526 lines
22 KiB
Java
526 lines
22 KiB
Java
package org.bouncycastle.pqc.crypto.gmss;
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import java.io.PrintStream;
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import java.lang.reflect.Array;
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import java.util.Vector;
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import org.bouncycastle.crypto.Digest;
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import org.bouncycastle.pqc.crypto.gmss.util.GMSSRandom;
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import org.bouncycastle.pqc.crypto.gmss.util.WinternitzOTSignature;
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import org.bouncycastle.util.Arrays;
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/* loaded from: classes6.dex */
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public class GMSSPrivateKeyParameters extends GMSSKeyParameters {
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private int[] K;
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private byte[][][] currentAuthPaths;
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private Vector[][] currentRetain;
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private byte[][] currentRootSig;
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private byte[][] currentSeeds;
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private Vector[] currentStack;
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private Treehash[][] currentTreehash;
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private GMSSDigestProvider digestProvider;
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private GMSSParameters gmssPS;
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private GMSSRandom gmssRandom;
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private int[] heightOfTrees;
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private int[] index;
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private byte[][][] keep;
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private int mdLength;
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private Digest messDigestTrees;
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private int[] minTreehash;
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private byte[][][] nextAuthPaths;
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private GMSSLeaf[] nextNextLeaf;
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private GMSSRootCalc[] nextNextRoot;
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private byte[][] nextNextSeeds;
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private Vector[][] nextRetain;
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private byte[][] nextRoot;
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private GMSSRootSig[] nextRootSig;
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private Vector[] nextStack;
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private Treehash[][] nextTreehash;
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private int numLayer;
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private int[] numLeafs;
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private int[] otsIndex;
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private GMSSLeaf[] upperLeaf;
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private GMSSLeaf[] upperTreehashLeaf;
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private boolean used;
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public GMSSPrivateKeyParameters nextKey() {
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GMSSPrivateKeyParameters gMSSPrivateKeyParameters = new GMSSPrivateKeyParameters(this);
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gMSSPrivateKeyParameters.nextKey(this.gmssPS.getNumOfLayers() - 1);
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return gMSSPrivateKeyParameters;
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}
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public void markUsed() {
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this.used = true;
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}
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public boolean isUsed() {
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return this.used;
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}
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public byte[] getSubtreeRootSig(int i) {
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return this.currentRootSig[i];
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}
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public int getNumLeafs(int i) {
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return this.numLeafs[i];
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}
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public GMSSDigestProvider getName() {
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return this.digestProvider;
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}
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public int[] getIndex() {
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return this.index;
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}
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public int getIndex(int i) {
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return this.index[i];
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}
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public byte[][] getCurrentSeeds() {
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return Arrays.clone(this.currentSeeds);
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}
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public byte[][][] getCurrentAuthPaths() {
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return Arrays.clone(this.currentAuthPaths);
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}
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private void updateNextNextAuthRoot(int i) {
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byte[] bArr = new byte[this.mdLength];
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int i2 = i - 1;
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byte[] nextSeed = this.gmssRandom.nextSeed(this.nextNextSeeds[i2]);
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if (i == this.numLayer - 1) {
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this.nextNextRoot[i2].update(this.nextNextSeeds[i2], new WinternitzOTSignature(nextSeed, this.digestProvider.get(), this.otsIndex[i]).getPublicKey());
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} else {
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this.nextNextRoot[i2].update(this.nextNextSeeds[i2], this.nextNextLeaf[i2].getLeaf());
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this.nextNextLeaf[i2].initLeafCalc(this.nextNextSeeds[i2]);
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}
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}
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private void updateKey(int i) {
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computeAuthPaths(i);
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if (i > 0) {
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if (i > 1) {
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GMSSLeaf[] gMSSLeafArr = this.nextNextLeaf;
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int i2 = i - 2;
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gMSSLeafArr[i2] = gMSSLeafArr[i2].nextLeaf();
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}
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GMSSLeaf[] gMSSLeafArr2 = this.upperLeaf;
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int i3 = i - 1;
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gMSSLeafArr2[i3] = gMSSLeafArr2[i3].nextLeaf();
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int floor = (int) Math.floor((getNumLeafs(i) << 1) / (this.heightOfTrees[i3] - this.K[i3]));
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int i4 = this.index[i];
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if (i4 % floor == 1) {
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if (i4 > 1 && this.minTreehash[i3] >= 0) {
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try {
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this.currentTreehash[i3][this.minTreehash[i3]].update(this.gmssRandom, this.upperTreehashLeaf[i3].getLeaf());
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this.currentTreehash[i3][this.minTreehash[i3]].wasFinished();
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} catch (Exception e) {
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System.out.println(e);
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}
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}
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this.minTreehash[i3] = getMinTreehashIndex(i3);
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int i5 = this.minTreehash[i3];
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if (i5 >= 0) {
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this.upperTreehashLeaf[i3] = new GMSSLeaf(this.digestProvider.get(), this.otsIndex[i3], floor, this.currentTreehash[i3][i5].getSeedActive());
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GMSSLeaf[] gMSSLeafArr3 = this.upperTreehashLeaf;
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gMSSLeafArr3[i3] = gMSSLeafArr3[i3].nextLeaf();
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}
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} else if (this.minTreehash[i3] >= 0) {
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GMSSLeaf[] gMSSLeafArr4 = this.upperTreehashLeaf;
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gMSSLeafArr4[i3] = gMSSLeafArr4[i3].nextLeaf();
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}
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this.nextRootSig[i3].updateSign();
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if (this.index[i] == 1) {
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this.nextNextRoot[i3].initialize(new Vector());
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}
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updateNextNextAuthRoot(i);
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}
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}
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private void nextTree(int i) {
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if (i > 0) {
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int[] iArr = this.index;
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int i2 = i - 1;
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iArr[i2] = iArr[i2] + 1;
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int i3 = i;
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boolean z = true;
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do {
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i3--;
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if (this.index[i3] < this.numLeafs[i3]) {
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z = false;
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}
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if (!z) {
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break;
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}
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} while (i3 > 0);
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if (z) {
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return;
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}
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this.gmssRandom.nextSeed(this.currentSeeds[i]);
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this.nextRootSig[i2].updateSign();
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if (i > 1) {
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GMSSLeaf[] gMSSLeafArr = this.nextNextLeaf;
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int i4 = i - 2;
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gMSSLeafArr[i4] = gMSSLeafArr[i4].nextLeaf();
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}
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GMSSLeaf[] gMSSLeafArr2 = this.upperLeaf;
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gMSSLeafArr2[i2] = gMSSLeafArr2[i2].nextLeaf();
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if (this.minTreehash[i2] >= 0) {
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GMSSLeaf[] gMSSLeafArr3 = this.upperTreehashLeaf;
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gMSSLeafArr3[i2] = gMSSLeafArr3[i2].nextLeaf();
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try {
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this.currentTreehash[i2][this.minTreehash[i2]].update(this.gmssRandom, this.upperTreehashLeaf[i2].getLeaf());
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this.currentTreehash[i2][this.minTreehash[i2]].wasFinished();
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} catch (Exception e) {
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System.out.println(e);
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}
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}
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updateNextNextAuthRoot(i);
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this.currentRootSig[i2] = this.nextRootSig[i2].getSig();
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for (int i5 = 0; i5 < this.heightOfTrees[i] - this.K[i]; i5++) {
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Treehash[] treehashArr = this.currentTreehash[i];
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Treehash[][] treehashArr2 = this.nextTreehash;
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treehashArr[i5] = treehashArr2[i2][i5];
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treehashArr2[i2][i5] = this.nextNextRoot[i2].getTreehash()[i5];
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}
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for (int i6 = 0; i6 < this.heightOfTrees[i]; i6++) {
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System.arraycopy(this.nextAuthPaths[i2][i6], 0, this.currentAuthPaths[i][i6], 0, this.mdLength);
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System.arraycopy(this.nextNextRoot[i2].getAuthPath()[i6], 0, this.nextAuthPaths[i2][i6], 0, this.mdLength);
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}
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for (int i7 = 0; i7 < this.K[i] - 1; i7++) {
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Vector[] vectorArr = this.currentRetain[i];
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Vector[][] vectorArr2 = this.nextRetain;
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vectorArr[i7] = vectorArr2[i2][i7];
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vectorArr2[i2][i7] = this.nextNextRoot[i2].getRetain()[i7];
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}
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Vector[] vectorArr3 = this.currentStack;
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Vector[] vectorArr4 = this.nextStack;
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vectorArr3[i] = vectorArr4[i2];
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vectorArr4[i2] = this.nextNextRoot[i2].getStack();
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this.nextRoot[i2] = this.nextNextRoot[i2].getRoot();
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int i8 = this.mdLength;
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byte[] bArr = new byte[i8];
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byte[] bArr2 = new byte[i8];
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System.arraycopy(this.currentSeeds[i2], 0, bArr2, 0, i8);
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this.gmssRandom.nextSeed(bArr2);
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this.gmssRandom.nextSeed(bArr2);
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this.nextRootSig[i2].initSign(this.gmssRandom.nextSeed(bArr2), this.nextRoot[i2]);
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nextKey(i2);
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}
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}
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private void nextKey(int i) {
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int i2 = this.numLayer;
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if (i == i2 - 1) {
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int[] iArr = this.index;
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iArr[i] = iArr[i] + 1;
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}
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if (this.index[i] != this.numLeafs[i]) {
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updateKey(i);
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} else if (i2 != 1) {
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nextTree(i);
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this.index[i] = 0;
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}
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}
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private int heightOfPhi(int i) {
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if (i == 0) {
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return -1;
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}
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int i2 = 0;
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int i3 = 1;
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while (i % i3 == 0) {
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i3 <<= 1;
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i2++;
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}
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return i2 - 1;
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}
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private int getMinTreehashIndex(int i) {
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int i2 = -1;
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for (int i3 = 0; i3 < this.heightOfTrees[i] - this.K[i]; i3++) {
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if (this.currentTreehash[i][i3].wasInitialized() && !this.currentTreehash[i][i3].wasFinished() && (i2 == -1 || this.currentTreehash[i][i3].getLowestNodeHeight() < this.currentTreehash[i][i2].getLowestNodeHeight())) {
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i2 = i3;
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}
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}
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return i2;
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}
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private void computeAuthPaths(int i) {
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int i2;
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byte[] bArr;
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int i3 = this.index[i];
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int i4 = this.heightOfTrees[i];
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int i5 = this.K[i];
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int i6 = 0;
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while (true) {
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i2 = i4 - i5;
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if (i6 >= i2) {
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break;
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}
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this.currentTreehash[i][i6].updateNextSeed(this.gmssRandom);
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i6++;
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}
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int heightOfPhi = heightOfPhi(i3);
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byte[] bArr2 = new byte[this.mdLength];
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byte[] nextSeed = this.gmssRandom.nextSeed(this.currentSeeds[i]);
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int i7 = (i3 >>> (heightOfPhi + 1)) & 1;
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int i8 = this.mdLength;
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byte[] bArr3 = new byte[i8];
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int i9 = i4 - 1;
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if (heightOfPhi < i9 && i7 == 0) {
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System.arraycopy(this.currentAuthPaths[i][heightOfPhi], 0, bArr3, 0, i8);
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}
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int i10 = this.mdLength;
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byte[] bArr4 = new byte[i10];
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if (heightOfPhi == 0) {
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if (i == this.numLayer - 1) {
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bArr = new WinternitzOTSignature(nextSeed, this.digestProvider.get(), this.otsIndex[i]).getPublicKey();
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} else {
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byte[] bArr5 = new byte[i10];
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System.arraycopy(this.currentSeeds[i], 0, bArr5, 0, i10);
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this.gmssRandom.nextSeed(bArr5);
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byte[] leaf = this.upperLeaf[i].getLeaf();
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this.upperLeaf[i].initLeafCalc(bArr5);
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bArr = leaf;
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}
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System.arraycopy(bArr, 0, this.currentAuthPaths[i][0], 0, this.mdLength);
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} else {
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int i11 = i10 << 1;
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byte[] bArr6 = new byte[i11];
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int i12 = heightOfPhi - 1;
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System.arraycopy(this.currentAuthPaths[i][i12], 0, bArr6, 0, i10);
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byte[] bArr7 = this.keep[i][i12 / 2];
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int i13 = this.mdLength;
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System.arraycopy(bArr7, 0, bArr6, i13, i13);
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this.messDigestTrees.update(bArr6, 0, i11);
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this.currentAuthPaths[i][heightOfPhi] = new byte[this.messDigestTrees.getDigestSize()];
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this.messDigestTrees.doFinal(this.currentAuthPaths[i][heightOfPhi], 0);
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for (int i14 = 0; i14 < heightOfPhi; i14++) {
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if (i14 < i2) {
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if (this.currentTreehash[i][i14].wasFinished()) {
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System.arraycopy(this.currentTreehash[i][i14].getFirstNode(), 0, this.currentAuthPaths[i][i14], 0, this.mdLength);
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this.currentTreehash[i][i14].destroy();
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} else {
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PrintStream printStream = System.err;
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StringBuilder sb = new StringBuilder("Treehash (");
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sb.append(i);
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sb.append(",");
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sb.append(i14);
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sb.append(") not finished when needed in AuthPathComputation");
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printStream.println(sb.toString());
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}
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}
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if (i14 < i9 && i14 >= i2) {
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int i15 = i14 - i2;
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if (this.currentRetain[i][i15].size() > 0) {
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System.arraycopy(this.currentRetain[i][i15].lastElement(), 0, this.currentAuthPaths[i][i14], 0, this.mdLength);
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Vector vector = this.currentRetain[i][i15];
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vector.removeElementAt(vector.size() - 1);
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}
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}
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if (i14 < i2 && ((1 << i14) * 3) + i3 < this.numLeafs[i]) {
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this.currentTreehash[i][i14].initialize();
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}
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}
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}
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if (heightOfPhi < i9 && i7 == 0) {
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System.arraycopy(bArr3, 0, this.keep[i][heightOfPhi / 2], 0, this.mdLength);
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}
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if (i != this.numLayer - 1) {
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this.minTreehash[i] = getMinTreehashIndex(i);
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return;
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}
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for (int i16 = 1; i16 <= i2 / 2; i16++) {
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int minTreehashIndex = getMinTreehashIndex(i);
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if (minTreehashIndex >= 0) {
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try {
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byte[] bArr8 = new byte[this.mdLength];
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System.arraycopy(this.currentTreehash[i][minTreehashIndex].getSeedActive(), 0, bArr8, 0, this.mdLength);
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this.currentTreehash[i][minTreehashIndex].update(this.gmssRandom, new WinternitzOTSignature(this.gmssRandom.nextSeed(bArr8), this.digestProvider.get(), this.otsIndex[i]).getPublicKey());
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} catch (Exception e) {
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System.out.println(e);
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}
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}
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}
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}
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public GMSSPrivateKeyParameters(byte[][] bArr, byte[][] bArr2, byte[][][] bArr3, byte[][][] bArr4, Treehash[][] treehashArr, Treehash[][] treehashArr2, Vector[] vectorArr, Vector[] vectorArr2, Vector[][] vectorArr3, Vector[][] vectorArr4, byte[][] bArr5, byte[][] bArr6, GMSSParameters gMSSParameters, GMSSDigestProvider gMSSDigestProvider) {
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this(null, bArr, bArr2, bArr3, bArr4, null, treehashArr, treehashArr2, vectorArr, vectorArr2, vectorArr3, vectorArr4, null, null, null, null, bArr5, null, bArr6, null, gMSSParameters, gMSSDigestProvider);
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}
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public GMSSPrivateKeyParameters(int[] iArr, byte[][] bArr, byte[][] bArr2, byte[][][] bArr3, byte[][][] bArr4, byte[][][] bArr5, Treehash[][] treehashArr, Treehash[][] treehashArr2, Vector[] vectorArr, Vector[] vectorArr2, Vector[][] vectorArr3, Vector[][] vectorArr4, GMSSLeaf[] gMSSLeafArr, GMSSLeaf[] gMSSLeafArr2, GMSSLeaf[] gMSSLeafArr3, int[] iArr2, byte[][] bArr6, GMSSRootCalc[] gMSSRootCalcArr, byte[][] bArr7, GMSSRootSig[] gMSSRootSigArr, GMSSParameters gMSSParameters, GMSSDigestProvider gMSSDigestProvider) {
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super(true, gMSSParameters);
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this.used = false;
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Digest digest = gMSSDigestProvider.get();
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this.messDigestTrees = digest;
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this.mdLength = digest.getDigestSize();
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this.gmssPS = gMSSParameters;
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this.otsIndex = gMSSParameters.getWinternitzParameter();
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this.K = gMSSParameters.getK();
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this.heightOfTrees = gMSSParameters.getHeightOfTrees();
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int numOfLayers = this.gmssPS.getNumOfLayers();
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this.numLayer = numOfLayers;
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if (iArr == null) {
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this.index = new int[numOfLayers];
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for (int i = 0; i < this.numLayer; i++) {
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this.index[i] = 0;
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}
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} else {
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this.index = iArr;
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}
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this.currentSeeds = bArr;
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this.nextNextSeeds = bArr2;
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this.currentAuthPaths = bArr3;
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this.nextAuthPaths = bArr4;
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if (bArr5 == null) {
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this.keep = new byte[this.numLayer][];
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for (int i2 = 0; i2 < this.numLayer; i2++) {
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this.keep[i2] = (byte[][]) Array.newInstance((Class<?>) Byte.TYPE, this.heightOfTrees[i2] / 2, this.mdLength);
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}
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} else {
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this.keep = bArr5;
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}
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if (vectorArr == null) {
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this.currentStack = new Vector[this.numLayer];
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for (int i3 = 0; i3 < this.numLayer; i3++) {
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this.currentStack[i3] = new Vector();
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}
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} else {
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this.currentStack = vectorArr;
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}
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if (vectorArr2 == null) {
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this.nextStack = new Vector[this.numLayer - 1];
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int i4 = 0;
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for (int i5 = 1; i4 < this.numLayer - i5; i5 = 1) {
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this.nextStack[i4] = new Vector();
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i4++;
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}
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} else {
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this.nextStack = vectorArr2;
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}
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this.currentTreehash = treehashArr;
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this.nextTreehash = treehashArr2;
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this.currentRetain = vectorArr3;
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this.nextRetain = vectorArr4;
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this.nextRoot = bArr6;
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this.digestProvider = gMSSDigestProvider;
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if (gMSSRootCalcArr == null) {
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this.nextNextRoot = new GMSSRootCalc[this.numLayer - 1];
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int i6 = 0;
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for (int i7 = 1; i6 < this.numLayer - i7; i7 = 1) {
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int i8 = i6 + 1;
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this.nextNextRoot[i6] = new GMSSRootCalc(this.heightOfTrees[i8], this.K[i8], this.digestProvider);
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i6 = i8;
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}
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|
} else {
|
|
this.nextNextRoot = gMSSRootCalcArr;
|
|
}
|
|
this.currentRootSig = bArr7;
|
|
this.numLeafs = new int[this.numLayer];
|
|
for (int i9 = 0; i9 < this.numLayer; i9++) {
|
|
this.numLeafs[i9] = 1 << this.heightOfTrees[i9];
|
|
}
|
|
this.gmssRandom = new GMSSRandom(this.messDigestTrees);
|
|
int i10 = this.numLayer;
|
|
if (i10 <= 1) {
|
|
this.nextNextLeaf = new GMSSLeaf[0];
|
|
} else if (gMSSLeafArr == null) {
|
|
this.nextNextLeaf = new GMSSLeaf[i10 - 2];
|
|
int i11 = 0;
|
|
while (i11 < this.numLayer - 2) {
|
|
int i12 = i11 + 1;
|
|
this.nextNextLeaf[i11] = new GMSSLeaf(gMSSDigestProvider.get(), this.otsIndex[i12], this.numLeafs[i11 + 2], this.nextNextSeeds[i11]);
|
|
i11 = i12;
|
|
}
|
|
} else {
|
|
this.nextNextLeaf = gMSSLeafArr;
|
|
}
|
|
if (gMSSLeafArr2 == null) {
|
|
this.upperLeaf = new GMSSLeaf[this.numLayer - 1];
|
|
int i13 = 0;
|
|
for (int i14 = 1; i13 < this.numLayer - i14; i14 = 1) {
|
|
int i15 = i13 + 1;
|
|
this.upperLeaf[i13] = new GMSSLeaf(gMSSDigestProvider.get(), this.otsIndex[i13], this.numLeafs[i15], this.currentSeeds[i13]);
|
|
i13 = i15;
|
|
}
|
|
} else {
|
|
this.upperLeaf = gMSSLeafArr2;
|
|
}
|
|
if (gMSSLeafArr3 == null) {
|
|
this.upperTreehashLeaf = new GMSSLeaf[this.numLayer - 1];
|
|
int i16 = 0;
|
|
for (int i17 = 1; i16 < this.numLayer - i17; i17 = 1) {
|
|
int i18 = i16 + 1;
|
|
this.upperTreehashLeaf[i16] = new GMSSLeaf(gMSSDigestProvider.get(), this.otsIndex[i16], this.numLeafs[i18]);
|
|
i16 = i18;
|
|
}
|
|
} else {
|
|
this.upperTreehashLeaf = gMSSLeafArr3;
|
|
}
|
|
if (iArr2 == null) {
|
|
this.minTreehash = new int[this.numLayer - 1];
|
|
int i19 = 0;
|
|
for (int i20 = 1; i19 < this.numLayer - i20; i20 = 1) {
|
|
this.minTreehash[i19] = -1;
|
|
i19++;
|
|
}
|
|
} else {
|
|
this.minTreehash = iArr2;
|
|
}
|
|
int i21 = this.mdLength;
|
|
byte[] bArr8 = new byte[i21];
|
|
byte[] bArr9 = new byte[i21];
|
|
if (gMSSRootSigArr != null) {
|
|
this.nextRootSig = gMSSRootSigArr;
|
|
return;
|
|
}
|
|
this.nextRootSig = new GMSSRootSig[this.numLayer - 1];
|
|
int i22 = 0;
|
|
while (i22 < this.numLayer - 1) {
|
|
System.arraycopy(bArr[i22], 0, bArr8, 0, this.mdLength);
|
|
this.gmssRandom.nextSeed(bArr8);
|
|
byte[] nextSeed = this.gmssRandom.nextSeed(bArr8);
|
|
int i23 = i22 + 1;
|
|
this.nextRootSig[i22] = new GMSSRootSig(gMSSDigestProvider.get(), this.otsIndex[i22], this.heightOfTrees[i23]);
|
|
this.nextRootSig[i22].initSign(nextSeed, bArr6[i22]);
|
|
i22 = i23;
|
|
}
|
|
}
|
|
|
|
private GMSSPrivateKeyParameters(GMSSPrivateKeyParameters gMSSPrivateKeyParameters) {
|
|
super(true, gMSSPrivateKeyParameters.getParameters());
|
|
this.used = false;
|
|
this.index = Arrays.clone(gMSSPrivateKeyParameters.index);
|
|
this.currentSeeds = Arrays.clone(gMSSPrivateKeyParameters.currentSeeds);
|
|
this.nextNextSeeds = Arrays.clone(gMSSPrivateKeyParameters.nextNextSeeds);
|
|
this.currentAuthPaths = Arrays.clone(gMSSPrivateKeyParameters.currentAuthPaths);
|
|
this.nextAuthPaths = Arrays.clone(gMSSPrivateKeyParameters.nextAuthPaths);
|
|
this.currentTreehash = gMSSPrivateKeyParameters.currentTreehash;
|
|
this.nextTreehash = gMSSPrivateKeyParameters.nextTreehash;
|
|
this.currentStack = gMSSPrivateKeyParameters.currentStack;
|
|
this.nextStack = gMSSPrivateKeyParameters.nextStack;
|
|
this.currentRetain = gMSSPrivateKeyParameters.currentRetain;
|
|
this.nextRetain = gMSSPrivateKeyParameters.nextRetain;
|
|
this.keep = Arrays.clone(gMSSPrivateKeyParameters.keep);
|
|
this.nextNextLeaf = gMSSPrivateKeyParameters.nextNextLeaf;
|
|
this.upperLeaf = gMSSPrivateKeyParameters.upperLeaf;
|
|
this.upperTreehashLeaf = gMSSPrivateKeyParameters.upperTreehashLeaf;
|
|
this.minTreehash = gMSSPrivateKeyParameters.minTreehash;
|
|
this.gmssPS = gMSSPrivateKeyParameters.gmssPS;
|
|
this.nextRoot = Arrays.clone(gMSSPrivateKeyParameters.nextRoot);
|
|
this.nextNextRoot = gMSSPrivateKeyParameters.nextNextRoot;
|
|
this.currentRootSig = gMSSPrivateKeyParameters.currentRootSig;
|
|
this.nextRootSig = gMSSPrivateKeyParameters.nextRootSig;
|
|
this.digestProvider = gMSSPrivateKeyParameters.digestProvider;
|
|
this.heightOfTrees = gMSSPrivateKeyParameters.heightOfTrees;
|
|
this.otsIndex = gMSSPrivateKeyParameters.otsIndex;
|
|
this.K = gMSSPrivateKeyParameters.K;
|
|
this.numLayer = gMSSPrivateKeyParameters.numLayer;
|
|
this.messDigestTrees = gMSSPrivateKeyParameters.messDigestTrees;
|
|
this.mdLength = gMSSPrivateKeyParameters.mdLength;
|
|
this.gmssRandom = gMSSPrivateKeyParameters.gmssRandom;
|
|
this.numLeafs = gMSSPrivateKeyParameters.numLeafs;
|
|
}
|
|
}
|