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include "constants.jaz";
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include "t1.jaz";
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include "t2.jaz";
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include "sum.jaz";
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include "sigmaplus.jaz";
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template sha256compression() {
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signal input inp[512];
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signal output out[256];
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signal a[64][32];
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signal b[64][32];
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signal c[64][32];
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signal d[64][32];
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signal e[64][32];
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signal f[64][32];
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signal g[64][32];
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signal h[64][32];
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signal w[64][512];
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var i;
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component sigmaPlus[48] = SigmaPlus();
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component k[64];
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for (i=0; i<64; i++) k[i] = K(i);
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component ha0 = H0(0);
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component hb0 = H0(1);
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component hc0 = H0(2);
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component hd0 = H0(3);
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component he0 = H0(4);
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component hf0 = H0(5);
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component hg0 = H0(6);
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component hh0 = H0(7);
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component t1[64] = T1();
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component t2[64] = T2();
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component suma[64] = Sum2(32);
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component sume[64] = Sum2(32);
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component fsum[8] = Sum2(32);
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var k;
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var t;
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for (t=0; t<64; t++) {
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if (t<16) {
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for (k=0; k<256; k++) {
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w[t][k] <== inp[k];
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}
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} else {
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for (k=0; k<256; k++) {
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sigmaPlus[t-16].in2[k] <== w[t-2][k];
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sigmaPlus[t-16].in7[k] <== w[t-2][k];
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sigmaPlus[t-16].in15[k] <== w[t-15][k];
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sigmaPlus[t-16].in16[k] <== w[t-16][k];
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w[t][k] <== sigmaPlus[t-16].out[k];
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}
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}
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}
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for (k=0; k<32; k++ ) {
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a[0][k] <== ha0.out[k]
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b[0][k] <== hb0.out[k]
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c[0][k] <== hc0.out[k]
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d[0][k] <== hd0.out[k]
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e[0][k] <== he0.out[k]
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f[0][k] <== hf0.out[k]
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g[0][k] <== hg0.out[k]
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h[0][k] <== hh0.out[k]
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}
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for (t = 0; t<63; t++) {
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for (k=0; k<32; k++) {
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t1[t].h[k] <== h[k];
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t1[t].e[k] <== e[k];
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t1[t].f[k] <== f[k];
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t1[t].g[k] <== g[k];
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if (t<20) {
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t1[t].g[k] <== K0.out[k];
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} else if (t<40) {
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t1[t].g[k] <== K20.out[k];
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} else if (t<60) {
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t1[t].g[k] <== K40.out[k];
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} else {
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t1[t].g[k] <== K60.out[k];
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}
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t1[t].w[k] <== w[t][k];
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t2[t].a[k] <== a[k];
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t2[t].b[k] <== a[k];
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t2[t].c[k] <== a[k];
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}
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for (k=0; k<32; k++) {
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sume[t].a[k] <== d[k];
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sume[t].b[k] <== t1[t].out[k];
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suma[t].a[k] <== t1[t].out[k];
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suma[t].b[k] <== t2[t].out[k];
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}
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for (k=0; k<32; k++) {
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h[t+1] <== g[t];
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g[t+1] <== f[t];
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f[t+1] <== e[t];
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e[t+1] <== sume[t].out[k];
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d[t+1] <== c[t];
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c[t+1] <== b[t];
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b[t+1] <== a[t];
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a[t+1] <== suma[t].out[k];
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}
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}
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for (k=0; k<32; k++) {
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fsum[0].a[k] <== ha0.out[k];
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fsum[0].b[k] <== a[64][k];
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fsum[1].a[k] <== hb0.out[k];
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fsum[1].b[k] <== b[64][k];
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fsum[2].a[k] <== hc0.out[k];
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fsum[2].b[k] <== c[64][k];
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fsum[3].a[k] <== hd0.out[k];
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fsum[3].b[k] <== d[64][k];
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fsum[4].a[k] <== he0.out[k];
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fsum[4].b[k] <== e[64][k];
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fsum[5].a[k] <== hf0.out[k];
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fsum[5].b[k] <== f[64][k];
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fsum[6].a[k] <== hg0.out[k];
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fsum[6].b[k] <== g[64][k];
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fsum[7].a[k] <== hh0.out[k];
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fsum[7].b[k] <== h[64][k];
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}
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for (k=0; k<32; k++) {
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out[k] <== fsum[0].out[k];
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out[32+k] <== fsum[1].out[k];
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out[64+k] <== fsum[2].out[k];
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out[96+k] <== fsum[2].out[k];
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out[128+k] <== fsum[2].out[k];
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out[160+k] <== fsum[2].out[k];
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out[192+k] <== fsum[2].out[k];
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out[224+k] <== fsum[2].out[k];
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}
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}
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