int_is_even(TEMP(5))) - { - s_qdiv(TEMP(5), 1); - - if (mp_int_is_odd(TEMP(2)) || mp_int_is_odd(TEMP(3))) - { - REQUIRE(mp_int_add(TEMP(2), TEMP(7), TEMP(2))); - REQUIRE(mp_int_sub(TEMP(3), TEMP(6), TEMP(3))); - } - - s_qdiv(TEMP(2), 1); - s_qdiv(TEMP(3), 1); - } - - if (mp_int_compare(TEMP(4), TEMP(5)) >= 0) - { - REQUIRE(mp_int_sub(TEMP(4), TEMP(5), TEMP(4))); - REQUIRE(mp_int_sub(TEMP(0), TEMP(2), TEMP(0))); - REQUIRE(mp_int_sub(TEMP(1), TEMP(3), TEMP(1))); - } - else - { - REQUIRE(mp_int_sub(TEMP(5), TEMP(4), TEMP(5))); - REQUIRE(mp_int_sub(TEMP(2), TEMP(0), TEMP(2))); - REQUIRE(mp_int_sub(TEMP(3), TEMP(1), TEMP(3))); - } - - if (CMPZ(TEMP(4)) == 0) - { - if (x) - REQUIRE(mp_int_copy(TEMP(2), x)); - if (y) - REQUIRE(mp_int_copy(TEMP(3), y)); - if (c) - { - if (!s_qmul(TEMP(5), k)) - { - REQUIRE(MP_MEMORY); - } - REQUIRE(mp_int_copy(TEMP(5), c)); - } - - break; - } - } - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_lcm(mp_int a, mp_int b, mp_int c) -{ - assert(a != NULL && b != NULL && c != NULL); - - /* - * Since a * b = gcd(a, b) * lcm(a, b), we can compute lcm(a, b) = (a / - * gcd(a, b)) * b. - * - * This formulation insures everything works even if the input variables - * share space. - */ - DECLARE_TEMP(1); - REQUIRE(mp_int_gcd(a, b, TEMP(0))); - REQUIRE(mp_int_div(a, TEMP(0), TEMP(0), NULL)); - REQUIRE(mp_int_mul(TEMP(0), b, TEMP(0))); - REQUIRE(mp_int_copy(TEMP(0), c)); - - CLEANUP_TEMP(); - return MP_OK; -} - -bool -mp_int_divisible_value(mp_int a, mp_small v) -{ - mp_small rem = 0; - - if (mp_int_div_value(a, v, NULL, &rem) != MP_OK) - { - return false; - } - return rem == 0; -} - -int -mp_int_is_pow2(mp_int z) -{ - assert(z != NULL); - - return s_isp2(z); -} - -/* Implementation of Newton's root finding method, based loosely on a patch - contributed by Hal Finkel - modified by M. J. Fromberger. - */ -mp_result -mp_int_root(mp_int a, mp_small b, mp_int c) -{ - assert(a != NULL && c != NULL && b > 0); - - if (b == 1) - { - return mp_int_copy(a, c); - } - bool flips = false; - - if (MP_SIGN(a) == MP_NEG) - { - if (b % 2 == 0) - { - return MP_UNDEF; /* root does not exist for negative a with - * even b */ - } - else - { - flips = true; - } - } - - DECLARE_TEMP(5); - REQUIRE(mp_int_copy(a, TEMP(0))); - REQUIRE(mp_int_copy(a, TEMP(1))); - TEMP(0)->sign = MP_ZPOS; - TEMP(1)->sign = MP_ZPOS; - - for (;;) - { - REQUIRE(mp_int_expt(TEMP(1), b, TEMP(2))); - - if (mp_int_compare_unsigned(TEMP(2), TEMP(0)) <= 0) - break; - - REQUIRE(mp_int_sub(TEMP(2), TEMP(0), TEMP(2))); - REQUIRE(mp_int_expt(TEMP(1), b - 1, TEMP(3))); - REQUIRE(mp_int_mul_value(TEMP(3), b, TEMP(3))); - REQUIRE(mp_int_div(TEMP(2), TEMP(3), TEMP(4), NULL)); - REQUIRE(mp_int_sub(TEMP(1), TEMP(4), TEMP(4))); - - if (mp_int_compare_unsigned(TEMP(1), TEMP(4)) == 0) - { - REQUIRE(mp_int_sub_value(TEMP(4), 1, TEMP(4))); - } - REQUIRE(mp_int_copy(TEMP(4), TEMP(1))); - } - - REQUIRE(mp_int_copy(TEMP(1), c)); - - /* If the original value of a was negative, flip the output sign. */ - if (flips) - (void) mp_int_neg(c, c); /* cannot fail */ - - CLEANUP_TEMP(); - return MP_OK; -} - -mp_result -mp_int_to_int(mp_int z, mp_small *out) -{ - assert(z != NULL); - - /* Make sure the value is representable as a small integer */ - mp_sign sz = MP_SIGN(z); - - if ((sz == MP_ZPOS && mp_int_compare_value(z, MP_SMALL_MAX) > 0) || - mp_int_compare_value(z, MP_SMALL_MIN) < 0) - { - return MP_RANGE; - } - - mp_usmall uz = MP_USED(z); - mp_digit *dz = MP_DIGITS(z) + uz - 1; - mp_small uv = 0; - - while (uz > 0) - { - uv <<= MP_DIGIT_BIT / 2; - uv = (uv << (MP_DIGIT_BIT / 2)) | *dz--; - --uz; - } - - if (out) - *out = (mp_small) ((sz == MP_NEG) ? -uv : uv); - - return MP_OK; -} - -mp_result -mp_int_to_uint(mp_int z, mp_usmall *out) -{ - assert(z != NULL); - - /* Make sure the value is representable as an unsigned small integer */ - mp_size sz = MP_SIGN(z); - - if (sz == MP_NEG || mp_int_compare_uvalue(z, MP_USMALL_MAX) > 0) - { - return MP_RANGE; - } - - mp_size uz = MP_USED(z); - mp_digit *dz = MP_DIGITS(z) + uz - 1; - mp_usmall uv = 0; - - while (uz > 0) - { - uv <<= MP_DIGIT_BIT / 2; - uv = (uv << (MP_DIGIT_BIT / 2)) | *dz--; - --uz; - } - - if (out) - *out = uv; - - return MP_OK; -} - -mp_result -mp_int_to_string(mp_int z, mp_size radix, char *str, int limit) -{ - assert(z != NULL && str != NULL && limit >= 2); - assert(radix >= MP_MIN_RADIX && radix <= MP_MAX_RADIX); - - int cmp = 0; - - if (CMPZ(z) == 0) - { - *str++ = s_val2ch(0, 1); - } - else - { - mp_result res; - mpz_t tmp; - char *h, - *t; - - if ((res = mp_int_init_copy(&tmp, z)) != MP_OK) - return res; - - if (MP_SIGN(z) == MP_NEG) - { - *str++ = '-'; - --limit; - } - h = str; - - /* Generate digits in reverse order until finished or limit reached */ - for ( /* */ ; limit > 0; --limit) - { - mp_digit d; - - if ((cmp = CMPZ(&tmp)) == 0) - break; - - d = s_ddiv(&tmp, (mp_digit) radix); - *str++ = s_val2ch(d, 1); - } - t = str - 1; - - /* Put digits back in correct output order */ - while (h < t) - { - char tc = *h; - - *h++ = *t; - *t-- = tc; - } - - mp_int_clear(&tmp); - } - - *str = '\0'; - if (cmp == 0) - { - return MP_OK; - } - else - { - return MP_TRUNC; - } -} - -mp_result -mp_int_string_len(mp_int z, mp_size radix) -{ - assert(z != NULL); - assert(radix >= MP_MIN_RADIX && radix <= MP_MAX_RADIX); - - int len = s_outlen(z, radix) + 1; /* for terminator */ - - /* Allow for sign marker on negatives */ - if (MP_SIGN(z) == MP_NEG) - len += 1; - - return len; -} - -/* Read zero-terminated string into z */ -mp_result -mp_int_read_string(mp_int z, mp_size radix, const char *str) -{ - return mp_int_read_cstring(z, radix, str, NULL); -} - -mp_result -mp_int_read_cstring(mp_int z, mp_size radix, const char *str, - char **end) -{ - assert(z != NULL && str != NULL); - assert(radix >= MP_MIN_RADIX && radix <= MP_MAX_RADIX); - - /* Skip leading whitespace */ - while (isspace((unsigned char) *str)) - ++str; - - /* Handle leading sign tag (+/-, positive default) */ - switch (*str) - { - case '-': - z->sign = MP_NEG; - ++str; - break; - case '+': - ++str; /* fallthrough */ - default: - z->sign = MP_ZPOS; - break; - } - - /* Skip leading zeroes */ - int ch; - - while ((ch = s_ch2val(*str, radix)) == 0) - ++str; - - /* Make sure there is enough space for the value */ - if (!s_pad(z, s_inlen(strlen(str), radix))) - return MP_MEMORY; - - z->used = 1; - z->digits[0] = 0; - - while (*str != '\0' && ((ch = s_ch2val(*str, radix)) >= 0)) - { - s_dmul(z, (mp_digit) radix); - s_dadd(z, (mp_digit) ch); - ++str; - } - - CLAMP(z); - - /* Override sign for zero, even if negative specified. */ - if (CMPZ(z) == 0) - z->sign = MP_ZPOS; - - if (end != NULL) - *end = unconstify(char *, str); - - /* - * Return a truncation error if the string has unprocessed characters - * remaining, so the caller can tell if the whole string was done - */ - if (*str != '\0') - { - return MP_TRUNC; - } - else - { - return MP_OK; - } -} - -mp_result -mp_int_count_bits(mp_int z) -{ - assert(z != NULL); - - mp_size uz = MP_USED(z); - - if (uz == 1 && z->digits[0] == 0) - return 1; - - --uz; - mp_size nbits = uz * MP_DIGIT_BIT; - mp_digit d = z->digits[uz]; - - while (d != 0) - { - d >>= 1; - ++nbits; - } - - return nbits; -} - -mp_result -mp_int_to_binary(mp_int z, unsigned char *buf, int limit) -{ - static const int PAD_FOR_2C = 1; - - assert(z != NULL && buf != NULL); - - int limpos = limit; - mp_result res = s_tobin(z, buf, &limpos, PAD_FOR_2C); - - if (MP_SIGN(z) == MP_NEG) - s_2comp(buf, limpos); - - return res; -} - -mp_result -mp_int_read_binary(mp_int z, unsigned char *buf, int len) -{ - assert(z != NULL && buf != NULL && len > 0); - - /* Figure out how many digits are needed to represent this value */ - mp_size need = ((len * CHAR_BIT) + (MP_DIGIT_BIT - 1)) / MP_DIGIT_BIT; - - if (!s_pad(z, need)) - return MP_MEMORY; - - mp_int_zero(z); - - /* - * If the high-order bit is set, take the 2's complement before reading - * the value (it will be restored afterward) - */ - if (buf[0] >> (CHAR_BIT - 1)) - { - z->sign = MP_NEG; - s_2comp(buf, len); - } - - mp_digit *dz = MP_DIGITS(z); - unsigned char *tmp = buf; - - for (int i = len; i > 0; --i, ++tmp) - { - s_qmul(z, (mp_size) CHAR_BIT); - *dz |= *tmp; - } - - /* Restore 2's complement if we took it before */ - if (MP_SIGN(z) == MP_NEG) - s_2comp(buf, len); - - return MP_OK; -} - -mp_result -mp_int_binary_len(mp_int z) -{ - mp_result res = mp_int_count_bits(z); - - if (res <= 0) - return res; - - int bytes = mp_int_unsigned_len(z); - - /* - * If the highest-order bit falls exactly on a byte boundary, we need to - * pad with an extra byte so that the sign will be read correctly when - * reading it back in. - */ - if (bytes * CHAR_BIT == res) - ++bytes; - - return bytes; -} - -mp_result -mp_int_to_unsigned(mp_int z, unsigned char *buf, int limit) -{ - static const int NO_PADDING = 0; - - assert(z != NULL && buf != NULL); - - return s_tobin(z, buf, &limit, NO_PADDING); -} - -mp_result -mp_int_read_unsigned(mp_int z, unsigned char *buf, int len) -{ - assert(z != NULL && buf != NULL && len > 0); - - /* Figure out how many digits are needed to represent this value */ - mp_size need = ((len * CHAR_BIT) + (MP_DIGIT_BIT - 1)) / MP_DIGIT_BIT; - - if (!s_pad(z, need)) - return MP_MEMORY; - - mp_int_zero(z); - - unsigned char *tmp = buf; - - for (int i = len; i > 0; --i, ++tmp) - { - (void) s_qmul(z, CHAR_BIT); - *MP_DIGITS(z) |= *tmp; - } - - return MP_OK; -} - -mp_result -mp_int_unsigned_len(mp_int z) -{ - mp_result res = mp_int_count_bits(z); - - if (res <= 0) - return res; - - int bytes = (res + (CHAR_BIT - 1)) / CHAR_BIT; - - return bytes; -} - -const char * -mp_error_string(mp_result res) -{ - if (res > 0) - return s_unknown_err; - - res = -res; - int ix; - - for (ix = 0; ix < res && s_error_msg[ix] != NULL; ++ix) - ; - - if (s_error_msg[ix] != NULL) - { - return s_error_msg[ix]; - } - else - { - return s_unknown_err; - } -} - -/*------------------------------------------------------------------------*/ -/* Private functions for internal use. These make assumptions. */ - -#if IMATH_DEBUG -static const mp_digit fill = (mp_digit) 0xdeadbeefabad1dea; -#endif - -static mp_digit * -s_alloc(mp_size num) -{ - mp_digit *out = palloc(num * sizeof(mp_digit)); - - assert(out != NULL); - -#if IMATH_DEBUG - for (mp_size ix = 0; ix < num; ++ix) - out[ix] = fill; -#endif - return out; -} - -static mp_digit * -s_realloc(mp_digit *old, mp_size osize, mp_size nsize) -{ -#if IMATH_DEBUG - mp_digit *new = s_alloc(nsize); - - assert(new != NULL); - - for (mp_size ix = 0; ix < nsize; ++ix) - new[ix] = fill; - memcpy(new, old, osize * sizeof(mp_digit)); -#else - mp_digit *new = repalloc(old, nsize * sizeof(mp_digit)); - - assert(new != NULL); -#endif - - return new; -} - -static void -s_free(void *ptr) -{ - pfree(ptr); -} - -static bool -s_pad(mp_int z, mp_size min) -{ - if (MP_ALLOC(z) < min) - { - mp_size nsize = s_round_prec(min); - mp_digit *tmp; - - if (z->digits == &(z->single)) - { - if ((tmp = s_alloc(nsize)) == NULL) - return false; - tmp[0] = z->single; - } - else if ((tmp = s_realloc(MP_DIGITS(z), MP_ALLOC(z), nsize)) == NULL) - { - return false; - } - - z->digits = tmp; - z->alloc = nsize; - } - - return true; -} - -/* Note: This will not work correctly when value == MP_SMALL_MIN */ -static void -s_fake(mp_int z, mp_small value, mp_digit vbuf[]) -{ - mp_usmall uv = (mp_usmall) (value < 0) ? -value : value; - - s_ufake(z, uv, vbuf); - if (value < 0) - z->sign = MP_NEG; -} - -static void -s_ufake(mp_int z, mp_usmall value, mp_digit vbuf[]) -{ - mp_size ndig = (mp_size) s_uvpack(value, vbuf); - - z->used = ndig; - z->alloc = MP_VALUE_DIGITS(value); - z->sign = MP_ZPOS; - z->digits = vbuf; -} - -static int -s_cdig(mp_digit *da, mp_digit *db, mp_size len) -{ - mp_digit *dat = da + len - 1, - *dbt = db + len - 1; - - for ( /* */ ; len != 0; --len, --dat, --dbt) - { - if (*dat > *dbt) - { - return 1; - } - else if (*dat < *dbt) - { - return -1; - } - } - - return 0; -} - -static int -s_uvpack(mp_usmall uv, mp_digit t[]) -{ - int ndig = 0; - - if (uv == 0) - t[ndig++] = 0; - else - { - while (uv != 0) - { - t[ndig++] = (mp_digit) uv; - uv >>= MP_DIGIT_BIT / 2; - uv >>= MP_DIGIT_BIT / 2; - } - } - - return ndig; -} - -static int -s_ucmp(mp_int a, mp_int b) -{ - mp_size ua = MP_USED(a), - ub = MP_USED(b); - - if (ua > ub) - { - return 1; - } - else if (ub > ua) - { - return -1; - } - else - { - return s_cdig(MP_DIGITS(a), MP_DIGITS(b), ua); - } -} - -static int -s_vcmp(mp_int a, mp_small v) -{ -#ifdef _MSC_VER -#pragma warning(push) -#pragma warning(disable: 4146) -#endif - mp_usmall uv = (v < 0) ? -(mp_usmall) v : (mp_usmall) v; -#ifdef _MSC_VER -#pragma warning(pop) -#endif - - return s_uvcmp(a, uv); -} - -static int -s_uvcmp(mp_int a, mp_usmall uv) -{ - mpz_t vtmp; - mp_digit vdig[MP_VALUE_DIGITS(uv)]; - - s_ufake(&vtmp, uv, vdig); - return s_ucmp(a, &vtmp); -} - -static mp_digit -s_uadd(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b) -{ - mp_size pos; - mp_word w = 0; - - /* Insure that da is the longer of the two to simplify later code */ - if (size_b > size_a) - { - SWAP(mp_digit *, da, db); - SWAP(mp_size, size_a, size_b); - } - - /* Add corresponding digits until the shorter number runs out */ - for (pos = 0; pos < size_b; ++pos, ++da, ++db, ++dc) - { - w = w + (mp_word) *da + (mp_word) *db; - *dc = LOWER_HALF(w); - w = UPPER_HALF(w); - } - - /* Propagate carries as far as necessary */ - for ( /* */ ; pos < size_a; ++pos, ++da, ++dc) - { - w = w + *da; - - *dc = LOWER_HALF(w); - w = UPPER_HALF(w); - } - - /* Return carry out */ - return (mp_digit) w; -} - -static void -s_usub(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b) -{ - mp_size pos; - mp_word w = 0; - - /* We assume that |a| >= |b| so this should definitely hold */ - assert(size_a >= size_b); - - /* Subtract corresponding digits and propagate borrow */ - for (pos = 0; pos < size_b; ++pos, ++da, ++db, ++dc) - { - w = ((mp_word) MP_DIGIT_MAX + 1 + /* MP_RADIX */ - (mp_word) *da) - - w - (mp_word) *db; - - *dc = LOWER_HALF(w); - w = (UPPER_HALF(w) == 0); - } - - /* Finish the subtraction for remaining upper digits of da */ - for ( /* */ ; pos < size_a; ++pos, ++da, ++dc) - { - w = ((mp_word) MP_DIGIT_MAX + 1 + /* MP_RADIX */ - (mp_word) *da) - - w; - - *dc = LOWER_HALF(w); - w = (UPPER_HALF(w) == 0); - } - - /* If there is a borrow out at the end, it violates the precondition */ - assert(w == 0); -} - -static int -s_kmul(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b) -{ - mp_size bot_size; - - /* Make sure b is the smaller of the two input values */ - if (size_b > size_a) - { - SWAP(mp_digit *, da, db); - SWAP(mp_size, size_a, size_b); - } - - /* - * Insure that the bottom is the larger half in an odd-length split; the - * code below relies on this being true. - */ - bot_size = (size_a + 1) / 2; - - /* - * If the values are big enough to bother with recursion, use the - * Karatsuba algorithm to compute the product; otherwise use the normal - * multiplication algorithm - */ - if (multiply_threshold && size_a >= multiply_threshold && size_b > bot_size) - { - mp_digit *t1, - *t2, - *t3, - carry; - - mp_digit *a_top = da + bot_size; - mp_digit *b_top = db + bot_size; - - mp_size at_size = size_a - bot_size; - mp_size bt_size = size_b - bot_size; - mp_size buf_size = 2 * bot_size; - - /* - * Do a single allocation for all three temporary buffers needed; each - * buffer must be big enough to hold the product of two bottom halves, - * and one buffer needs space for the completed product; twice the - * space is plenty. - */ - if ((t1 = s_alloc(4 * buf_size)) == NULL) - return 0; - t2 = t1 + buf_size; - t3 = t2 + buf_size; - ZERO(t1, 4 * buf_size); - - /* - * t1 and t2 are initially used as temporaries to compute the inner - * product (a1 + a0)(b1 + b0) = a1b1 + a1b0 + a0b1 + a0b0 - */ - carry = s_uadd(da, a_top, t1, bot_size, at_size); /* t1 = a1 + a0 */ - t1[bot_size] = carry; - - carry = s_uadd(db, b_top, t2, bot_size, bt_size); /* t2 = b1 + b0 */ - t2[bot_size] = carry; - - (void) s_kmul(t1, t2, t3, bot_size + 1, bot_size + 1); /* t3 = t1 * t2 */ - - /* - * Now we'll get t1 = a0b0 and t2 = a1b1, and subtract them out so - * that we're left with only the pieces we want: t3 = a1b0 + a0b1 - */ - ZERO(t1, buf_size); - ZERO(t2, buf_size); - (void) s_kmul(da, db, t1, bot_size, bot_size); /* t1 = a0 * b0 */ - (void) s_kmul(a_top, b_top, t2, at_size, bt_size); /* t2 = a1 * b1 */ - - /* Subtract out t1 and t2 to get the inner product */ - s_usub(t3, t1, t3, buf_size + 2, buf_size); - s_usub(t3, t2, t3, buf_size + 2, buf_size); - - /* Assemble the output value */ - COPY(t1, dc, buf_size); - carry = s_uadd(t3, dc + bot_size, dc + bot_size, buf_size + 1, buf_size); - assert(carry == 0); - - carry = - s_uadd(t2, dc + 2 * bot_size, dc + 2 * bot_size, buf_size, buf_size); - assert(carry == 0); - - s_free(t1); /* note t2 and t3 are just internal pointers - * to t1 */ - } - else - { - s_umul(da, db, dc, size_a, size_b); - } - - return 1; -} - -static void -s_umul(mp_digit *da, mp_digit *db, mp_digit *dc, mp_size size_a, - mp_size size_b) -{ - mp_size a, - b; - mp_word w; - - for (a = 0; a < size_a; ++a, ++dc, ++da) - { - mp_digit *dct = dc; - mp_digit *dbt = db; - - if (*da == 0) - continue; - - w = 0; - for (b = 0; b < size_b; ++b, ++dbt, ++dct) - { - w = (mp_word) *da * (mp_word) *dbt + w + (mp_word) *dct; - - *dct = LOWER_HALF(w); - w = UPPER_HALF(w); - } - - *dct = (mp_digit) w; - } -} - -static int -s_ksqr(mp_digit *da, mp_digit *dc, mp_size size_a) -{ - if (multiply_threshold && size_a > multiply_threshold) - { - mp_size bot_size = (size_a + 1) / 2; - mp_digit *a_top = da + bot_size; - mp_digit *t1, - *t2, - *t3, - carry PG_USED_FOR_ASSERTS_ONLY; - mp_size at_size = size_a - bot_size; - mp_size buf_size = 2 * bot_size; - - if ((t1 = s_alloc(4 * buf_size)) == NULL) - return 0; - t2 = t1 + buf_size; - t3 = t2 + buf_size; - ZERO(t1, 4 * buf_size); - - (void) s_ksqr(da, t1, bot_size); /* t1 = a0 ^ 2 */ - (void) s_ksqr(a_top, t2, at_size); /* t2 = a1 ^ 2 */ - - (void) s_kmul(da, a_top, t3, bot_size, at_size); /* t3 = a0 * a1 */ - - /* Quick multiply t3 by 2, shifting left (can't overflow) */ - { - int i, - top = bot_size + at_size; - mp_word w, - save = 0; - - for (i = 0; i < top; ++i) - { - w = t3[i]; - w = (w << 1) | save; - t3[i] = LOWER_HALF(w); - save = UPPER_HALF(w); - } - t3[i] = LOWER_HALF(save); - } - - /* Assemble the output value */ - COPY(t1, dc, 2 * bot_size); - carry = s_uadd(t3, dc + bot_size, dc + bot_size, buf_size + 1, buf_size); - assert(carry == 0); - - carry = - s_uadd(t2, dc + 2 * bot_size, dc + 2 * bot_size, buf_size, buf_size); - assert(carry == 0); - - s_free(t1); /* note that t2 and t2 are internal pointers - * only */ - - } - else - { - s_usqr(da, dc, size_a); - } - - return 1; -} - -static void -s_usqr(mp_digit *da, mp_digit *dc, mp_size size_a) -{ - mp_size i, - j; - mp_word w; - - for (i = 0; i < size_a; ++i, dc += 2, ++da) - { - mp_digit *dct = dc, - *dat = da; - - if (*da == 0) - continue; - - /* Take care of the first digit, no rollover */ - w = (mp_word) *dat * (mp_word) *dat + (mp_word) *dct; - *dct = LOWER_HALF(w); - w = UPPER_HALF(w); - ++dat; - ++dct; - - for (j = i + 1; j < size_a; ++j, ++dat, ++dct) - { - mp_word t = (mp_word) *da * (mp_word) *dat; - mp_word u = w + (mp_word) *dct, - ov = 0; - - /* Check if doubling t will overflow a word */ - if (HIGH_BIT_SET(t)) - ov = 1; - - w = t + t; - - /* Check if adding u to w will overflow a word */ - if (ADD_WILL_OVERFLOW(w, u)) - ov = 1; - - w += u; - - *dct = LOWER_HALF(w); - w = UPPER_HALF(w); - if (ov) - { - w += MP_DIGIT_MAX; /* MP_RADIX */ - ++w; - } - } - - w = w + *dct; - *dct = (mp_digit) w; - while ((w = UPPER_HALF(w)) != 0) - { - ++dct; - w = w + *dct; - *dct = LOWER_HALF(w); - } - - assert(w == 0); - } -} - -static void -s_dadd(mp_int a, mp_digit b) -{ - mp_word w = 0; - mp_digit *da = MP_DIGITS(a); - mp_size ua = MP_USED(a); - - w = (mp_word) *da + b; - *da++ = LOWER_HALF(w); - w = UPPER_HALF(w); - - for (ua -= 1; ua > 0; --ua, ++da) - { - w = (mp_word) *da + w; - - *da = LOWER_HALF(w); - w = UPPER_HALF(w); - } - - if (w) - { - *da = (mp_digit) w; - a->used += 1; - } -} - -static void -s_dmul(mp_int a, mp_digit b) -{ - mp_word w = 0; - mp_digit *da = MP_DIGITS(a); - mp_size ua = MP_USED(a); - - while (ua > 0) - { - w = (mp_word) *da * b + w; - *da++ = LOWER_HALF(w); - w = UPPER_HALF(w); - --ua; - } - - if (w) - { - *da = (mp_digit) w; - a->used += 1; - } -} - -static void -s_dbmul(mp_digit *da, mp_digit b, mp_digit *dc, mp_size size_a) -{ - mp_word w = 0; - - while (size_a > 0) - { - w = (mp_word) *da++ * (mp_word) b + w; - - *dc++ = LOWER_HALF(w); - w = UPPER_HALF(w); - --size_a; - } - - if (w) - *dc = LOWER_HALF(w); -} - -static mp_digit -s_ddiv(mp_int a, mp_digit b) -{ - mp_word w = 0, - qdigit; - mp_size ua = MP_USED(a); - mp_digit *da = MP_DIGITS(a) + ua - 1; - - for ( /* */ ; ua > 0; --ua, --da) - { - w = (w << MP_DIGIT_BIT) | *da; - - if (w >= b) - { - qdigit = w / b; - w = w % b; - } - else - { - qdigit = 0; - } - - *da = (mp_digit) qdigit; - } - - CLAMP(a); - return (mp_digit) w; -} - -static void -s_qdiv(mp_int z, mp_size p2) -{ - mp_size ndig = p2 / MP_DIGIT_BIT, - nbits = p2 % MP_DIGIT_BIT; - mp_size uz = MP_USED(z); - - if (ndig) - { - mp_size mark; - mp_digit *to, - *from; - - if (ndig >= uz) - { - mp_int_zero(z); - return; - } - - to = MP_DIGITS(z); - from = to + ndig; - - for (mark = ndig; mark < uz; ++mark) - { - *to++ = *from++; - } - - z->used = uz - ndig; - } - - if (nbits) - { - mp_digit d = 0, - *dz, - save; - mp_size up = MP_DIGIT_BIT - nbits; - - uz = MP_USED(z); - dz = MP_DIGITS(z) + uz - 1; - - for ( /* */ ; uz > 0; --uz, --dz) - { - save = *dz; - - *dz = (*dz >> nbits) | (d << up); - d = save; - } - - CLAMP(z); - } - - if (MP_USED(z) == 1 && z->digits[0] == 0) - z->sign = MP_ZPOS; -} - -static void -s_qmod(mp_int z, mp_size p2) -{ - mp_size start = p2 / MP_DIGIT_BIT + 1, - rest = p2 % MP_DIGIT_BIT; - mp_size uz = MP_USED(z); - mp_digit mask = (1u << rest) - 1; - - if (start <= uz) - { - z->used = start; - z->digits[start - 1] &= mask; - CLAMP(z); - } -} - -static int -s_qmul(mp_int z, mp_size p2) -{ - mp_size uz, - need, - rest, - extra, - i; - mp_digit *from, - *to, - d; - - if (p2 == 0) - return 1; - - uz = MP_USED(z); - need = p2 / MP_DIGIT_BIT; - rest = p2 % MP_DIGIT_BIT; - - /* - * Figure out if we need an extra digit at the top end; this occurs if the - * topmost `rest' bits of the high-order digit of z are not zero, meaning - * they will be shifted off the end if not preserved - */ - extra = 0; - if (rest != 0) - { - mp_digit *dz = MP_DIGITS(z) + uz - 1; - - if ((*dz >> (MP_DIGIT_BIT - rest)) != 0) - extra = 1; - } - - if (!s_pad(z, uz + need + extra)) - return 0; - - /* - * If we need to shift by whole digits, do that in one pass, then to back - * and shift by partial digits. - */ - if (need > 0) - { - from = MP_DIGITS(z) + uz - 1; - to = from + need; - - for (i = 0; i < uz; ++i) - *to-- = *from--; - - ZERO(MP_DIGITS(z), need); - uz += need; - } - - if (rest) - { - d = 0; - for (i = need, from = MP_DIGITS(z) + need; i < uz; ++i, ++from) - { - mp_digit save = *from; - - *from = (*from << rest) | (d >> (MP_DIGIT_BIT - rest)); - d = save; - } - - d >>= (MP_DIGIT_BIT - rest); - if (d != 0) - { - *from = d; - uz += extra; - } - } - - z->used = uz; - CLAMP(z); - - return 1; -} - -/* Compute z = 2^p2 - |z|; requires that 2^p2 >= |z| - The sign of the result is always zero/positive. - */ -static int -s_qsub(mp_int z, mp_size p2) -{ - mp_digit hi = (1u << (p2 % MP_DIGIT_BIT)), - *zp; - mp_size tdig = (p2 / MP_DIGIT_BIT), - pos; - mp_word w = 0; - - if (!s_pad(z, tdig + 1)) - return 0; - - for (pos = 0, zp = MP_DIGITS(z); pos < tdig; ++pos, ++zp) - { - w = ((mp_word) MP_DIGIT_MAX + 1) - w - (mp_word) *zp; - - *zp = LOWER_HALF(w); - w = UPPER_HALF(w) ? 0 : 1; - } - - w = ((mp_word) MP_DIGIT_MAX + 1 + hi) - w - (mp_word) *zp; - *zp = LOWER_HALF(w); - - assert(UPPER_HALF(w) != 0); /* no borrow out should be possible */ - - z->sign = MP_ZPOS; - CLAMP(z); - - return 1; -} - -static int -s_dp2k(mp_int z) -{ - int k = 0; - mp_digit *dp = MP_DIGITS(z), - d; - - if (MP_USED(z) == 1 && *dp == 0) - return 1; - - while (*dp == 0) - { - k += MP_DIGIT_BIT; - ++dp; - } - - d = *dp; - while ((d & 1) == 0) - { - d >>= 1; - ++k; - } - - return k; -} - -static int -s_isp2(mp_int z) -{ - mp_size uz = MP_USED(z), - k = 0; - mp_digit *dz = MP_DIGITS(z), - d; - - while (uz > 1) - { - if (*dz++ != 0) - return -1; - k += MP_DIGIT_BIT; - --uz; - } - - d = *dz; - while (d > 1) - { - if (d & 1) - return -1; - ++k; - d >>= 1; - } - - return (int) k; -} - -static int -s_2expt(mp_int z, mp_small k) -{ - mp_size ndig, - rest; - mp_digit *dz; - - ndig = (k + MP_DIGIT_BIT) / MP_DIGIT_BIT; - rest = k % MP_DIGIT_BIT; - - if (!s_pad(z, ndig)) - return 0; - - dz = MP_DIGITS(z); - ZERO(dz, ndig); - *(dz + ndig - 1) = (1u << rest); - z->used = ndig; - - return 1; -} - -static int -s_norm(mp_int a, mp_int b) -{ - mp_digit d = b->digits[MP_USED(b) - 1]; - int k = 0; - - while (d < (1u << (mp_digit) (MP_DIGIT_BIT - 1))) - { /* d < (MP_RADIX / 2) */ - d <<= 1; - ++k; - } - - /* These multiplications can't fail */ - if (k != 0) - { - (void) s_qmul(a, (mp_size) k); - (void) s_qmul(b, (mp_size) k); - } - - return k; -} - -static mp_result -s_brmu(mp_int z, mp_int m) -{ - mp_size um = MP_USED(m) * 2; - - if (!s_pad(z, um)) - return MP_MEMORY; - - s_2expt(z, MP_DIGIT_BIT * um); - return mp_int_div(z, m, z, NULL); -} - -static int -s_reduce(mp_int x, mp_int m, mp_int mu, mp_int q1, mp_int q2) -{ - mp_size um = MP_USED(m), - umb_p1, - umb_m1; - - umb_p1 = (um + 1) * MP_DIGIT_BIT; - umb_m1 = (um - 1) * MP_DIGIT_BIT; - - if (mp_int_copy(x, q1) != MP_OK) - return 0; - - /* Compute q2 = floor((floor(x / b^(k-1)) * mu) / b^(k+1)) */ - s_qdiv(q1, umb_m1); - UMUL(q1, mu, q2); - s_qdiv(q2, umb_p1); - - /* Set x = x mod b^(k+1) */ - s_qmod(x, umb_p1); - - /* - * Now, q is a guess for the quotient a / m. Compute x - q * m mod - * b^(k+1), replacing x. This may be off by a factor of 2m, but no more - * than that. - */ - UMUL(q2, m, q1); - s_qmod(q1, umb_p1); - (void) mp_int_sub(x, q1, x); /* can't fail */ - - /* - * The result may be < 0; if it is, add b^(k+1) to pin it in the proper - * range. - */ - if ((CMPZ(x) < 0) && !s_qsub(x, umb_p1)) - return 0; - - /* - * If x > m, we need to back it off until it is in range. This will be - * required at most twice. - */ - if (mp_int_compare(x, m) >= 0) - { - (void) mp_int_sub(x, m, x); - if (mp_int_compare(x, m) >= 0) - { - (void) mp_int_sub(x, m, x); - } - } - - /* At this point, x has been properly reduced. */ - return 1; -} - -/* Perform modular exponentiation using Barrett's method, where mu is the - reduction constant for m. Assumes a < m, b > 0. */ -static mp_result -s_embar(mp_int a, mp_int b, mp_int m, mp_int mu, mp_int c) -{ - mp_digit umu = MP_USED(mu); - mp_digit *db = MP_DIGITS(b); - mp_digit *dbt = db + MP_USED(b) - 1; - - DECLARE_TEMP(3); - REQUIRE(GROW(TEMP(0), 4 * umu)); - REQUIRE(GROW(TEMP(1), 4 * umu)); - REQUIRE(GROW(TEMP(2), 4 * umu)); - ZERO(TEMP(0)->digits, TEMP(0)->alloc); - ZERO(TEMP(1)->digits, TEMP(1)->alloc); - ZERO(TEMP(2)->digits, TEMP(2)->alloc); - - (void) mp_int_set_value(c, 1); - - /* Take care of low-order digits */ - while (db < dbt) - { - mp_digit d = *db; - - for (int i = MP_DIGIT_BIT; i > 0; --i, d >>= 1) - { - if (d & 1) - { - /* The use of a second temporary avoids allocation */ - UMUL(c, a, TEMP(0)); - if (!s_reduce(TEMP(0), m, mu, TEMP(1), TEMP(2))) - { - REQUIRE(MP_MEMORY); - } - mp_int_copy(TEMP(0), c); - } - - USQR(a, TEMP(0)); - assert(MP_SIGN(TEMP(0)) == MP_ZPOS); - if (!s_reduce(TEMP(0), m, mu, TEMP(1), TEMP(2))) - { - REQUIRE(MP_MEMORY); - } - assert(MP_SIGN(TEMP(0)) == MP_ZPOS); - mp_int_copy(TEMP(0), a); - } - - ++db; - } - - /* Take care of highest-order digit */ - mp_digit d = *dbt; - - for (;;) - { - if (d & 1) - { - UMUL(c, a, TEMP(0)); - if (!s_reduce(TEMP(0), m, mu, TEMP(1), TEMP(2))) - { - REQUIRE(MP_MEMORY); - } - mp_int_copy(TEMP(0), c); - } - - d >>= 1; - if (!d) - break; - - USQR(a, TEMP(0)); - if (!s_reduce(TEMP(0), m, mu, TEMP(1), TEMP(2))) - { - REQUIRE(MP_MEMORY); - } - (void) mp_int_copy(TEMP(0), a); - } - - CLEANUP_TEMP(); - return MP_OK; -} - -/* Division of nonnegative integers - - This function implements division algorithm for unsigned multi-precision - integers. The algorithm is based on Algorithm D from Knuth's "The Art of - Computer Programming", 3rd ed. 1998, pg 272-273. - - We diverge from Knuth's algorithm in that we do not perform the subtraction - from the remainder until we have determined that we have the correct - quotient digit. This makes our algorithm less efficient that Knuth because - we might have to perform multiple multiplication and comparison steps before - the subtraction. The advantage is that it is easy to implement and ensure - correctness without worrying about underflow from the subtraction. - - inputs: u a n+m digit integer in base b (b is 2^MP_DIGIT_BIT) - v a n digit integer in base b (b is 2^MP_DIGIT_BIT) - n >= 1 - m >= 0 - outputs: u / v stored in u - u % v stored in v - */ -static mp_result -s_udiv_knuth(mp_int u, mp_int v) -{ - /* Force signs to positive */ - u->sign = MP_ZPOS; - v->sign = MP_ZPOS; - - /* Use simple division algorithm when v is only one digit long */ - if (MP_USED(v) == 1) - { - mp_digit d, - rem; - - d = v->digits[0]; - rem = s_ddiv(u, d); - mp_int_set_value(v, rem); - return MP_OK; - } - - /* - * Algorithm D - * - * The n and m variables are defined as used by Knuth. u is an n digit - * number with digits u_{n-1}..u_0. v is an n+m digit number with digits - * from v_{m+n-1}..v_0. We require that n > 1 and m >= 0 - */ - mp_size n = MP_USED(v); - mp_size m = MP_USED(u) - n; - - assert(n > 1); - /* assert(m >= 0) follows because m is unsigned. */ - - /* - * D1: Normalize. The normalization step provides the necessary condition - * for Theorem B, which states that the quotient estimate for q_j, call it - * qhat - * - * qhat = u_{j+n}u_{j+n-1} / v_{n-1} - * - * is bounded by - * - * qhat - 2 <= q_j <= qhat. - * - * That is, qhat is always greater than the actual quotient digit q, and - * it is never more than two larger than the actual quotient digit. - */ - int k = s_norm(u, v); - - /* - * Extend size of u by one if needed. - * - * The algorithm begins with a value of u that has one more digit of - * input. The normalization step sets u_{m+n}..u_0 = 2^k * u_{m+n-1}..u_0. - * If the multiplication did not increase the number of digits of u, we - * need to add a leading zero here. - */ - if (k == 0 || MP_USED(u) != m + n + 1) - { - if (!s_pad(u, m + n + 1)) - return MP_MEMORY; - u->digits[m + n] = 0; - u->used = m + n + 1; - } - - /* - * Add a leading 0 to v. - * - * The multiplication in step D4 multiplies qhat * 0v_{n-1}..v_0. We need - * to add the leading zero to v here to ensure that the multiplication - * will produce the full n+1 digit result. - */ - if (!s_pad(v, n + 1)) - return MP_MEMORY; - v->digits[n] = 0; - - /* - * Initialize temporary variables q and t. q allocates space for m+1 - * digits to store the quotient digits t allocates space for n+1 digits to - * hold the result of q_j*v - */ - DECLARE_TEMP(2); - REQUIRE(GROW(TEMP(0), m + 1)); - REQUIRE(GROW(TEMP(1), n + 1)); - - /* D2: Initialize j */ - int j = m; - mpz_t r; - - r.digits = MP_DIGITS(u) + j; /* The contents of r are shared with u */ - r.used = n + 1; - r.sign = MP_ZPOS; - r.alloc = MP_ALLOC(u); - ZERO(TEMP(1)->digits, TEMP(1)->alloc); - - /* Calculate the m+1 digits of the quotient result */ - for (; j >= 0; j--) - { - /* D3: Calculate q' */ - /* r->digits is aligned to position j of the number u */ - mp_word pfx, - qhat; - - pfx = r.digits[n]; - pfx <<= MP_DIGIT_BIT / 2; - pfx <<= MP_DIGIT_BIT / 2; - pfx |= r.digits[n - 1]; /* pfx = u_{j+n}{j+n-1} */ - - qhat = pfx / v->digits[n - 1]; - - /* - * Check to see if qhat > b, and decrease qhat if so. Theorem B - * guarantess that qhat is at most 2 larger than the actual value, so - * it is possible that qhat is greater than the maximum value that - * will fit in a digit - */ - if (qhat > MP_DIGIT_MAX) - qhat = MP_DIGIT_MAX; - - /* - * D4,D5,D6: Multiply qhat * v and test for a correct value of q - * - * We proceed a bit different than the way described by Knuth. This - * way is simpler but less efficent. Instead of doing the multiply and - * subtract then checking for underflow, we first do the multiply of - * qhat * v and see if it is larger than the current remainder r. If - * it is larger, we decrease qhat by one and try again. We may need to - * decrease qhat one more time before we get a value that is smaller - * than r. - * - * This way is less efficent than Knuth becuase we do more multiplies, - * but we do not need to worry about underflow this way. - */ - /* t = qhat * v */ - s_dbmul(MP_DIGITS(v), (mp_digit) qhat, TEMP(1)->digits, n + 1); - TEMP(1)->used = n + 1; - CLAMP(TEMP(1)); - - /* Clamp r for the comparison. Comparisons do not like leading zeros. */ - CLAMP(&r); - if (s_ucmp(TEMP(1), &r) > 0) - { /* would the remainder be negative? */ - qhat -= 1; /* try a smaller q */ - s_dbmul(MP_DIGITS(v), (mp_digit) qhat, TEMP(1)->digits, n + 1); - TEMP(1)->used = n + 1; - CLAMP(TEMP(1)); - if (s_ucmp(TEMP(1), &r) > 0) - { /* would the remainder be negative? */ - assert(qhat > 0); - qhat -= 1; /* try a smaller q */ - s_dbmul(MP_DIGITS(v), (mp_digit) qhat, TEMP(1)->digits, n + 1); - TEMP(1)->used = n + 1; - CLAMP(TEMP(1)); - } - assert(s_ucmp(TEMP(1), &r) <= 0 && "The mathematics failed us."); - } - - /* - * Unclamp r. The D algorithm expects r = u_{j+n}..u_j to always be - * n+1 digits long. - */ - r.used = n + 1; - - /* - * D4: Multiply and subtract - * - * Note: The multiply was completed above so we only need to subtract - * here. - */ - s_usub(r.digits, TEMP(1)->digits, r.digits, r.used, TEMP(1)->used); - - /* - * D5: Test remainder - * - * Note: Not needed because we always check that qhat is the correct - * value before performing the subtract. Value cast to mp_digit to - * prevent warning, qhat has been clamped to MP_DIGIT_MAX - */ - TEMP(0)->digits[j] = (mp_digit) qhat; - - /* - * D6: Add back Note: Not needed because we always check that qhat is - * the correct value before performing the subtract. - */ - - /* D7: Loop on j */ - r.digits--; - ZERO(TEMP(1)->digits, TEMP(1)->alloc); - } - - /* Get rid of leading zeros in q */ - TEMP(0)->used = m + 1; - CLAMP(TEMP(0)); - - /* Denormalize the remainder */ - CLAMP(u); /* use u here because the r.digits pointer is - * off-by-one */ - if (k != 0) - s_qdiv(u, k); - - mp_int_copy(u, v); /* ok: 0 <= r < v */ - mp_int_copy(TEMP(0), u); /* ok: q <= u */ - - CLEANUP_TEMP(); - return MP_OK; -} - -static int -s_outlen(mp_int z, mp_size r) -{ - assert(r >= MP_MIN_RADIX && r <= MP_MAX_RADIX); - - mp_result bits = mp_int_count_bits(z); - double raw = (double) bits * s_log2[r]; - - return (int) (raw + 0.999999); -} - -static mp_size -s_inlen(int len, mp_size r) -{ - double raw = (double) len / s_log2[r]; - mp_size bits = (mp_size) (raw + 0.5); - - return (mp_size) ((bits + (MP_DIGIT_BIT - 1)) / MP_DIGIT_BIT) + 1; -} - -static int -s_ch2val(char c, int r) -{ - int out; - - /* - * In some locales, isalpha() accepts characters outside the range A-Z, - * producing out<0 or out>=36. The "out >= r" check will always catch - * out>=36. Though nothing explicitly catches out<0, our caller reacts - * the same way to every negative return value. - */ - if (isdigit((unsigned char) c)) - out = c - '0'; - else if (r > 10 && isalpha((unsigned char) c)) - out = toupper((unsigned char) c) - 'A' + 10; - else - return -1; - - return (out >= r) ? -1 : out; -} - -static char -s_val2ch(int v, int caps) -{ - assert(v >= 0); - - if (v < 10) - { - return v + '0'; - } - else - { - char out = (v - 10) + 'a'; - - if (caps) - { - return toupper((unsigned char) out); - } - else - { - return out; - } - } -} - -static void -s_2comp(unsigned char *buf, int len) -{ - unsigned short s = 1; - - for (int i = len - 1; i >= 0; --i) - { - unsigned char c = ~buf[i]; - - s = c + s; - c = s & UCHAR_MAX; - s >>= CHAR_BIT; - - buf[i] = c; - } - - /* last carry out is ignored */ -} - -static mp_result -s_tobin(mp_int z, unsigned char *buf, int *limpos, int pad) -{ - int pos = 0, - limit = *limpos; - mp_size uz = MP_USED(z); - mp_digit *dz = MP_DIGITS(z); - - while (uz > 0 && pos < limit) - { - mp_digit d = *dz++; - int i; - - for (i = sizeof(mp_digit); i > 0 && pos < limit; --i) - { - buf[pos++] = (unsigned char) d; - d >>= CHAR_BIT; - - /* Don't write leading zeroes */ - if (d == 0 && uz == 1) - i = 0; /* exit loop without signaling truncation */ - } - - /* Detect truncation (loop exited with pos >= limit) */ - if (i > 0) - break; - - --uz; - } - - if (pad != 0 && (buf[pos - 1] >> (CHAR_BIT - 1))) - { - if (pos < limit) - { - buf[pos++] = 0; - } - else - { - uz = 1; - } - } - - /* Digits are in reverse order, fix that */ - REV(buf, pos); - - /* Return the number of bytes actually written */ - *limpos = pos; - - return (uz == 0) ? MP_OK : MP_TRUNC; -} - -/* Here there be dragons */ diff --git a/contrib/pgcrypto/imath.h b/contrib/pgcrypto/imath.h deleted file mode 100644 index 0e1676d04e..0000000000 --- a/contrib/pgcrypto/imath.h +++ /dev/null @@ -1,445 +0,0 @@ -/* - Name: imath.h - Purpose: Arbitrary precision integer arithmetic routines. - Author: M. J. Fromberger - - Copyright (C) 2002-2007 Michael J. Fromberger, All Rights Reserved. - - Permission is hereby granted, free of charge, to any person obtaining a copy - of this software and associated documentation files (the "Software"), to deal - in the Software without restriction, including without limitation the rights - to use, copy, modify, merge, publish, distribute, sublicense, and/or sell - copies of the Software, and to permit persons to whom the Software is - furnished to do so, subject to the following conditions: - - The above copyright notice and this permission notice shall be included in - all copies or substantial portions of the Software. - - THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR - IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, - FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE - AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER - LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, - OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE - SOFTWARE. - */ - -#ifndef IMATH_H_ -#define IMATH_H_ - -#include - -typedef unsigned char mp_sign; -typedef unsigned int mp_size; -typedef int mp_result; -typedef long mp_small; /* must be a signed type */ -typedef unsigned long mp_usmall; /* must be an unsigned type */ - - -/* Build with words as uint64 by default. */ -#ifdef USE_32BIT_WORDS -typedef uint16 mp_digit; -typedef uint32 mp_word; -#define MP_DIGIT_MAX (PG_UINT16_MAX * 1UL) -#define MP_WORD_MAX (PG_UINT32_MAX * 1UL) -#else -typedef uint32 mp_digit; -typedef uint64 mp_word; -#define MP_DIGIT_MAX (PG_UINT32_MAX * UINT64CONST(1)) -#define MP_WORD_MAX (PG_UINT64_MAX) -#endif - -typedef struct -{ - mp_digit single; - mp_digit *digits; - mp_size alloc; - mp_size used; - mp_sign sign; -} mpz_t , - - *mp_int; - -static inline mp_digit * -MP_DIGITS(mp_int Z) -{ - return Z->digits; -} -static inline mp_size -MP_ALLOC(mp_int Z) -{ - return Z->alloc; -} -static inline mp_size -MP_USED(mp_int Z) -{ - return Z->used; -} -static inline mp_sign -MP_SIGN(mp_int Z) -{ - return Z->sign; -} - -extern const mp_result MP_OK; -extern const mp_result MP_FALSE; -extern const mp_result MP_TRUE; -extern const mp_result MP_MEMORY; -extern const mp_result MP_RANGE; -extern const mp_result MP_UNDEF; -extern const mp_result MP_TRUNC; -extern const mp_result MP_BADARG; -extern const mp_result MP_MINERR; - -#define MP_DIGIT_BIT (sizeof(mp_digit) * CHAR_BIT) -#define MP_WORD_BIT (sizeof(mp_word) * CHAR_BIT) -#define MP_SMALL_MIN LONG_MIN -#define MP_SMALL_MAX LONG_MAX -#define MP_USMALL_MAX ULONG_MAX - -#define MP_MIN_RADIX 2 -#define MP_MAX_RADIX 36 - -/** Sets the default number of digits allocated to an `mp_int` constructed by - `mp_int_init_size()` with `prec == 0`. Allocations are rounded up to - multiples of this value. `MP_DEFAULT_PREC` is the default value. Requires - `ndigits > 0`. */ -void mp_int_default_precision(mp_size ndigits); - -/** Sets the number of digits below which multiplication will use the standard - quadratic "schoolbook" multiplcation algorithm rather than Karatsuba-Ofman. - Requires `ndigits >= sizeof(mp_word)`. */ -void mp_int_multiply_threshold(mp_size ndigits); - -/** A sign indicating a (strictly) negative value. */ -extern const mp_sign MP_NEG; - -/** A sign indicating a zero or positive value. */ -extern const mp_sign MP_ZPOS; - -/** Reports whether `z` is odd, having remainder 1 when divided by 2. */ -static inline bool -mp_int_is_odd(mp_int z) -{ - return (z->digits[0] & 1) != 0; -} - -/** Reports whether `z` is even, having remainder 0 when divided by 2. */ -static inline bool -mp_int_is_even(mp_int z) -{ - return (z->digits[0] & 1) == 0; -} - -/** Initializes `z` with 1-digit precision and sets it to zero. This function - cannot fail unless `z == NULL`. */ -mp_result mp_int_init(mp_int z); - -/** Allocates a fresh zero-valued `mpz_t` on the heap, returning NULL in case - of error. The only possible error is out-of-memory. */ -mp_int mp_int_alloc(void); - -/** Initializes `z` with at least `prec` digits of storage, and sets it to - zero. If `prec` is zero, the default precision is used. In either case the - size is rounded up to the nearest multiple of the word size. */ -mp_result mp_int_init_size(mp_int z, mp_size prec); - -/** Initializes `z` to be a copy of an already-initialized value in `old`. The - new copy does not share storage with the original. */ -mp_result mp_int_init_copy(mp_int z, mp_int old); - -/** Initializes `z` to the specified signed `value` at default precision. */ -mp_result mp_int_init_value(mp_int z, mp_small value); - -/** Initializes `z` to the specified unsigned `value` at default precision. */ -mp_result mp_int_init_uvalue(mp_int z, mp_usmall uvalue); - -/** Sets `z` to the value of the specified signed `value`. */ -mp_result mp_int_set_value(mp_int z, mp_small value); - -/** Sets `z` to the value of the specified unsigned `value`. */ -mp_result mp_int_set_uvalue(mp_int z, mp_usmall uvalue); - -/** Releases the storage used by `z`. */ -void mp_int_clear(mp_int z); - -/** Releases the storage used by `z` and also `z` itself. - This should only be used for `z` allocated by `mp_int_alloc()`. */ -void mp_int_free(mp_int z); - -/** Replaces the value of `c` with a copy of the value of `a`. No new memory is - allocated unless `a` has more significant digits than `c` has allocated. */ -mp_result mp_int_copy(mp_int a, mp_int c); - -/** Swaps the values and storage between `a` and `c`. */ -void mp_int_swap(mp_int a, mp_int c); - -/** Sets `z` to zero. The allocated storage of `z` is not changed. */ -void mp_int_zero(mp_int z); - -/** Sets `c` to the absolute value of `a`. */ -mp_result mp_int_abs(mp_int a, mp_int c); - -/** Sets `c` to the additive inverse (negation) of `a`. */ -mp_result mp_int_neg(mp_int a, mp_int c); - -/** Sets `c` to the sum of `a` and `b`. */ -mp_result mp_int_add(mp_int a, mp_int b, mp_int c); - -/** Sets `c` to the sum of `a` and `value`. */ -mp_result mp_int_add_value(mp_int a, mp_small value, mp_int c); - -/** Sets `c` to the difference of `a` less `b`. */ -mp_result mp_int_sub(mp_int a, mp_int b, mp_int c); - -/** Sets `c` to the difference of `a` less `value`. */ -mp_result mp_int_sub_value(mp_int a, mp_small value, mp_int c); - -/** Sets `c` to the product of `a` and `b`. */ -mp_result mp_int_mul(mp_int a, mp_int b, mp_int c); - -/** Sets `c` to the product of `a` and `value`. */ -mp_result mp_int_mul_value(mp_int a, mp_small value, mp_int c); - -/** Sets `c` to the product of `a` and `2^p2`. Requires `p2 >= 0`. */ -mp_result mp_int_mul_pow2(mp_int a, mp_small p2, mp_int c); - -/** Sets `c` to the square of `a`. */ -mp_result mp_int_sqr(mp_int a, mp_int c); - -/** Sets `q` and `r` to the quotent and remainder of `a / b`. Division by - powers of 2 is detected and handled efficiently. The remainder is pinned - to `0 <= r < b`. - - Either of `q` or `r` may be NULL, but not both, and `q` and `r` may not - point to the same value. */ -mp_result mp_int_div(mp_int a, mp_int b, mp_int q, mp_int r); - -/** Sets `q` and `*r` to the quotent and remainder of `a / value`. Division by - powers of 2 is detected and handled efficiently. The remainder is pinned to - `0 <= *r < b`. Either of `q` or `r` may be NULL. */ -mp_result mp_int_div_value(mp_int a, mp_small value, mp_int q, mp_small *r); - -/** Sets `q` and `r` to the quotient and remainder of `a / 2^p2`. This is a - special case for division by powers of two that is more efficient than - using ordinary division. Note that `mp_int_div()` will automatically handle - this case, this function is for cases where you have only the exponent. */ -mp_result mp_int_div_pow2(mp_int a, mp_small p2, mp_int q, mp_int r); - -/** Sets `c` to the remainder of `a / m`. - The remainder is pinned to `0 <= c < m`. */ -mp_result mp_int_mod(mp_int a, mp_int m, mp_int c); - -/** Sets `c` to the value of `a` raised to the `b` power. - It returns `MP_RANGE` if `b < 0`. */ -mp_result mp_int_expt(mp_int a, mp_small b, mp_int c); - -/** Sets `c` to the value of `a` raised to the `b` power. - It returns `MP_RANGE` if `b < 0`. */ -mp_result mp_int_expt_value(mp_small a, mp_small b, mp_int c); - -/** Sets `c` to the value of `a` raised to the `b` power. - It returns `MP_RANGE`) if `b < 0`. */ -mp_result mp_int_expt_full(mp_int a, mp_int b, mp_int c); - -/** Sets `*r` to the remainder of `a / value`. - The remainder is pinned to `0 <= r < value`. */ -static inline -mp_result -mp_int_mod_value(mp_int a, mp_small value, mp_small *r) -{ - return mp_int_div_value(a, value, 0, r); -} - -/** Returns the comparator of `a` and `b`. */ -int mp_int_compare(mp_int a, mp_int b); - -/** Returns the comparator of the magnitudes of `a` and `b`, disregarding their - signs. Neither `a` nor `b` is modified by the comparison. */ -int mp_int_compare_unsigned(mp_int a, mp_int b); - -/** Returns the comparator of `z` and zero. */ -int mp_int_compare_zero(mp_int z); - -/** Returns the comparator of `z` and the signed value `v`. */ -int mp_int_compare_value(mp_int z, mp_small v); - -/** Returns the comparator of `z` and the unsigned value `uv`. */ -int mp_int_compare_uvalue(mp_int z, mp_usmall uv); - -/** Reports whether `a` is divisible by `v`. */ -bool mp_int_divisible_value(mp_int a, mp_small v); - -/** Returns `k >= 0` such that `z` is `2^k`, if such a `k` exists. If no such - `k` exists, the function returns -1. */ -int mp_int_is_pow2(mp_int z); - -/** Sets `c` to the value of `a` raised to the `b` power, reduced modulo `m`. - It returns `MP_RANGE` if `b < 0` or `MP_UNDEF` if `m == 0`. */ -mp_result mp_int_exptmod(mp_int a, mp_int b, mp_int m, mp_int c); - -/** Sets `c` to the value of `a` raised to the `value` power, modulo `m`. - It returns `MP_RANGE` if `value < 0` or `MP_UNDEF` if `m == 0`. */ -mp_result mp_int_exptmod_evalue(mp_int a, mp_small value, mp_int m, mp_int c); - -/** Sets `c` to the value of `value` raised to the `b` power, modulo `m`. - It returns `MP_RANGE` if `b < 0` or `MP_UNDEF` if `m == 0`. */ -mp_result mp_int_exptmod_bvalue(mp_small value, mp_int b, mp_int m, mp_int c); - -/** Sets `c` to the value of `a` raised to the `b` power, reduced modulo `m`, - given a precomputed reduction constant `mu` defined for Barrett's modular - reduction algorithm. - - It returns `MP_RANGE` if `b < 0` or `MP_UNDEF` if `m == 0`. */ -mp_result mp_int_exptmod_known(mp_int a, mp_int b, mp_int m, mp_int mu, mp_int c); - -/** Sets `c` to the reduction constant for Barrett reduction by modulus `m`. - Requires that `c` and `m` point to distinct locations. */ -mp_result mp_int_redux_const(mp_int m, mp_int c); - -/** Sets `c` to the multiplicative inverse of `a` modulo `m`, if it exists. - The least non-negative representative of the congruence class is computed. - - It returns `MP_UNDEF` if the inverse does not exist, or `MP_RANGE` if `a == - 0` or `m <= 0`. */ -mp_result mp_int_invmod(mp_int a, mp_int m, mp_int c); - -/** Sets `c` to the greatest common divisor of `a` and `b`. - - It returns `MP_UNDEF` if the GCD is undefined, such as for example if `a` - and `b` are both zero. */ -mp_result mp_int_gcd(mp_int a, mp_int b, mp_int c); - -/** Sets `c` to the greatest common divisor of `a` and `b`, and sets `x` and - `y` to values satisfying Bezout's identity `gcd(a, b) = ax + by`. - - It returns `MP_UNDEF` if the GCD is undefined, such as for example if `a` - and `b` are both zero. */ -mp_result mp_int_egcd(mp_int a, mp_int b, mp_int c, mp_int x, mp_int y); - -/** Sets `c` to the least common multiple of `a` and `b`. - - It returns `MP_UNDEF` if the LCM is undefined, such as for example if `a` - and `b` are both zero. */ -mp_result mp_int_lcm(mp_int a, mp_int b, mp_int c); - -/** Sets `c` to the greatest integer not less than the `b`th root of `a`, - using Newton's root-finding algorithm. - It returns `MP_UNDEF` if `a < 0` and `b` is even. */ -mp_result mp_int_root(mp_int a, mp_small b, mp_int c); - -/** Sets `c` to the greatest integer not less than the square root of `a`. - This is a special case of `mp_int_root()`. */ -static inline -mp_result -mp_int_sqrt(mp_int a, mp_int c) -{ - return mp_int_root(a, 2, c); -} - -/** Returns `MP_OK` if `z` is representable as `mp_small`, else `MP_RANGE`. - If `out` is not NULL, `*out` is set to the value of `z` when `MP_OK`. */ -mp_result mp_int_to_int(mp_int z, mp_small *out); - -/** Returns `MP_OK` if `z` is representable as `mp_usmall`, or `MP_RANGE`. - If `out` is not NULL, `*out` is set to the value of `z` when `MP_OK`. */ -mp_result mp_int_to_uint(mp_int z, mp_usmall *out); - -/** Converts `z` to a zero-terminated string of characters in the specified - `radix`, writing at most `limit` characters to `str` including the - terminating NUL value. A leading `-` is used to indicate a negative value. - - Returns `MP_TRUNC` if `limit` was to small to write all of `z`. - Requires `MP_MIN_RADIX <= radix <= MP_MAX_RADIX`. */ -mp_result mp_int_to_string(mp_int z, mp_size radix, char *str, int limit); - -/** Reports the minimum number of characters required to represent `z` as a - zero-terminated string in the given `radix`. - Requires `MP_MIN_RADIX <= radix <= MP_MAX_RADIX`. */ -mp_result mp_int_string_len(mp_int z, mp_size radix); - -/** Reads a string of ASCII digits in the specified `radix` from the zero - terminated `str` provided into `z`. For values of `radix > 10`, the letters - `A`..`Z` or `a`..`z` are accepted. Letters are interpreted without respect - to case. - - Leading whitespace is ignored, and a leading `+` or `-` is interpreted as a - sign flag. Processing stops when a NUL or any other character out of range - for a digit in the given radix is encountered. - - If the whole string was consumed, `MP_OK` is returned; otherwise - `MP_TRUNC`. is returned. - - Requires `MP_MIN_RADIX <= radix <= MP_MAX_RADIX`. */ -mp_result mp_int_read_string(mp_int z, mp_size radix, const char *str); - -/** Reads a string of ASCII digits in the specified `radix` from the zero - terminated `str` provided into `z`. For values of `radix > 10`, the letters - `A`..`Z` or `a`..`z` are accepted. Letters are interpreted without respect - to case. - - Leading whitespace is ignored, and a leading `+` or `-` is interpreted as a - sign flag. Processing stops when a NUL or any other character out of range - for a digit in the given radix is encountered. - - If the whole string was consumed, `MP_OK` is returned; otherwise - `MP_TRUNC`. is returned. If `end` is not NULL, `*end` is set to point to - the first unconsumed byte of the input string (the NUL byte if the whole - string was consumed). This emulates the behavior of the standard C - `strtol()` function. - - Requires `MP_MIN_RADIX <= radix <= MP_MAX_RADIX`. */ -mp_result mp_int_read_cstring(mp_int z, mp_size radix, const char *str, char **end); - -/** Returns the number of significant bits in `z`. */ -mp_result mp_int_count_bits(mp_int z); - -/** Converts `z` to 2's complement binary, writing at most `limit` bytes into - the given `buf`. Returns `MP_TRUNC` if the buffer limit was too small to - contain the whole value. If this occurs, the contents of buf will be - effectively garbage, as the function uses the buffer as scratch space. - - The binary representation of `z` is in base-256 with digits ordered from - most significant to least significant (network byte ordering). The - high-order bit of the first byte is set for negative values, clear for - non-negative values. - - As a result, non-negative values will be padded with a leading zero byte if - the high-order byte of the base-256 magnitude is set. This extra byte is - accounted for by the `mp_int_binary_len()` function. */ -mp_result mp_int_to_binary(mp_int z, unsigned char *buf, int limit); - -/** Reads a 2's complement binary value from `buf` into `z`, where `len` is the - length of the buffer. The contents of `buf` may be overwritten during - processing, although they will be restored when the function returns. */ -mp_result mp_int_read_binary(mp_int z, unsigned char *buf, int len); - -/** Returns the number of bytes to represent `z` in 2's complement binary. */ -mp_result mp_int_binary_len(mp_int z); - -/** Converts the magnitude of `z` to unsigned binary, writing at most `limit` - bytes into the given `buf`. The sign of `z` is ignored, but `z` is not - modified. Returns `MP_TRUNC` if the buffer limit was too small to contain - the whole value. If this occurs, the contents of `buf` will be effectively - garbage, as the function uses the buffer as scratch space during - conversion. - - The binary representation of `z` is in base-256 with digits ordered from - most significant to least significant (network byte ordering). */ -mp_result mp_int_to_unsigned(mp_int z, unsigned char *buf, int limit); - -/** Reads an unsigned binary value from `buf` into `z`, where `len` is the - length of the buffer. The contents of `buf` are not modified during - processing. */ -mp_result mp_int_read_unsigned(mp_int z, unsigned char *buf, int len); - -/** Returns the number of bytes required to represent `z` as an unsigned binary - value in base 256. */ -mp_result mp_int_unsigned_len(mp_int z); - -/** Returns a pointer to a brief, human-readable, zero-terminated string - describing `res`. The returned string is statically allocated and must not - be freed by the caller. */ -const char *mp_error_string(mp_result res); - -#endif /* end IMATH_H_ */ diff --git a/contrib/pgcrypto/internal-sha2.c b/contrib/pgcrypto/internal-sha2.c deleted file mode 100644 index ecf3004e95..0000000000 --- a/contrib/pgcrypto/internal-sha2.c +++ /dev/null @@ -1,206 +0,0 @@ -/* - * internal.c - * Wrapper for builtin functions - * - * Copyright (c) 2001 Marko Kreen - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution. - * - * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND - * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE - * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE - * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE - * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL - * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS - * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) - * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY - * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF - * SUCH DAMAGE. - * - * contrib/pgcrypto/internal-sha2.c - */ - -#include "postgres.h" - -#include - -#include "common/cryptohash.h" -#include "common/sha2.h" -#include "px.h" - -void init_sha224(PX_MD *h); -void init_sha256(PX_MD *h); -void init_sha384(PX_MD *h); -void init_sha512(PX_MD *h); - -/* SHA224 */ -static unsigned -int_sha224_len(PX_MD *h) -{ - return PG_SHA224_DIGEST_LENGTH; -} - -static unsigned -int_sha224_block_len(PX_MD *h) -{ - return PG_SHA224_BLOCK_LENGTH; -} - -/* SHA256 */ -static unsigned -int_sha256_len(PX_MD *h) -{ - return PG_SHA256_DIGEST_LENGTH; -} - -static unsigned -int_sha256_block_len(PX_MD *h) -{ - return PG_SHA256_BLOCK_LENGTH; -} - -/* SHA384 */ -static unsigned -int_sha384_len(PX_MD *h) -{ - return PG_SHA384_DIGEST_LENGTH; -} - -static unsigned -int_sha384_block_len(PX_MD *h) -{ - return PG_SHA384_BLOCK_LENGTH; -} - -/* SHA512 */ -static unsigned -int_sha512_len(PX_MD *h) -{ - return PG_SHA512_DIGEST_LENGTH; -} - -static unsigned -int_sha512_block_len(PX_MD *h) -{ - return PG_SHA512_BLOCK_LENGTH; -} - -/* Generic interface for all SHA2 methods */ -static void -int_sha2_update(PX_MD *h, const uint8 *data, unsigned dlen) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_update(ctx, data, dlen) < 0) - elog(ERROR, "could not update %s context", "SHA2"); -} - -static void -int_sha2_reset(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_init(ctx) < 0) - elog(ERROR, "could not initialize %s context", "SHA2"); -} - -static void -int_sha2_finish(PX_MD *h, uint8 *dst) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_final(ctx, dst, h->result_size(h)) < 0) - elog(ERROR, "could not finalize %s context", "SHA2"); -} - -static void -int_sha2_free(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - pg_cryptohash_free(ctx); - pfree(h); -} - -/* init functions */ - -void -init_sha224(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_SHA224); - md->p.ptr = ctx; - - md->result_size = int_sha224_len; - md->block_size = int_sha224_block_len; - md->reset = int_sha2_reset; - md->update = int_sha2_update; - md->finish = int_sha2_finish; - md->free = int_sha2_free; - - md->reset(md); -} - -void -init_sha256(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_SHA256); - md->p.ptr = ctx; - - md->result_size = int_sha256_len; - md->block_size = int_sha256_block_len; - md->reset = int_sha2_reset; - md->update = int_sha2_update; - md->finish = int_sha2_finish; - md->free = int_sha2_free; - - md->reset(md); -} - -void -init_sha384(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_SHA384); - md->p.ptr = ctx; - - md->result_size = int_sha384_len; - md->block_size = int_sha384_block_len; - md->reset = int_sha2_reset; - md->update = int_sha2_update; - md->finish = int_sha2_finish; - md->free = int_sha2_free; - - md->reset(md); -} - -void -init_sha512(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_SHA512); - md->p.ptr = ctx; - - md->result_size = int_sha512_len; - md->block_size = int_sha512_block_len; - md->reset = int_sha2_reset; - md->update = int_sha2_update; - md->finish = int_sha2_finish; - md->free = int_sha2_free; - - md->reset(md); -} diff --git a/contrib/pgcrypto/internal.c b/contrib/pgcrypto/internal.c deleted file mode 100644 index dd45fee7ed..0000000000 --- a/contrib/pgcrypto/internal.c +++ /dev/null @@ -1,585 +0,0 @@ -/* - * internal.c - * Wrapper for builtin functions - * - * Copyright (c) 2001 Marko Kreen - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution. - * - * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND - * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE - * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE - * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE - * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL - * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS - * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) - * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY - * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF - * SUCH DAMAGE. - * - * contrib/pgcrypto/internal.c - */ - -#include "postgres.h" - -#include - -#include "blf.h" -#include "px.h" -#include "rijndael.h" - -#include "common/cryptohash.h" -#include "common/md5.h" -#include "common/sha1.h" - -#define SHA1_BLOCK_SIZE 64 -#define MD5_BLOCK_SIZE 64 - -static void init_md5(PX_MD *h); -static void init_sha1(PX_MD *h); - -void init_sha224(PX_MD *h); -void init_sha256(PX_MD *h); -void init_sha384(PX_MD *h); -void init_sha512(PX_MD *h); - -struct int_digest -{ - char *name; - void (*init) (PX_MD *h); -}; - -static const struct int_digest - int_digest_list[] = { - {"md5", init_md5}, - {"sha1", init_sha1}, - {"sha224", init_sha224}, - {"sha256", init_sha256}, - {"sha384", init_sha384}, - {"sha512", init_sha512}, - {NULL, NULL} -}; - -/* MD5 */ - -static unsigned -int_md5_len(PX_MD *h) -{ - return MD5_DIGEST_LENGTH; -} - -static unsigned -int_md5_block_len(PX_MD *h) -{ - return MD5_BLOCK_SIZE; -} - -static void -int_md5_update(PX_MD *h, const uint8 *data, unsigned dlen) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_update(ctx, data, dlen) < 0) - elog(ERROR, "could not update %s context", "MD5"); -} - -static void -int_md5_reset(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_init(ctx) < 0) - elog(ERROR, "could not initialize %s context", "MD5"); -} - -static void -int_md5_finish(PX_MD *h, uint8 *dst) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_final(ctx, dst, h->result_size(h)) < 0) - elog(ERROR, "could not finalize %s context", "MD5"); -} - -static void -int_md5_free(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - pg_cryptohash_free(ctx); - pfree(h); -} - -/* SHA1 */ - -static unsigned -int_sha1_len(PX_MD *h) -{ - return SHA1_DIGEST_LENGTH; -} - -static unsigned -int_sha1_block_len(PX_MD *h) -{ - return SHA1_BLOCK_SIZE; -} - -static void -int_sha1_update(PX_MD *h, const uint8 *data, unsigned dlen) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_update(ctx, data, dlen) < 0) - elog(ERROR, "could not update %s context", "SHA1"); -} - -static void -int_sha1_reset(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_init(ctx) < 0) - elog(ERROR, "could not initialize %s context", "SHA1"); -} - -static void -int_sha1_finish(PX_MD *h, uint8 *dst) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - if (pg_cryptohash_final(ctx, dst, h->result_size(h)) < 0) - elog(ERROR, "could not finalize %s context", "SHA1"); -} - -static void -int_sha1_free(PX_MD *h) -{ - pg_cryptohash_ctx *ctx = (pg_cryptohash_ctx *) h->p.ptr; - - pg_cryptohash_free(ctx); - pfree(h); -} - -/* init functions */ - -static void -init_md5(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_MD5); - - md->p.ptr = ctx; - - md->result_size = int_md5_len; - md->block_size = int_md5_block_len; - md->reset = int_md5_reset; - md->update = int_md5_update; - md->finish = int_md5_finish; - md->free = int_md5_free; - - md->reset(md); -} - -static void -init_sha1(PX_MD *md) -{ - pg_cryptohash_ctx *ctx; - - ctx = pg_cryptohash_create(PG_SHA1); - - md->p.ptr = ctx; - - md->result_size = int_sha1_len; - md->block_size = int_sha1_block_len; - md->reset = int_sha1_reset; - md->update = int_sha1_update; - md->finish = int_sha1_finish; - md->free = int_sha1_free; - - md->reset(md); -} - -/* - * ciphers generally - */ - -#define INT_MAX_KEY (512/8) -#define INT_MAX_IV (128/8) - -struct int_ctx -{ - uint8 keybuf[INT_MAX_KEY]; - uint8 iv[INT_MAX_IV]; - union - { - BlowfishContext bf; - rijndael_ctx rj; - } ctx; - unsigned keylen; - int is_init; - int mode; -}; - -static void -intctx_free(PX_Cipher *c) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - - if (cx) - { - px_memset(cx, 0, sizeof *cx); - pfree(cx); - } - pfree(c); -} - -/* - * AES/rijndael - */ - -#define MODE_ECB 0 -#define MODE_CBC 1 - -static unsigned -rj_block_size(PX_Cipher *c) -{ - return 128 / 8; -} - -static unsigned -rj_key_size(PX_Cipher *c) -{ - return 256 / 8; -} - -static unsigned -rj_iv_size(PX_Cipher *c) -{ - return 128 / 8; -} - -static int -rj_init(PX_Cipher *c, const uint8 *key, unsigned klen, const uint8 *iv) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - - if (klen <= 128 / 8) - cx->keylen = 128 / 8; - else if (klen <= 192 / 8) - cx->keylen = 192 / 8; - else if (klen <= 256 / 8) - cx->keylen = 256 / 8; - else - return PXE_KEY_TOO_BIG; - - memcpy(&cx->keybuf, key, klen); - - if (iv) - memcpy(cx->iv, iv, 128 / 8); - - return 0; -} - -static int -rj_real_init(struct int_ctx *cx, int dir) -{ - aes_set_key(&cx->ctx.rj, cx->keybuf, cx->keylen * 8, dir); - return 0; -} - -static int -rj_encrypt(PX_Cipher *c, const uint8 *data, unsigned dlen, uint8 *res) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - - if (!cx->is_init) - { - if (rj_real_init(cx, 1)) - return PXE_CIPHER_INIT; - } - - if (dlen == 0) - return 0; - - if (dlen & 15) - return PXE_NOTBLOCKSIZE; - - memcpy(res, data, dlen); - - if (cx->mode == MODE_CBC) - { - aes_cbc_encrypt(&cx->ctx.rj, cx->iv, res, dlen); - memcpy(cx->iv, res + dlen - 16, 16); - } - else - aes_ecb_encrypt(&cx->ctx.rj, res, dlen); - - return 0; -} - -static int -rj_decrypt(PX_Cipher *c, const uint8 *data, unsigned dlen, uint8 *res) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - - if (!cx->is_init) - if (rj_real_init(cx, 0)) - return PXE_CIPHER_INIT; - - if (dlen == 0) - return 0; - - if (dlen & 15) - return PXE_NOTBLOCKSIZE; - - memcpy(res, data, dlen); - - if (cx->mode == MODE_CBC) - { - aes_cbc_decrypt(&cx->ctx.rj, cx->iv, res, dlen); - memcpy(cx->iv, data + dlen - 16, 16); - } - else - aes_ecb_decrypt(&cx->ctx.rj, res, dlen); - - return 0; -} - -/* - * initializers - */ - -static PX_Cipher * -rj_load(int mode) -{ - PX_Cipher *c; - struct int_ctx *cx; - - c = palloc0(sizeof *c); - - c->block_size = rj_block_size; - c->key_size = rj_key_size; - c->iv_size = rj_iv_size; - c->init = rj_init; - c->encrypt = rj_encrypt; - c->decrypt = rj_decrypt; - c->free = intctx_free; - - cx = palloc0(sizeof *cx); - cx->mode = mode; - - c->ptr = cx; - return c; -} - -/* - * blowfish - */ - -static unsigned -bf_block_size(PX_Cipher *c) -{ - return 8; -} - -static unsigned -bf_key_size(PX_Cipher *c) -{ - return 448 / 8; -} - -static unsigned -bf_iv_size(PX_Cipher *c) -{ - return 8; -} - -static int -bf_init(PX_Cipher *c, const uint8 *key, unsigned klen, const uint8 *iv) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - - blowfish_setkey(&cx->ctx.bf, key, klen); - if (iv) - blowfish_setiv(&cx->ctx.bf, iv); - - return 0; -} - -static int -bf_encrypt(PX_Cipher *c, const uint8 *data, unsigned dlen, uint8 *res) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - BlowfishContext *bfctx = &cx->ctx.bf; - - if (dlen == 0) - return 0; - - if (dlen & 7) - return PXE_NOTBLOCKSIZE; - - memcpy(res, data, dlen); - switch (cx->mode) - { - case MODE_ECB: - blowfish_encrypt_ecb(res, dlen, bfctx); - break; - case MODE_CBC: - blowfish_encrypt_cbc(res, dlen, bfctx); - break; - } - return 0; -} - -static int -bf_decrypt(PX_Cipher *c, const uint8 *data, unsigned dlen, uint8 *res) -{ - struct int_ctx *cx = (struct int_ctx *) c->ptr; - BlowfishContext *bfctx = &cx->ctx.bf; - - if (dlen == 0) - return 0; - - if (dlen & 7) - return PXE_NOTBLOCKSIZE; - - memcpy(res, data, dlen); - switch (cx->mode) - { - case MODE_ECB: - blowfish_decrypt_ecb(res, dlen, bfctx); - break; - case MODE_CBC: - blowfish_decrypt_cbc(res, dlen, bfctx); - break; - } - return 0; -} - -static PX_Cipher * -bf_load(int mode) -{ - PX_Cipher *c; - struct int_ctx *cx; - - c = palloc0(sizeof *c); - - c->block_size = bf_block_size; - c->key_size = bf_key_size; - c->iv_size = bf_iv_size; - c->init = bf_init; - c->encrypt = bf_encrypt; - c->decrypt = bf_decrypt; - c->free = intctx_free; - - cx = palloc0(sizeof *cx); - cx->mode = mode; - c->ptr = cx; - return c; -} - -/* ciphers */ - -static PX_Cipher * -rj_128_ecb(void) -{ - return rj_load(MODE_ECB); -} - -static PX_Cipher * -rj_128_cbc(void) -{ - return rj_load(MODE_CBC); -} - -static PX_Cipher * -bf_ecb_load(void) -{ - return bf_load(MODE_ECB); -} - -static PX_Cipher * -bf_cbc_load(void) -{ - return bf_load(MODE_CBC); -} - -struct int_cipher -{ - char *name; - PX_Cipher *(*load) (void); -}; - -static const struct int_cipher - int_ciphers[] = { - {"bf-cbc", bf_cbc_load}, - {"bf-ecb", bf_ecb_load}, - {"aes-128-cbc", rj_128_cbc}, - {"aes-128-ecb", rj_128_ecb}, - {NULL, NULL} -}; - -static const PX_Alias int_aliases[] = { - {"bf", "bf-cbc"}, - {"blowfish", "bf-cbc"}, - {"aes", "aes-128-cbc"}, - {"aes-ecb", "aes-128-ecb"}, - {"aes-cbc", "aes-128-cbc"}, - {"aes-128", "aes-128-cbc"}, - {"rijndael", "aes-128-cbc"}, - {"rijndael-128", "aes-128-cbc"}, - {NULL, NULL} -}; - -/* PUBLIC FUNCTIONS */ - -int -px_find_digest(const char *name, PX_MD **res) -{ - const struct int_digest *p; - PX_MD *h; - - for (p = int_digest_list; p->name; p++) - if (pg_strcasecmp(p->name, name) == 0) - { - h = palloc(sizeof(*h)); - p->init(h); - - *res = h; - - return 0; - } - return PXE_NO_HASH; -} - -int -px_find_cipher(const char *name, PX_Cipher **res) -{ - int i; - PX_Cipher *c = NULL; - - name = px_resolve_alias(int_aliases, name); - - for (i = 0; int_ciphers[i].name; i++) - if (strcmp(int_ciphers[i].name, name) == 0) - { - c = int_ciphers[i].load(); - break; - } - - if (c == NULL) - return PXE_NO_CIPHER; - - *res = c; - return 0; -} diff --git a/contrib/pgcrypto/pgp-mpi-internal.c b/contrib/pgcrypto/pgp-mpi-internal.c deleted file mode 100644 index 5b94e65452..0000000000 --- a/contrib/pgcrypto/pgp-mpi-internal.c +++ /dev/null @@ -1,304 +0,0 @@ -/* - * pgp-mpi-internal.c - * OpenPGP MPI functions. - * - * Copyright (c) 2005 Marko Kreen - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution. - * - * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND - * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE - * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE - * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE - * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL - * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS - * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) - * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY - * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF - * SUCH DAMAGE. - * - * contrib/pgcrypto/pgp-mpi-internal.c - */ -#include "postgres.h" - -#include "imath.h" -#include "pgp.h" -#include "px.h" - -static mpz_t * -mp_new(void) -{ - mpz_t *mp = mp_int_alloc(); - - mp_int_init_size(mp, 256); - return mp; -} - -static void -mp_clear_free(mpz_t *a) -{ - if (!a) - return; - /* fixme: no clear? */ - mp_int_free(a); -} - - -static int -mp_px_rand(uint32 bits, mpz_t *res) -{ - unsigned bytes = (bits + 7) / 8; - int last_bits = bits & 7; - uint8 *buf; - - buf = palloc(bytes); - if (!pg_strong_random(buf, bytes)) - { - pfree(buf); - return PXE_NO_RANDOM; - } - - /* clear unnecessary bits and set last bit to one */ - if (last_bits) - { - buf[0] >>= 8 - last_bits; - buf[0] |= 1 << (last_bits - 1); - } - else - buf[0] |= 1 << 7; - - mp_int_read_unsigned(res, buf, bytes); - - pfree(buf); - - return 0; -} - -static void -mp_modmul(mpz_t *a, mpz_t *b, mpz_t *p, mpz_t *res) -{ - mpz_t *tmp = mp_new(); - - mp_int_mul(a, b, tmp); - mp_int_mod(tmp, p, res); - mp_clear_free(tmp); -} - -static mpz_t * -mpi_to_bn(PGP_MPI *n) -{ - mpz_t *bn = mp_new(); - - mp_int_read_unsigned(bn, n->data, n->bytes); - - if (!bn) - return NULL; - if (mp_int_count_bits(bn) != n->bits) - { - px_debug("mpi_to_bn: bignum conversion failed: mpi=%d, bn=%d", - n->bits, mp_int_count_bits(bn)); - mp_clear_free(bn); - return NULL; - } - return bn; -} - -static PGP_MPI * -bn_to_mpi(mpz_t *bn) -{ - int res; - PGP_MPI *n; - int bytes; - - res = pgp_mpi_alloc(mp_int_count_bits(bn), &n); - if (res < 0) - return NULL; - - bytes = (mp_int_count_bits(bn) + 7) / 8; - if (bytes != n->bytes) - { - px_debug("bn_to_mpi: bignum conversion failed: bn=%d, mpi=%d", - bytes, n->bytes); - pgp_mpi_free(n); - return NULL; - } - mp_int_to_unsigned(bn, n->data, n->bytes); - return n; -} - -/* - * Decide the number of bits in the random component k - * - * It should be in the same range as p for signing (which - * is deprecated), but can be much smaller for encrypting. - * - * Until I research it further, I just mimic gpg behaviour. - * It has a special mapping table, for values <= 5120, - * above that it uses 'arbitrary high number'. Following - * algorithm hovers 10-70 bits above gpg values. And for - * larger p, it uses gpg's algorithm. - * - * The point is - if k gets large, encryption will be - * really slow. It does not matter for decryption. - */ -static int -decide_k_bits(int p_bits) -{ - if (p_bits <= 5120) - return p_bits / 10 + 160; - else - return (p_bits / 8 + 200) * 3 / 2; -} - -int -pgp_elgamal_encrypt(PGP_PubKey *pk, PGP_MPI *_m, - PGP_MPI **c1_p, PGP_MPI **c2_p) -{ - int res = PXE_PGP_MATH_FAILED; - int k_bits; - mpz_t *m = mpi_to_bn(_m); - mpz_t *p = mpi_to_bn(pk->pub.elg.p); - mpz_t *g = mpi_to_bn(pk->pub.elg.g); - mpz_t *y = mpi_to_bn(pk->pub.elg.y); - mpz_t *k = mp_new(); - mpz_t *yk = mp_new(); - mpz_t *c1 = mp_new(); - mpz_t *c2 = mp_new(); - - if (!m || !p || !g || !y || !k || !yk || !c1 || !c2) - goto err; - - /* - * generate k - */ - k_bits = decide_k_bits(mp_int_count_bits(p)); - res = mp_px_rand(k_bits, k); - if (res < 0) - return res; - - /* - * c1 = g^k c2 = m * y^k - */ - mp_int_exptmod(g, k, p, c1); - mp_int_exptmod(y, k, p, yk); - mp_modmul(m, yk, p, c2); - - /* result */ - *c1_p = bn_to_mpi(c1); - *c2_p = bn_to_mpi(c2); - if (*c1_p && *c2_p) - res = 0; -err: - mp_clear_free(c2); - mp_clear_free(c1); - mp_clear_free(yk); - mp_clear_free(k); - mp_clear_free(y); - mp_clear_free(g); - mp_clear_free(p); - mp_clear_free(m); - return res; -} - -int -pgp_elgamal_decrypt(PGP_PubKey *pk, PGP_MPI *_c1, PGP_MPI *_c2, - PGP_MPI **msg_p) -{ - int res = PXE_PGP_MATH_FAILED; - mpz_t *c1 = mpi_to_bn(_c1); - mpz_t *c2 = mpi_to_bn(_c2); - mpz_t *p = mpi_to_bn(pk->pub.elg.p); - mpz_t *x = mpi_to_bn(pk->sec.elg.x); - mpz_t *c1x = mp_new(); - mpz_t *div = mp_new(); - mpz_t *m = mp_new(); - - if (!c1 || !c2 || !p || !x || !c1x || !div || !m) - goto err; - - /* - * m = c2 / (c1^x) - */ - mp_int_exptmod(c1, x, p, c1x); - mp_int_invmod(c1x, p, div); - mp_modmul(c2, div, p, m); - - /* result */ - *msg_p = bn_to_mpi(m); - if (*msg_p) - res = 0; -err: - mp_clear_free(m); - mp_clear_free(div); - mp_clear_free(c1x); - mp_clear_free(x); - mp_clear_free(p); - mp_clear_free(c2); - mp_clear_free(c1); - return res; -} - -int -pgp_rsa_encrypt(PGP_PubKey *pk, PGP_MPI *_m, PGP_MPI **c_p) -{ - int res = PXE_PGP_MATH_FAILED; - mpz_t *m = mpi_to_bn(_m); - mpz_t *e = mpi_to_bn(pk->pub.rsa.e); - mpz_t *n = mpi_to_bn(pk->pub.rsa.n); - mpz_t *c = mp_new(); - - if (!m || !e || !n || !c) - goto err; - - /* - * c = m ^ e - */ - mp_int_exptmod(m, e, n, c); - - *c_p = bn_to_mpi(c); - if (*c_p) - res = 0; -err: - mp_clear_free(c); - mp_clear_free(n); - mp_clear_free(e); - mp_clear_free(m); - return res; -} - -int -pgp_rsa_decrypt(PGP_PubKey *pk, PGP_MPI *_c, PGP_MPI **m_p) -{ - int res = PXE_PGP_MATH_FAILED; - mpz_t *c = mpi_to_bn(_c); - mpz_t *d = mpi_to_bn(pk->sec.rsa.d); - mpz_t *n = mpi_to_bn(pk->pub.rsa.n); - mpz_t *m = mp_new(); - - if (!m || !d || !n || !c) - goto err; - - /* - * m = c ^ d - */ - mp_int_exptmod(c, d, n, m); - - *m_p = bn_to_mpi(m); - if (*m_p) - res = 0; -err: - mp_clear_free(m); - mp_clear_free(n); - mp_clear_free(d); - mp_clear_free(c); - return res; -} diff --git a/contrib/pgcrypto/rijndael.c b/contrib/pgcrypto/rijndael.c deleted file mode 100644 index 6938701182..0000000000 --- a/contrib/pgcrypto/rijndael.c +++ /dev/null @@ -1,677 +0,0 @@ -/* $OpenBSD: rijndael.c,v 1.6 2000/12/09 18:51:34 markus Exp $ */ - -/* contrib/pgcrypto/rijndael.c */ - -/* This is an independent implementation of the encryption algorithm: */ -/* */ -/* RIJNDAEL by Joan Daemen and Vincent Rijmen */ -/* */ -/* which is a candidate algorithm in the Advanced Encryption Standard */ -/* programme of the US National Institute of Standards and Technology. */ -/* */ -/* Copyright in this implementation is held by Dr B R Gladman but I */ -/* hereby give permission for its free direct or derivative use subject */ -/* to acknowledgment of its origin and compliance with any conditions */ -/* that the originators of the algorithm place on its exploitation. */ -/* */ -/* Dr Brian Gladman (gladman@seven77.demon.co.uk) 14th January 1999 */ - -/* Timing data for Rijndael (rijndael.c) - -Algorithm: rijndael (rijndael.c) - -128 bit key: -Key Setup: 305/1389 cycles (encrypt/decrypt) -Encrypt: 374 cycles = 68.4 mbits/sec -Decrypt: 352 cycles = 72.7 mbits/sec -Mean: 363 cycles = 70.5 mbits/sec - -192 bit key: -Key Setup: 277/1595 cycles (encrypt/decrypt) -Encrypt: 439 cycles = 58.3 mbits/sec -Decrypt: 425 cycles = 60.2 mbits/sec -Mean: 432 cycles = 59.3 mbits/sec - -256 bit key: -Key Setup: 374/1960 cycles (encrypt/decrypt) -Encrypt: 502 cycles = 51.0 mbits/sec -Decrypt: 498 cycles = 51.4 mbits/sec -Mean: 500 cycles = 51.2 mbits/sec - -*/ - -#include "postgres.h" - -#include - -#include "px.h" -#include "rijndael.h" - -#define PRE_CALC_TABLES -#define LARGE_TABLES - -static void gen_tabs(void); - -/* 3. Basic macros for speeding up generic operations */ - -/* Circular rotate of 32 bit values */ - -#define rotr(x,n) (((x) >> ((int)(n))) | ((x) << (32 - (int)(n)))) -#define rotl(x,n) (((x) << ((int)(n))) | ((x) >> (32 - (int)(n)))) - -/* Invert byte order in a 32 bit variable */ - -#define bswap(x) ((rotl((x), 8) & 0x00ff00ff) | (rotr((x), 8) & 0xff00ff00)) - -/* Extract byte from a 32 bit quantity (little endian notation) */ - -#define byte(x,n) ((u1byte)((x) >> (8 * (n)))) - -#ifdef WORDS_BIGENDIAN -#define io_swap(x) bswap(x) -#else -#define io_swap(x) (x) -#endif - -#ifdef PRINT_TABS -#undef PRE_CALC_TABLES -#endif - -#ifdef PRE_CALC_TABLES - -#include "rijndael.tbl" -#define tab_gen 1 -#else /* !PRE_CALC_TABLES */ - -static u1byte pow_tab[256]; -static u1byte log_tab[256]; -static u1byte sbx_tab[256]; -static u1byte isb_tab[256]; -static u4byte rco_tab[10]; -static u4byte ft_tab[4][256]; -static u4byte it_tab[4][256]; - -#ifdef LARGE_TABLES -static u4byte fl_tab[4][256]; -static u4byte il_tab[4][256]; -#endif - -static u4byte tab_gen = 0; -#endif /* !PRE_CALC_TABLES */ - -#define ff_mult(a,b) ((a) && (b) ? pow_tab[(log_tab[a] + log_tab[b]) % 255] : 0) - -#define f_rn(bo, bi, n, k) \ - (bo)[n] = ft_tab[0][byte((bi)[n],0)] ^ \ - ft_tab[1][byte((bi)[((n) + 1) & 3],1)] ^ \ - ft_tab[2][byte((bi)[((n) + 2) & 3],2)] ^ \ - ft_tab[3][byte((bi)[((n) + 3) & 3],3)] ^ *((k) + (n)) - -#define i_rn(bo, bi, n, k) \ - (bo)[n] = it_tab[0][byte((bi)[n],0)] ^ \ - it_tab[1][byte((bi)[((n) + 3) & 3],1)] ^ \ - it_tab[2][byte((bi)[((n) + 2) & 3],2)] ^ \ - it_tab[3][byte((bi)[((n) + 1) & 3],3)] ^ *((k) + (n)) - -#ifdef LARGE_TABLES - -#define ls_box(x) \ - ( fl_tab[0][byte(x, 0)] ^ \ - fl_tab[1][byte(x, 1)] ^ \ - fl_tab[2][byte(x, 2)] ^ \ - fl_tab[3][byte(x, 3)] ) - -#define f_rl(bo, bi, n, k) \ - (bo)[n] = fl_tab[0][byte((bi)[n],0)] ^ \ - fl_tab[1][byte((bi)[((n) + 1) & 3],1)] ^ \ - fl_tab[2][byte((bi)[((n) + 2) & 3],2)] ^ \ - fl_tab[3][byte((bi)[((n) + 3) & 3],3)] ^ *((k) + (n)) - -#define i_rl(bo, bi, n, k) \ - (bo)[n] = il_tab[0][byte((bi)[n],0)] ^ \ - il_tab[1][byte((bi)[((n) + 3) & 3],1)] ^ \ - il_tab[2][byte((bi)[((n) + 2) & 3],2)] ^ \ - il_tab[3][byte((bi)[((n) + 1) & 3],3)] ^ *((k) + (n)) -#else - -#define ls_box(x) \ - ((u4byte)sbx_tab[byte(x, 0)] << 0) ^ \ - ((u4byte)sbx_tab[byte(x, 1)] << 8) ^ \ - ((u4byte)sbx_tab[byte(x, 2)] << 16) ^ \ - ((u4byte)sbx_tab[byte(x, 3)] << 24) - -#define f_rl(bo, bi, n, k) \ - (bo)[n] = (u4byte)sbx_tab[byte((bi)[n],0)] ^ \ - rotl(((u4byte)sbx_tab[byte((bi)[((n) + 1) & 3],1)]), 8) ^ \ - rotl(((u4byte)sbx_tab[byte((bi)[((n) + 2) & 3],2)]), 16) ^ \ - rotl(((u4byte)sbx_tab[byte((bi)[((n) + 3) & 3],3)]), 24) ^ *((k) + (n)) - -#define i_rl(bo, bi, n, k) \ - (bo)[n] = (u4byte)isb_tab[byte((bi)[n],0)] ^ \ - rotl(((u4byte)isb_tab[byte((bi)[((n) + 3) & 3],1)]), 8) ^ \ - rotl(((u4byte)isb_tab[byte((bi)[((n) + 2) & 3],2)]), 16) ^ \ - rotl(((u4byte)isb_tab[byte((bi)[((n) + 1) & 3],3)]), 24) ^ *((k) + (n)) -#endif - -static void -gen_tabs(void) -{ -#ifndef PRE_CALC_TABLES - u4byte i, - t; - u1byte p, - q; - - /* log and power tables for GF(2**8) finite field with */ - /* 0x11b as modular polynomial - the simplest primitive */ - /* root is 0x11, used here to generate the tables */ - - for (i = 0, p = 1; i < 256; ++i) - { - pow_tab[i] = (u1byte) p; - log_tab[p] = (u1byte) i; - - p = p ^ (p << 1) ^ (p & 0x80 ? 0x01b : 0); - } - - log_tab[1] = 0; - p = 1; - - for (i = 0; i < 10; ++i) - { - rco_tab[i] = p; - - p = (p << 1) ^ (p & 0x80 ? 0x1b : 0); - } - - /* note that the affine byte transformation matrix in */ - /* rijndael specification is in big endian format with */ - /* bit 0 as the most significant bit. In the remainder */ - /* of the specification the bits are numbered from the */ - /* least significant end of a byte. */ - - for (i = 0; i < 256; ++i) - { - p = (i ? pow_tab[255 - log_tab[i]] : 0); - q = p; - q = (q >> 7) | (q << 1); - p ^= q; - q = (q >> 7) | (q << 1); - p ^= q; - q = (q >> 7) | (q << 1); - p ^= q; - q = (q >> 7) | (q << 1); - p ^= q ^ 0x63; - sbx_tab[i] = (u1byte) p; - isb_tab[p] = (u1byte) i; - } - - for (i = 0; i < 256; ++i) - { - p = sbx_tab[i]; - -#ifdef LARGE_TABLES - - t = p; - fl_tab[0][i] = t; - fl_tab[1][i] = rotl(t, 8); - fl_tab[2][i] = rotl(t, 16); - fl_tab[3][i] = rotl(t, 24); -#endif - t = ((u4byte) ff_mult(2, p)) | - ((u4byte) p << 8) | - ((u4byte) p << 16) | - ((u4byte) ff_mult(3, p) << 24); - - ft_tab[0][i] = t; - ft_tab[1][i] = rotl(t, 8); - ft_tab[2][i] = rotl(t, 16); - ft_tab[3][i] = rotl(t, 24); - - p = isb_tab[i]; - -#ifdef LARGE_TABLES - - t = p; - il_tab[0][i] = t; - il_tab[1][i] = rotl(t, 8); - il_tab[2][i] = rotl(t, 16); - il_tab[3][i] = rotl(t, 24); -#endif - t = ((u4byte) ff_mult(14, p)) | - ((u4byte) ff_mult(9, p) << 8) | - ((u4byte) ff_mult(13, p) << 16) | - ((u4byte) ff_mult(11, p) << 24); - - it_tab[0][i] = t; - it_tab[1][i] = rotl(t, 8); - it_tab[2][i] = rotl(t, 16); - it_tab[3][i] = rotl(t, 24); - } - - tab_gen = 1; -#endif /* !PRE_CALC_TABLES */ -} - - -#define star_x(x) (((x) & 0x7f7f7f7f) << 1) ^ ((((x) & 0x80808080) >> 7) * 0x1b) - -#define imix_col(y,x) \ -do { \ - u = star_x(x); \ - v = star_x(u); \ - w = star_x(v); \ - t = w ^ (x); \ - (y) = u ^ v ^ w; \ - (y) ^= rotr(u ^ t, 8) ^ \ - rotr(v ^ t, 16) ^ \ - rotr(t,24); \ -} while (0) - -/* initialise the key schedule from the user supplied key */ - -#define loop4(i) \ -do { t = ls_box(rotr(t, 8)) ^ rco_tab[i]; \ - t ^= e_key[4 * i]; e_key[4 * i + 4] = t; \ - t ^= e_key[4 * i + 1]; e_key[4 * i + 5] = t; \ - t ^= e_key[4 * i + 2]; e_key[4 * i + 6] = t; \ - t ^= e_key[4 * i + 3]; e_key[4 * i + 7] = t; \ -} while (0) - -#define loop6(i) \ -do { t = ls_box(rotr(t, 8)) ^ rco_tab[i]; \ - t ^= e_key[6 * (i)]; e_key[6 * (i) + 6] = t; \ - t ^= e_key[6 * (i) + 1]; e_key[6 * (i) + 7] = t; \ - t ^= e_key[6 * (i) + 2]; e_key[6 * (i) + 8] = t; \ - t ^= e_key[6 * (i) + 3]; e_key[6 * (i) + 9] = t; \ - t ^= e_key[6 * (i) + 4]; e_key[6 * (i) + 10] = t; \ - t ^= e_key[6 * (i) + 5]; e_key[6 * (i) + 11] = t; \ -} while (0) - -#define loop8(i) \ -do { t = ls_box(rotr(t, 8)) ^ rco_tab[i]; \ - t ^= e_key[8 * (i)]; e_key[8 * (i) + 8] = t; \ - t ^= e_key[8 * (i) + 1]; e_key[8 * (i) + 9] = t; \ - t ^= e_key[8 * (i) + 2]; e_key[8 * (i) + 10] = t; \ - t ^= e_key[8 * (i) + 3]; e_key[8 * (i) + 11] = t; \ - t = e_key[8 * (i) + 4] ^ ls_box(t); \ - e_key[8 * (i) + 12] = t; \ - t ^= e_key[8 * (i) + 5]; e_key[8 * (i) + 13] = t; \ - t ^= e_key[8 * (i) + 6]; e_key[8 * (i) + 14] = t; \ - t ^= e_key[8 * (i) + 7]; e_key[8 * (i) + 15] = t; \ -} while (0) - -rijndael_ctx * -rijndael_set_key(rijndael_ctx *ctx, const u4byte *in_key, const u4byte key_len, - int encrypt) -{ - u4byte i, - t, - u, - v, - w; - u4byte *e_key = ctx->e_key; - u4byte *d_key = ctx->d_key; - - ctx->decrypt = !encrypt; - - if (!tab_gen) - gen_tabs(); - - ctx->k_len = (key_len + 31) / 32; - - e_key[0] = io_swap(in_key[0]); - e_key[1] = io_swap(in_key[1]); - e_key[2] = io_swap(in_key[2]); - e_key[3] = io_swap(in_key[3]); - - switch (ctx->k_len) - { - case 4: - t = e_key[3]; - for (i = 0; i < 10; ++i) - loop4(i); - break; - - case 6: - e_key[4] = io_swap(in_key[4]); - t = e_key[5] = io_swap(in_key[5]); - for (i = 0; i < 8; ++i) - loop6(i); - break; - - case 8: - e_key[4] = io_swap(in_key[4]); - e_key[5] = io_swap(in_key[5]); - e_key[6] = io_swap(in_key[6]); - t = e_key[7] = io_swap(in_key[7]); - for (i = 0; i < 7; ++i) - loop8(i); - break; - } - - if (!encrypt) - { - d_key[0] = e_key[0]; - d_key[1] = e_key[1]; - d_key[2] = e_key[2]; - d_key[3] = e_key[3]; - - for (i = 4; i < 4 * ctx->k_len + 24; ++i) - imix_col(d_key[i], e_key[i]); - } - - return ctx; -} - -/* encrypt a block of text */ - -#define f_nround(bo, bi, k) \ -do { \ - f_rn(bo, bi, 0, k); \ - f_rn(bo, bi, 1, k); \ - f_rn(bo, bi, 2, k); \ - f_rn(bo, bi, 3, k); \ - k += 4; \ -} while (0) - -#define f_lround(bo, bi, k) \ -do { \ - f_rl(bo, bi, 0, k); \ - f_rl(bo, bi, 1, k); \ - f_rl(bo, bi, 2, k); \ - f_rl(bo, bi, 3, k); \ -} while (0) - -void -rijndael_encrypt(rijndael_ctx *ctx, const u4byte *in_blk, u4byte *out_blk) -{ - u4byte k_len = ctx->k_len; - u4byte *e_key = ctx->e_key; - u4byte b0[4], - b1[4], - *kp; - - b0[0] = io_swap(in_blk[0]) ^ e_key[0]; - b0[1] = io_swap(in_blk[1]) ^ e_key[1]; - b0[2] = io_swap(in_blk[2]) ^ e_key[2]; - b0[3] = io_swap(in_blk[3]) ^ e_key[3]; - - kp = e_key + 4; - - if (k_len > 6) - { - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - } - - if (k_len > 4) - { - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - } - - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - f_nround(b1, b0, kp); - f_nround(b0, b1, kp); - f_nround(b1, b0, kp); - f_lround(b0, b1, kp); - - out_blk[0] = io_swap(b0[0]); - out_blk[1] = io_swap(b0[1]); - out_blk[2] = io_swap(b0[2]); - out_blk[3] = io_swap(b0[3]); -} - -/* decrypt a block of text */ - -#define i_nround(bo, bi, k) \ -do { \ - i_rn(bo, bi, 0, k); \ - i_rn(bo, bi, 1, k); \ - i_rn(bo, bi, 2, k); \ - i_rn(bo, bi, 3, k); \ - k -= 4; \ -} while (0) - -#define i_lround(bo, bi, k) \ -do { \ - i_rl(bo, bi, 0, k); \ - i_rl(bo, bi, 1, k); \ - i_rl(bo, bi, 2, k); \ - i_rl(bo, bi, 3, k); \ -} while (0) - -void -rijndael_decrypt(rijndael_ctx *ctx, const u4byte *in_blk, u4byte *out_blk) -{ - u4byte b0[4], - b1[4], - *kp; - u4byte k_len = ctx->k_len; - u4byte *e_key = ctx->e_key; - u4byte *d_key = ctx->d_key; - - b0[0] = io_swap(in_blk[0]) ^ e_key[4 * k_len + 24]; - b0[1] = io_swap(in_blk[1]) ^ e_key[4 * k_len + 25]; - b0[2] = io_swap(in_blk[2]) ^ e_key[4 * k_len + 26]; - b0[3] = io_swap(in_blk[3]) ^ e_key[4 * k_len + 27]; - - kp = d_key + 4 * (k_len + 5); - - if (k_len > 6) - { - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - } - - if (k_len > 4) - { - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - } - - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - i_nround(b1, b0, kp); - i_nround(b0, b1, kp); - i_nround(b1, b0, kp); - i_lround(b0, b1, kp); - - out_blk[0] = io_swap(b0[0]); - out_blk[1] = io_swap(b0[1]); - out_blk[2] = io_swap(b0[2]); - out_blk[3] = io_swap(b0[3]); -} - -/* - * conventional interface - * - * ATM it hopes all data is 4-byte aligned - which - * should be true for PX. -marko - */ - -void -aes_set_key(rijndael_ctx *ctx, const uint8 *key, unsigned keybits, int enc) -{ - uint32 *k; - - k = (uint32 *) key; - rijndael_set_key(ctx, k, keybits, enc); -} - -void -aes_ecb_encrypt(rijndael_ctx *ctx, uint8 *data, unsigned len) -{ - unsigned bs = 16; - uint32 *d; - - while (len >= bs) - { - d = (uint32 *) data; - rijndael_encrypt(ctx, d, d); - - len -= bs; - data += bs; - } -} - -void -aes_ecb_decrypt(rijndael_ctx *ctx, uint8 *data, unsigned len) -{ - unsigned bs = 16; - uint32 *d; - - while (len >= bs) - { - d = (uint32 *) data; - rijndael_decrypt(ctx, d, d); - - len -= bs; - data += bs; - } -} - -void -aes_cbc_encrypt(rijndael_ctx *ctx, uint8 *iva, uint8 *data, unsigned len) -{ - uint32 *iv = (uint32 *) iva; - uint32 *d = (uint32 *) data; - unsigned bs = 16; - - while (len >= bs) - { - d[0] ^= iv[0]; - d[1] ^= iv[1]; - d[2] ^= iv[2]; - d[3] ^= iv[3]; - - rijndael_encrypt(ctx, d, d); - - iv = d; - d += bs / 4; - len -= bs; - } -} - -void -aes_cbc_decrypt(rijndael_ctx *ctx, uint8 *iva, uint8 *data, unsigned len) -{ - uint32 *d = (uint32 *) data; - unsigned bs = 16; - uint32 buf[4], - iv[4]; - - memcpy(iv, iva, bs); - while (len >= bs) - { - buf[0] = d[0]; - buf[1] = d[1]; - buf[2] = d[2]; - buf[3] = d[3]; - - rijndael_decrypt(ctx, buf, d); - - d[0] ^= iv[0]; - d[1] ^= iv[1]; - d[2] ^= iv[2]; - d[3] ^= iv[3]; - - iv[0] = buf[0]; - iv[1] = buf[1]; - iv[2] = buf[2]; - iv[3] = buf[3]; - d += 4; - len -= bs; - } -} - -/* - * pre-calculate tables. - * - * On i386 lifts 17k from .bss to .rodata - * and avoids 1k code and setup time. - * -marko - */ -#ifdef PRINT_TABS - -static void -show256u8(char *name, uint8 *data) -{ - int i; - - printf("static const u1byte %s[256] = {\n ", name); - for (i = 0; i < 256;) - { - printf("%u", pow_tab[i++]); - if (i < 256) - printf(i % 16 ? ", " : ",\n "); - } - printf("\n};\n\n"); -} - - -static void -show4x256u32(char *name, uint32 data[4][256]) -{ - int i, - j; - - printf("static const u4byte %s[4][256] = {\n{\n ", name); - for (i = 0; i < 4; i++) - { - for (j = 0; j < 256;) - { - printf("0x%08x", data[i][j]); - j++; - if (j < 256) - printf(j % 4 ? ", " : ",\n "); - } - printf(i < 3 ? "\n}, {\n " : "\n}\n"); - } - printf("};\n\n"); -} - -int -main() -{ - int i; - char *hdr = "/* Generated by rijndael.c */\n\n"; - - gen_tabs(); - - printf(hdr); - show256u8("pow_tab", pow_tab); - show256u8("log_tab", log_tab); - show256u8("sbx_tab", sbx_tab); - show256u8("isb_tab", isb_tab); - - show4x256u32("ft_tab", ft_tab); - show4x256u32("it_tab", it_tab); -#ifdef LARGE_TABLES - show4x256u32("fl_tab", fl_tab); - show4x256u32("il_tab", il_tab); -#endif - printf("static const u4byte rco_tab[10] = {\n "); - for (i = 0; i < 10; i++) - { - printf("0x%08x", rco_tab[i]); - if (i < 9) - printf(", "); - if (i == 4) - printf("\n "); - } - printf("\n};\n\n"); - return 0; -} - -#endif diff --git a/contrib/pgcrypto/rijndael.h b/contrib/pgcrypto/rijndael.h deleted file mode 100644 index bc9ddfaad3..0000000000 --- a/contrib/pgcrypto/rijndael.h +++ /dev/null @@ -1,59 +0,0 @@ -/* - * contrib/pgcrypto/rijndael.h - * - * $OpenBSD: rijndael.h,v 1.3 2001/05/09 23:01:32 markus Exp $ */ - -/* This is an independent implementation of the encryption algorithm: */ -/* */ -/* RIJNDAEL by Joan Daemen and Vincent Rijmen */ -/* */ -/* which is a candidate algorithm in the Advanced Encryption Standard */ -/* programme of the US National Institute of Standards and Technology. */ -/* */ -/* Copyright in this implementation is held by Dr B R Gladman but I */ -/* hereby give permission for its free direct or derivative use subject */ -/* to acknowledgment of its origin and compliance with any conditions */ -/* that the originators of the algorithm place on its exploitation. */ -/* */ -/* Dr Brian Gladman (gladman@seven77.demon.co.uk) 14th January 1999 */ - -#ifndef _RIJNDAEL_H_ -#define _RIJNDAEL_H_ - -/* 1. Standard types for AES cryptography source code */ - -typedef uint8 u1byte; /* an 8 bit unsigned character type */ -typedef uint16 u2byte; /* a 16 bit unsigned integer type */ -typedef uint32 u4byte; /* a 32 bit unsigned integer type */ - -typedef int8 s1byte; /* an 8 bit signed character type */ -typedef int16 s2byte; /* a 16 bit signed integer type */ -typedef int32 s4byte; /* a 32 bit signed integer type */ - -typedef struct _rijndael_ctx -{ - u4byte k_len; - int decrypt; - u4byte e_key[64]; - u4byte d_key[64]; -} rijndael_ctx; - - -/* 2. Standard interface for AES cryptographic routines */ - -/* These are all based on 32 bit unsigned values and will therefore */ -/* require endian conversions for big-endian architectures */ - -rijndael_ctx *rijndael_set_key(rijndael_ctx *, const u4byte *, const u4byte, int); -void rijndael_encrypt(rijndael_ctx *, const u4byte *, u4byte *); -void rijndael_decrypt(rijndael_ctx *, const u4byte *, u4byte *); - -/* conventional interface */ - -void aes_set_key(rijndael_ctx *ctx, const uint8 *key, unsigned keybits, int enc); -void aes_ecb_encrypt(rijndael_ctx *ctx, uint8 *data, unsigned len); -void aes_ecb_decrypt(rijndael_ctx *ctx, uint8 *data, unsigned len); -void aes_cbc_encrypt(rijndael_ctx *ctx, uint8 *iva, uint8 *data, unsigned len); -void aes_cbc_decrypt(rijndael_ctx *ctx, uint8 *iva, uint8 *data, unsigned len); - -#endif /* _RIJNDAEL_H_ */ diff --git a/contrib/pgcrypto/rijndael.tbl b/contrib/pgcrypto/rijndael.tbl deleted file mode 100644 index c7610c0134..0000000000 --- a/contrib/pgcrypto/rijndael.tbl +++ /dev/null @@ -1,1138 +0,0 @@ -/* Generated by rijndael.c */ - -static const u1byte pow_tab[256] = { - 1, 3, 5, 15, 17, 51, 85, 255, 26, 46, 114, 150, 161, 248, 19, 53, - 95, 225, 56, 72, 216, 115, 149, 164, 247, 2, 6, 10, 30, 34, 102, 170, - 229, 52, 92, 228, 55, 89, 235, 38, 106, 190, 217, 112, 144, 171, 230, 49, - 83, 245, 4, 12, 20, 60, 68, 204, 79, 209, 104, 184, 211, 110, 178, 205, - 76, 212, 103, 169, 224, 59, 77, 215, 98, 166, 241, 8, 24, 40, 120, 136, - 131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206, 73, 219, 118, 154, - 181, 196, 87, 249, 16, 48, 80, 240, 11, 29, 39, 105, 187, 214, 97, 163, - 254, 25, 43, 125, 135, 146, 173, 236, 47, 113, 147, 174, 233, 32, 96, 160, - 251, 22, 58, 78, 210, 109, 183, 194, 93, 231, 50, 86, 250, 21, 63, 65, - 195, 94, 226, 61, 71, 201, 64, 192, 91, 237, 44, 116, 156, 191, 218, 117, - 159, 186, 213, 100, 172, 239, 42, 126, 130, 157, 188, 223, 122, 142, 137, 128, - 155, 182, 193, 88, 232, 35, 101, 175, 234, 37, 111, 177, 200, 67, 197, 84, - 252, 31, 33, 99, 165, 244, 7, 9, 27, 45, 119, 153, 176, 203, 70, 202, - 69, 207, 74, 222, 121, 139, 134, 145, 168, 227, 62, 66, 198, 81, 243, 14, - 18, 54, 90, 238, 41, 123, 141, 140, 143, 138, 133, 148, 167, 242, 13, 23, - 57, 75, 221, 124, 132, 151, 162, 253, 28, 36, 108, 180, 199, 82, 246, 1 -}; - -static const u1byte log_tab[256] = { - 1, 3, 5, 15, 17, 51, 85, 255, 26, 46, 114, 150, 161, 248, 19, 53, - 95, 225, 56, 72, 216, 115, 149, 164, 247, 2, 6, 10, 30, 34, 102, 170, - 229, 52, 92, 228, 55, 89, 235, 38, 106, 190, 217, 112, 144, 171, 230, 49, - 83, 245, 4, 12, 20, 60, 68, 204, 79, 209, 104, 184, 211, 110, 178, 205, - 76, 212, 103, 169, 224, 59, 77, 215, 98, 166, 241, 8, 24, 40, 120, 136, - 131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206, 73, 219, 118, 154, - 181, 196, 87, 249, 16, 48, 80, 240, 11, 29, 39, 105, 187, 214, 97, 163, - 254, 25, 43, 125, 135, 146, 173, 236, 47, 113, 147, 174, 233, 32, 96, 160, - 251, 22, 58, 78, 210, 109, 183, 194, 93, 231, 50, 86, 250, 21, 63, 65, - 195, 94, 226, 61, 71, 201, 64, 192, 91, 237, 44, 116, 156, 191, 218, 117, - 159, 186, 213, 100, 172, 239, 42, 126, 130, 157, 188, 223, 122, 142, 137, 128, - 155, 182, 193, 88, 232, 35, 101, 175, 234, 37, 111, 177, 200, 67, 197, 84, - 252, 31, 33, 99, 165, 244, 7, 9, 27, 45, 119, 153, 176, 203, 70, 202, - 69, 207, 74, 222, 121, 139, 134, 145, 168, 227, 62, 66, 198, 81, 243, 14, - 18, 54, 90, 238, 41, 123, 141, 140, 143, 138, 133, 148, 167, 242, 13, 23, - 57, 75, 221, 124, 132, 151, 162, 253, 28, 36, 108, 180, 199, 82, 246, 1 -}; - -static const u1byte sbx_tab[256] = { - 1, 3, 5, 15, 17, 51, 85, 255, 26, 46, 114, 150, 161, 248, 19, 53, - 95, 225, 56, 72, 216, 115, 149, 164, 247, 2, 6, 10, 30, 34, 102, 170, - 229, 52, 92, 228, 55, 89, 235, 38, 106, 190, 217, 112, 144, 171, 230, 49, - 83, 245, 4, 12, 20, 60, 68, 204, 79, 209, 104, 184, 211, 110, 178, 205, - 76, 212, 103, 169, 224, 59, 77, 215, 98, 166, 241, 8, 24, 40, 120, 136, - 131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206, 73, 219, 118, 154, - 181, 196, 87, 249, 16, 48, 80, 240, 11, 29, 39, 105, 187, 214, 97, 163, - 254, 25, 43, 125, 135, 146, 173, 236, 47, 113, 147, 174, 233, 32, 96, 160, - 251, 22, 58, 78, 210, 109, 183, 194, 93, 231, 50, 86, 250, 21, 63, 65, - 195, 94, 226, 61, 71, 201, 64, 192, 91, 237, 44, 116, 156, 191, 218, 117, - 159, 186, 213, 100, 172, 239, 42, 126, 130, 157, 188, 223, 122, 142, 137, 128, - 155, 182, 193, 88, 232, 35, 101, 175, 234, 37, 111, 177, 200, 67, 197, 84, - 252, 31, 33, 99, 165, 244, 7, 9, 27, 45, 119, 153, 176, 203, 70, 202, - 69, 207, 74, 222, 121, 139, 134, 145, 168, 227, 62, 66, 198, 81, 243, 14, - 18, 54, 90, 238, 41, 123, 141, 140, 143, 138, 133, 148, 167, 242, 13, 23, - 57, 75, 221, 124, 132, 151, 162, 253, 28, 36, 108, 180, 199, 82, 246, 1 -}; - -static const u1byte isb_tab[256] = { - 1, 3, 5, 15, 17, 51, 85, 255, 26, 46, 114, 150, 161, 248, 19, 53, - 95, 225, 56, 72, 216, 115, 149, 164, 247, 2, 6, 10, 30, 34, 102, 170, - 229, 52, 92, 228, 55, 89, 235, 38, 106, 190, 217, 112, 144, 171, 230, 49, - 83, 245, 4, 12, 20, 60, 68, 204, 79, 209, 104, 184, 211, 110, 178, 205, - 76, 212, 103, 169, 224, 59, 77, 215, 98, 166, 241, 8, 24, 40, 120, 136, - 131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206, 73, 219, 118, 154, - 181, 196, 87, 249, 16, 48, 80, 240, 11, 29, 39, 105, 187, 214, 97, 163, - 254, 25, 43, 125, 135, 146, 173, 236, 47, 113, 147, 174, 233, 32, 96, 160, - 251, 22, 58, 78, 210, 109, 183, 194, 93, 231, 50, 86, 250, 21, 63, 65, - 195, 94, 226, 61, 71, 201, 64, 192, 91, 237, 44, 116, 156, 191, 218, 117, - 159, 186, 213, 100, 172, 239, 42, 126, 130, 157, 188, 223, 122, 142, 137, 128, - 155, 182, 193, 88, 232, 35, 101, 175, 234, 37, 111, 177, 200, 67, 197, 84, - 252, 31, 33, 99, 165, 244, 7, 9, 27, 45, 119, 153, 176, 203, 70, 202, - 69, 207, 74, 222, 121, 139, 134, 145, 168, 227, 62, 66, 198, 81, 243, 14, - 18, 54, 90, 238, 41, 123, 141, 140, 143, 138, 133, 148, 167, 242, 13, 23, - 57, 75, 221, 124, 132, 151, 162, 253, 28, 36, 108, 180, 199, 82, 246, 1 -}; - -static const u4byte ft_tab[4][256] = { -{ - 0xa56363c6, 0x847c7cf8, 0x997777ee, 0x8d7b7bf6, - 0x0df2f2ff, 0xbd6b6bd6, 0xb16f6fde, 0x54c5c591, - 0x50303060, 0x03010102, 0xa96767ce, 0x7d2b2b56, - 0x19fefee7, 0x62d7d7b5, 0xe6abab4d, 0x9a7676ec, - 0x45caca8f, 0x9d82821f, 0x40c9c989, 0x877d7dfa, - 0x15fafaef, 0xeb5959b2, 0xc947478e, 0x0bf0f0fb, - 0xecadad41, 0x67d4d4b3, 0xfda2a25f, 0xeaafaf45, - 0xbf9c9c23, 0xf7a4a453, 0x967272e4, 0x5bc0c09b, - 0xc2b7b775, 0x1cfdfde1, 0xae93933d, 0x6a26264c, - 0x5a36366c, 0x413f3f7e, 0x02f7f7f5, 0x4fcccc83, - 0x5c343468, 0xf4a5a551, 0x34e5e5d1, 0x08f1f1f9, - 0x937171e2, 0x73d8d8ab, 0x53313162, 0x3f15152a, - 0x0c040408, 0x52c7c795, 0x65232346, 0x5ec3c39d, - 0x28181830, 0xa1969637, 0x0f05050a, 0xb59a9a2f, - 0x0907070e, 0x36121224, 0x9b80801b, 0x3de2e2df, - 0x26ebebcd, 0x6927274e, 0xcdb2b27f, 0x9f7575ea, - 0x1b090912, 0x9e83831d, 0x742c2c58, 0x2e1a1a34, - 0x2d1b1b36, 0xb26e6edc, 0xee5a5ab4, 0xfba0a05b, - 0xf65252a4, 0x4d3b3b76, 0x61d6d6b7, 0xceb3b37d, - 0x7b292952, 0x3ee3e3dd, 0x712f2f5e, 0x97848413, - 0xf55353a6, 0x68d1d1b9, 0x00000000, 0x2cededc1, - 0x60202040, 0x1ffcfce3, 0xc8b1b179, 0xed5b5bb6, - 0xbe6a6ad4, 0x46cbcb8d, 0xd9bebe67, 0x4b393972, - 0xde4a4a94, 0xd44c4c98, 0xe85858b0, 0x4acfcf85, - 0x6bd0d0bb, 0x2aefefc5, 0xe5aaaa4f, 0x16fbfbed, - 0xc5434386, 0xd74d4d9a, 0x55333366, 0x94858511, - 0xcf45458a, 0x10f9f9e9, 0x06020204, 0x817f7ffe, - 0xf05050a0, 0x443c3c78, 0xba9f9f25, 0xe3a8a84b, - 0xf35151a2, 0xfea3a35d, 0xc0404080, 0x8a8f8f05, - 0xad92923f, 0xbc9d9d21, 0x48383870, 0x04f5f5f1, - 0xdfbcbc63, 0xc1b6b677, 0x75dadaaf, 0x63212142, - 0x30101020, 0x1affffe5, 0x0ef3f3fd, 0x6dd2d2bf, - 0x4ccdcd81, 0x140c0c18, 0x35131326, 0x2fececc3, - 0xe15f5fbe, 0xa2979735, 0xcc444488, 0x3917172e, - 0x57c4c493, 0xf2a7a755, 0x827e7efc, 0x473d3d7a, - 0xac6464c8, 0xe75d5dba, 0x2b191932, 0x957373e6, - 0xa06060c0, 0x98818119, 0xd14f4f9e, 0x7fdcdca3, - 0x66222244, 0x7e2a2a54, 0xab90903b, 0x8388880b, - 0xca46468c, 0x29eeeec7, 0xd3b8b86b, 0x3c141428, - 0x79dedea7, 0xe25e5ebc, 0x1d0b0b16, 0x76dbdbad, - 0x3be0e0db, 0x56323264, 0x4e3a3a74, 0x1e0a0a14, - 0xdb494992, 0x0a06060c, 0x6c242448, 0xe45c5cb8, - 0x5dc2c29f, 0x6ed3d3bd, 0xefacac43, 0xa66262c4, - 0xa8919139, 0xa4959531, 0x37e4e4d3, 0x8b7979f2, - 0x32e7e7d5, 0x43c8c88b, 0x5937376e, 0xb76d6dda, - 0x8c8d8d01, 0x64d5d5b1, 0xd24e4e9c, 0xe0a9a949, - 0xb46c6cd8, 0xfa5656ac, 0x07f4f4f3, 0x25eaeacf, - 0xaf6565ca, 0x8e7a7af4, 0xe9aeae47, 0x18080810, - 0xd5baba6f, 0x887878f0, 0x6f25254a, 0x722e2e5c, - 0x241c1c38, 0xf1a6a657, 0xc7b4b473, 0x51c6c697, - 0x23e8e8cb, 0x7cdddda1, 0x9c7474e8, 0x211f1f3e, - 0xdd4b4b96, 0xdcbdbd61, 0x868b8b0d, 0x858a8a0f, - 0x907070e0, 0x423e3e7c, 0xc4b5b571, 0xaa6666cc, - 0xd8484890, 0x05030306, 0x01f6f6f7, 0x120e0e1c, - 0xa36161c2, 0x5f35356a, 0xf95757ae, 0xd0b9b969, - 0x91868617, 0x58c1c199, 0x271d1d3a, 0xb99e9e27, - 0x38e1e1d9, 0x13f8f8eb, 0xb398982b, 0x33111122, - 0xbb6969d2, 0x70d9d9a9, 0x898e8e07, 0xa7949433, - 0xb69b9b2d, 0x221e1e3c, 0x92878715, 0x20e9e9c9, - 0x49cece87, 0xff5555aa, 0x78282850, 0x7adfdfa5, - 0x8f8c8c03, 0xf8a1a159, 0x80898909, 0x170d0d1a, - 0xdabfbf65, 0x31e6e6d7, 0xc6424284, 0xb86868d0, - 0xc3414182, 0xb0999929, 0x772d2d5a, 0x110f0f1e, - 0xcbb0b07b, 0xfc5454a8, 0xd6bbbb6d, 0x3a16162c -}, { - 0x6363c6a5, 0x7c7cf884, 0x7777ee99, 0x7b7bf68d, - 0xf2f2ff0d, 0x6b6bd6bd, 0x6f6fdeb1, 0xc5c59154, - 0x30306050, 0x01010203, 0x6767cea9, 0x2b2b567d, - 0xfefee719, 0xd7d7b562, 0xabab4de6, 0x7676ec9a, - 0xcaca8f45, 0x82821f9d, 0xc9c98940, 0x7d7dfa87, - 0xfafaef15, 0x5959b2eb, 0x47478ec9, 0xf0f0fb0b, - 0xadad41ec, 0xd4d4b367, 0xa2a25ffd, 0xafaf45ea, - 0x9c9c23bf, 0xa4a453f7, 0x7272e496, 0xc0c09b5b, - 0xb7b775c2, 0xfdfde11c, 0x93933dae, 0x26264c6a, - 0x36366c5a, 0x3f3f7e41, 0xf7f7f502, 0xcccc834f, - 0x3434685c, 0xa5a551f4, 0xe5e5d134, 0xf1f1f908, - 0x7171e293, 0xd8d8ab73, 0x31316253, 0x15152a3f, - 0x0404080c, 0xc7c79552, 0x23234665, 0xc3c39d5e, - 0x18183028, 0x969637a1, 0x05050a0f, 0x9a9a2fb5, - 0x07070e09, 0x12122436, 0x80801b9b, 0xe2e2df3d, - 0xebebcd26, 0x27274e69, 0xb2b27fcd, 0x7575ea9f, - 0x0909121b, 0x83831d9e, 0x2c2c5874, 0x1a1a342e, - 0x1b1b362d, 0x6e6edcb2, 0x5a5ab4ee, 0xa0a05bfb, - 0x5252a4f6, 0x3b3b764d, 0xd6d6b761, 0xb3b37dce, - 0x2929527b, 0xe3e3dd3e, 0x2f2f5e71, 0x84841397, - 0x5353a6f5, 0xd1d1b968, 0x00000000, 0xededc12c, - 0x20204060, 0xfcfce31f, 0xb1b179c8, 0x5b5bb6ed, - 0x6a6ad4be, 0xcbcb8d46, 0xbebe67d9, 0x3939724b, - 0x4a4a94de, 0x4c4c98d4, 0x5858b0e8, 0xcfcf854a, - 0xd0d0bb6b, 0xefefc52a, 0xaaaa4fe5, 0xfbfbed16, - 0x434386c5, 0x4d4d9ad7, 0x33336655, 0x85851194, - 0x45458acf, 0xf9f9e910, 0x02020406, 0x7f7ffe81, - 0x5050a0f0, 0x3c3c7844, 0x9f9f25ba, 0xa8a84be3, - 0x5151a2f3, 0xa3a35dfe, 0x404080c0, 0x8f8f058a, - 0x92923fad, 0x9d9d21bc, 0x38387048, 0xf5f5f104, - 0xbcbc63df, 0xb6b677c1, 0xdadaaf75, 0x21214263, - 0x10102030, 0xffffe51a, 0xf3f3fd0e, 0xd2d2bf6d, - 0xcdcd814c, 0x0c0c1814, 0x13132635, 0xececc32f, - 0x5f5fbee1, 0x979735a2, 0x444488cc, 0x17172e39, - 0xc4c49357, 0xa7a755f2, 0x7e7efc82, 0x3d3d7a47, - 0x6464c8ac, 0x5d5dbae7, 0x1919322b, 0x7373e695, - 0x6060c0a0, 0x81811998, 0x4f4f9ed1, 0xdcdca37f, - 0x22224466, 0x2a2a547e, 0x90903bab, 0x88880b83, - 0x46468cca, 0xeeeec729, 0xb8b86bd3, 0x1414283c, - 0xdedea779, 0x5e5ebce2, 0x0b0b161d, 0xdbdbad76, - 0xe0e0db3b, 0x32326456, 0x3a3a744e, 0x0a0a141e, - 0x494992db, 0x06060c0a, 0x2424486c, 0x5c5cb8e4, - 0xc2c29f5d, 0xd3d3bd6e, 0xacac43ef, 0x6262c4a6, - 0x919139a8, 0x959531a4, 0xe4e4d337, 0x7979f28b, - 0xe7e7d532, 0xc8c88b43, 0x37376e59, 0x6d6ddab7, - 0x8d8d018c, 0xd5d5b164, 0x4e4e9cd2, 0xa9a949e0, - 0x6c6cd8b4, 0x5656acfa, 0xf4f4f307, 0xeaeacf25, - 0x6565caaf, 0x7a7af48e, 0xaeae47e9, 0x08081018, - 0xbaba6fd5, 0x7878f088, 0x25254a6f, 0x2e2e5c72, - 0x1c1c3824, 0xa6a657f1, 0xb4b473c7, 0xc6c69751, - 0xe8e8cb23, 0xdddda17c, 0x7474e89c, 0x1f1f3e21, - 0x4b4b96dd, 0xbdbd61dc, 0x8b8b0d86, 0x8a8a0f85, - 0x7070e090, 0x3e3e7c42, 0xb5b571c4, 0x6666ccaa, - 0x484890d8, 0x03030605, 0xf6f6f701, 0x0e0e1c12, - 0x6161c2a3, 0x35356a5f, 0x5757aef9, 0xb9b969d0, - 0x86861791, 0xc1c19958, 0x1d1d3a27, 0x9e9e27b9, - 0xe1e1d938, 0xf8f8eb13, 0x98982bb3, 0x11112233, - 0x6969d2bb, 0xd9d9a970, 0x8e8e0789, 0x949433a7, - 0x9b9b2db6, 0x1e1e3c22, 0x87871592, 0xe9e9c920, - 0xcece8749, 0x5555aaff, 0x28285078, 0xdfdfa57a, - 0x8c8c038f, 0xa1a159f8, 0x89890980, 0x0d0d1a17, - 0xbfbf65da, 0xe6e6d731, 0x424284c6, 0x6868d0b8, - 0x414182c3, 0x999929b0, 0x2d2d5a77, 0x0f0f1e11, - 0xb0b07bcb, 0x5454a8fc, 0xbbbb6dd6, 0x16162c3a -}, { - 0x63c6a563, 0x7cf8847c, 0x77ee9977, 0x7bf68d7b, - 0xf2ff0df2, 0x6bd6bd6b, 0x6fdeb16f, 0xc59154c5, - 0x30605030, 0x01020301, 0x67cea967, 0x2b567d2b, - 0xfee719fe, 0xd7b562d7, 0xab4de6ab, 0x76ec9a76, - 0xca8f45ca, 0x821f9d82, 0xc98940c9, 0x7dfa877d, - 0xfaef15fa, 0x59b2eb59, 0x478ec947, 0xf0fb0bf0, - 0xad41ecad, 0xd4b367d4, 0xa25ffda2, 0xaf45eaaf, - 0x9c23bf9c, 0xa453f7a4, 0x72e49672, 0xc09b5bc0, - 0xb775c2b7, 0xfde11cfd, 0x933dae93, 0x264c6a26, - 0x366c5a36, 0x3f7e413f, 0xf7f502f7, 0xcc834fcc, - 0x34685c34, 0xa551f4a5, 0xe5d134e5, 0xf1f908f1, - 0x71e29371, 0xd8ab73d8, 0x31625331, 0x152a3f15, - 0x04080c04, 0xc79552c7, 0x23466523, 0xc39d5ec3, - 0x18302818, 0x9637a196, 0x050a0f05, 0x9a2fb59a, - 0x070e0907, 0x12243612, 0x801b9b80, 0xe2df3de2, - 0xebcd26eb, 0x274e6927, 0xb27fcdb2, 0x75ea9f75, - 0x09121b09, 0x831d9e83, 0x2c58742c, 0x1a342e1a, - 0x1b362d1b, 0x6edcb26e, 0x5ab4ee5a, 0xa05bfba0, - 0x52a4f652, 0x3b764d3b, 0xd6b761d6, 0xb37dceb3, - 0x29527b29, 0xe3dd3ee3, 0x2f5e712f, 0x84139784, - 0x53a6f553, 0xd1b968d1, 0x00000000, 0xedc12ced, - 0x20406020, 0xfce31ffc, 0xb179c8b1, 0x5bb6ed5b, - 0x6ad4be6a, 0xcb8d46cb, 0xbe67d9be, 0x39724b39, - 0x4a94de4a, 0x4c98d44c, 0x58b0e858, 0xcf854acf, - 0xd0bb6bd0, 0xefc52aef, 0xaa4fe5aa, 0xfbed16fb, - 0x4386c543, 0x4d9ad74d, 0x33665533, 0x85119485, - 0x458acf45, 0xf9e910f9, 0x02040602, 0x7ffe817f, - 0x50a0f050, 0x3c78443c, 0x9f25ba9f, 0xa84be3a8, - 0x51a2f351, 0xa35dfea3, 0x4080c040, 0x8f058a8f, - 0x923fad92, 0x9d21bc9d, 0x38704838, 0xf5f104f5, - 0xbc63dfbc, 0xb677c1b6, 0xdaaf75da, 0x21426321, - 0x10203010, 0xffe51aff, 0xf3fd0ef3, 0xd2bf6dd2, - 0xcd814ccd, 0x0c18140c, 0x13263513, 0xecc32fec, - 0x5fbee15f, 0x9735a297, 0x4488cc44, 0x172e3917, - 0xc49357c4, 0xa755f2a7, 0x7efc827e, 0x3d7a473d, - 0x64c8ac64, 0x5dbae75d, 0x19322b19, 0x73e69573, - 0x60c0a060, 0x81199881, 0x4f9ed14f, 0xdca37fdc, - 0x22446622, 0x2a547e2a, 0x903bab90, 0x880b8388, - 0x468cca46, 0xeec729ee, 0xb86bd3b8, 0x14283c14, - 0xdea779de, 0x5ebce25e, 0x0b161d0b, 0xdbad76db, - 0xe0db3be0, 0x32645632, 0x3a744e3a, 0x0a141e0a, - 0x4992db49, 0x060c0a06, 0x24486c24, 0x5cb8e45c, - 0xc29f5dc2, 0xd3bd6ed3, 0xac43efac, 0x62c4a662, - 0x9139a891, 0x9531a495, 0xe4d337e4, 0x79f28b79, - 0xe7d532e7, 0xc88b43c8, 0x376e5937, 0x6ddab76d, - 0x8d018c8d, 0xd5b164d5, 0x4e9cd24e, 0xa949e0a9, - 0x6cd8b46c, 0x56acfa56, 0xf4f307f4, 0xeacf25ea, - 0x65caaf65, 0x7af48e7a, 0xae47e9ae, 0x08101808, - 0xba6fd5ba, 0x78f08878, 0x254a6f25, 0x2e5c722e, - 0x1c38241c, 0xa657f1a6, 0xb473c7b4, 0xc69751c6, - 0xe8cb23e8, 0xdda17cdd, 0x74e89c74, 0x1f3e211f, - 0x4b96dd4b, 0xbd61dcbd, 0x8b0d868b, 0x8a0f858a, - 0x70e09070, 0x3e7c423e, 0xb571c4b5, 0x66ccaa66, - 0x4890d848, 0x03060503, 0xf6f701f6, 0x0e1c120e, - 0x61c2a361, 0x356a5f35, 0x57aef957, 0xb969d0b9, - 0x86179186, 0xc19958c1, 0x1d3a271d, 0x9e27b99e, - 0xe1d938e1, 0xf8eb13f8, 0x982bb398, 0x11223311, - 0x69d2bb69, 0xd9a970d9, 0x8e07898e, 0x9433a794, - 0x9b2db69b, 0x1e3c221e, 0x87159287, 0xe9c920e9, - 0xce8749ce, 0x55aaff55, 0x28507828, 0xdfa57adf, - 0x8c038f8c, 0xa159f8a1, 0x89098089, 0x0d1a170d, - 0xbf65dabf, 0xe6d731e6, 0x4284c642, 0x68d0b868, - 0x4182c341, 0x9929b099, 0x2d5a772d, 0x0f1e110f, - 0xb07bcbb0, 0x54a8fc54, 0xbb6dd6bb, 0x162c3a16 -}, { - 0xc6a56363, 0xf8847c7c, 0xee997777, 0xf68d7b7b, - 0xff0df2f2, 0xd6bd6b6b, 0xdeb16f6f, 0x9154c5c5, - 0x60503030, 0x02030101, 0xcea96767, 0x567d2b2b, - 0xe719fefe, 0xb562d7d7, 0x4de6abab, 0xec9a7676, - 0x8f45caca, 0x1f9d8282, 0x8940c9c9, 0xfa877d7d, - 0xef15fafa, 0xb2eb5959, 0x8ec94747, 0xfb0bf0f0, - 0x41ecadad, 0xb367d4d4, 0x5ffda2a2, 0x45eaafaf, - 0x23bf9c9c, 0x53f7a4a4, 0xe4967272, 0x9b5bc0c0, - 0x75c2b7b7, 0xe11cfdfd, 0x3dae9393, 0x4c6a2626, - 0x6c5a3636, 0x7e413f3f, 0xf502f7f7, 0x834fcccc, - 0x685c3434, 0x51f4a5a5, 0xd134e5e5, 0xf908f1f1, - 0xe2937171, 0xab73d8d8, 0x62533131, 0x2a3f1515, - 0x080c0404, 0x9552c7c7, 0x46652323, 0x9d5ec3c3, - 0x30281818, 0x37a19696, 0x0a0f0505, 0x2fb59a9a, - 0x0e090707, 0x24361212, 0x1b9b8080, 0xdf3de2e2, - 0xcd26ebeb, 0x4e692727, 0x7fcdb2b2, 0xea9f7575, - 0x121b0909, 0x1d9e8383, 0x58742c2c, 0x342e1a1a, - 0x362d1b1b, 0xdcb26e6e, 0xb4ee5a5a, 0x5bfba0a0, - 0xa4f65252, 0x764d3b3b, 0xb761d6d6, 0x7dceb3b3, - 0x527b2929, 0xdd3ee3e3, 0x5e712f2f, 0x13978484, - 0xa6f55353, 0xb968d1d1, 0x00000000, 0xc12ceded, - 0x40602020, 0xe31ffcfc, 0x79c8b1b1, 0xb6ed5b5b, - 0xd4be6a6a, 0x8d46cbcb, 0x67d9bebe, 0x724b3939, - 0x94de4a4a, 0x98d44c4c, 0xb0e85858, 0x854acfcf, - 0xbb6bd0d0, 0xc52aefef, 0x4fe5aaaa, 0xed16fbfb, - 0x86c54343, 0x9ad74d4d, 0x66553333, 0x11948585, - 0x8acf4545, 0xe910f9f9, 0x04060202, 0xfe817f7f, - 0xa0f05050, 0x78443c3c, 0x25ba9f9f, 0x4be3a8a8, - 0xa2f35151, 0x5dfea3a3, 0x80c04040, 0x058a8f8f, - 0x3fad9292, 0x21bc9d9d, 0x70483838, 0xf104f5f5, - 0x63dfbcbc, 0x77c1b6b6, 0xaf75dada, 0x42632121, - 0x20301010, 0xe51affff, 0xfd0ef3f3, 0xbf6dd2d2, - 0x814ccdcd, 0x18140c0c, 0x26351313, 0xc32fecec, - 0xbee15f5f, 0x35a29797, 0x88cc4444, 0x2e391717, - 0x9357c4c4, 0x55f2a7a7, 0xfc827e7e, 0x7a473d3d, - 0xc8ac6464, 0xbae75d5d, 0x322b1919, 0xe6957373, - 0xc0a06060, 0x19988181, 0x9ed14f4f, 0xa37fdcdc, - 0x44662222, 0x547e2a2a, 0x3bab9090, 0x0b838888, - 0x8cca4646, 0xc729eeee, 0x6bd3b8b8, 0x283c1414, - 0xa779dede, 0xbce25e5e, 0x161d0b0b, 0xad76dbdb, - 0xdb3be0e0, 0x64563232, 0x744e3a3a, 0x141e0a0a, - 0x92db4949, 0x0c0a0606, 0x486c2424, 0xb8e45c5c, - 0x9f5dc2c2, 0xbd6ed3d3, 0x43efacac, 0xc4a66262, - 0x39a89191, 0x31a49595, 0xd337e4e4, 0xf28b7979, - 0xd532e7e7, 0x8b43c8c8, 0x6e593737, 0xdab76d6d, - 0x018c8d8d, 0xb164d5d5, 0x9cd24e4e, 0x49e0a9a9, - 0xd8b46c6c, 0xacfa5656, 0xf307f4f4, 0xcf25eaea, - 0xcaaf6565, 0xf48e7a7a, 0x47e9aeae, 0x10180808, - 0x6fd5baba, 0xf0887878, 0x4a6f2525, 0x5c722e2e, - 0x38241c1c, 0x57f1a6a6, 0x73c7b4b4, 0x9751c6c6, - 0xcb23e8e8, 0xa17cdddd, 0xe89c7474, 0x3e211f1f, - 0x96dd4b4b, 0x61dcbdbd, 0x0d868b8b, 0x0f858a8a, - 0xe0907070, 0x7c423e3e, 0x71c4b5b5, 0xccaa6666, - 0x90d84848, 0x06050303, 0xf701f6f6, 0x1c120e0e, - 0xc2a36161, 0x6a5f3535, 0xaef95757, 0x69d0b9b9, - 0x17918686, 0x9958c1c1, 0x3a271d1d, 0x27b99e9e, - 0xd938e1e1, 0xeb13f8f8, 0x2bb39898, 0x22331111, - 0xd2bb6969, 0xa970d9d9, 0x07898e8e, 0x33a79494, - 0x2db69b9b, 0x3c221e1e, 0x15928787, 0xc920e9e9, - 0x8749cece, 0xaaff5555, 0x50782828, 0xa57adfdf, - 0x038f8c8c, 0x59f8a1a1, 0x09808989, 0x1a170d0d, - 0x65dabfbf, 0xd731e6e6, 0x84c64242, 0xd0b86868, - 0x82c34141, 0x29b09999, 0x5a772d2d, 0x1e110f0f, - 0x7bcbb0b0, 0xa8fc5454, 0x6dd6bbbb, 0x2c3a1616 -} -}; - -static const u4byte it_tab[4][256] = { -{ - 0x50a7f451, 0x5365417e, 0xc3a4171a, 0x965e273a, - 0xcb6bab3b, 0xf1459d1f, 0xab58faac, 0x9303e34b, - 0x55fa3020, 0xf66d76ad, 0x9176cc88, 0x254c02f5, - 0xfcd7e54f, 0xd7cb2ac5, 0x80443526, 0x8fa362b5, - 0x495ab1de, 0x671bba25, 0x980eea45, 0xe1c0fe5d, - 0x02752fc3, 0x12f04c81, 0xa397468d, 0xc6f9d36b, - 0xe75f8f03, 0x959c9215, 0xeb7a6dbf, 0xda595295, - 0x2d83bed4, 0xd3217458, 0x2969e049, 0x44c8c98e, - 0x6a89c275, 0x78798ef4, 0x6b3e5899, 0xdd71b927, - 0xb64fe1be, 0x17ad88f0, 0x66ac20c9, 0xb43ace7d, - 0x184adf63, 0x82311ae5, 0x60335197, 0x457f5362, - 0xe07764b1, 0x84ae6bbb, 0x1ca081fe, 0x942b08f9, - 0x58684870, 0x19fd458f, 0x876cde94, 0xb7f87b52, - 0x23d373ab, 0xe2024b72, 0x578f1fe3, 0x2aab5566, - 0x0728ebb2, 0x03c2b52f, 0x9a7bc586, 0xa50837d3, - 0xf2872830, 0xb2a5bf23, 0xba6a0302, 0x5c8216ed, - 0x2b1ccf8a, 0x92b479a7, 0xf0f207f3, 0xa1e2694e, - 0xcdf4da65, 0xd5be0506, 0x1f6234d1, 0x8afea6c4, - 0x9d532e34, 0xa055f3a2, 0x32e18a05, 0x75ebf6a4, - 0x39ec830b, 0xaaef6040, 0x069f715e, 0x51106ebd, - 0xf98a213e, 0x3d06dd96, 0xae053edd, 0x46bde64d, - 0xb58d5491, 0x055dc471, 0x6fd40604, 0xff155060, - 0x24fb9819, 0x97e9bdd6, 0xcc434089, 0x779ed967, - 0xbd42e8b0, 0x888b8907, 0x385b19e7, 0xdbeec879, - 0x470a7ca1, 0xe90f427c, 0xc91e84f8, 0x00000000, - 0x83868009, 0x48ed2b32, 0xac70111e, 0x4e725a6c, - 0xfbff0efd, 0x5638850f, 0x1ed5ae3d, 0x27392d36, - 0x64d90f0a, 0x21a65c68, 0xd1545b9b, 0x3a2e3624, - 0xb1670a0c, 0x0fe75793, 0xd296eeb4, 0x9e919b1b, - 0x4fc5c080, 0xa220dc61, 0x694b775a, 0x161a121c, - 0x0aba93e2, 0xe52aa0c0, 0x43e0223c, 0x1d171b12, - 0x0b0d090e, 0xadc78bf2, 0xb9a8b62d, 0xc8a91e14, - 0x8519f157, 0x4c0775af, 0xbbdd99ee, 0xfd607fa3, - 0x9f2601f7, 0xbcf5725c, 0xc53b6644, 0x347efb5b, - 0x7629438b, 0xdcc623cb, 0x68fcedb6, 0x63f1e4b8, - 0xcadc31d7, 0x10856342, 0x40229713, 0x2011c684, - 0x7d244a85, 0xf83dbbd2, 0x1132f9ae, 0x6da129c7, - 0x4b2f9e1d, 0xf330b2dc, 0xec52860d, 0xd0e3c177, - 0x6c16b32b, 0x99b970a9, 0xfa489411, 0x2264e947, - 0xc48cfca8, 0x1a3ff0a0, 0xd82c7d56, 0xef903322, - 0xc74e4987, 0xc1d138d9, 0xfea2ca8c, 0x360bd498, - 0xcf81f5a6, 0x28de7aa5, 0x268eb7da, 0xa4bfad3f, - 0xe49d3a2c, 0x0d927850, 0x9bcc5f6a, 0x62467e54, - 0xc2138df6, 0xe8b8d890, 0x5ef7392e, 0xf5afc382, - 0xbe805d9f, 0x7c93d069, 0xa92dd56f, 0xb31225cf, - 0x3b99acc8, 0xa77d1810, 0x6e639ce8, 0x7bbb3bdb, - 0x097826cd, 0xf418596e, 0x01b79aec, 0xa89a4f83, - 0x656e95e6, 0x7ee6ffaa, 0x08cfbc21, 0xe6e815ef, - 0xd99be7ba, 0xce366f4a, 0xd4099fea, 0xd67cb029, - 0xafb2a431, 0x31233f2a, 0x3094a5c6, 0xc066a235, - 0x37bc4e74, 0xa6ca82fc, 0xb0d090e0, 0x15d8a733, - 0x4a9804f1, 0xf7daec41, 0x0e50cd7f, 0x2ff69117, - 0x8dd64d76, 0x4db0ef43, 0x544daacc, 0xdf0496e4, - 0xe3b5d19e, 0x1b886a4c, 0xb81f2cc1, 0x7f516546, - 0x04ea5e9d, 0x5d358c01, 0x737487fa, 0x2e410bfb, - 0x5a1d67b3, 0x52d2db92, 0x335610e9, 0x1347d66d, - 0x8c61d79a, 0x7a0ca137, 0x8e14f859, 0x893c13eb, - 0xee27a9ce, 0x35c961b7, 0xede51ce1, 0x3cb1477a, - 0x59dfd29c, 0x3f73f255, 0x79ce1418, 0xbf37c773, - 0xeacdf753, 0x5baafd5f, 0x146f3ddf, 0x86db4478, - 0x81f3afca, 0x3ec468b9, 0x2c342438, 0x5f40a3c2, - 0x72c31d16, 0x0c25e2bc, 0x8b493c28, 0x41950dff, - 0x7101a839, 0xdeb30c08, 0x9ce4b4d8, 0x90c15664, - 0x6184cb7b, 0x70b632d5, 0x745c6c48, 0x4257b8d0 -}, { - 0xa7f45150, 0x65417e53, 0xa4171ac3, 0x5e273a96, - 0x6bab3bcb, 0x459d1ff1, 0x58faacab, 0x03e34b93, - 0xfa302055, 0x6d76adf6, 0x76cc8891, 0x4c02f525, - 0xd7e54ffc, 0xcb2ac5d7, 0x44352680, 0xa362b58f, - 0x5ab1de49, 0x1bba2567, 0x0eea4598, 0xc0fe5de1, - 0x752fc302, 0xf04c8112, 0x97468da3, 0xf9d36bc6, - 0x5f8f03e7, 0x9c921595, 0x7a6dbfeb, 0x595295da, - 0x83bed42d, 0x217458d3, 0x69e04929, 0xc8c98e44, - 0x89c2756a, 0x798ef478, 0x3e58996b, 0x71b927dd, - 0x4fe1beb6, 0xad88f017, 0xac20c966, 0x3ace7db4, - 0x4adf6318, 0x311ae582, 0x33519760, 0x7f536245, - 0x7764b1e0, 0xae6bbb84, 0xa081fe1c, 0x2b08f994, - 0x68487058, 0xfd458f19, 0x6cde9487, 0xf87b52b7, - 0xd373ab23, 0x024b72e2, 0x8f1fe357, 0xab55662a, - 0x28ebb207, 0xc2b52f03, 0x7bc5869a, 0x0837d3a5, - 0x872830f2, 0xa5bf23b2, 0x6a0302ba, 0x8216ed5c, - 0x1ccf8a2b, 0xb479a792, 0xf207f3f0, 0xe2694ea1, - 0xf4da65cd, 0xbe0506d5, 0x6234d11f, 0xfea6c48a, - 0x532e349d, 0x55f3a2a0, 0xe18a0532, 0xebf6a475, - 0xec830b39, 0xef6040aa, 0x9f715e06, 0x106ebd51, - 0x8a213ef9, 0x06dd963d, 0x053eddae, 0xbde64d46, - 0x8d5491b5, 0x5dc47105, 0xd406046f, 0x155060ff, - 0xfb981924, 0xe9bdd697, 0x434089cc, 0x9ed96777, - 0x42e8b0bd, 0x8b890788, 0x5b19e738, 0xeec879db, - 0x0a7ca147, 0x0f427ce9, 0x1e84f8c9, 0x00000000, - 0x86800983, 0xed2b3248, 0x70111eac, 0x725a6c4e, - 0xff0efdfb, 0x38850f56, 0xd5ae3d1e, 0x392d3627, - 0xd90f0a64, 0xa65c6821, 0x545b9bd1, 0x2e36243a, - 0x670a0cb1, 0xe757930f, 0x96eeb4d2, 0x919b1b9e, - 0xc5c0804f, 0x20dc61a2, 0x4b775a69, 0x1a121c16, - 0xba93e20a, 0x2aa0c0e5, 0xe0223c43, 0x171b121d, - 0x0d090e0b, 0xc78bf2ad, 0xa8b62db9, 0xa91e14c8, - 0x19f15785, 0x0775af4c, 0xdd99eebb, 0x607fa3fd, - 0x2601f79f, 0xf5725cbc, 0x3b6644c5, 0x7efb5b34, - 0x29438b76, 0xc623cbdc, 0xfcedb668, 0xf1e4b863, - 0xdc31d7ca, 0x85634210, 0x22971340, 0x11c68420, - 0x244a857d, 0x3dbbd2f8, 0x32f9ae11, 0xa129c76d, - 0x2f9e1d4b, 0x30b2dcf3, 0x52860dec, 0xe3c177d0, - 0x16b32b6c, 0xb970a999, 0x489411fa, 0x64e94722, - 0x8cfca8c4, 0x3ff0a01a, 0x2c7d56d8, 0x903322ef, - 0x4e4987c7, 0xd138d9c1, 0xa2ca8cfe, 0x0bd49836, - 0x81f5a6cf, 0xde7aa528, 0x8eb7da26, 0xbfad3fa4, - 0x9d3a2ce4, 0x9278500d, 0xcc5f6a9b, 0x467e5462, - 0x138df6c2, 0xb8d890e8, 0xf7392e5e, 0xafc382f5, - 0x805d9fbe, 0x93d0697c, 0x2dd56fa9, 0x1225cfb3, - 0x99acc83b, 0x7d1810a7, 0x639ce86e, 0xbb3bdb7b, - 0x7826cd09, 0x18596ef4, 0xb79aec01, 0x9a4f83a8, - 0x6e95e665, 0xe6ffaa7e, 0xcfbc2108, 0xe815efe6, - 0x9be7bad9, 0x366f4ace, 0x099fead4, 0x7cb029d6, - 0xb2a431af, 0x233f2a31, 0x94a5c630, 0x66a235c0, - 0xbc4e7437, 0xca82fca6, 0xd090e0b0, 0xd8a73315, - 0x9804f14a, 0xdaec41f7, 0x50cd7f0e, 0xf691172f, - 0xd64d768d, 0xb0ef434d, 0x4daacc54, 0x0496e4df, - 0xb5d19ee3, 0x886a4c1b, 0x1f2cc1b8, 0x5165467f, - 0xea5e9d04, 0x358c015d, 0x7487fa73, 0x410bfb2e, - 0x1d67b35a, 0xd2db9252, 0x5610e933, 0x47d66d13, - 0x61d79a8c, 0x0ca1377a, 0x14f8598e, 0x3c13eb89, - 0x27a9ceee, 0xc961b735, 0xe51ce1ed, 0xb1477a3c, - 0xdfd29c59, 0x73f2553f, 0xce141879, 0x37c773bf, - 0xcdf753ea, 0xaafd5f5b, 0x6f3ddf14, 0xdb447886, - 0xf3afca81, 0xc468b93e, 0x3424382c, 0x40a3c25f, - 0xc31d1672, 0x25e2bc0c, 0x493c288b, 0x950dff41, - 0x01a83971, 0xb30c08de, 0xe4b4d89c, 0xc1566490, - 0x84cb7b61, 0xb632d570, 0x5c6c4874, 0x57b8d042 -}, { - 0xf45150a7, 0x417e5365, 0x171ac3a4, 0x273a965e, - 0xab3bcb6b, 0x9d1ff145, 0xfaacab58, 0xe34b9303, - 0x302055fa, 0x76adf66d, 0xcc889176, 0x02f5254c, - 0xe54ffcd7, 0x2ac5d7cb, 0x35268044, 0x62b58fa3, - 0xb1de495a, 0xba25671b, 0xea45980e, 0xfe5de1c0, - 0x2fc30275, 0x4c8112f0, 0x468da397, 0xd36bc6f9, - 0x8f03e75f, 0x9215959c, 0x6dbfeb7a, 0x5295da59, - 0xbed42d83, 0x7458d321, 0xe0492969, 0xc98e44c8, - 0xc2756a89, 0x8ef47879, 0x58996b3e, 0xb927dd71, - 0xe1beb64f, 0x88f017ad, 0x20c966ac, 0xce7db43a, - 0xdf63184a, 0x1ae58231, 0x51976033, 0x5362457f, - 0x64b1e077, 0x6bbb84ae, 0x81fe1ca0, 0x08f9942b, - 0x48705868, 0x458f19fd, 0xde94876c, 0x7b52b7f8, - 0x73ab23d3, 0x4b72e202, 0x1fe3578f, 0x55662aab, - 0xebb20728, 0xb52f03c2, 0xc5869a7b, 0x37d3a508, - 0x2830f287, 0xbf23b2a5, 0x0302ba6a, 0x16ed5c82, - 0xcf8a2b1c, 0x79a792b4, 0x07f3f0f2, 0x694ea1e2, - 0xda65cdf4, 0x0506d5be, 0x34d11f62, 0xa6c48afe, - 0x2e349d53, 0xf3a2a055, 0x8a0532e1, 0xf6a475eb, - 0x830b39ec, 0x6040aaef, 0x715e069f, 0x6ebd5110, - 0x213ef98a, 0xdd963d06, 0x3eddae05, 0xe64d46bd, - 0x5491b58d, 0xc471055d, 0x06046fd4, 0x5060ff15, - 0x981924fb, 0xbdd697e9, 0x4089cc43, 0xd967779e, - 0xe8b0bd42, 0x8907888b, 0x19e7385b, 0xc879dbee, - 0x7ca1470a, 0x427ce90f, 0x84f8c91e, 0x00000000, - 0x80098386, 0x2b3248ed, 0x111eac70, 0x5a6c4e72, - 0x0efdfbff, 0x850f5638, 0xae3d1ed5, 0x2d362739, - 0x0f0a64d9, 0x5c6821a6, 0x5b9bd154, 0x36243a2e, - 0x0a0cb167, 0x57930fe7, 0xeeb4d296, 0x9b1b9e91, - 0xc0804fc5, 0xdc61a220, 0x775a694b, 0x121c161a, - 0x93e20aba, 0xa0c0e52a, 0x223c43e0, 0x1b121d17, - 0x090e0b0d, 0x8bf2adc7, 0xb62db9a8, 0x1e14c8a9, - 0xf1578519, 0x75af4c07, 0x99eebbdd, 0x7fa3fd60, - 0x01f79f26, 0x725cbcf5, 0x6644c53b, 0xfb5b347e, - 0x438b7629, 0x23cbdcc6, 0xedb668fc, 0xe4b863f1, - 0x31d7cadc, 0x63421085, 0x97134022, 0xc6842011, - 0x4a857d24, 0xbbd2f83d, 0xf9ae1132, 0x29c76da1, - 0x9e1d4b2f, 0xb2dcf330, 0x860dec52, 0xc177d0e3, - 0xb32b6c16, 0x70a999b9, 0x9411fa48, 0xe9472264, - 0xfca8c48c, 0xf0a01a3f, 0x7d56d82c, 0x3322ef90, - 0x4987c74e, 0x38d9c1d1, 0xca8cfea2, 0xd498360b, - 0xf5a6cf81, 0x7aa528de, 0xb7da268e, 0xad3fa4bf, - 0x3a2ce49d, 0x78500d92, 0x5f6a9bcc, 0x7e546246, - 0x8df6c213, 0xd890e8b8, 0x392e5ef7, 0xc382f5af, - 0x5d9fbe80, 0xd0697c93, 0xd56fa92d, 0x25cfb312, - 0xacc83b99, 0x1810a77d, 0x9ce86e63, 0x3bdb7bbb, - 0x26cd0978, 0x596ef418, 0x9aec01b7, 0x4f83a89a, - 0x95e6656e, 0xffaa7ee6, 0xbc2108cf, 0x15efe6e8, - 0xe7bad99b, 0x6f4ace36, 0x9fead409, 0xb029d67c, - 0xa431afb2, 0x3f2a3123, 0xa5c63094, 0xa235c066, - 0x4e7437bc, 0x82fca6ca, 0x90e0b0d0, 0xa73315d8, - 0x04f14a98, 0xec41f7da, 0xcd7f0e50, 0x91172ff6, - 0x4d768dd6, 0xef434db0, 0xaacc544d, 0x96e4df04, - 0xd19ee3b5, 0x6a4c1b88, 0x2cc1b81f, 0x65467f51, - 0x5e9d04ea, 0x8c015d35, 0x87fa7374, 0x0bfb2e41, - 0x67b35a1d, 0xdb9252d2, 0x10e93356, 0xd66d1347, - 0xd79a8c61, 0xa1377a0c, 0xf8598e14, 0x13eb893c, - 0xa9ceee27, 0x61b735c9, 0x1ce1ede5, 0x477a3cb1, - 0xd29c59df, 0xf2553f73, 0x141879ce, 0xc773bf37, - 0xf753eacd, 0xfd5f5baa, 0x3ddf146f, 0x447886db, - 0xafca81f3, 0x68b93ec4, 0x24382c34, 0xa3c25f40, - 0x1d1672c3, 0xe2bc0c25, 0x3c288b49, 0x0dff4195, - 0xa8397101, 0x0c08deb3, 0xb4d89ce4, 0x566490c1, - 0xcb7b6184, 0x32d570b6, 0x6c48745c, 0xb8d04257 -}, { - 0x5150a7f4, 0x7e536541, 0x1ac3a417, 0x3a965e27, - 0x3bcb6bab, 0x1ff1459d, 0xacab58fa, 0x4b9303e3, - 0x2055fa30, 0xadf66d76, 0x889176cc, 0xf5254c02, - 0x4ffcd7e5, 0xc5d7cb2a, 0x26804435, 0xb58fa362, - 0xde495ab1, 0x25671bba, 0x45980eea, 0x5de1c0fe, - 0xc302752f, 0x8112f04c, 0x8da39746, 0x6bc6f9d3, - 0x03e75f8f, 0x15959c92, 0xbfeb7a6d, 0x95da5952, - 0xd42d83be, 0x58d32174, 0x492969e0, 0x8e44c8c9, - 0x756a89c2, 0xf478798e, 0x996b3e58, 0x27dd71b9, - 0xbeb64fe1, 0xf017ad88, 0xc966ac20, 0x7db43ace, - 0x63184adf, 0xe582311a, 0x97603351, 0x62457f53, - 0xb1e07764, 0xbb84ae6b, 0xfe1ca081, 0xf9942b08, - 0x70586848, 0x8f19fd45, 0x94876cde, 0x52b7f87b, - 0xab23d373, 0x72e2024b, 0xe3578f1f, 0x662aab55, - 0xb20728eb, 0x2f03c2b5, 0x869a7bc5, 0xd3a50837, - 0x30f28728, 0x23b2a5bf, 0x02ba6a03, 0xed5c8216, - 0x8a2b1ccf, 0xa792b479, 0xf3f0f207, 0x4ea1e269, - 0x65cdf4da, 0x06d5be05, 0xd11f6234, 0xc48afea6, - 0x349d532e, 0xa2a055f3, 0x0532e18a, 0xa475ebf6, - 0x0b39ec83, 0x40aaef60, 0x5e069f71, 0xbd51106e, - 0x3ef98a21, 0x963d06dd, 0xddae053e, 0x4d46bde6, - 0x91b58d54, 0x71055dc4, 0x046fd406, 0x60ff1550, - 0x1924fb98, 0xd697e9bd, 0x89cc4340, 0x67779ed9, - 0xb0bd42e8, 0x07888b89, 0xe7385b19, 0x79dbeec8, - 0xa1470a7c, 0x7ce90f42, 0xf8c91e84, 0x00000000, - 0x09838680, 0x3248ed2b, 0x1eac7011, 0x6c4e725a, - 0xfdfbff0e, 0x0f563885, 0x3d1ed5ae, 0x3627392d, - 0x0a64d90f, 0x6821a65c, 0x9bd1545b, 0x243a2e36, - 0x0cb1670a, 0x930fe757, 0xb4d296ee, 0x1b9e919b, - 0x804fc5c0, 0x61a220dc, 0x5a694b77, 0x1c161a12, - 0xe20aba93, 0xc0e52aa0, 0x3c43e022, 0x121d171b, - 0x0e0b0d09, 0xf2adc78b, 0x2db9a8b6, 0x14c8a91e, - 0x578519f1, 0xaf4c0775, 0xeebbdd99, 0xa3fd607f, - 0xf79f2601, 0x5cbcf572, 0x44c53b66, 0x5b347efb, - 0x8b762943, 0xcbdcc623, 0xb668fced, 0xb863f1e4, - 0xd7cadc31, 0x42108563, 0x13402297, 0x842011c6, - 0x857d244a, 0xd2f83dbb, 0xae1132f9, 0xc76da129, - 0x1d4b2f9e, 0xdcf330b2, 0x0dec5286, 0x77d0e3c1, - 0x2b6c16b3, 0xa999b970, 0x11fa4894, 0x472264e9, - 0xa8c48cfc, 0xa01a3ff0, 0x56d82c7d, 0x22ef9033, - 0x87c74e49, 0xd9c1d138, 0x8cfea2ca, 0x98360bd4, - 0xa6cf81f5, 0xa528de7a, 0xda268eb7, 0x3fa4bfad, - 0x2ce49d3a, 0x500d9278, 0x6a9bcc5f, 0x5462467e, - 0xf6c2138d, 0x90e8b8d8, 0x2e5ef739, 0x82f5afc3, - 0x9fbe805d, 0x697c93d0, 0x6fa92dd5, 0xcfb31225, - 0xc83b99ac, 0x10a77d18, 0xe86e639c, 0xdb7bbb3b, - 0xcd097826, 0x6ef41859, 0xec01b79a, 0x83a89a4f, - 0xe6656e95, 0xaa7ee6ff, 0x2108cfbc, 0xefe6e815, - 0xbad99be7, 0x4ace366f, 0xead4099f, 0x29d67cb0, - 0x31afb2a4, 0x2a31233f, 0xc63094a5, 0x35c066a2, - 0x7437bc4e, 0xfca6ca82, 0xe0b0d090, 0x3315d8a7, - 0xf14a9804, 0x41f7daec, 0x7f0e50cd, 0x172ff691, - 0x768dd64d, 0x434db0ef, 0xcc544daa, 0xe4df0496, - 0x9ee3b5d1, 0x4c1b886a, 0xc1b81f2c, 0x467f5165, - 0x9d04ea5e, 0x015d358c, 0xfa737487, 0xfb2e410b, - 0xb35a1d67, 0x9252d2db, 0xe9335610, 0x6d1347d6, - 0x9a8c61d7, 0x377a0ca1, 0x598e14f8, 0xeb893c13, - 0xceee27a9, 0xb735c961, 0xe1ede51c, 0x7a3cb147, - 0x9c59dfd2, 0x553f73f2, 0x1879ce14, 0x73bf37c7, - 0x53eacdf7, 0x5f5baafd, 0xdf146f3d, 0x7886db44, - 0xca81f3af, 0xb93ec468, 0x382c3424, 0xc25f40a3, - 0x1672c31d, 0xbc0c25e2, 0x288b493c, 0xff41950d, - 0x397101a8, 0x08deb30c, 0xd89ce4b4, 0x6490c156, - 0x7b6184cb, 0xd570b632, 0x48745c6c, 0xd04257b8 -} -}; - -static const u4byte fl_tab[4][256] = { -{ - 0x00000063, 0x0000007c, 0x00000077, 0x0000007b, - 0x000000f2, 0x0000006b, 0x0000006f, 0x000000c5, - 0x00000030, 0x00000001, 0x00000067, 0x0000002b, - 0x000000fe, 0x000000d7, 0x000000ab, 0x00000076, - 0x000000ca, 0x00000082, 0x000000c9, 0x0000007d, - 0x000000fa, 0x00000059, 0x00000047, 0x000000f0, - 0x000000ad, 0x000000d4, 0x000000a2, 0x000000af, - 0x0000009c, 0x000000a4, 0x00000072, 0x000000c0, - 0x000000b7, 0x000000fd, 0x00000093, 0x00000026, - 0x00000036, 0x0000003f, 0x000000f7, 0x000000cc, - 0x00000034, 0x000000a5, 0x000000e5, 0x000000f1, - 0x00000071, 0x000000d8, 0x00000031, 0x00000015, - 0x00000004, 0x000000c7, 0x00000023, 0x000000c3, - 0x00000018, 0x00000096, 0x00000005, 0x0000009a, - 0x00000007, 0x00000012, 0x00000080, 0x000000e2, - 0x000000eb, 0x00000027, 0x000000b2, 0x00000075, - 0x00000009, 0x00000083, 0x0000002c, 0x0000001a, - 0x0000001b, 0x0000006e, 0x0000005a, 0x000000a0, - 0x00000052, 0x0000003b, 0x000000d6, 0x000000b3, - 0x00000029, 0x000000e3, 0x0000002f, 0x00000084, - 0x00000053, 0x000000d1, 0x00000000, 0x000000ed, - 0x00000020, 0x000000fc, 0x000000b1, 0x0000005b, - 0x0000006a, 0x000000cb, 0x000000be, 0x00000039, - 0x0000004a, 0x0000004c, 0x00000058, 0x000000cf, - 0x000000d0, 0x000000ef, 0x000000aa, 0x000000fb, - 0x00000043, 0x0000004d, 0x00000033, 0x00000085, - 0x00000045, 0x000000f9, 0x00000002, 0x0000007f, - 0x00000050, 0x0000003c, 0x0000009f, 0x000000a8, - 0x00000051, 0x000000a3, 0x00000040, 0x0000008f, - 0x00000092, 0x0000009d, 0x00000038, 0x000000f5, - 0x000000bc, 0x000000b6, 0x000000da, 0x00000021, - 0x00000010, 0x000000ff, 0x000000f3, 0x000000d2, - 0x000000cd, 0x0000000c, 0x00000013, 0x000000ec, - 0x0000005f, 0x00000097, 0x00000044, 0x00000017, - 0x000000c4, 0x000000a7, 0x0000007e, 0x0000003d, - 0x00000064, 0x0000005d, 0x00000019, 0x00000073, - 0x00000060, 0x00000081, 0x0000004f, 0x000000dc, - 0x00000022, 0x0000002a, 0x00000090, 0x00000088, - 0x00000046, 0x000000ee, 0x000000b8, 0x00000014, - 0x000000de, 0x0000005e, 0x0000000b, 0x000000db, - 0x000000e0, 0x00000032, 0x0000003a, 0x0000000a, - 0x00000049, 0x00000006, 0x00000024, 0x0000005c, - 0x000000c2, 0x000000d3, 0x000000ac, 0x00000062, - 0x00000091, 0x00000095, 0x000000e4, 0x00000079, - 0x000000e7, 0x000000c8, 0x00000037, 0x0000006d, - 0x0000008d, 0x000000d5, 0x0000004e, 0x000000a9, - 0x0000006c, 0x00000056, 0x000000f4, 0x000000ea, - 0x00000065, 0x0000007a, 0x000000ae, 0x00000008, - 0x000000ba, 0x00000078, 0x00000025, 0x0000002e, - 0x0000001c, 0x000000a6, 0x000000b4, 0x000000c6, - 0x000000e8, 0x000000dd, 0x00000074, 0x0000001f, - 0x0000004b, 0x000000bd, 0x0000008b, 0x0000008a, - 0x00000070, 0x0000003e, 0x000000b5, 0x00000066, - 0x00000048, 0x00000003, 0x000000f6, 0x0000000e, - 0x00000061, 0x00000035, 0x00000057, 0x000000b9, - 0x00000086, 0x000000c1, 0x0000001d, 0x0000009e, - 0x000000e1, 0x000000f8, 0x00000098, 0x00000011, - 0x00000069, 0x000000d9, 0x0000008e, 0x00000094, - 0x0000009b, 0x0000001e, 0x00000087, 0x000000e9, - 0x000000ce, 0x00000055, 0x00000028, 0x000000df, - 0x0000008c, 0x000000a1, 0x00000089, 0x0000000d, - 0x000000bf, 0x000000e6, 0x00000042, 0x00000068, - 0x00000041, 0x00000099, 0x0000002d, 0x0000000f, - 0x000000b0, 0x00000054, 0x000000bb, 0x00000016 -}, { - 0x00006300, 0x00007c00, 0x00007700, 0x00007b00, - 0x0000f200, 0x00006b00, 0x00006f00, 0x0000c500, - 0x00003000, 0x00000100, 0x00006700, 0x00002b00, - 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0x00004a00, 0x00004c00, 0x00005800, 0x0000cf00, - 0x0000d000, 0x0000ef00, 0x0000aa00, 0x0000fb00, - 0x00004300, 0x00004d00, 0x00003300, 0x00008500, - 0x00004500, 0x0000f900, 0x00000200, 0x00007f00, - 0x00005000, 0x00003c00, 0x00009f00, 0x0000a800, - 0x00005100, 0x0000a300, 0x00004000, 0x00008f00, - 0x00009200, 0x00009d00, 0x00003800, 0x0000f500, - 0x0000bc00, 0x0000b600, 0x0000da00, 0x00002100, - 0x00001000, 0x0000ff00, 0x0000f300, 0x0000d200, - 0x0000cd00, 0x00000c00, 0x00001300, 0x0000ec00, - 0x00005f00, 0x00009700, 0x00004400, 0x00001700, - 0x0000c400, 0x0000a700, 0x00007e00, 0x00003d00, - 0x00006400, 0x00005d00, 0x00001900, 0x00007300, - 0x00006000, 0x00008100, 0x00004f00, 0x0000dc00, - 0x00002200, 0x00002a00, 0x00009000, 0x00008800, - 0x00004600, 0x0000ee00, 0x0000b800, 0x00001400, - 0x0000de00, 0x00005e00, 0x00000b00, 0x0000db00, - 0x0000e000, 0x00003200, 0x00003a00, 0x00000a00, - 0x00004900, 0x00000600, 0x00002400, 0x00005c00, - 0x0000c200, 0x0000d300, 0x0000ac00, 0x00006200, - 0x00009100, 0x00009500, 0x0000e400, 0x00007900, - 0x0000e700, 0x0000c800, 0x00003700, 0x00006d00, - 0x00008d00, 0x0000d500, 0x00004e00, 0x0000a900, - 0x00006c00, 0x00005600, 0x0000f400, 0x0000ea00, - 0x00006500, 0x00007a00, 0x0000ae00, 0x00000800, - 0x0000ba00, 0x00007800, 0x00002500, 0x00002e00, - 0x00001c00, 0x0000a600, 0x0000b400, 0x0000c600, - 0x0000e800, 0x0000dd00, 0x00007400, 0x00001f00, - 0x00004b00, 0x0000bd00, 0x00008b00, 0x00008a00, - 0x00007000, 0x00003e00, 0x0000b500, 0x00006600, - 0x00004800, 0x00000300, 0x0000f600, 0x00000e00, - 0x00006100, 0x00003500, 0x00005700, 0x0000b900, - 0x00008600, 0x0000c100, 0x00001d00, 0x00009e00, - 0x0000e100, 0x0000f800, 0x00009800, 0x00001100, - 0x00006900, 0x0000d900, 0x00008e00, 0x00009400, - 0x00009b00, 0x00001e00, 0x00008700, 0x0000e900, - 0x0000ce00, 0x00005500, 0x00002800, 0x0000df00, - 0x00008c00, 0x0000a100, 0x00008900, 0x00000d00, - 0x0000bf00, 0x0000e600, 0x00004200, 0x00006800, - 0x00004100, 0x00009900, 0x00002d00, 0x00000f00, - 0x0000b000, 0x00005400, 0x0000bb00, 0x00001600 -}, { - 0x00630000, 0x007c0000, 0x00770000, 0x007b0000, - 0x00f20000, 0x006b0000, 0x006f0000, 0x00c50000, - 0x00300000, 0x00010000, 0x00670000, 0x002b0000, - 0x00fe0000, 0x00d70000, 0x00ab0000, 0x00760000, - 0x00ca0000, 0x00820000, 0x00c90000, 0x007d0000, - 0x00fa0000, 0x00590000, 0x00470000, 0x00f00000, - 0x00ad0000, 0x00d40000, 0x00a20000, 0x00af0000, - 0x009c0000, 0x00a40000, 0x00720000, 0x00c00000, - 0x00b70000, 0x00fd0000, 0x00930000, 0x00260000, - 0x00360000, 0x003f0000, 0x00f70000, 0x00cc0000, - 0x00340000, 0x00a50000, 0x00e50000, 0x00f10000, - 0x00710000, 0x00d80000, 0x00310000, 0x00150000, - 0x00040000, 0x00c70000, 0x00230000, 0x00c30000, - 0x00180000, 0x00960000, 0x00050000, 0x009a0000, - 0x00070000, 0x00120000, 0x00800000, 0x00e20000, - 0x00eb0000, 0x00270000, 0x00b20000, 0x00750000, - 0x00090000, 0x00830000, 0x002c0000, 0x001a0000, - 0x001b0000, 0x006e0000, 0x005a0000, 0x00a00000, - 0x00520000, 0x003b0000, 0x00d60000, 0x00b30000, - 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0x00de0000, 0x005e0000, 0x000b0000, 0x00db0000, - 0x00e00000, 0x00320000, 0x003a0000, 0x000a0000, - 0x00490000, 0x00060000, 0x00240000, 0x005c0000, - 0x00c20000, 0x00d30000, 0x00ac0000, 0x00620000, - 0x00910000, 0x00950000, 0x00e40000, 0x00790000, - 0x00e70000, 0x00c80000, 0x00370000, 0x006d0000, - 0x008d0000, 0x00d50000, 0x004e0000, 0x00a90000, - 0x006c0000, 0x00560000, 0x00f40000, 0x00ea0000, - 0x00650000, 0x007a0000, 0x00ae0000, 0x00080000, - 0x00ba0000, 0x00780000, 0x00250000, 0x002e0000, - 0x001c0000, 0x00a60000, 0x00b40000, 0x00c60000, - 0x00e80000, 0x00dd0000, 0x00740000, 0x001f0000, - 0x004b0000, 0x00bd0000, 0x008b0000, 0x008a0000, - 0x00700000, 0x003e0000, 0x00b50000, 0x00660000, - 0x00480000, 0x00030000, 0x00f60000, 0x000e0000, - 0x00610000, 0x00350000, 0x00570000, 0x00b90000, - 0x00860000, 0x00c10000, 0x001d0000, 0x009e0000, - 0x00e10000, 0x00f80000, 0x00980000, 0x00110000, - 0x00690000, 0x00d90000, 0x008e0000, 0x00940000, - 0x009b0000, 0x001e0000, 0x00870000, 0x00e90000, - 0x00ce0000, 0x00550000, 0x00280000, 0x00df0000, - 0x008c0000, 0x00a10000, 0x00890000, 0x000d0000, - 0x00bf0000, 0x00e60000, 0x00420000, 0x00680000, - 0x00410000, 0x00990000, 0x002d0000, 0x000f0000, - 0x00b00000, 0x00540000, 0x00bb0000, 0x00160000 -}, { - 0x63000000, 0x7c000000, 0x77000000, 0x7b000000, - 0xf2000000, 0x6b000000, 0x6f000000, 0xc5000000, - 0x30000000, 0x01000000, 0x67000000, 0x2b000000, - 0xfe000000, 0xd7000000, 0xab000000, 0x76000000, - 0xca000000, 0x82000000, 0xc9000000, 0x7d000000, - 0xfa000000, 0x59000000, 0x47000000, 0xf0000000, - 0xad000000, 0xd4000000, 0xa2000000, 0xaf000000, - 0x9c000000, 0xa4000000, 0x72000000, 0xc0000000, - 0xb7000000, 0xfd000000, 0x93000000, 0x26000000, - 0x36000000, 0x3f000000, 0xf7000000, 0xcc000000, - 0x34000000, 0xa5000000, 0xe5000000, 0xf1000000, - 0x71000000, 0xd8000000, 0x31000000, 0x15000000, - 0x04000000, 0xc7000000, 0x23000000, 0xc3000000, - 0x18000000, 0x96000000, 0x05000000, 0x9a000000, - 0x07000000, 0x12000000, 0x80000000, 0xe2000000, - 0xeb000000, 0x27000000, 0xb2000000, 0x75000000, - 0x09000000, 0x83000000, 0x2c000000, 0x1a000000, - 0x1b000000, 0x6e000000, 0x5a000000, 0xa0000000, - 0x52000000, 0x3b000000, 0xd6000000, 0xb3000000, - 0x29000000, 0xe3000000, 0x2f000000, 0x84000000, - 0x53000000, 0xd1000000, 0x00000000, 0xed000000, - 0x20000000, 0xfc000000, 0xb1000000, 0x5b000000, - 0x6a000000, 0xcb000000, 0xbe000000, 0x39000000, - 0x4a000000, 0x4c000000, 0x58000000, 0xcf000000, - 0xd0000000, 0xef000000, 0xaa000000, 0xfb000000, - 0x43000000, 0x4d000000, 0x33000000, 0x85000000, - 0x45000000, 0xf9000000, 0x02000000, 0x7f000000, - 0x50000000, 0x3c000000, 0x9f000000, 0xa8000000, - 0x51000000, 0xa3000000, 0x40000000, 0x8f000000, - 0x92000000, 0x9d000000, 0x38000000, 0xf5000000, - 0xbc000000, 0xb6000000, 0xda000000, 0x21000000, - 0x10000000, 0xff000000, 0xf3000000, 0xd2000000, - 0xcd000000, 0x0c000000, 0x13000000, 0xec000000, - 0x5f000000, 0x97000000, 0x44000000, 0x17000000, - 0xc4000000, 0xa7000000, 0x7e000000, 0x3d000000, - 0x64000000, 0x5d000000, 0x19000000, 0x73000000, - 0x60000000, 0x81000000, 0x4f000000, 0xdc000000, - 0x22000000, 0x2a000000, 0x90000000, 0x88000000, - 0x46000000, 0xee000000, 0xb8000000, 0x14000000, - 0xde000000, 0x5e000000, 0x0b000000, 0xdb000000, - 0xe0000000, 0x32000000, 0x3a000000, 0x0a000000, - 0x49000000, 0x06000000, 0x24000000, 0x5c000000, - 0xc2000000, 0xd3000000, 0xac000000, 0x62000000, - 0x91000000, 0x95000000, 0xe4000000, 0x79000000, - 0xe7000000, 0xc8000000, 0x37000000, 0x6d000000, - 0x8d000000, 0xd5000000, 0x4e000000, 0xa9000000, - 0x6c000000, 0x56000000, 0xf4000000, 0xea000000, - 0x65000000, 0x7a000000, 0xae000000, 0x08000000, - 0xba000000, 0x78000000, 0x25000000, 0x2e000000, - 0x1c000000, 0xa6000000, 0xb4000000, 0xc6000000, - 0xe8000000, 0xdd000000, 0x74000000, 0x1f000000, - 0x4b000000, 0xbd000000, 0x8b000000, 0x8a000000, - 0x70000000, 0x3e000000, 0xb5000000, 0x66000000, - 0x48000000, 0x03000000, 0xf6000000, 0x0e000000, - 0x61000000, 0x35000000, 0x57000000, 0xb9000000, - 0x86000000, 0xc1000000, 0x1d000000, 0x9e000000, - 0xe1000000, 0xf8000000, 0x98000000, 0x11000000, - 0x69000000, 0xd9000000, 0x8e000000, 0x94000000, - 0x9b000000, 0x1e000000, 0x87000000, 0xe9000000, - 0xce000000, 0x55000000, 0x28000000, 0xdf000000, - 0x8c000000, 0xa1000000, 0x89000000, 0x0d000000, - 0xbf000000, 0xe6000000, 0x42000000, 0x68000000, - 0x41000000, 0x99000000, 0x2d000000, 0x0f000000, - 0xb0000000, 0x54000000, 0xbb000000, 0x16000000 -} -}; - -static const u4byte il_tab[4][256] = { -{ - 0x00000052, 0x00000009, 0x0000006a, 0x000000d5, - 0x00000030, 0x00000036, 0x000000a5, 0x00000038, - 0x000000bf, 0x00000040, 0x000000a3, 0x0000009e, - 0x00000081, 0x000000f3, 0x000000d7, 0x000000fb, - 0x0000007c, 0x000000e3, 0x00000039, 0x00000082, - 0x0000009b, 0x0000002f, 0x000000ff, 0x00000087, - 0x00000034, 0x0000008e, 0x00000043, 0x00000044, - 0x000000c4, 0x000000de, 0x000000e9, 0x000000cb, - 0x00000054, 0x0000007b, 0x00000094, 0x00000032, - 0x000000a6, 0x000000c2, 0x00000023, 0x0000003d, - 0x000000ee, 0x0000004c, 0x00000095, 0x0000000b, - 0x00000042, 0x000000fa, 0x000000c3, 0x0000004e, - 0x00000008, 0x0000002e, 0x000000a1, 0x00000066, - 0x00000028, 0x000000d9, 0x00000024, 0x000000b2, - 0x00000076, 0x0000005b, 0x000000a2, 0x00000049, - 0x0000006d, 0x0000008b, 0x000000d1, 0x00000025, - 0x00000072, 0x000000f8, 0x000000f6, 0x00000064, - 0x00000086, 0x00000068, 0x00000098, 0x00000016, - 0x000000d4, 0x000000a4, 0x0000005c, 0x000000cc, - 0x0000005d, 0x00000065, 0x000000b6, 0x00000092, - 0x0000006c, 0x00000070, 0x00000048, 0x00000050, - 0x000000fd, 0x000000ed, 0x000000b9, 0x000000da, - 0x0000005e, 0x00000015, 0x00000046, 0x00000057, - 0x000000a7, 0x0000008d, 0x0000009d, 0x00000084, - 0x00000090, 0x000000d8, 0x000000ab, 0x00000000, - 0x0000008c, 0x000000bc, 0x000000d3, 0x0000000a, - 0x000000f7, 0x000000e4, 0x00000058, 0x00000005, - 0x000000b8, 0x000000b3, 0x00000045, 0x00000006, - 0x000000d0, 0x0000002c, 0x0000001e, 0x0000008f, - 0x000000ca, 0x0000003f, 0x0000000f, 0x00000002, - 0x000000c1, 0x000000af, 0x000000bd, 0x00000003, - 0x00000001, 0x00000013, 0x0000008a, 0x0000006b, - 0x0000003a, 0x00000091, 0x00000011, 0x00000041, - 0x0000004f, 0x00000067, 0x000000dc, 0x000000ea, - 0x00000097, 0x000000f2, 0x000000cf, 0x000000ce, - 0x000000f0, 0x000000b4, 0x000000e6, 0x00000073, - 0x00000096, 0x000000ac, 0x00000074, 0x00000022, - 0x000000e7, 0x000000ad, 0x00000035, 0x00000085, - 0x000000e2, 0x000000f9, 0x00000037, 0x000000e8, - 0x0000001c, 0x00000075, 0x000000df, 0x0000006e, - 0x00000047, 0x000000f1, 0x0000001a, 0x00000071, - 0x0000001d, 0x00000029, 0x000000c5, 0x00000089, - 0x0000006f, 0x000000b7, 0x00000062, 0x0000000e, - 0x000000aa, 0x00000018, 0x000000be, 0x0000001b, - 0x000000fc, 0x00000056, 0x0000003e, 0x0000004b, - 0x000000c6, 0x000000d2, 0x00000079, 0x00000020, - 0x0000009a, 0x000000db, 0x000000c0, 0x000000fe, - 0x00000078, 0x000000cd, 0x0000005a, 0x000000f4, - 0x0000001f, 0x000000dd, 0x000000a8, 0x00000033, - 0x00000088, 0x00000007, 0x000000c7, 0x00000031, - 0x000000b1, 0x00000012, 0x00000010, 0x00000059, - 0x00000027, 0x00000080, 0x000000ec, 0x0000005f, - 0x00000060, 0x00000051, 0x0000007f, 0x000000a9, - 0x00000019, 0x000000b5, 0x0000004a, 0x0000000d, - 0x0000002d, 0x000000e5, 0x0000007a, 0x0000009f, - 0x00000093, 0x000000c9, 0x0000009c, 0x000000ef, - 0x000000a0, 0x000000e0, 0x0000003b, 0x0000004d, - 0x000000ae, 0x0000002a, 0x000000f5, 0x000000b0, - 0x000000c8, 0x000000eb, 0x000000bb, 0x0000003c, - 0x00000083, 0x00000053, 0x00000099, 0x00000061, - 0x00000017, 0x0000002b, 0x00000004, 0x0000007e, - 0x000000ba, 0x00000077, 0x000000d6, 0x00000026, - 0x000000e1, 0x00000069, 0x00000014, 0x00000063, - 0x00000055, 0x00000021, 0x0000000c, 0x0000007d -}, { - 0x00005200, 0x00000900, 0x00006a00, 0x0000d500, - 0x00003000, 0x00003600, 0x0000a500, 0x00003800, - 0x0000bf00, 0x00004000, 0x0000a300, 0x00009e00, - 0x00008100, 0x0000f300, 0x0000d700, 0x0000fb00, - 0x00007c00, 0x0000e300, 0x00003900, 0x00008200, - 0x00009b00, 0x00002f00, 0x0000ff00, 0x00008700, - 0x00003400, 0x00008e00, 0x00004300, 0x00004400, - 0x0000c400, 0x0000de00, 0x0000e900, 0x0000cb00, - 0x00005400, 0x00007b00, 0x00009400, 0x00003200, - 0x0000a600, 0x0000c200, 0x00002300, 0x00003d00, - 0x0000ee00, 0x00004c00, 0x00009500, 0x00000b00, - 0x00004200, 0x0000fa00, 0x0000c300, 0x00004e00, - 0x00000800, 0x00002e00, 0x0000a100, 0x00006600, - 0x00002800, 0x0000d900, 0x00002400, 0x0000b200, - 0x00007600, 0x00005b00, 0x0000a200, 0x00004900, - 0x00006d00, 0x00008b00, 0x0000d100, 0x00002500, - 0x00007200, 0x0000f800, 0x0000f600, 0x00006400, - 0x00008600, 0x00006800, 0x00009800, 0x00001600, - 0x0000d400, 0x0000a400, 0x00005c00, 0x0000cc00, - 0x00005d00, 0x00006500, 0x0000b600, 0x00009200, - 0x00006c00, 0x00007000, 0x00004800, 0x00005000, - 0x0000fd00, 0x0000ed00, 0x0000b900, 0x0000da00, - 0x00005e00, 0x00001500, 0x00004600, 0x00005700, - 0x0000a700, 0x00008d00, 0x00009d00, 0x00008400, - 0x00009000, 0x0000d800, 0x0000ab00, 0x00000000, - 0x00008c00, 0x0000bc00, 0x0000d300, 0x00000a00, - 0x0000f700, 0x0000e400, 0x00005800, 0x00000500, - 0x0000b800, 0x0000b300, 0x00004500, 0x00000600, - 0x0000d000, 0x00002c00, 0x00001e00, 0x00008f00, - 0x0000ca00, 0x00003f00, 0x00000f00, 0x00000200, - 0x0000c100, 0x0000af00, 0x0000bd00, 0x00000300, - 0x00000100, 0x00001300, 0x00008a00, 0x00006b00, - 0x00003a00, 0x00009100, 0x00001100, 0x00004100, - 0x00004f00, 0x00006700, 0x0000dc00, 0x0000ea00, - 0x00009700, 0x0000f200, 0x0000cf00, 0x0000ce00, - 0x0000f000, 0x0000b400, 0x0000e600, 0x00007300, - 0x00009600, 0x0000ac00, 0x00007400, 0x00002200, - 0x0000e700, 0x0000ad00, 0x00003500, 0x00008500, - 0x0000e200, 0x0000f900, 0x00003700, 0x0000e800, - 0x00001c00, 0x00007500, 0x0000df00, 0x00006e00, - 0x00004700, 0x0000f100, 0x00001a00, 0x00007100, - 0x00001d00, 0x00002900, 0x0000c500, 0x00008900, - 0x00006f00, 0x0000b700, 0x00006200, 0x00000e00, - 0x0000aa00, 0x00001800, 0x0000be00, 0x00001b00, - 0x0000fc00, 0x00005600, 0x00003e00, 0x00004b00, - 0x0000c600, 0x0000d200, 0x00007900, 0x00002000, - 0x00009a00, 0x0000db00, 0x0000c000, 0x0000fe00, - 0x00007800, 0x0000cd00, 0x00005a00, 0x0000f400, - 0x00001f00, 0x0000dd00, 0x0000a800, 0x00003300, - 0x00008800, 0x00000700, 0x0000c700, 0x00003100, - 0x0000b100, 0x00001200, 0x00001000, 0x00005900, - 0x00002700, 0x00008000, 0x0000ec00, 0x00005f00, - 0x00006000, 0x00005100, 0x00007f00, 0x0000a900, - 0x00001900, 0x0000b500, 0x00004a00, 0x00000d00, - 0x00002d00, 0x0000e500, 0x00007a00, 0x00009f00, - 0x00009300, 0x0000c900, 0x00009c00, 0x0000ef00, - 0x0000a000, 0x0000e000, 0x00003b00, 0x00004d00, - 0x0000ae00, 0x00002a00, 0x0000f500, 0x0000b000, - 0x0000c800, 0x0000eb00, 0x0000bb00, 0x00003c00, - 0x00008300, 0x00005300, 0x00009900, 0x00006100, - 0x00001700, 0x00002b00, 0x00000400, 0x00007e00, - 0x0000ba00, 0x00007700, 0x0000d600, 0x00002600, - 0x0000e100, 0x00006900, 0x00001400, 0x00006300, - 0x00005500, 0x00002100, 0x00000c00, 0x00007d00 -}, { - 0x00520000, 0x00090000, 0x006a0000, 0x00d50000, - 0x00300000, 0x00360000, 0x00a50000, 0x00380000, - 0x00bf0000, 0x00400000, 0x00a30000, 0x009e0000, - 0x00810000, 0x00f30000, 0x00d70000, 0x00fb0000, - 0x007c0000, 0x00e30000, 0x00390000, 0x00820000, - 0x009b0000, 0x002f0000, 0x00ff0000, 0x00870000, - 0x00340000, 0x008e0000, 0x00430000, 0x00440000, - 0x00c40000, 0x00de0000, 0x00e90000, 0x00cb0000, - 0x00540000, 0x007b0000, 0x00940000, 0x00320000, - 0x00a60000, 0x00c20000, 0x00230000, 0x003d0000, - 0x00ee0000, 0x004c0000, 0x00950000, 0x000b0000, - 0x00420000, 0x00fa0000, 0x00c30000, 0x004e0000, - 0x00080000, 0x002e0000, 0x00a10000, 0x00660000, - 0x00280000, 0x00d90000, 0x00240000, 0x00b20000, - 0x00760000, 0x005b0000, 0x00a20000, 0x00490000, - 0x006d0000, 0x008b0000, 0x00d10000, 0x00250000, - 0x00720000, 0x00f80000, 0x00f60000, 0x00640000, - 0x00860000, 0x00680000, 0x00980000, 0x00160000, - 0x00d40000, 0x00a40000, 0x005c0000, 0x00cc0000, - 0x005d0000, 0x00650000, 0x00b60000, 0x00920000, - 0x006c0000, 0x00700000, 0x00480000, 0x00500000, - 0x00fd0000, 0x00ed0000, 0x00b90000, 0x00da0000, - 0x005e0000, 0x00150000, 0x00460000, 0x00570000, - 0x00a70000, 0x008d0000, 0x009d0000, 0x00840000, - 0x00900000, 0x00d80000, 0x00ab0000, 0x00000000, - 0x008c0000, 0x00bc0000, 0x00d30000, 0x000a0000, - 0x00f70000, 0x00e40000, 0x00580000, 0x00050000, - 0x00b80000, 0x00b30000, 0x00450000, 0x00060000, - 0x00d00000, 0x002c0000, 0x001e0000, 0x008f0000, - 0x00ca0000, 0x003f0000, 0x000f0000, 0x00020000, - 0x00c10000, 0x00af0000, 0x00bd0000, 0x00030000, - 0x00010000, 0x00130000, 0x008a0000, 0x006b0000, - 0x003a0000, 0x00910000, 0x00110000, 0x00410000, - 0x004f0000, 0x00670000, 0x00dc0000, 0x00ea0000, - 0x00970000, 0x00f20000, 0x00cf0000, 0x00ce0000, - 0x00f00000, 0x00b40000, 0x00e60000, 0x00730000, - 0x00960000, 0x00ac0000, 0x00740000, 0x00220000, - 0x00e70000, 0x00ad0000, 0x00350000, 0x00850000, - 0x00e20000, 0x00f90000, 0x00370000, 0x00e80000, - 0x001c0000, 0x00750000, 0x00df0000, 0x006e0000, - 0x00470000, 0x00f10000, 0x001a0000, 0x00710000, - 0x001d0000, 0x00290000, 0x00c50000, 0x00890000, - 0x006f0000, 0x00b70000, 0x00620000, 0x000e0000, - 0x00aa0000, 0x00180000, 0x00be0000, 0x001b0000, - 0x00fc0000, 0x00560000, 0x003e0000, 0x004b0000, - 0x00c60000, 0x00d20000, 0x00790000, 0x00200000, - 0x009a0000, 0x00db0000, 0x00c00000, 0x00fe0000, - 0x00780000, 0x00cd0000, 0x005a0000, 0x00f40000, - 0x001f0000, 0x00dd0000, 0x00a80000, 0x00330000, - 0x00880000, 0x00070000, 0x00c70000, 0x00310000, - 0x00b10000, 0x00120000, 0x00100000, 0x00590000, - 0x00270000, 0x00800000, 0x00ec0000, 0x005f0000, - 0x00600000, 0x00510000, 0x007f0000, 0x00a90000, - 0x00190000, 0x00b50000, 0x004a0000, 0x000d0000, - 0x002d0000, 0x00e50000, 0x007a0000, 0x009f0000, - 0x00930000, 0x00c90000, 0x009c0000, 0x00ef0000, - 0x00a00000, 0x00e00000, 0x003b0000, 0x004d0000, - 0x00ae0000, 0x002a0000, 0x00f50000, 0x00b00000, - 0x00c80000, 0x00eb0000, 0x00bb0000, 0x003c0000, - 0x00830000, 0x00530000, 0x00990000, 0x00610000, - 0x00170000, 0x002b0000, 0x00040000, 0x007e0000, - 0x00ba0000, 0x00770000, 0x00d60000, 0x00260000, - 0x00e10000, 0x00690000, 0x00140000, 0x00630000, - 0x00550000, 0x00210000, 0x000c0000, 0x007d0000 -}, { - 0x52000000, 0x09000000, 0x6a000000, 0xd5000000, - 0x30000000, 0x36000000, 0xa5000000, 0x38000000, - 0xbf000000, 0x40000000, 0xa3000000, 0x9e000000, - 0x81000000, 0xf3000000, 0xd7000000, 0xfb000000, - 0x7c000000, 0xe3000000, 0x39000000, 0x82000000, - 0x9b000000, 0x2f000000, 0xff000000, 0x87000000, - 0x34000000, 0x8e000000, 0x43000000, 0x44000000, - 0xc4000000, 0xde000000, 0xe9000000, 0xcb000000, - 0x54000000, 0x7b000000, 0x94000000, 0x32000000, - 0xa6000000, 0xc2000000, 0x23000000, 0x3d000000, - 0xee000000, 0x4c000000, 0x95000000, 0x0b000000, - 0x42000000, 0xfa000000, 0xc3000000, 0x4e000000, - 0x08000000, 0x2e000000, 0xa1000000, 0x66000000, - 0x28000000, 0xd9000000, 0x24000000, 0xb2000000, - 0x76000000, 0x5b000000, 0xa2000000, 0x49000000, - 0x6d000000, 0x8b000000, 0xd1000000, 0x25000000, - 0x72000000, 0xf8000000, 0xf6000000, 0x64000000, - 0x86000000, 0x68000000, 0x98000000, 0x16000000, - 0xd4000000, 0xa4000000, 0x5c000000, 0xcc000000, - 0x5d000000, 0x65000000, 0xb6000000, 0x92000000, - 0x6c000000, 0x70000000, 0x48000000, 0x50000000, - 0xfd000000, 0xed000000, 0xb9000000, 0xda000000, - 0x5e000000, 0x15000000, 0x46000000, 0x57000000, - 0xa7000000, 0x8d000000, 0x9d000000, 0x84000000, - 0x90000000, 0xd8000000, 0xab000000, 0x00000000, - 0x8c000000, 0xbc000000, 0xd3000000, 0x0a000000, - 0xf7000000, 0xe4000000, 0x58000000, 0x05000000, - 0xb8000000, 0xb3000000, 0x45000000, 0x06000000, - 0xd0000000, 0x2c000000, 0x1e000000, 0x8f000000, - 0xca000000, 0x3f000000, 0x0f000000, 0x02000000, - 0xc1000000, 0xaf000000, 0xbd000000, 0x03000000, - 0x01000000, 0x13000000, 0x8a000000, 0x6b000000, - 0x3a000000, 0x91000000, 0x11000000, 0x41000000, - 0x4f000000, 0x67000000, 0xdc000000, 0xea000000, - 0x97000000, 0xf2000000, 0xcf000000, 0xce000000, - 0xf0000000, 0xb4000000, 0xe6000000, 0x73000000, - 0x96000000, 0xac000000, 0x74000000, 0x22000000, - 0xe7000000, 0xad000000, 0x35000000, 0x85000000, - 0xe2000000, 0xf9000000, 0x37000000, 0xe8000000, - 0x1c000000, 0x75000000, 0xdf000000, 0x6e000000, - 0x47000000, 0xf1000000, 0x1a000000, 0x71000000, - 0x1d000000, 0x29000000, 0xc5000000, 0x89000000, - 0x6f000000, 0xb7000000, 0x62000000, 0x0e000000, - 0xaa000000, 0x18000000, 0xbe000000, 0x1b000000, - 0xfc000000, 0x56000000, 0x3e000000, 0x4b000000, - 0xc6000000, 0xd2000000, 0x79000000, 0x20000000, - 0x9a000000, 0xdb000000, 0xc0000000, 0xfe000000, - 0x78000000, 0xcd000000, 0x5a000000, 0xf4000000, - 0x1f000000, 0xdd000000, 0xa8000000, 0x33000000, - 0x88000000, 0x07000000, 0xc7000000, 0x31000000, - 0xb1000000, 0x12000000, 0x10000000, 0x59000000, - 0x27000000, 0x80000000, 0xec000000, 0x5f000000, - 0x60000000, 0x51000000, 0x7f000000, 0xa9000000, - 0x19000000, 0xb5000000, 0x4a000000, 0x0d000000, - 0x2d000000, 0xe5000000, 0x7a000000, 0x9f000000, - 0x93000000, 0xc9000000, 0x9c000000, 0xef000000, - 0xa0000000, 0xe0000000, 0x3b000000, 0x4d000000, - 0xae000000, 0x2a000000, 0xf5000000, 0xb0000000, - 0xc8000000, 0xeb000000, 0xbb000000, 0x3c000000, - 0x83000000, 0x53000000, 0x99000000, 0x61000000, - 0x17000000, 0x2b000000, 0x04000000, 0x7e000000, - 0xba000000, 0x77000000, 0xd6000000, 0x26000000, - 0xe1000000, 0x69000000, 0x14000000, 0x63000000, - 0x55000000, 0x21000000, 0x0c000000, 0x7d000000 -} -}; - -static const u4byte rco_tab[10] = { - 0x00000001, 0x00000002, 0x00000004, 0x00000008, 0x00000010, - 0x00000020, 0x00000040, 0x00000080, 0x0000001b, 0x00000036 -}; diff --git a/doc/src/sgml/pgcrypto.sgml b/doc/src/sgml/pgcrypto.sgml index 648703cbc7..5906401145 100644 --- a/doc/src/sgml/pgcrypto.sgml +++ b/doc/src/sgml/pgcrypto.sgml @@ -44,9 +44,8 @@ <function>digest()</function> Standard algorithms are md5, sha1, sha224, sha256, sha384 and sha512. - If pgcrypto was built with - OpenSSL, more algorithms are available, as - detailed in . + Moreover, any digest algorithm OpenSSL supports + is automatically picked up. @@ -764,7 +763,7 @@ cipher-algo Which cipher algorithm to use. -Values: bf, aes128, aes192, aes256 (OpenSSL-only: 3des, cast5) +Values: bf, aes128, aes192, aes256, 3des, cast5 Default: aes128 Applies to: pgp_sym_encrypt, pgp_pub_encrypt @@ -1163,98 +1162,16 @@ Configuration - When compiled with OpenSSL, there will be - more algorithms available. Also public-key encryption functions will - be faster as OpenSSL has more optimized - BIGNUM functions. + pgcrypto requires OpenSSL. + Otherwise, it will not be built or installed. - - Summary of Functionality with and without OpenSSL - - - - Functionality - Built-in - With OpenSSL - - - - - MD5 - yes - yes - - - SHA1 - yes - yes - - - SHA224/256/384/512 - yes - yes - - - Other digest algorithms - no - yes (Note 1) - - - Blowfish - yes - yes - - - AES - yes - yes - - - DES/3DES/CAST5 - no - yes - - - Raw encryption - yes - yes - - - PGP Symmetric encryption - yes - yes - - - PGP Public-Key encryption - yes - yes - - - -
- When compiled against OpenSSL 3.0.0 and later versions, the legacy provider must be activated in the openssl.cnf configuration file in order to use older ciphers like DES or Blowfish. - - - Notes: - - - - - - Any digest algorithm OpenSSL supports - is automatically picked up. - This is not possible with ciphers, which need to be supported - explicitly. - - - @@ -1401,21 +1318,6 @@ Author Solar Designer www.openwall.com - - Blowfish cipher - Simon Tatham - PuTTY - - - Rijndael cipher - Brian Gladman - OpenBSD sys/crypto - - - BIGNUM math - Michael J. Fromberger - dartmouth.edu/~sting/sw/imath - diff --git a/src/tools/msvc/Mkvcbuild.pm b/src/tools/msvc/Mkvcbuild.pm index 4362bd44fd..e1243b5a7e 100644 --- a/src/tools/msvc/Mkvcbuild.pm +++ b/src/tools/msvc/Mkvcbuild.pm @@ -465,19 +465,8 @@ sub mkvcbuild 'pgp-pubdec.c', 'pgp-pubenc.c', 'pgp-pubkey.c', 'pgp-s2k.c', 'pgp-pgsql.c'); - if ($solution->{options}->{openssl}) - { - $pgcrypto->AddFiles('contrib/pgcrypto', 'openssl.c', - 'pgp-mpi-openssl.c'); - } - else - { - $pgcrypto->AddFiles( - 'contrib/pgcrypto', 'internal.c', - 'internal-sha2.c', 'blf.c', - 'rijndael.c', 'pgp-mpi-internal.c', - 'imath.c'); - } + $pgcrypto->AddFiles('contrib/pgcrypto', 'openssl.c', + 'pgp-mpi-openssl.c'); $pgcrypto->AddReference($postgres); $pgcrypto->AddLibrary('ws2_32.lib'); my $mf = Project::read_file('contrib/pgcrypto/Makefile'); diff --git a/src/tools/msvc/vcregress.pl b/src/tools/msvc/vcregress.pl index fc826da3ff..e3a323b8bf 100644 --- a/src/tools/msvc/vcregress.pl +++ b/src/tools/msvc/vcregress.pl @@ -730,9 +730,7 @@ sub fetchTests # configuration of the build my $cftests = - $config->{openssl} - ? GetTests("OSSL_TESTS", $m) - : GetTests("INT_TESTS", $m); + GetTests("OSSL_TESTS", $m); my $pgptests = $config->{zlib} ? GetTests("ZLIB_TST", $m) -- 2.33.1