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ed448goldilocks/test/test_pointops.c

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  1. #include "test.h"

  2. 

  3. #include <stdio.h>

  4. 

  5. #include "ec_point.h"

  6. #include "decaf.h"

  7. #include "scalarmul.h"

  8. #include "magic.h"

  9. #include "field.h"

  10. #include "crandom.h"

  11. 

  12. 

  13. static void

  14. failprint_ext (

  15.     const struct extensible_t *a

  16. ) {

  17.     field_a_t zi, scaled;

  18.     field_print("    x", a->x);

  19.     field_print("    y", a->y);

  20.     field_print("    z", a->z);

  21.     field_inverse(zi, a->z);

  22.     field_mul(scaled, zi, a->x);

  23.     field_print("    X", scaled);

  24.     field_mul(scaled, zi, a->y);

  25.     field_print("    Y", scaled);

  26.     printf("\n");

  27. }

  28. 

  29. static void

  30. failprint_tw_ext (

  31.     const struct tw_extensible_t *a

  32. ) {

  33.     failprint_ext((const struct extensible_t *)a);

  34. }

  35. 

  36. static mask_t

  37. fail_if_different (

  38.     const struct extensible_t *a,

  39.     const struct extensible_t *b,

  40.     const char *faildescr,

  41.     const char *adescr,

  42.     const char *bdescr

  43. ) {

  44.     mask_t succ = eq_extensible(a, b);

  45.     

  46.     if (!succ) {

  47.         youfail();

  48.         printf("    %s\n", faildescr);

  49.         

  50.         printf("\n    %s:\n", adescr);

  51.         failprint_ext(a);

  52.         

  53.         printf("\n    %s:\n", bdescr);

  54.         failprint_ext(b);

  55.     }

  56.     

  57.     return succ;

  58. }

  59. 

  60. static mask_t

  61. validate_ext(

  62.     const struct extensible_t *ext,

  63.     int evenness,

  64.     const char *description

  65. ) {

  66.     mask_t succ = validate_extensible(ext), succ2;

  67.     const char *error = "Point isn't on the curve.";

  68.     if (evenness > 0) {

  69.         succ2 = is_even_pt(ext);

  70.         if (succ &~ succ2) error = "Point isn't even.";

  71.         succ &= succ2;

  72.     } else if (evenness < 0) {

  73.         succ2 = is_even_pt(ext);

  74.         if (succ &~ succ2) error = "Point is even but shouldn't be.";

  75.         succ &= succ2;

  76.     } /* FUTURE: quadness */

  77.     

  78.     if (~succ) {

  79.         youfail();

  80.         printf("    %s\n", error);

  81.         printf("    %s\n", description);

  82.         failprint_ext(ext);

  83.     }

  84.     

  85.     return succ;

  86. }

  87. 

  88. static mask_t

  89. validate_tw_ext(

  90.     const struct tw_extensible_t *ext,

  91.     int evenness,

  92.     const char *description

  93. ) {

  94.     mask_t succ = validate_tw_extensible(ext), succ2;

  95.     const char *error = "Point isn't on the twisted curve.";

  96.     if (evenness > 0) {

  97.         succ2 = is_even_tw(ext);

  98.         if (succ &~ succ2) error = "Point isn't even.";

  99.         succ &= succ2;

  100.     } else if (evenness < 0) {

  101.         succ2 = is_even_tw(ext);

  102.         if (succ &~ succ2) error = "Point is even but shouldn't be.";

  103.         succ &= succ2;

  104.     } /* FUTURE: quadness */

  105.     

  106.     if (~succ) {

  107.         youfail();

  108.         printf("    %s\n", error);

  109.         printf("    %s\n", description);

  110.         failprint_tw_ext(ext);

  111.     }

  112.     

  113.     return succ;

  114. }

  115. 

  116. static mask_t

  117. fail_if_different_tw (

  118.     const struct tw_extensible_t *a,

  119.     const struct tw_extensible_t *b,

  120.     const char *faildescr,

  121.     const char *adescr,

  122.     const char *bdescr

  123. ) {

  124.     return fail_if_different(

  125.         (const struct extensible_t *)a, (const struct extensible_t *)b,

  126.         faildescr,adescr,bdescr

  127.     );

  128. }

  129. 

  130. static int

  131. add_double_test (

  132.     const struct affine_t *base1,

  133.     const struct affine_t *base2 

  134. ) {

  135.     mask_t succ = MASK_SUCCESS;

  136.     struct extensible_t exb;

  137.     struct tw_extensible_t text1, text2, texta, textb;

  138.     struct tw_extended_t ted1, ted2;

  139.     struct tw_pniels_t pn;

  140.     

  141.     /* Convert to ext */

  142.     convert_affine_to_extensible(&exb, base1);

  143.     succ &= validate_ext(&exb,0,"base1");

  144.     twist_and_double(&text1, &exb);

  145.     succ &= validate_tw_ext(&text1,2,"iso1");

  146.     convert_affine_to_extensible(&exb, base2);

  147.     succ &= validate_ext(&exb,0,"base2");

  148.     twist_and_double(&text2, &exb);

  149.     succ &= validate_tw_ext(&text2,2,"iso2");

  150.     

  151.     /* a + b == b + a? */

  152.     convert_tw_extensible_to_tw_pniels(&pn, &text1);

  153.     copy_tw_extensible(&texta, &text2);

  154.     add_tw_pniels_to_tw_extensible(&texta, &pn);

  155.     

  156.     convert_tw_extensible_to_tw_pniels(&pn, &text2);

  157.     copy_tw_extensible(&textb, &text1);

  158.     add_tw_pniels_to_tw_extensible(&textb, &pn);

  159. 

  160.     decaf_point_t ted3;

  161.     convert_tw_extensible_to_tw_extended(&ted1, &text1);

  162.     convert_tw_extensible_to_tw_extended(&ted2, &text2);

  163.     decaf_add(ted3, (struct decaf_point_s*)&ted1, (struct decaf_point_s*)&ted2);

  164.     add_tw_extended(&ted1, &ted2);

  165.     convert_tw_extensible_to_tw_extended(&ted2, &textb);

  166.     

  167.     if (~decaf_eq_tw_extended(&ted1, &ted2) | ~decaf_eq((struct decaf_point_s*)&ted1, ted3)) {

  168.         youfail();

  169.         succ = 0;

  170.         printf("    Tw extended simple compat:\n");

  171.         field_print("    x1",ted1.x);

  172.         field_print("    y1",ted1.y);

  173.         field_print("    z1",ted1.z);

  174.         field_print("    t1",ted1.t);

  175.         field_print("    x2",ted2.x);

  176.         field_print("    y2",ted2.y);

  177.         field_print("    z2",ted2.z);

  178.         field_print("    t2",ted2.t);

  179.         struct tw_extended_t *t3 = (struct tw_extended_t *)&ted3;

  180.         field_print("    x3",t3->x);

  181.         field_print("    y3",t3->y);

  182.         field_print("    z3",t3->z);

  183.         field_print("    t3",t3->t);

  184.         

  185.     }

  186.     

  187.     succ &= fail_if_different_tw(&texta,&textb,"Addition commutativity","a+b","b+a");

  188.     

  189.     copy_tw_extensible(&textb, &text2);

  190.     add_tw_pniels_to_tw_extensible(&textb, &pn);

  191.     copy_tw_extensible(&texta, &text2);

  192.     double_tw_extensible(&texta);

  193. 

  194.     succ &= fail_if_different_tw(&texta,&textb,"Doubling test","2b","b+b");

  195.     

  196.     if (~succ) {

  197.         printf("    Bases were:\n");

  198.         field_print("    x1", base1->x);

  199.         field_print("    y1", base1->y);

  200.         field_print("    x2", base2->x);

  201.         field_print("    y2", base2->y);

  202.     }

  203.     

  204.     return succ ? 0 : -1;

  205. }

  206. 

  207. static int

  208. single_twisting_test (

  209.     const struct affine_t *base

  210. ) {

  211.     struct extensible_t exb, ext, tmpext;

  212.     struct tw_extensible_t text, text2;

  213.     mask_t succ = MASK_SUCCESS;

  214.     

  215.     convert_affine_to_extensible(&exb, base);

  216.     succ &= validate_ext(&exb,0,"base");

  217.     

  218.     /* check: dual . iso = 4 */

  219.     twist_and_double(&text, &exb);

  220.     succ &= validate_tw_ext(&text,2,"iso");

  221.     untwist_and_double(&ext, &text);

  222.     succ &= validate_ext(&ext,2,"dual.iso");

  223.     

  224.     copy_extensible(&tmpext,&exb);

  225.     double_extensible(&tmpext);

  226.     succ &= validate_ext(&tmpext,1,"2*base");

  227.     

  228.     double_extensible(&tmpext);

  229.     succ &= validate_ext(&tmpext,2,"4*base");

  230.     

  231.     succ &= fail_if_different(&ext,&tmpext,"Isogeny and dual","Dual . iso","4*base");

  232.     

  233.     /* check: twist and serialize */

  234.     test_only_twist(&text, &exb);

  235.     succ &= validate_tw_ext(&text,0,"tot");

  236.     mask_t evt = is_even_tw(&text), evb = is_even_pt(&exb);

  237.     if (evt != evb) {

  238.         youfail();

  239.         printf("    Different evenness from twist base: %d, twist: %d\n", (int)-evt, (int)-evb);

  240.         

  241.         succ = 0;

  242.     } /* FUTURE: quadness */

  243.     

  244.     field_a_t sera,serb;

  245.     untwist_and_double_and_serialize(sera,&text);

  246.     copy_extensible(&tmpext,&exb);

  247.     double_extensible(&tmpext);

  248.     serialize_extensible(serb,&tmpext);

  249.     

  250.     /* check that their (doubled; FUTURE?) serializations are equal */

  251.     if (~field_eq(sera,serb)) {

  252.         youfail();

  253.         printf("    Different serialization from twist + double ()\n");

  254.         field_print("    t", sera);

  255.         field_print("    b", serb);

  256.         succ = 0;

  257.     }

  258.     

  259.     untwist_and_double(&ext, &text);

  260.     succ &= validate_ext(&tmpext,1,"dual.tot");

  261.     

  262.     twist_and_double(&text2, &ext);

  263.     succ &= validate_tw_ext(&text2,2,"iso.dual.tot");

  264. 

  265.     double_tw_extensible(&text);

  266.     succ &= validate_tw_ext(&text,1,"2*tot");

  267. 

  268.     double_tw_extensible(&text);

  269.     succ &= validate_tw_ext(&text,2,"4*tot");

  270.     

  271.     succ &= fail_if_different_tw(&text,&text2,"Dual and isogeny","4*tot","iso.dual.tot");

  272.     

  273.     if (~succ) {

  274.         printf("    Base was:\n");

  275.         field_print("    x", base->x);

  276.         field_print("    y", base->y);

  277.     }

  278.     

  279.     

  280.     return succ ? 0 : -1;

  281. }

  282. 

  283. int test_decaf_evil (void) {

  284.     

  285. #if FIELD_BITS != 448 || WORD_BITS != 64

  286.     

  287.     printf(" [ UNIMP ] ");

  288.     return 0;

  289. #else

  290.     

  291.     word_t evil_scalars[5][7] = {

  292.         {0},

  293.         {0x2378c292ab5844f3,0x216cc2728dc58f55,0xc44edb49aed63690,0xffffffff7cca23e9,

  294.          0xffffffffffffffff,0xffffffffffffffff,0x3fffffffffffffff}, /* q */

  295.         {0xdc873d6d54a7bb0d,0xde933d8d723a70aa,0x3bb124b65129c96f,

  296.          0x335dc16,0x0,0x0,0x4000000000000000}, /* qtwist */

  297.         {0x46f1852556b089e6,0x42d984e51b8b1eaa,0x889db6935dac6d20,0xfffffffef99447d3,

  298.          0xffffffffffffffff,0xffffffffffffffff,0x7fffffffffffffff}, /* 2q */

  299.         {0xb90e7adaa94f761a,0xbd267b1ae474e155,0x7762496ca25392df,0x66bb82c,

  300.              0x0,0x0,0x8000000000000000} /* 2*qtwist */

  301.     };

  302.     word_t random_scalar[7];

  303.     

  304.     unsigned char evil_inputs[3][56];

  305.     memset(evil_inputs[0],0,56);

  306.     memset(evil_inputs[1],0,56);

  307.     memset(evil_inputs[2],0xff,56);

  308.     evil_inputs[1][0] = 1;

  309.     evil_inputs[2][0] = evil_inputs[2][28] = 0xFE;

  310.     

  311.     unsigned char random_input[56];

  312.     

  313.     

  314.     crandom_state_a_t crand;

  315.     crandom_init_from_buffer(crand, "my evil_decaf random initializer");

  316. 

  317.     int i,j,fails=0;

  318.     int ret = 0;

  319.     for (i=0; i<100; i++) {

  320.         

  321.         crandom_generate(crand, (unsigned char *)random_scalar, sizeof(random_scalar));

  322.         if (i<15) {

  323.             memcpy(random_scalar, evil_scalars[i%5], sizeof(random_scalar));

  324.             if (i%3 == 1) random_scalar[0] ++;

  325.             if (i%3 == 2) random_scalar[0] --;

  326.         }

  327.         

  328.         for (j=0; j<100; j++) {

  329.             crandom_generate(crand, random_input, sizeof(random_input));

  330.             mask_t should = 0, care_should = 0;

  331.             if (j<3) {

  332.                 memcpy(random_input, evil_inputs[j], sizeof(random_input));

  333.                 care_should = -1;

  334.                 should = (j==0) ? -1 : 0;

  335.             } else {

  336.                 random_input[55] &= 0x7F;

  337.             }

  338.             

  339.             field_a_t base, out_m, out_e, out_ed;

  340.             mask_t s_base = field_deserialize(base,random_input);

  341.             

  342.             affine_a_t pt_e;

  343.             tw_affine_a_t pt_te;

  344.             tw_extended_a_t pt_ed;

  345.             // TODO: test don't allow identity

  346.             mask_t s_e  = decaf_deserialize_affine(pt_e,base,-1);

  347.             mask_t s_te = decaf_deserialize_tw_affine(pt_te,base,-1);

  348.             mask_t s_ed = decaf_deserialize_tw_extended(pt_ed,base,-1);

  349.             mask_t s_m  = decaf_montgomery_ladder(out_m, base, random_scalar, 448);

  350.             

  351.             tw_extensible_a_t work;

  352.             convert_tw_affine_to_tw_extensible(work,pt_te);

  353.             scalarmul(work, random_scalar);

  354.             decaf_serialize_tw_extensible(out_e, work);

  355. 

  356.             scalarmul_ed(pt_ed, random_scalar);

  357.             decaf_serialize_tw_extended(out_ed, pt_ed);

  358.             

  359.             uint8_t ser_de[56], ser_ed[56];

  360.             decaf_point_t pt_dec, pt_dec2;

  361.             memcpy(pt_dec, pt_ed, sizeof(pt_dec));

  362.             decaf_encode(ser_de, pt_dec);

  363.             mask_t succ_dec = decaf_decode(pt_dec2, ser_de, -1);

  364.             field_serialize(ser_ed, out_ed);

  365.             

  366.             if ((care_should && should != s_m)

  367.                 || ~s_base || s_e != s_te || s_m != s_te || s_ed != s_te

  368.                 || (s_te && ~field_eq(out_e,out_m))

  369.                 || (s_ed && ~field_eq(out_e,out_ed))

  370.                 || memcmp(ser_de, ser_ed, 56)

  371.                 || (s_e & ~succ_dec)

  372.                 || (s_e & ~decaf_eq(pt_dec, pt_dec2))

  373.             ) {

  374.                 youfail();

  375.                 field_print("    base", base);

  376.                 scalar_print("    scal", random_scalar, (448+WORD_BITS-1)/WORD_BITS);

  377.                 field_print("    oute", out_e);

  378.                 field_print("    outE", out_ed);

  379.                 field_print("    outm", out_m);

  380.                 printf("    succ: m=%d, e=%d, t=%d, b=%d, T=%d, D=%d, should=%d[%d]\n",

  381.                     -(int)s_m,-(int)s_e,-(int)s_te,-(int)s_base,-(int)s_ed,-(int)succ_dec,

  382.                     -(int)should,-(int)care_should

  383.                 );

  384.                 ret = -1;

  385.                 fails++;

  386.             }

  387.         }

  388.     }

  389.     if (fails) {

  390.         printf("    Failed %d trials\n", fails);

  391.     }

  392.     return ret;

  393. #endif

  394. }

  395. 

  396. int test_decaf (void) {

  397.     struct affine_t base;

  398.     struct tw_affine_t tw_base;

  399.     field_a_t serf;

  400.     

  401.     struct crandom_state_t crand;

  402.     crandom_init_from_buffer(&crand, "my test_decaf random initializer");

  403.     

  404.     int i, hits = 0, fails = 0;

  405.     for (i=0; i<1000; i++) {

  406.         uint8_t ser[FIELD_BYTES];

  407.         

  408.         int j;

  409.         

  410.         mask_t succ = 0;

  411.         for (j=0; j<128 && !succ; j++) {

  412.             crandom_generate(&crand, ser, sizeof(ser));

  413.             ser[FIELD_BYTES-1] &= (1<<((FIELD_BITS-1)%8)) - 1;

  414. 

  415.             succ = field_deserialize(serf, ser);

  416.             if (!succ) {

  417.                 youfail();

  418.                 printf("   Unlikely: fail at field_deserialize\n");

  419.                 return -1;

  420.             }

  421.         

  422.             succ &= decaf_deserialize_affine(&base, serf, 0);

  423.         }

  424.         if (!succ) {

  425.             youfail();

  426.             printf("Unlikely: fail 128 desers\n");

  427.             return -1;

  428.         }

  429.         

  430.         hits++;

  431.         field_a_t serf2;

  432.         struct extensible_t ext;

  433.         convert_affine_to_extensible(&ext, &base);

  434.         decaf_serialize_extensible(serf2, &ext);

  435.         

  436.         if (~validate_affine(&base)) {

  437.             youfail();

  438.             printf("Invalid decaf deser:\n");

  439.             field_print("    s", serf);

  440.             field_print("    x", base.x);

  441.             field_print("    y", base.y);

  442.             fails ++;

  443.         } else if (~field_eq(serf, serf2)) {

  444.             youfail();

  445.             printf("Fail round-trip through decaf ser:\n");

  446.             field_print("    s", serf);

  447.             field_print("    x", base.x);

  448.             field_print("    y", base.y);

  449.             printf("    deser is %s\n", validate_affine(&base) ? "valid" : "invalid");

  450.             field_print("    S", serf2);

  451.             fails ++;

  452.         } else if (~is_even_pt(&ext)) {

  453.             youfail();

  454.             printf("Decaf deser isn't even:\n");

  455.             field_print("    s", serf);

  456.             field_print("    x", base.x);

  457.             field_print("    y", base.y);

  458.             fails ++;

  459.         }

  460.         

  461.         succ = decaf_deserialize_tw_affine(&tw_base, serf, 0);

  462.         struct tw_extensible_t tw_ext, tw_ext2;

  463.         convert_tw_affine_to_tw_extensible(&tw_ext, &tw_base);

  464.         decaf_serialize_tw_extensible(serf2, &tw_ext);

  465.         

  466.         twist_even(&tw_ext2, &ext);

  467. 

  468.         if (~succ | ~validate_tw_extensible(&tw_ext)) {

  469.             youfail();

  470.             printf("Invalid decaf tw deser:\n");

  471.             field_print("    s", serf);

  472.             field_print("    x", tw_base.x);

  473.             field_print("    y", tw_base.y);

  474.             fails ++;

  475.         } else if (~field_eq(serf, serf2)) {

  476.             youfail();

  477.             printf("Fail round-trip through decaf ser:\n");

  478.             field_print("    s", serf);

  479.             field_print("    x", tw_base.x);

  480.             field_print("    y", tw_base.y);

  481.             printf("    tw deser is %s\n", validate_tw_extensible(&tw_ext) ? "valid" : "invalid");

  482.             field_print("    S", serf2);

  483.             fails ++;

  484.         } else if (~is_even_tw(&tw_ext)) {

  485.             youfail();

  486.             printf("Decaf tw deser isn't even:\n");

  487.             field_print("    s", serf);

  488.             field_print("    x", tw_base.x);

  489.             field_print("    y", tw_base.y);

  490.             fails ++;

  491.         } else if (~decaf_eq_tw_extensible(&tw_ext,&tw_ext2)) {

  492.             youfail();

  493.             printf("Decaf tw doesn't equal ext:\n");

  494.             field_print("    s",  serf);

  495.             field_print("    x1", base.x);

  496.             field_print("    y1", base.y);

  497.             field_print("    x2", tw_base.x);

  498.             field_print("    y2", tw_base.y);

  499.             field_print("    X2", tw_ext2.x);

  500.             field_print("    Y2", tw_ext2.y);

  501.             fails ++;

  502.         }

  503. 

  504.         tw_extended_a_t ed;

  505.         succ = decaf_deserialize_tw_extended(ed, serf, 0);

  506.         decaf_serialize_tw_extended(serf2, ed);

  507. 

  508.         if (~succ) {

  509.             youfail();

  510.             printf("Invalid decaf ed deser:\n");

  511.             field_print("    s", serf);

  512.             fails ++;

  513.         } else if (~field_eq(serf, serf2)) {

  514.             youfail();

  515.             printf("Fail round-trip through decaf ser:\n");

  516.             field_print("    s", serf);

  517.             field_print("    x", ed->x);

  518.             field_print("    y", ed->y);

  519.             field_print("    z", ed->z);

  520.             field_print("    t", ed->t);

  521.             printf("    tw deser is %s\n", validate_tw_extensible(&tw_ext) ? "valid" : "invalid");

  522.             field_print("    S", serf2);

  523.             fails ++;

  524.         }

  525. 

  526.         word_t scalar = 1;

  527.         mask_t res = decaf_montgomery_ladder(serf2,serf,&scalar,1+(i%31));

  528.         if (~res | ~field_eq(serf2,serf)) {

  529.             youfail();

  530.             printf("Decaf Montgomery ladder i=%d res=%d\n", 1+(i%31), (int)res);

  531.             field_print("    s", serf);

  532.             field_print("    o", serf2);

  533.             printf("\n");

  534.         }

  535.     }

  536.     if (hits < 1000) {

  537.         youfail();

  538.         printf("   Fail: only %d successes in decaf_deser\n", hits);

  539.         return -1;

  540.     } else if (fails) {

  541.         return -1;

  542.     } else {

  543.         return 0;

  544.     }

  545. }

  546. 

  547. int test_pointops (void) {

  548.     struct affine_t base, pbase;

  549.     field_a_t serf;

  550.     

  551.     struct crandom_state_t crand;

  552.     crandom_init_from_buffer(&crand, "test_pointops random initializer");

  553.     

  554.     struct extensible_t ext_base;

  555.     if (!validate_affine(goldilocks_base_point)) {

  556.         youfail();

  557.         printf("  Base point isn't on the curve.\n");

  558.         return -1;

  559.     }

  560.     convert_affine_to_extensible(&ext_base, goldilocks_base_point);

  561.     if (!validate_ext(&ext_base, 2, "base")) return -1;

  562.     

  563.     int i, ret;

  564.     for (i=0; i<1000; i++) {

  565.         uint8_t ser[FIELD_BYTES];

  566.         crandom_generate(&crand, ser, sizeof(ser));

  567. 

  568. 

  569.         #if (FIELD_BITS % 8)

  570.             ser[FIELD_BYTES-1] &= (1<<(FIELD_BITS%8)) - 1;

  571.         #endif

  572.         

  573.         /* TODO: we need a field generate, which can return random or pathological. */

  574.         mask_t succ = field_deserialize(serf, ser);

  575.         if (!succ) {

  576.             youfail();

  577.             printf("   Unlikely: fail at field_deserialize\n");

  578.             return -1;

  579.         }

  580.         

  581.         if (i) {

  582.             copy_affine(&pbase, &base);

  583.         }

  584.         elligator_2s_inject(&base, serf);

  585.         

  586.         if (i) {

  587.             ret = add_double_test(&base, &pbase);

  588.             if (ret) return ret;

  589.         }

  590.         

  591.         ret = single_twisting_test(&base);

  592.         if (ret) return ret;

  593.     }

  594.     

  595.     return 0;

  596. }