what-the-bank/sources/org/bouncycastle/crypto/BufferedBlockCipher.java

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2024-07-27 18:17:47 +07:00
package org.bouncycastle.crypto;
/* loaded from: classes6.dex */
public class BufferedBlockCipher {
public byte[] buf;
public int bufOff;
public BlockCipher cipher;
public boolean forEncryption;
protected boolean partialBlockOkay;
protected boolean pgpCFB;
public void reset() {
int i = 0;
while (true) {
byte[] bArr = this.buf;
if (i >= bArr.length) {
this.bufOff = 0;
this.cipher.reset();
return;
} else {
bArr[i] = 0;
i++;
}
}
}
public int processBytes(byte[] bArr, int i, int i2, byte[] bArr2, int i3) throws DataLengthException, IllegalStateException {
int i4;
if (i2 < 0) {
throw new IllegalArgumentException("Can't have a negative input length!");
}
int blockSize = getBlockSize();
int updateOutputSize = getUpdateOutputSize(i2);
if (updateOutputSize > 0 && updateOutputSize + i3 > bArr2.length) {
throw new OutputLengthException("output buffer too short");
}
byte[] bArr3 = this.buf;
int length = bArr3.length;
int i5 = this.bufOff;
int i6 = length - i5;
if (i2 > i6) {
System.arraycopy(bArr, i, bArr3, i5, i6);
i4 = this.cipher.processBlock(this.buf, 0, bArr2, i3);
this.bufOff = 0;
i2 -= i6;
i += i6;
while (i2 > this.buf.length) {
i4 += this.cipher.processBlock(bArr, i, bArr2, i3 + i4);
i2 -= blockSize;
i += blockSize;
}
} else {
i4 = 0;
}
System.arraycopy(bArr, i, this.buf, this.bufOff, i2);
int i7 = this.bufOff + i2;
this.bufOff = i7;
byte[] bArr4 = this.buf;
if (i7 != bArr4.length) {
return i4;
}
int processBlock = i4 + this.cipher.processBlock(bArr4, 0, bArr2, i3 + i4);
this.bufOff = 0;
return processBlock;
}
public int processByte(byte b, byte[] bArr, int i) throws DataLengthException, IllegalStateException {
byte[] bArr2 = this.buf;
int i2 = this.bufOff;
int i3 = i2 + 1;
this.bufOff = i3;
bArr2[i2] = b;
if (i3 != bArr2.length) {
return 0;
}
int processBlock = this.cipher.processBlock(bArr2, 0, bArr, i);
this.bufOff = 0;
return processBlock;
}
public void init(boolean z, CipherParameters cipherParameters) throws IllegalArgumentException {
this.forEncryption = z;
reset();
this.cipher.init(z, cipherParameters);
}
public int getUpdateOutputSize(int i) {
int length;
int i2;
int i3 = i + this.bufOff;
if (!this.pgpCFB) {
length = this.buf.length;
} else {
if (this.forEncryption) {
i2 = (i3 % this.buf.length) - (this.cipher.getBlockSize() + 2);
return i3 - i2;
}
length = this.buf.length;
}
i2 = i3 % length;
return i3 - i2;
}
public BlockCipher getUnderlyingCipher() {
return this.cipher;
}
public int getOutputSize(int i) {
return i + this.bufOff;
}
public int getBlockSize() {
return this.cipher.getBlockSize();
}
public int doFinal(byte[] bArr, int i) throws DataLengthException, IllegalStateException, InvalidCipherTextException {
try {
int i2 = this.bufOff;
if (i + i2 > bArr.length) {
throw new OutputLengthException("output buffer too short for doFinal()");
}
int i3 = 0;
if (i2 != 0) {
if (!this.partialBlockOkay) {
throw new DataLengthException("data not block size aligned");
}
BlockCipher blockCipher = this.cipher;
byte[] bArr2 = this.buf;
blockCipher.processBlock(bArr2, 0, bArr2, 0);
int i4 = this.bufOff;
this.bufOff = 0;
System.arraycopy(this.buf, 0, bArr, i, i4);
i3 = i4;
}
return i3;
} finally {
reset();
}
}
public BufferedBlockCipher(BlockCipher blockCipher) {
this.cipher = blockCipher;
this.buf = new byte[blockCipher.getBlockSize()];
boolean z = false;
this.bufOff = 0;
String algorithmName = blockCipher.getAlgorithmName();
int indexOf = algorithmName.indexOf(47) + 1;
boolean z2 = indexOf > 0 && algorithmName.startsWith("PGP", indexOf);
this.pgpCFB = z2;
if (z2 || (blockCipher instanceof StreamCipher)) {
this.partialBlockOkay = true;
return;
}
if (indexOf > 0 && algorithmName.startsWith("OpenPGP", indexOf)) {
z = true;
}
this.partialBlockOkay = z;
}
public BufferedBlockCipher() {
}
}