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gecko-dev/security/nss/lib/freebl/mpi/mpi-test.c

1693 строки
45 KiB
C
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/*
* mpi-test.c
*
* This is a general test suite for the MPI library, which tests
* all the functions in the library with known values. The program
* exits with a zero (successful) status if the tests pass, or a
* nonzero status if the tests fail.
*
* The contents of this file are subject to the Mozilla Public
* License Version 1.1 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code is the MPI Arbitrary Precision Integer Arithmetic
* library.
*
* The Initial Developer of the Original Code is Michael J. Fromberger.
* Portions created by Michael J. Fromberger are
* Copyright (C) 1999, 2000 Michael J. Fromberger.
* All Rights Reserved.
*
* Contributor(s):
* Netscape Communications Corporation
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU General Public License Version 2 or later (the
* "GPL"), in which case the provisions of the GPL are applicable
* instead of those above. If you wish to allow use of your
* version of this file only under the terms of the GPL and not to
* allow others to use your version of this file under the MPL,
* indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by
* the GPL. If you do not delete the provisions above, a recipient
* may use your version of this file under either the MPL or the GPL.
*
* $Id: mpi-test.c,v 1.5 2000/08/29 04:26:23 nelsonb%netscape.com Exp $
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <limits.h>
#include <time.h>
#include "mpi.h"
#include "mpprime.h"
#include "test-info.c"
/*
Test vectors
If you intend to change any of these values, you must also recompute
the corresponding solutions below. Basically, these are just hex
strings (for the big integers) or integer values (for the digits).
The comparison tests think they know what relationships hold between
these values. If you change that, you may have to adjust the code
for the comparison tests accordingly. Most of the other tests
should be fine as long as you re-compute the solutions, though.
*/
char *mp1 = "639A868CDA0C569861B";
char *mp2 = "AAFC0A3FE45E5E09DBE2C29";
char *mp3 = "B55AA8DF8A7E83241F38AC7A9E479CAEF2E4D7C5";
char *mp4 = "-63DBC2265B88268DC801C10EA68476B7BDE0090F";
char *mp5 = "F595CB42";
char *mp5a = "-4B597E";
char *mp6 = "0";
char *mp7 = "EBFA7121CD838CE6439CC59DDB4CBEF3";
char *mp8 = "5";
char *mp9 = "F74A2876A1432698923B0767DA19DCF3D71795EE";
char *mp10 = "9184E72A000";
char *mp11 = "54D79A3557E8";
char *mp12 = "10000000000000000";
char *mp13 =
"34584F700C15A341E40BF7BFDD88A6630C8FF2B2067469372D391342BDAB6163963C"
"D5A5C79F708BDE26E0CCF2DB66CD6D6089E29A877C45F2B050D226E6DA88";
char *mp14 =
"AC3FA0EABAAC45724814D798942A1E28E14C81E0DE8055CED630E7689DA648683645DB6E"
"458D9F5338CC3D4E33A5D1C9BF42780133599E60DEE0049AFA8F9489501AE5C9AA2B8C13"
"FD21285A538B2CA87A626BB56E0A654C8707535E637FF4E39174157402BDE3AA30C9F134"
"0C1307BAA864B075A9CC828B6A5E2B2BF1AE406D920CC5E7657D7C0E697DEE5375773AF9"
"E200A1B8FAD7CD141F9EE47ABB55511FEB9A4D99EBA22F3A3FF6792FA7EE9E5DC0EE94F7"
"7A631EDF3D7DD7C2DAAAFDF234D60302AB63D5234CEAE941B9AF0ADDD9E6E3A940A94EE5"
"5DB45A7C66E61EDD0477419BBEFA44C325129601C4F45671C6A0E64665DF341D17FBC71F"
"77418BD9F4375DDB3B9D56126526D8E5E0F35A121FD4F347013DA880020A752324F31DDD"
"9BCDB13A3B86E207A2DE086825E6EEB87B3A64232CFD8205B799BC018634AAE193F19531"
"D6EBC19A75F27CFFAA03EB5974898F53FD569AA5CE60F431B53B0CDE715A5F382405C9C4"
"761A8E24888328F09F7BCE4E8D80C957DF177629C8421ACCD0C268C63C0DD47C3C0D954F"
"D79F7D7297C6788DF4B3E51381759864D880ACA246DF09533739B8BB6085EAF7AE8DC2D9"
"F224E6874926C8D24D34B457FD2C9A586C6B99582DC24F787A39E3942786CF1D494B6EB4"
"A513498CDA0B217C4E80BCE7DA1C704C35E071AC21E0DA9F57C27C3533F46A8D20B04137"
"C1B1384BE4B2EB46";
char *mp15 =
"39849CF7FD65AF2E3C4D87FE5526221103D90BA26A6642FFE3C3ECC0887BBBC57E011BF1"
"05D822A841653509C68F79EBE51C0099B8CBB04DEF31F36F5954208A3209AC122F0E11D8"
"4AE67A494D78336A2066D394D42E27EF6B03DDAF6D69F5112C93E714D27C94F82FC7EF77"
"445768C68EAE1C4A1407BE1B303243391D325090449764AE469CC53EC8012C4C02A72F37"
"07ED7275D2CC8D0A14B5BCC6BF264941520EBA97E3E6BAE4EE8BC87EE0DDA1F5611A6ECB"
"65F8AEF4F184E10CADBDFA5A2FEF828901D18C20785E5CC63473D638762DA80625003711"
"9E984AC43E707915B133543AF9D5522C3E7180DC58E1E5381C1FB7DC6A5F4198F3E88FA6"
"CBB6DFA8B2D1C763226B253E18BCCB79A29EE82D2DE735078C8AE3C3C86D476AAA08434C"
"09C274BDD40A1D8FDE38D6536C22F44E807EB73DE4FB36C9F51E0BC835DDBE3A8EFCF2FE"
"672B525769DC39230EE624D5EEDBD837C82A52E153F37378C3AD68A81A7ADBDF3345DBCE"
"8FA18CA1DE618EF94DF72EAD928D4F45B9E51632ACF158CF8332C51891D1D12C2A7E6684"
"360C4BF177C952579A9F442CFFEC8DAE4821A8E7A31C4861D8464CA9116C60866C5E72F7"
"434ADBED36D54ACDFDFF70A4EFB46E285131FE725F1C637D1C62115EDAD01C4189716327"
"BFAA79618B1656CBFA22C2C965687D0381CC2FE0245913C4D8D96108213680BD8E93E821"
"822AD9DDBFE4BD04";
char *mp16 = "4A724340668DB150339A70";
char *mp17 = "8ADB90F58";
char *mp18 = "C64C230AB20E5";
mp_digit md1 = 0;
mp_digit md2 = 0x1;
mp_digit md3 = 0x80;
mp_digit md4 = 0x9C97;
mp_digit md5 = 0xF5BF;
mp_digit md6 = 0x14A0;
mp_digit md7 = 0x03E8;
mp_digit md8 = 0x0101;
mp_digit md9 = 0xA;
/*
Solutions of the form x_mpABC, where:
x = (p)roduct, (s)um, (d)ifference, (q)uotient, (r)emainder, (g)cd,
(i)nverse, (e)xponent, square roo(t), (g)cd, (l)cm. A
leading 'm' indicates a modular operation, e.g. ms_mp12 is the
modular sum of operands 1 and 2
ABC are the operand numbers involved in the computation. If a 'd'
precedes the number, it is a digit operand; if a 'c' precedes it,
it is a constant; otherwise, it is a full integer.
*/
char *p_mp12 = "4286AD72E095C9FE009938750743174ADDD7FD1E53";
char *p_mp34 = "-46BDBD66CA108C94A8CF46C325F7B6E2F2BA82D35"
"A1BFD6934C441EE369B60CA29BADC26845E918B";
char *p_mp57 = "E260C265A0A27C17AD5F4E59D6E0360217A2EBA6";
char *p_mp22 = "7233B5C1097FFC77CCF55928FDC3A5D31B712FDE7A1E91";
char *p_mp1d4 = "3CECEA2331F4220BEF68DED";
char *p_mp8d6 = "6720";
char *p_mp1113 =
"11590FC3831C8C3C51813142C88E566408DB04F9E27642F6471A1822E0100B12F7F1"
"5699A127C0FA9D26DCBFF458522661F30C6ADA4A07C8C90F9116893F6DBFBF24C3A2"
"4340";
char *p_mp1415 =
"26B36540DE8B3586699CCEAE218A2842C7D5A01590E70C4A26E789107FBCDB06AA2C"
"6DDC39E6FA18B16FCB2E934C9A5F844DAD60EE3B1EA82199EC5E9608F67F860FB965"
"736055DF0E8F2540EB28D07F47E309B5F5D7C94FF190AB9C83A6970160CA700B1081"
"F60518132AF28C6CEE6B7C473E461ABAC52C39CED50A08DD4E7EA8BA18DAD545126D"
"A388F6983C29B6BE3F9DCBC15766E8E6D626A92C5296A9C4653CAE5788350C0E2107"
"F57E5E8B6994C4847D727FF1A63A66A6CEF42B9C9E6BD04C92550B85D5527DE8A132"
"E6BE89341A9285C7CE7FB929D871BBCBD0ED2863B6B078B0DBB30FCA66D6C64284D6"
"57F394A0271E15B6EC7A9D530EBAC6CA262EF6F97E1A29FCE7749240E4AECA591ECF"
"272122BC587370F9371B67BB696B3CDC1BC8C5B64B6280994EBA00CDEB8EB0F5D06E"
"18F401D65FDCECF23DD7B9BB5B4C5458AEF2CCC09BA7F70EACB844750ACFD027521E"
"2E047DE8388B35F8512D3DA46FF1A12D4260213602BF7BFFDB6059439B1BD0676449"
"8D98C74F48FB3F548948D5BA0C8ECFCD054465132DC43466D6BBD59FBAF8D6D4E157"
"2D612B40A956C7D3E140F3B8562EF18568B24D335707D5BAC7495014DF2444172426"
"FD099DED560D30D1F945386604AFC85C64BD1E5F531F5C7840475FC0CF0F79810012"
"4572BAF5A9910CDBD02B27FFCC3C7E5E88EF59F3AE152476E33EDA696A4F751E0AE4"
"A3D2792DEA78E25B9110E12A19EFD09EA47FF9D6594DA445478BEB6901EAF8A35B2D"
"FD59BEE9BF7AA8535B7D326EFA5AA2121B5EBE04DD85827A3D43BD04F4AA6D7B62A2"
"B6D7A3077286A511A431E1EF75FCEBA3FAE9D5843A8ED17AA02BBB1B571F904699C5"
"A6073F87DDD012E2322AB3F41F2A61F428636FE86914148E19B8EF8314ED83332F2F"
"8C2ADE95071E792C0A68B903E060DD322A75FD0C2B992059FCCBB58AFA06B50D1634"
"BBD93F187FCE0566609FCC2BABB269C66CEB097598AA17957BB4FDA3E64A1B30402E"
"851CF9208E33D52E459A92C63FBB66435BB018E155E2C7F055E0B7AB82CD58FC4889"
"372ED9EEAC2A07E8E654AB445B9298D2830D6D4DFD117B9C8ABE3968927DC24B3633"
"BAD6E6466DB45DDAE87A0AB00336AC2CCCE176704F7214FCAB55743AB76C2B6CA231"
"7984610B27B5786DE55C184DDF556EDFEA79A3652831940DAD941E243F482DC17E50"
"284BC2FB1AD712A92542C573E55678878F02DFD9E3A863C7DF863227AEDE14B47AD3"
"957190124820ADC19F5353878EDB6BF7D0C77352A6E3BDB53EEB88F5AEF6226D6E68"
"756776A8FB49B77564147A641664C2A54F7E5B680CCC6A4D22D894E464DF20537094"
"548F1732452F9E7F810C0B4B430C073C0FBCE03F0D03F82630654BCE166AA772E1EE"
"DD0C08D3E3EBDF0AF54203B43AFDFC40D8FC79C97A4B0A4E1BEB14D8FCEFDDED8758"
"6ED65B18";
char *mp_mp345 = "B9B6D3A3";
char *mp_mp335 = "16609C2D";
char *s_mp13 = "B55AA8DF8A7E83241F38B2B446B06A4FB84E5DE0";
char *s_mp34 = "517EE6B92EF65C965736EB6BF7C325F73504CEB6";
char *s_mp46 = "-63DBC2265B88268DC801C10EA68476B7BDE0090F";
char *s_mp5d4 = "F59667D9";
char *s_mp2d5 = "AAFC0A3FE45E5E09DBF21E8";
char *s_mp1415 =
"E5C43DE2B811F4A084625F96E9504039E5258D8348E698CEB9F4D4292622042DB446"
"F75F4B65C1FB7A317257FA354BB5A45E789AEC254EAECE11F80A53E3B513822491DB"
"D9399DEC4807A2A3A10360129AC93F4A42388D3BF20B310DD0E9E9F4BE07FC88D53A"
"78A26091E0AB506A70813712CCBFBDD440A69A906E650EE090FDD6A42A95AC1A414D"
"317F1A9F781E6A30E9EE142ECDA45A1E3454A1417A7B9A613DA90831CF88EA1F2E82"
"41AE88CC4053220903C2E05BCDD42F02B8CF8868F84C64C5858BAD356143C5494607"
"EE22E11650148BAF65A985F6FC4CA540A55697F2B5AA95D6B8CF96EF638416DE1DD6"
"3BA9E2C09E22D03E75B60BE456C642F86B82A709253E5E087B507DE3A45F8392423F"
"4DBC284E8DC88C43CA77BC8DCEFB6129A59025F80F90FF978116DEBB9209E306FBB9"
"1B6111F8B8CFACB7C7C9BC12691C22EE88303E1713F1DFCEB622B8EA102F6365678B"
"C580ED87225467AA78E875868BD53B17574BA59305BC1AC666E4B7E9ED72FCFC200E"
"189D98FC8C5C7533739C53F52DDECDDFA5A8668BFBD40DABC9640F8FCAE58F532940"
"8162261320A25589E9FB51B50F80056471F24B7E1AEC35D1356FC2747FFC13A04B34"
"24FCECE10880BD9D97CA8CDEB2F5969BF4F30256EB5ED2BCD1DC64BDC2EE65217848"
"48A37FB13F84ED4FB7ACA18C4639EE64309BDD3D552AEB4AAF44295943DC1229A497"
"A84A";
char *ms_mp345 = "1E71E292";
char *d_mp12 = "-AAFBA6A55DD183FD854A60E";
char *d_mp34 = "119366B05E606A9B1E73A6D8944CC1366B0C4E0D4";
char *d_mp5d4 = "F5952EAB";
char *d_mp6d2 = "-1";
char *md_mp345 = "26596B86";
char *q_mp42 = "-95825A1FFA1A155D5";
char *r_mp42 = "-6312E99D7700A3DCB32ADF2";
char *q_mp45a = "15344CDA3D841F661D2B61B6EDF7828CE36";
char *r_mp45a = "-47C47B";
char *q_mp7c2 = "75FD3890E6C1C67321CE62CEEDA65F79";
char *q_mp3d6 = "8CAFD53C272BD6FE8B0847BDC3B539EFAB5C3";
char *r_mp3d6 = "1E5";
char *r_mp5d5 = "1257";
char *r_mp47 = "B3A9018D970281A90FB729A181D95CB8";
char *q_mp1404 =
"-1B994D869142D3EF6123A3CBBC3C0114FA071CFCEEF4B7D231D65591D32501AD80F"
"FF49AE4EC80514CC071EF6B42521C2508F4CB2FEAD69A2D2EF3934087DCAF88CC4C4"
"659F1CA8A7F4D36817D802F778F1392337FE36302D6865BF0D4645625DF8BB044E19"
"930635BE2609FAC8D99357D3A9F81F2578DE15A300964188292107DAC980E0A08CD7"
"E938A2135FAD45D50CB1D8C2D4C4E60C27AB98B9FBD7E4DBF752C57D2674520E4BB2"
"7E42324C0EFE84FB3E38CF6950E699E86FD45FE40D428400F2F94EDF7E94FAE10B45"
"89329E1BF61E5A378C7B31C9C6A234F8254D4C24823B84D0BF8D671D8BC9154DFAC9"
"49BD8ACABD6BD32DD4DC587F22C86153CB3954BDF7C2A890D623642492C482CF3E2C"
"776FC019C3BBC61688B485E6FD35D6376089C1E33F880E84C4E51E8ABEACE1B3FB70"
"3EAD0E28D2D44E7F1C0A859C840775E94F8C1369D985A3C5E8114B21D68B3CBB75D2"
"791C586153C85B90CAA483E57A40E2D97950AAB84920A4396C950C87C7FFFE748358"
"42A0BF65445B26D40F05BE164B822CA96321F41D85A289C5F5CD5F438A78704C9683"
"422299D21899A22F853B0C93081CC9925E350132A0717A611DD932A68A0ACC6E4C7F"
"7F685EF8C1F4910AEA5DC00BB5A36FCA07FFEAA490C547F6E14A08FE87041AB803E1"
"BD9E23E4D367A2C35762F209073DFF48F3";
char *r_mp1404 = "12FF98621ABF63144BFFC3207AC8FC10D8D1A09";
char *q_mp13c = "34584F700C15A341E40BF7BFDD88A6630C8FF2B2067469372D391342"
"BDAB6163963CD5A5C79F708BDE26E0CCF2DB66CD6D6089E29A877C45";
char *r_mp13c = "F2B050D226E6DA88";
char *q_mp9c16 = "F74A2876A1432698923B0767DA19DCF3D71795E";
char *r_mp9c16 = "E";
char *e_mp5d9 = "A8FD7145E727A20E52E73D22990D35D158090307A"
"13A5215AAC4E9AB1E96BD34E531209E03310400";
char *e_mp78 = "AA5F72C737DFFD8CCD108008BFE7C79ADC01A819B"
"32B75FB82EC0FB8CA83311DA36D4063F1E57857A2"
"1AB226563D84A15BB63CE975FF1453BD6750C58D9"
"D113175764F5D0B3C89B262D4702F4D9640A3";
char *me_mp817 = "E504493ACB02F7F802B327AB13BF25";
char *me_mp5d47 = "1D45ED0D78F2778157992C951DD2734C";
char *me_mp1512 = "FB5B2A28D902B9D9";
char *me_mp161718 = "423C6AC6DBD74";
char *me_mp5114 =
"64F0F72807993578BBA3C7C36FFB184028F9EB9A810C92079E1498D8A80FC848E1F0"
"25F1DE43B7F6AC063F5CC29D8A7C2D7A66269D72BF5CDC327AF88AF8EF9E601DCB0A"
"3F35BFF3525FB1B61CE3A25182F17C0A0633B4089EA15BDC47664A43FEF639748AAC"
"19CF58E83D8FA32CD10661D2D4210CC84792937E6F36CB601851356622E63ADD4BD5"
"542412C2E0C4958E51FD2524AABDC7D60CFB5DB332EEC9DC84210F10FAE0BA2018F2"
"14C9D6867C9D6E49CF28C18D06CE009FD4D04BFC8837C3FAAA773F5CCF6DED1C22DE"
"181786AFE188540586F2D74BF312E595244E6936AE52E45742109BAA76C36F2692F5"
"CEF97AD462B138BE92721194B163254CBAAEE9B9864B21CCDD5375BCAD0D24132724"
"113D3374B4BCF9AA49BA5ACBC12288C0BCF46DCE6CB4A241A91BD559B130B6E9CD3D"
"D7A2C8B280C2A278BA9BF5D93244D563015C9484B86D9FEB602501DC16EEBC3EFF19"
"53D7999682BF1A1E3B2E7B21F4BDCA3C355039FEF55B9C0885F98DC355CA7A6D8ECF"
"5F7F1A6E11A764F2343C823B879B44616B56BF6AE3FA2ACF5483660E618882018E3F"
"C8459313BACFE1F93CECC37B2576A5C0B2714BD3EEDEEC22F0E7E3E77B11396B9B99"
"D683F2447A4004BBD4A57F6A616CDDFEC595C4FC19884CC2FC21CF5BF5B0B81E0F83"
"B9DDA0CF4DFF35BB8D31245912BF4497FD0BD95F0C604E26EA5A8EA4F5EAE870A5BD"
"FE8C";
char *e_mpc2d3 = "100000000000000000000000000000000";
char *t_mp9 = "FB9B6E32FF0452A34746";
char *i_mp27 = "B6AD8DCCDAF92B6FE57D062FFEE3A99";
char *t_mp15 =
"795853094E59B0008093BCA8DECF68587C64BDCA2F3F7F8963DABC12F1CFFFA9B8C4"
"365232FD4751870A0EF6CA619287C5D8B7F1747D95076AB19645EF309773E9EACEA0"
"975FA4AE16251A8DA5865349C3A903E3B8A2C0DEA3C0720B6020C7FED69AFF62BB72"
"10FAC443F9FFA2950776F949E819260C2AF8D94E8A1431A40F8C23C1973DE5D49AA2"
"0B3FF5DA5C1D5324E712A78FF33A9B1748F83FA529905924A31DF38643B3F693EF9B"
"58D846BB1AEAE4523ECC843FF551C1B300A130B65C1677402778F98C51C10813250E"
"2496882877B069E877B59740DC1226F18A5C0F66F64A5F59A9FAFC5E9FC45AEC0E7A"
"BEE244F7DD3AC268CF512A0E52E4F5BE5B94";
char *g_mp71 = "1";
char *g_mp25 = "7";
char *l_mp1011 = "C589E3D7D64A6942A000";
/* mp9 in radices from 5 to 64 inclusive */
#define LOW_RADIX 5
#define HIGH_RADIX 64
char *v_mp9[] = {
"404041130042310320100141302000203430214122130002340212132414134210033",
"44515230120451152500101352430105520150025145320010504454125502",
"644641136612541136016610100564613624243140151310023515322",
"173512120732412062323044435407317550316717172705712756",
"265785018434285762514442046172754680368422060744852",
"1411774500397290569709059837552310354075408897518",
"184064268501499311A17746095910428222A241708032A",
"47706011B225950B02BB45602AA039893118A85950892",
"1A188C826B982353CB58422563AC602B783101671A86",
"105957B358B89B018958908A9114BC3DDC410B77982",
"CB7B3387E23452178846C55DD9D70C7CA9AEA78E8",
"F74A2876A1432698923B0767DA19DCF3D71795EE",
"17BF7C3673B76D7G7A5GA836277296F806E7453A",
"2EBG8HH3HFA6185D6H0596AH96G24C966DD3HG2",
"6G3HGBFEG8I3F25EAF61B904EIA40CFDH2124F",
"10AHC3D29EBHDF3HD97905CG0JA8061855C3FI",
"3BA5A55J5K699B2D09C38A4B237CH51IHA132",
"EDEA90DJ0B5CB3FGG1C8587FEB99D3C143CA",
"31M26JI1BBD56K3I028MML4EEDMAJK60LGLE",
"GGG5M3142FKKG82EJ28111D70EMHC241E4E",
"4446F4D5H10982023N297BF0DKBBHLLJB0I",
"12E9DEEOBMKAKEP0IM284MIP7FO1O521M46",
"85NN0HD48NN2FDDB1F5BMMKIB8CK20MDPK",
"2D882A7A0O0JPCJ4APDRIB77IABAKDGJP2",
"MFMCI0R7S27AAA3O3L2S8K44HKA7O02CN",
"7IGQS73FFSHC50NNH44B6PTTNLC3M6H78",
"2KLUB3U9850CSN6ANIDNIF1LB29MJ43LH",
"UT52GTL18CJ9H4HR0TJTK6ESUFBHF5FE",
"BTVL87QQBMUGF8PFWU4W3VU7U922QTMW",
"4OG10HW0MSWJBIDEE2PDH24GA7RIHIAA",
"1W8W9AX2DRUX48GXOLMK0PE42H0FEUWN",
"SVWI84VBH069WR15W1U2VTK06USY8Z2",
"CPTPNPDa5TYCPPNLALENT9IMX2GL0W2",
"5QU21UJMRaUYYYYYN6GHSMPOYOXEEUY",
"2O2Q7C6RPPB1SXJ9bR4035SPaQQ3H2W",
"18d994IbT4PHbD7cGIPCRP00bbQO0bc",
"NcDUEEWRO7XT76260WGeBHPVa72RdA",
"BbX2WCF9VfSB5LPdJAdeXKV1fd6LC2",
"60QDKW67P4JSQaTdQg7JE9ISafLaVU",
"33ba9XbDbRdNF4BeDB2XYMhAVDaBdA",
"1RIPZJA8gT5L5H7fTcaRhQ39geMMTc",
"d65j70fBATjcDiidPYXUGcaBVVLME",
"LKA9jhPabDG612TXWkhfT2gMXNIP2",
"BgNaYhjfT0G8PBcYRP8khJCR3C9QE",
"6Wk8RhJTAgDh10fYAiUVB1aM0HacG",
"3dOCjaf78kd5EQNViUZWj3AfFL90I",
"290VWkL3aiJoW4MBbHk0Z0bDo22Ni",
"1DbDZ1hpPZNUDBUp6UigcJllEdC26",
"dFSOLBUM7UZX8Vnc6qokGIOiFo1h",
"NcoUYJOg0HVmKI9fR2ag0S8R2hrK",
"EOpiJ5Te7oDe2pn8ZhAUKkhFHlZh",
"8nXK8rp8neV8LWta1WDgd1QnlWsU",
"5T3d6bcSBtHgrH9bCbu84tblaa7r",
"3PlUDIYUvMqOVCir7AtquK5dWanq",
"2A70gDPX2AtiicvIGGk9poiMtgvu",
"1MjiRxjk10J6SVAxFguv9kZiUnIc",
"rpre2vIDeb4h3sp50r1YBbtEx9L",
"ZHcoip0AglDAfibrsUcJ9M1C8fm",
"NHP18+eoe6uU54W49Kc6ZK7+bT2",
"FTAA7QXGoQOaZi7PzePtFFN5vNk"
};
unsigned char b_mp4[] = {
0x01, 0x63, 0xDB, 0xC2, 0x26, 0x5B, 0x88, 0x26,
0x8D, 0xC8, 0x01, 0xC1, 0x0E, 0xA6, 0x84, 0x76,
0xB7, 0xBD, 0xE0, 0x09, 0x0F
};
/* Search for a test suite name in the names table */
int find_name(char *name);
void reason(char *fmt, ...);
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
char g_intbuf[4096]; /* buffer for integer comparison */
int g_verbose = 1; /* print out reasons for failure? */
int res;
#define IFOK(x) { if (MP_OKAY > (res = (x))) { \
reason("test %s failed: error %d\n", #x, res); return 1; }}
int main(int argc, char *argv[])
{
int which, res;
srand((unsigned int)time(NULL));
if (argc < 2) {
fprintf(stderr, "Usage: %s <test-suite> | list\n"
"Type '%s help' for assistance\n", argv[0], argv[0]);
return 2;
} else if(argc > 2) {
if(strcmp(argv[2], "quiet") == 0)
g_verbose = 0;
}
if(strcmp(argv[1], "help") == 0) {
fprintf(stderr, "Help for mpi-test\n\n"
"This program is a test driver for the MPI library, which\n"
"tests all the various functions in the library to make sure\n"
"they are working correctly. The syntax is:\n"
" %s <suite-name>\n"
"...where <suite-name> is the name of the test you wish to\n"
"run. To get a list of the tests, use '%s list'.\n\n"
"The program exits with a status of zero if the test passes,\n"
"or non-zero if it fails. Ordinarily, failure is accompanied\n"
"by a diagnostic message to standard error. To suppress this\n"
"add the keyword 'quiet' after the suite-name on the command\n"
"line.\n\n", argv[0], argv[0]);
return 0;
}
if ((which = find_name(argv[1])) < 0) {
fprintf(stderr, "%s: test suite '%s' is not known\n", argv[0], argv[1]);
return 2;
}
if((res = (g_tests[which])()) < 0) {
fprintf(stderr, "%s: test suite not implemented yet\n", argv[0]);
return 2;
} else {
return res;
}
}
/*------------------------------------------------------------------------*/
int find_name(char *name)
{
int ix = 0;
while(ix < g_count) {
if (strcmp(name, g_names[ix]) == 0)
return ix;
++ix;
}
return -1;
}
/*------------------------------------------------------------------------*/
int test_list(void)
{
int ix;
fprintf(stderr, "There are currently %d test suites available\n",
g_count);
for(ix = 1; ix < g_count; ix++)
fprintf(stdout, "%-20s %s\n", g_names[ix], g_descs[ix]);
return 0;
}
/*------------------------------------------------------------------------*/
int test_copy(void)
{
mp_int a, b;
int ix;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp3, 16);
mp_copy(&a, &b);
if(SIGN(&a) != SIGN(&b) || USED(&a) != USED(&b)) {
if(SIGN(&a) != SIGN(&b)) {
reason("error: sign of original is %d, sign of copy is %d\n",
SIGN(&a), SIGN(&b));
} else {
reason("error: original precision is %d, copy precision is %d\n",
USED(&a), USED(&b));
}
mp_clear(&a); mp_clear(&b);
return 1;
}
for(ix = 0; ix < USED(&b); ix++) {
if(DIGIT(&a, ix) != DIGIT(&b, ix)) {
reason("error: digit %d " DIGIT_FMT " != " DIGIT_FMT "\n",
ix, DIGIT(&a, ix), DIGIT(&b, ix));
mp_clear(&a); mp_clear(&b);
return 1;
}
}
mp_clear(&a); mp_clear(&b);
return 0;
}
/*------------------------------------------------------------------------*/
int test_exch(void)
{
mp_int a, b;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp7, 16); mp_read_radix(&b, mp1, 16);
mp_exch(&a, &b);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, mp1) != 0) {
mp_clear(&b);
reason("error: exchange failed\n");
return 1;
}
mp_toradix(&b, g_intbuf, 16);
mp_clear(&b);
if(strcmp(g_intbuf, mp7) != 0) {
reason("error: exchange failed\n");
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_zero(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp7, 16);
mp_zero(&a);
if(USED(&a) != 1 || DIGIT(&a, 1) != 0) {
mp_toradix(&a, g_intbuf, 16);
reason("error: result is %s\n", g_intbuf);
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_set(void)
{
mp_int a;
/* Test single digit set */
mp_init(&a); mp_set(&a, 5);
if(DIGIT(&a, 0) != 5) {
mp_toradix(&a, g_intbuf, 16);
reason("error: result is %s, expected 5\n", g_intbuf);
mp_clear(&a);
return 1;
}
/* Test integer set */
mp_set_int(&a, -4938110);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, mp5a) != 0) {
reason("error: result is %s, expected %s\n", g_intbuf, mp5a);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_abs(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp4, 16);
mp_abs(&a, &a);
if(SIGN(&a) != ZPOS) {
reason("error: sign of result is negative\n");
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_neg(void)
{
mp_int a;
mp_sign s;
mp_init(&a); mp_read_radix(&a, mp4, 16);
s = SIGN(&a);
mp_neg(&a, &a);
if(SIGN(&a) == s) {
reason("error: sign of result is same as sign of nonzero input\n");
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_add_d(void)
{
mp_int a;
mp_init(&a);
mp_read_radix(&a, mp5, 16);
mp_add_d(&a, md4, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp5d4) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp5d4);
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp2, 16);
mp_add_d(&a, md5, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp2d5) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp2d5);
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_add(void)
{
mp_int a, b;
int res = 0;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp1, 16); mp_read_radix(&b, mp3, 16);
mp_add(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp13) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp13);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp4, 16);
mp_add(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp34) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp34);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp4, 16); mp_read_radix(&b, mp6, 16);
mp_add(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp46) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp46);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp14, 16); mp_read_radix(&b, mp15, 16);
mp_add(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, s_mp1415) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, s_mp1415);
res = 1;
}
CLEANUP:
mp_clear(&a); mp_clear(&b);
return res;
}
/*------------------------------------------------------------------------*/
int test_sub_d(void)
{
mp_int a;
mp_init(&a);
mp_read_radix(&a, mp5, 16);
mp_sub_d(&a, md4, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, d_mp5d4) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, d_mp5d4);
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp6, 16);
mp_sub_d(&a, md2, &a);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, d_mp6d2) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, d_mp6d2);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_sub(void)
{
mp_int a, b;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp1, 16); mp_read_radix(&b, mp2, 16);
mp_sub(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, d_mp12) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, d_mp12);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
mp_sub(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, d_mp34) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, d_mp34);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_clear(&a); mp_clear(&b);
return 0;
}
/*------------------------------------------------------------------------*/
int test_mul_d(void)
{
mp_int a;
mp_init(&a);
mp_read_radix(&a, mp1, 16);
IFOK( mp_mul_d(&a, md4, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp1d4) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp1d4);
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp8, 16);
IFOK( mp_mul_d(&a, md6, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, p_mp8d6) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp8d6);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_mul(void)
{
mp_int a, b;
int res = 0;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp1, 16); mp_read_radix(&b, mp2, 16);
IFOK( mp_mul(&a, &b, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp12) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp12);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
IFOK( mp_mul(&a, &b, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp34) !=0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp34);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp5, 16); mp_read_radix(&b, mp7, 16);
IFOK( mp_mul(&a, &b, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp57) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp57);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp11, 16); mp_read_radix(&b, mp13, 16);
IFOK( mp_mul(&a, &b, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp1113) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp1113);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp14, 16); mp_read_radix(&b, mp15, 16);
IFOK( mp_mul(&a, &b, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, p_mp1415) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp1415);
res = 1;
}
CLEANUP:
mp_clear(&a); mp_clear(&b);
return res;
}
/*------------------------------------------------------------------------*/
int test_sqr(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp2, 16);
mp_sqr(&a, &a);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, p_mp22) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, p_mp22);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_div_d(void)
{
mp_int a, q;
mp_digit r;
int err = 0;
mp_init(&a); mp_init(&q);
mp_read_radix(&a, mp3, 16);
IFOK( mp_div_d(&a, md6, &q, &r) );
mp_toradix(&q, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp3d6) != 0) {
reason("error: computed q = %s, expected %s\n", g_intbuf, q_mp3d6);
++err;
}
sprintf(g_intbuf, "%X", r);
if(strcmp(g_intbuf, r_mp3d6) != 0) {
reason("error: computed r = %s, expected %s\n", g_intbuf, r_mp3d6);
++err;
}
mp_read_radix(&a, mp9, 16);
IFOK( mp_div_d(&a, 16, &q, &r) );
mp_toradix(&q, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp9c16) != 0) {
reason("error: computed q = %s, expected %s\n", g_intbuf, q_mp9c16);
++err;
}
sprintf(g_intbuf, "%X", r);
if(strcmp(g_intbuf, r_mp9c16) != 0) {
reason("error: computed r = %s, expected %s\n", g_intbuf, r_mp9c16);
++err;
}
mp_clear(&a); mp_clear(&q);
return err;
}
/*------------------------------------------------------------------------*/
int test_div_2(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp7, 16);
IFOK( mp_div_2(&a, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, q_mp7c2) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, q_mp7c2);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_div_2d(void)
{
mp_int a, q, r;
mp_init(&q); mp_init(&r);
mp_init(&a); mp_read_radix(&a, mp13, 16);
IFOK( mp_div_2d(&a, 64, &q, &r) );
mp_clear(&a);
mp_toradix(&q, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp13c) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, q_mp13c);
mp_clear(&q); mp_clear(&r);
return 1;
}
mp_clear(&q);
mp_toradix(&r, g_intbuf, 16);
if(strcmp(g_intbuf, r_mp13c) != 0) {
reason("error, computed %s, expected %s\n", g_intbuf, r_mp13c);
mp_clear(&r);
return 1;
}
mp_clear(&r);
return 0;
}
/*------------------------------------------------------------------------*/
int test_div(void)
{
mp_int a, b, r;
int err = 0;
mp_init(&a); mp_init(&b); mp_init(&r);
mp_read_radix(&a, mp4, 16); mp_read_radix(&b, mp2, 16);
IFOK( mp_div(&a, &b, &a, &r) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp42) != 0) {
reason("error: computed quot %s, expected %s\n", g_intbuf, q_mp42);
++err;
}
mp_toradix(&r, g_intbuf, 16);
if(strcmp(g_intbuf, r_mp42) != 0) {
reason("error: computed rem %s, expected %s\n", g_intbuf, r_mp42);
++err;
}
mp_read_radix(&a, mp4, 16); mp_read_radix(&b, mp5a, 16);
IFOK( mp_div(&a, &b, &a, &r) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp45a) != 0) {
reason("error: computed quot %s, expected %s\n", g_intbuf, q_mp45a);
++err;
}
mp_toradix(&r, g_intbuf, 16);
if(strcmp(g_intbuf, r_mp45a) != 0) {
reason("error: computed rem %s, expected %s\n", g_intbuf, r_mp45a);
++err;
}
mp_read_radix(&a, mp14, 16); mp_read_radix(&b, mp4, 16);
IFOK( mp_div(&a, &b, &a, &r) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, q_mp1404) != 0) {
reason("error: computed quot %s, expected %s\n", g_intbuf, q_mp1404);
++err;
}
mp_toradix(&r, g_intbuf, 16);
if(strcmp(g_intbuf, r_mp1404) != 0) {
reason("error: computed rem %s, expected %s\n", g_intbuf, r_mp1404);
++err;
}
mp_clear(&a); mp_clear(&b); mp_clear(&r);
return err;
}
/*------------------------------------------------------------------------*/
int test_expt_d(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp5, 16);
mp_expt_d(&a, md9, &a);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, e_mp5d9) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, e_mp5d9);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_expt(void)
{
mp_int a, b;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp7, 16); mp_read_radix(&b, mp8, 16);
mp_expt(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&b);
if(strcmp(g_intbuf, e_mp78) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, e_mp78);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_2expt(void)
{
mp_int a;
mp_init(&a);
mp_2expt(&a, md3);
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a);
if(strcmp(g_intbuf, e_mpc2d3) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, e_mpc2d3);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_sqrt(void)
{
mp_int a;
int res = 0;
mp_init(&a); mp_read_radix(&a, mp9, 16);
mp_sqrt(&a, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, t_mp9) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, t_mp9);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp15, 16);
mp_sqrt(&a, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, t_mp15) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, t_mp15);
res = 1;
}
CLEANUP:
mp_clear(&a);
return res;
}
/*------------------------------------------------------------------------*/
int test_mod_d(void)
{
mp_int a;
mp_digit r;
mp_init(&a); mp_read_radix(&a, mp5, 16);
IFOK( mp_mod_d(&a, md5, &r) );
sprintf(g_intbuf, "%X", r);
mp_clear(&a);
if(strcmp(g_intbuf, r_mp5d5) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, r_mp5d5);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_mod(void)
{
mp_int a, m;
mp_init(&a); mp_init(&m);
mp_read_radix(&a, mp4, 16); mp_read_radix(&m, mp7, 16);
IFOK( mp_mod(&a, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&m);
if(strcmp(g_intbuf, r_mp47) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, r_mp47);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_addmod(void)
{
mp_int a, b, m;
mp_init(&a); mp_init(&b); mp_init(&m);
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
mp_read_radix(&m, mp5, 16);
IFOK( mp_addmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&b); mp_clear(&m);
if(strcmp(g_intbuf, ms_mp345) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, ms_mp345);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_submod(void)
{
mp_int a, b, m;
mp_init(&a); mp_init(&b); mp_init(&m);
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
mp_read_radix(&m, mp5, 16);
IFOK( mp_submod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&b); mp_clear(&m);
if(strcmp(g_intbuf, md_mp345) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, md_mp345);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_mulmod(void)
{
mp_int a, b, m;
mp_init(&a); mp_init(&b); mp_init(&m);
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
mp_read_radix(&m, mp5, 16);
IFOK( mp_mulmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&b); mp_clear(&m);
if(strcmp(g_intbuf, mp_mp345) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, mp_mp345);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_sqrmod(void)
{
mp_int a, m;
mp_init(&a); mp_init(&m);
mp_read_radix(&a, mp3, 16); mp_read_radix(&m, mp5, 16);
IFOK( mp_sqrmod(&a, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&m);
if(strcmp(g_intbuf, mp_mp335) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, mp_mp335);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_exptmod(void)
{
mp_int a, b, m;
int res = 0;
mp_init(&a); mp_init(&b); mp_init(&m);
mp_read_radix(&a, mp8, 16); mp_read_radix(&b, mp1, 16);
mp_read_radix(&m, mp7, 16);
IFOK( mp_exptmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, me_mp817) != 0) {
reason("case 1: error: computed %s, expected %s\n", g_intbuf, me_mp817);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp1, 16); mp_read_radix(&b, mp5, 16);
mp_read_radix(&m, mp12, 16);
IFOK( mp_exptmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, me_mp1512) != 0) {
reason("case 2: error: computed %s, expected %s\n", g_intbuf, me_mp1512);
res = 1; goto CLEANUP;
}
mp_read_radix(&a, mp5, 16); mp_read_radix(&b, mp1, 16);
mp_read_radix(&m, mp14, 16);
IFOK( mp_exptmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, me_mp5114) != 0) {
reason("case 3: error: computed %s, expected %s\n", g_intbuf, me_mp5114);
res = 1;
}
mp_read_radix(&a, mp16, 16); mp_read_radix(&b, mp17, 16);
mp_read_radix(&m, mp18, 16);
IFOK( mp_exptmod(&a, &b, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, me_mp161718) != 0) {
reason("case 4: error: computed %s, expected %s\n", g_intbuf, me_mp161718);
res = 1;
}
CLEANUP:
mp_clear(&a); mp_clear(&b); mp_clear(&m);
return res;
}
/*------------------------------------------------------------------------*/
int test_exptmod_d(void)
{
mp_int a, m;
mp_init(&a); mp_init(&m);
mp_read_radix(&a, mp5, 16); mp_read_radix(&m, mp7, 16);
IFOK( mp_exptmod_d(&a, md4, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&m);
if(strcmp(g_intbuf, me_mp5d47) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, me_mp5d47);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_invmod(void)
{
mp_int a, m;
mp_err res;
mp_init(&a); mp_init(&m);
mp_read_radix(&a, mp2, 16); mp_read_radix(&m, mp7, 16);
IFOK( mp_invmod(&a, &m, &a) );
mp_toradix(&a, g_intbuf, 16);
mp_clear(&a); mp_clear(&m);
if(strcmp(g_intbuf, i_mp27) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, i_mp27);
return 1;
}
return 0;
}
/*------------------------------------------------------------------------*/
int test_cmp_d(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp8, 16);
if(mp_cmp_d(&a, md8) >= 0) {
reason("error: %s >= " DIGIT_FMT "\n", mp8, md8);
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp5, 16);
if(mp_cmp_d(&a, md8) <= 0) {
reason("error: %s <= " DIGIT_FMT "\n", mp5, md8);
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp6, 16);
if(mp_cmp_d(&a, md1) != 0) {
reason("error: %s != " DIGIT_FMT "\n", mp6, md1);
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_cmp_z(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp6, 16);
if(mp_cmp_z(&a) != 0) {
reason("error: someone thinks a zero value is non-zero\n");
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp1, 16);
if(mp_cmp_z(&a) <= 0) {
reason("error: someone thinks a positive value is non-positive\n");
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp4, 16);
if(mp_cmp_z(&a) >= 0) {
reason("error: someone thinks a negative value is non-negative\n");
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_cmp(void)
{
mp_int a, b;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp3, 16); mp_read_radix(&b, mp4, 16);
if(mp_cmp(&a, &b) <= 0) {
reason("error: %s <= %s\n", mp3, mp4);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&b, mp3, 16);
if(mp_cmp(&a, &b) != 0) {
reason("error: %s != %s\n", mp3, mp3);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&a, mp5, 16);
if(mp_cmp(&a, &b) >= 0) {
reason("error: %s >= %s\n", mp5, mp3);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&a, mp5a, 16);
if(mp_cmp_int(&a, 1000000) >= 0 ||
(mp_cmp_int(&a, -5000000) <= 0) ||
(mp_cmp_int(&a, -4938110) != 0)) {
reason("error: long integer comparison failed (%s)", mp5a);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_clear(&a); mp_clear(&b);
return 0;
}
/*------------------------------------------------------------------------*/
int test_cmp_mag(void)
{
mp_int a, b;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp5, 16); mp_read_radix(&b, mp4, 16);
if(mp_cmp_mag(&a, &b) >= 0) {
reason("error: %s >= %s\n", mp5, mp4);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&b, mp5, 16);
if(mp_cmp_mag(&a, &b) != 0) {
reason("error: %s != %s\n", mp5, mp5);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_read_radix(&a, mp1, 16);
if(mp_cmp_mag(&b, &a) >= 0) {
reason("error: %s >= %s\n", mp5, mp1);
mp_clear(&a); mp_clear(&b);
return 1;
}
mp_clear(&a); mp_clear(&b);
return 0;
}
/*------------------------------------------------------------------------*/
int test_parity(void)
{
mp_int a;
mp_init(&a); mp_read_radix(&a, mp1, 16);
if(!mp_isodd(&a)) {
reason("error: expected operand to be odd, but it isn't\n");
mp_clear(&a);
return 1;
}
mp_read_radix(&a, mp6, 16);
if(!mp_iseven(&a)) {
reason("error: expected operand to be even, but it isn't\n");
mp_clear(&a);
return 1;
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_gcd(void)
{
mp_int a, b;
int out = 0;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp7, 16); mp_read_radix(&b, mp1, 16);
mp_gcd(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, g_mp71) != 0) {
reason("error: computed %s, expected %s\n", g_intbuf, g_mp71);
out = 1;
}
mp_clear(&a); mp_clear(&b);
return out;
}
/*------------------------------------------------------------------------*/
int test_lcm(void)
{
mp_int a, b;
int out = 0;
mp_init(&a); mp_init(&b);
mp_read_radix(&a, mp10, 16); mp_read_radix(&b, mp11, 16);
mp_lcm(&a, &b, &a);
mp_toradix(&a, g_intbuf, 16);
if(strcmp(g_intbuf, l_mp1011) != 0) {
reason("error: computed %s, expected%s\n", g_intbuf, l_mp1011);
out = 1;
}
mp_clear(&a); mp_clear(&b);
return out;
}
/*------------------------------------------------------------------------*/
int test_convert(void)
{
int ix;
mp_int a;
mp_init(&a); mp_read_radix(&a, mp9, 16);
for(ix = LOW_RADIX; ix <= HIGH_RADIX; ix++) {
mp_toradix(&a, g_intbuf, ix);
if(strcmp(g_intbuf, v_mp9[ix - LOW_RADIX]) != 0) {
reason("error: radix %d, computed %s, expected %s\n",
ix, g_intbuf, v_mp9[ix - LOW_RADIX]);
mp_clear(&a);
return 1;
}
}
mp_clear(&a);
return 0;
}
/*------------------------------------------------------------------------*/
int test_raw(void)
{
int len, out = 0;
mp_int a;
char *buf;
mp_init(&a); mp_read_radix(&a, mp4, 16);
len = mp_raw_size(&a);
if(len != sizeof(b_mp4)) {
reason("error: expected length %d, computed %d\n", sizeof(b_mp4),
len);
mp_clear(&a);
return 1;
}
buf = calloc(len, sizeof(char));
mp_toraw(&a, buf);
if(memcmp(buf, b_mp4, len) != 0) {
reason("error: binary output does not match test vector\n");
out = 1;
}
free(buf);
mp_clear(&a);
return out;
}
/*------------------------------------------------------------------------*/
int test_pprime(void)
{
mp_int p;
int err = 0;
mp_init(&p);
mp_read_radix(&p, mp7, 16);
if(mpp_pprime(&p, 5) != MP_YES) {
reason("error: %s failed Rabin-Miller test, but is prime\n", mp7);
err = 1;
}
mp_clear(&p);
return err;
}
/*------------------------------------------------------------------------*/
int test_fermat(void)
{
mp_int p;
mp_err res;
int err = 0;
mp_init(&p);
mp_read_radix(&p, mp7, 16);
if((res = mpp_fermat(&p, 2)) != MP_YES) {
reason("error: %s failed Fermat test on 2: %s\n", mp7,
mp_strerror(res));
++err;
}
if((res = mpp_fermat(&p, 3)) != MP_YES) {
reason("error: %s failed Fermat test on 3: %s\n", mp7,
mp_strerror(res));
++err;
}
mp_clear(&p);
return err;
}
/*------------------------------------------------------------------------*/
/* Like fprintf(), but only if we are behaving in a verbose manner */
void reason(char *fmt, ...)
{
va_list ap;
if(!g_verbose)
return;
va_start(ap, fmt);
vfprintf(stderr, fmt, ap);
va_end(ap);
}
/*------------------------------------------------------------------------*/
/* HERE THERE BE DRAGONS */
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