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| author | Peter Dettman <peter.dettman@bouncycastle.org> | 2022-07-12 22:44:08 +0700 |
|---|---|---|
| committer | Peter Dettman <peter.dettman@bouncycastle.org> | 2022-07-12 22:44:08 +0700 |
| commit | c7464b392dffc54616d4b7c149f6d9e0c6d790ee (patch) | |
| tree | cd8eacfddfe9bb3ae6e5d6f7bd57ac62f2083e86 /crypto/src/pqc | |
| parent | Remove redundant utility methods and refactor (diff) | |
| download | BouncyCastle.NET-ed25519-c7464b392dffc54616d4b7c149f6d9e0c6d790ee.tar.xz | |
Refactoring in Picnic
Diffstat (limited to 'crypto/src/pqc')
| -rw-r--r-- | crypto/src/pqc/crypto/picnic/PicnicEngine.cs | 460 | ||||
| -rw-r--r-- | crypto/src/pqc/crypto/picnic/Utils.cs | 42 |
2 files changed, 217 insertions, 285 deletions
diff --git a/crypto/src/pqc/crypto/picnic/PicnicEngine.cs b/crypto/src/pqc/crypto/picnic/PicnicEngine.cs index da6a9215c..605a27764 100644 --- a/crypto/src/pqc/crypto/picnic/PicnicEngine.cs +++ b/crypto/src/pqc/crypto/picnic/PicnicEngine.cs @@ -1,4 +1,5 @@ using System; + using Org.BouncyCastle.Crypto; using Org.BouncyCastle.Crypto.Digests; using Org.BouncyCastle.Crypto.Utilities; @@ -270,46 +271,37 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic seedSizeBytes = Utils.NumBytes(2 * pqSecurityLevel); stateSizeWords = (stateSizeBits + WORD_SIZE_BITS - 1) / WORD_SIZE_BITS; - - switch (parameters) { - case 1: - case 3: - case 5: - case 7: - case 8: - case 9: - case 10: - case 11: - case 12: - transform = TRANSFORM_FS; - break; - case 2: - case 4: - case 6: - transform = TRANSFORM_UR; - break; - default: - transform = TRANSFORM_INVALID; - break; + case 1: + case 3: + case 5: + case 7: + case 8: + case 9: + case 10: + case 11: + case 12: + transform = TRANSFORM_FS; + break; + case 2: + case 4: + case 6: + transform = TRANSFORM_UR; + break; + default: + transform = TRANSFORM_INVALID; + break; } - if (transform == 1) { UnruhGWithoutInputBytes = seedSizeBytes + andSizeBytes; UnruhGWithInputBytes = UnruhGWithoutInputBytes + stateSizeBytes; } - if (stateSizeBits == 128 || stateSizeBits == 129) - { - digest = new ShakeDigest(128); - } - else - { - digest = new ShakeDigest(256); - } + int shakeSize = (stateSizeBits == 128 || stateSizeBits == 129) ? 128 : 256; + digest = new ShakeDigest(shakeSize); } public bool crypto_sign_open(byte[] m, byte[] sm, byte[] pk) @@ -317,7 +309,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic uint sigLen = Pack.LE_To_UInt32(sm, 0); byte[] m_from_sm = Arrays.CopyOfRange(sm, 4, 4 + m.Length); int ret = picnic_verify(pk, m_from_sm, sm, sigLen); - System.Array.Copy(sm, 4, m, 0, m.Length); + Array.Copy(sm, 4, m, 0, m.Length); return ret != -1; } @@ -337,7 +329,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic Signature2 sig = new Signature2(this); DeserializeSignature2(sig, signature, sigLen, message.Length + 4); - return verify_picnic3(sig, ciphertext, plaintext, message); } else @@ -410,24 +401,15 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic // create ordered array of commitments with order computed based on the challenge // check commitments of the two opened views int challenge = GetChallenge(received_challengebits, i); - Commit(proofs[i].seed1, 0, view1s[i], AS[i] - [challenge]) - - ; - Commit(proofs[i].seed2, 0, view2s[i], AS[i] - [ (challenge - - +1) % 3]); - System.Array.Copy(proofs[i].view3Commitment, 0, AS[i] - [ (challenge - - +2) % 3], 0, digestSizeBytes); + Commit(proofs[i].seed1, 0, view1s[i], AS[i][challenge]); + Commit(proofs[i].seed2, 0, view2s[i], AS[i][(challenge + 1) % 3]); + Array.Copy(proofs[i].view3Commitment, 0, AS[i][(challenge + 2) % 3], 0, digestSizeBytes); if (transform == TRANSFORM_UR) { G(challenge, proofs[i].seed1, 0, view1s[i], gs[i][challenge]); G((challenge + 1) % 3, proofs[i].seed2, 0, view2s[i], gs[i][(challenge + 1) % 3]); int view3UnruhLength = (challenge == 0) ? UnruhGWithInputBytes : UnruhGWithoutInputBytes; - System.Array.Copy(proofs[i].view3UnruhG, 0, gs[i][(challenge + 2) % 3], 0, view3UnruhLength); + Array.Copy(proofs[i].view3UnruhG, 0, gs[i][(challenge + 2) % 3], 0, view3UnruhLength); } viewOutputs[i][challenge] = view1s[i].outputShare; @@ -439,9 +421,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic computed_challengebits = new byte[Utils.NumBytes(2 * numMPCRounds)]; - H3(pubKey, plaintext, viewOutputs, - AS, computed_challengebits, sig.salt, - message, gs); + H3(pubKey, plaintext, viewOutputs, AS, computed_challengebits, sig.salt, message, gs); if (!SubarrayEquals(received_challengebits, computed_challengebits, Utils.NumBytes(2 * numMPCRounds))) { @@ -455,7 +435,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic void VerifyProof(Signature.Proof proof, View view1, View view2, int challenge, byte[] salt, uint roundNumber, byte[] tmp, uint[] plaintext, Tape tape) { - System.Array.Copy(proof.communicatedBits, 0, view2.communicatedBits, 0, andSizeBytes); + Array.Copy(proof.communicatedBits, 0, view2.communicatedBits, 0, andSizeBytes); tape.pos = 0; // Console.Error.Write("tmp: " + Hex.toHexString(tmp)); @@ -463,66 +443,71 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic bool status = false; switch (challenge) { - case 0: - // in this case, both views' inputs are derivable from the input share - status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, - 0, tmp, stateSizeBytes + andSizeBytes); + case 0: + { + // in this case, both views' inputs are derivable from the input share + status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, + 0, tmp, stateSizeBytes + andSizeBytes); - Pack.LE_To_UInt32(tmp, 0, view1.inputShare); //todo check - System.Array.Copy(tmp, stateSizeBytes, tape.tapes[0], 0, andSizeBytes); + Pack.LE_To_UInt32(tmp, 0, view1.inputShare); //todo check + Array.Copy(tmp, stateSizeBytes, tape.tapes[0], 0, andSizeBytes); - status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, - 1, tmp, stateSizeBytes + andSizeBytes); - - if (!status) - { - break; - } - - Pack.LE_To_UInt32(tmp, 0, view2.inputShare); //todo check - System.Array.Copy(tmp, stateSizeBytes, tape.tapes[1], 0, andSizeBytes); + status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, + 1, tmp, stateSizeBytes + andSizeBytes); + if (!status) + { break; + } - case 1: - // in this case view2's input share was already given to us explicitly as - // it is not computable from the seed. We just need to compute view1's input from - // its seed - status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, - 1, tmp, stateSizeBytes + andSizeBytes); - - Pack.LE_To_UInt32(tmp, 0, view1.inputShare); //todo check - System.Array.Copy(tmp, stateSizeBytes, tape.tapes[0], 0, andSizeBytes); - status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, - 2, tape.tapes[1], andSizeBytes); - if (!status) - { - break; - } - - System.Array.Copy(proof.inputShare, 0, view2.inputShare, 0, stateSizeBytes); - break; + Pack.LE_To_UInt32(tmp, 0, view2.inputShare); //todo check + Array.Copy(tmp, stateSizeBytes, tape.tapes[1], 0, andSizeBytes); - case 2: - // in this case view1's input share was already given to us explicitly as - // it is not computable from the seed. We just need to compute view2's input from - // its seed - status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, 2, tape.tapes[0], andSizeBytes); - System.Array.Copy(proof.inputShare, 0, view1.inputShare, 0, stateSizeBytes); - status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, 0, tmp, - (stateSizeBytes + andSizeBytes)); - if (!status) - { - break; - } + break; + } + case 1: + { + // in this case view2's input share was already given to us explicitly as + // it is not computable from the seed. We just need to compute view1's input from + // its seed + status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, + 1, tmp, stateSizeBytes + andSizeBytes); - Pack.LE_To_UInt32(tmp, 0, view2.inputShare); //todo check - System.Array.Copy(tmp, stateSizeBytes, tape.tapes[1], 0, andSizeBytes); + Pack.LE_To_UInt32(tmp, 0, view1.inputShare); //todo check + Array.Copy(tmp, stateSizeBytes, tape.tapes[0], 0, andSizeBytes); + status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, + 2, tape.tapes[1], andSizeBytes); + if (!status) + { break; + } - default: - Console.Error.Write("Invalid Challenge!"); + Array.Copy(proof.inputShare, 0, view2.inputShare, 0, stateSizeBytes); + break; + } + case 2: + { + // in this case view1's input share was already given to us explicitly as + // it is not computable from the seed. We just need to compute view2's input from + // its seed + status = CreateRandomTape(proof.seed1, 0, salt, roundNumber, 2, tape.tapes[0], andSizeBytes); + Array.Copy(proof.inputShare, 0, view1.inputShare, 0, stateSizeBytes); + status = status && CreateRandomTape(proof.seed2, 0, salt, roundNumber, 0, tmp, + (stateSizeBytes + andSizeBytes)); + if (!status) + { break; + } + + Pack.LE_To_UInt32(tmp, 0, view2.inputShare); //todo check + Array.Copy(tmp, stateSizeBytes, tape.tapes[1], 0, andSizeBytes); + break; + } + default: + { + Console.Error.Write("Invalid Challenge!"); + break; + } } if (!status) @@ -536,12 +521,12 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic Pack.UInt32_To_LE(view1.inputShare, view_bytes, 0); Arrays.Fill(view_bytes, stateSizeBytes, view_bytes.Length, (byte) 0); //todo have correct size: reduce view.inputshare by /4 - ZeroTrailingBits(view_bytes, stateSizeBits); + Utils.ZeroTrailingBits(view_bytes, stateSizeBits); Pack.LE_To_UInt32(view_bytes, 0, view1.inputShare); Pack.UInt32_To_LE(view2.inputShare, view_bytes, 0); Arrays.Fill(view_bytes, stateSizeBytes, view_bytes.Length, (byte) 0); - ZeroTrailingBits(view_bytes, stateSizeBits); + Utils.ZeroTrailingBits(view_bytes, stateSizeBits); Pack.LE_To_UInt32(view_bytes, 0, view2.inputShare); @@ -551,7 +536,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic void mpc_LowMC_verify(View view1, View view2, Tape tapes, uint[] tmp, uint[] plaintext, int challenge) { - Utils.Fill(tmp, 0, tmp.Length, 0); mpc_xor_constant_verify(tmp, plaintext, 0, stateSizeWords, challenge); @@ -588,13 +572,12 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic mpc_xor(tmp, tmp, stateSizeWords, 2); } - System.Array.Copy(tmp, 2 * stateSizeWords, view1.outputShare, 0, stateSizeWords); - System.Array.Copy(tmp, 3 * stateSizeWords, view2.outputShare, 0, stateSizeWords); + Array.Copy(tmp, 2 * stateSizeWords, view1.outputShare, 0, stateSizeWords); + Array.Copy(tmp, 3 * stateSizeWords, view2.outputShare, 0, stateSizeWords); } void mpc_substitution_verify(uint[] state, Tape rand, View view1, View view2) { - uint[] a = new uint[2]; uint[] b = new uint[2]; uint[] c = new uint[2]; @@ -606,7 +589,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic int stateOffset; for (int i = 0; i < numSboxes * 3; i += 3) { - for (int j = 0; j < 2; j++) { stateOffset = ((2 + j) * stateSizeWords) * 32; @@ -691,7 +673,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return -1; } - System.Array.Copy(sigBytes, sigBytesOffset, challengeBits, 0, Utils.NumBytes(2 * numMPCRounds)); + Array.Copy(sigBytes, sigBytesOffset, challengeBits, 0, Utils.NumBytes(2 * numMPCRounds)); sigBytesOffset += Utils.NumBytes(2 * numMPCRounds); if (!IsChallengeValid(challengeBits)) @@ -699,32 +681,31 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return -1; } - System.Array.Copy(sigBytes, sigBytesOffset, sig.salt, 0, saltSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.salt, 0, saltSizeBytes); sigBytesOffset += saltSizeBytes; for (int i = 0; i < numMPCRounds; i++) { - int challenge = GetChallenge(challengeBits, i); - System.Array.Copy(sigBytes, sigBytesOffset, proofs[i].view3Commitment, 0, digestSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, proofs[i].view3Commitment, 0, digestSizeBytes); sigBytesOffset += digestSizeBytes; if (transform == TRANSFORM_UR) { int view3UnruhLength = (challenge == 0) ? UnruhGWithInputBytes : UnruhGWithoutInputBytes; - System.Array.Copy(sigBytes, sigBytesOffset, proofs[i].view3UnruhG, 0, view3UnruhLength); + Array.Copy(sigBytes, sigBytesOffset, proofs[i].view3UnruhG, 0, view3UnruhLength); sigBytesOffset += view3UnruhLength; } - System.Array.Copy(sigBytes, sigBytesOffset, proofs[i].communicatedBits, 0, andSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, proofs[i].communicatedBits, 0, andSizeBytes); sigBytesOffset += andSizeBytes; - System.Array.Copy(sigBytes, sigBytesOffset, proofs[i].seed1, 0, seedSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, proofs[i].seed1, 0, seedSizeBytes); sigBytesOffset += seedSizeBytes; - System.Array.Copy(sigBytes, sigBytesOffset, proofs[i].seed2, 0, seedSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, proofs[i].seed2, 0, seedSizeBytes); sigBytesOffset += seedSizeBytes; if (challenge == 1 || challenge == 2) @@ -783,8 +764,8 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic private uint picnic_read_public_key(byte[] ciphertext, byte[] plaintext, byte[] pk) { - System.Array.Copy(pk, 1, ciphertext, 0, stateSizeBytes); - System.Array.Copy(pk, 1 + stateSizeBytes, plaintext, 0, stateSizeBytes); + Array.Copy(pk, 1, ciphertext, 0, stateSizeBytes); + Array.Copy(pk, 1 + stateSizeBytes, plaintext, 0, stateSizeBytes); return 0; } @@ -866,8 +847,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic * random tape. */ CreateRandomTapes(tapes[t], seeds[t].GetLeaves(), seeds[t].GetLeavesOffset(), sig.salt, t); - - if (!Contains(sig.challengeC, numOpenedRounds, t)) { /* We're given iSeed, have expanded the seeds, compute aux from scratch so we can comnpte Com[t] */ @@ -884,8 +863,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { /* We're given all seeds and aux bits, except for the unopened * party, we get their commitment */ - uint unopened = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; - + uint unopened = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; for (uint j = 0; j < last; j++) { @@ -900,9 +878,8 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic commit(C[t][last], seeds[t].GetLeaf(last), sig.proofs[t].aux, sig.salt, t, last); } - System.Array.Copy(sig.proofs[t].C, 0, C[t][unopened], 0, digestSizeBytes); + Array.Copy(sig.proofs[t].C, 0, C[t][unopened], 0, digestSizeBytes); } - } /* Commit to the commitments */ @@ -919,7 +896,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic if (Contains(sig.challengeC, numOpenedRounds, (uint)t)) { /* 2. When t is in C, we have everything we need to re-compute the view, as an honest signer would. - * We simulate the MPC with one fewer party; the unopned party's values are all set to zero. */ + * We simulate the MPC with one fewer party; the unopened party's values are all set to zero. */ uint unopened = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; int tapeLengthBytes = 2 * andSizeBytes; @@ -929,13 +906,13 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic tapes[t].SetAuxBits(sig.proofs[t].aux); } - System.Array.Copy(sig.proofs[t].msgs, 0, msgs[t].msgs[unopened], 0, andSizeBytes); + Array.Copy(sig.proofs[t].msgs, 0, msgs[t].msgs[unopened], 0, andSizeBytes); Arrays.Fill(tapes[t].tapes[unopened], (byte) 0); msgs[t].unopened = (int) unopened; byte[] input_bytes = new byte[stateSizeWords * 4]; - System.Array.Copy(sig.proofs[t].input, 0, input_bytes, 0, sig.proofs[t].input.Length); + Array.Copy(sig.proofs[t].input, 0, input_bytes, 0, sig.proofs[t].input.Length); uint[] temp = new uint[stateSizeWords]; Pack.LE_To_UInt32(input_bytes, 0, temp, 0, stateSizeWords); @@ -992,10 +969,10 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return -1; } - System.Array.Copy(sigBytes, sigBytesOffset, sig.challengeHash, 0, digestSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.challengeHash, 0, digestSizeBytes); sigBytesOffset += digestSizeBytes; - System.Array.Copy(sigBytes, sigBytesOffset, sig.salt, 0, saltSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.salt, 0, saltSizeBytes); sigBytesOffset += saltSizeBytes; ExpandChallengeHash(sig.challengeHash, sig.challengeC, sig.challengeP); @@ -1042,12 +1019,12 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } sig.iSeedInfo = new byte[sig.iSeedInfoLen]; - System.Array.Copy(sigBytes, sigBytesOffset, sig.iSeedInfo, 0, sig.iSeedInfoLen); + Array.Copy(sigBytes, sigBytesOffset, sig.iSeedInfo, 0, sig.iSeedInfoLen); sigBytesOffset += sig.iSeedInfoLen; // Console.Error.Write("iSeedInfo: " + Hex.toHexString(sig.iSeedInfo)); sig.cvInfo = new byte[sig.cvInfoLen]; - System.Array.Copy(sigBytes, sigBytesOffset, sig.cvInfo, 0, sig.cvInfoLen); + Array.Copy(sigBytes, sigBytesOffset, sig.cvInfo, 0, sig.cvInfoLen); sigBytesOffset += sig.cvInfoLen; /* Read the proofs */ @@ -1058,13 +1035,13 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic sig.proofs[t] = new Signature2.Proof2(this); sig.proofs[t].seedInfoLen = seedInfoLen; sig.proofs[t].seedInfo = new byte[sig.proofs[t].seedInfoLen]; - System.Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].seedInfo, 0, sig.proofs[t].seedInfoLen); + Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].seedInfo, 0, sig.proofs[t].seedInfoLen); sigBytesOffset += sig.proofs[t].seedInfoLen; uint P_t = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; if (P_t != (numMPCParties - 1)) { - System.Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].aux, 0, andSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].aux, 0, andSizeBytes); sigBytesOffset += andSizeBytes; if (!ArePaddingBitsZero(sig.proofs[t].aux, 3 * numRounds * numSboxes)) { @@ -1073,11 +1050,11 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } } - System.Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].input, 0, stateSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].input, 0, stateSizeBytes); sigBytesOffset += stateSizeBytes; int msgsByteLength = andSizeBytes; - System.Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].msgs, 0, msgsByteLength); + Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].msgs, 0, msgsByteLength); sigBytesOffset += msgsByteLength; int msgsBitLength = 3 * numRounds * numSboxes; if (!ArePaddingBitsZero(sig.proofs[t].msgs, msgsBitLength)) @@ -1086,7 +1063,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return -1; } - System.Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].C, 0, digestSizeBytes); + Array.Copy(sigBytes, sigBytesOffset, sig.proofs[t].C, 0, digestSizeBytes); sigBytesOffset += digestSizeBytes; } } @@ -1112,7 +1089,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic public void crypto_sign(byte[] sm, byte[] m, byte[] sk) { picnic_sign(sk, m, sm); - System.Array.Copy(m, 0, sm, 4, m.Length); + Array.Copy(m, 0, sm, 4, m.Length); sm = Arrays.CopyOfRange(sm, 0, signatureLength); } @@ -1121,11 +1098,11 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic //todo unify conversion byte[] data_bytes = new byte[PICNIC_MAX_LOWMC_BLOCK_SIZE]; - System.Array.Copy(sk, 1, data_bytes, 0, stateSizeBytes); + Array.Copy(sk, 1, data_bytes, 0, stateSizeBytes); byte[] ciphertext_bytes = new byte[PICNIC_MAX_LOWMC_BLOCK_SIZE]; - System.Array.Copy(sk, 1 + stateSizeBytes, ciphertext_bytes, 0, stateSizeBytes); + Array.Copy(sk, 1 + stateSizeBytes, ciphertext_bytes, 0, stateSizeBytes); byte[] plaintext_bytes = new byte[PICNIC_MAX_LOWMC_BLOCK_SIZE]; - System.Array.Copy(sk, 1 + 2 * stateSizeBytes, plaintext_bytes, 0, stateSizeBytes); + Array.Copy(sk, 1 + 2 * stateSizeBytes, plaintext_bytes, 0, stateSizeBytes); uint[] data = new uint[stateSizeWords]; uint[] ciphertext = new uint[stateSizeWords]; uint[] plaintext = new uint[stateSizeWords]; @@ -1134,7 +1111,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic Pack.LE_To_UInt32(plaintext_bytes, 0, plaintext); Pack.LE_To_UInt32(ciphertext_bytes, 0, ciphertext); - if (!is_picnic3(parameters)) { Signature sig = new Signature(this); @@ -1187,10 +1163,10 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic int sigByteIndex = sigOffset; - System.Array.Copy(challengeBits, 0, sigBytes, sigByteIndex, Utils.NumBytes(2 * numMPCRounds)); + Array.Copy(challengeBits, 0, sigBytes, sigByteIndex, Utils.NumBytes(2 * numMPCRounds)); sigByteIndex += Utils.NumBytes(2 * numMPCRounds); - System.Array.Copy(sig.salt, 0, sigBytes, sigByteIndex, saltSizeBytes); + Array.Copy(sig.salt, 0, sigBytes, sigByteIndex, saltSizeBytes); sigByteIndex += saltSizeBytes; @@ -1198,23 +1174,23 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { int challenge = GetChallenge(challengeBits, i); - System.Array.Copy(proofs[i].view3Commitment, 0, sigBytes, sigByteIndex, digestSizeBytes); + Array.Copy(proofs[i].view3Commitment, 0, sigBytes, sigByteIndex, digestSizeBytes); sigByteIndex += digestSizeBytes; if (transform == TRANSFORM_UR) { int view3UnruhLength = (challenge == 0) ? UnruhGWithInputBytes : UnruhGWithoutInputBytes; - System.Array.Copy(proofs[i].view3UnruhG, 0, sigBytes, sigByteIndex, view3UnruhLength); + Array.Copy(proofs[i].view3UnruhG, 0, sigBytes, sigByteIndex, view3UnruhLength); sigByteIndex += view3UnruhLength; } - System.Array.Copy(proofs[i].communicatedBits, 0, sigBytes, sigByteIndex, andSizeBytes); + Array.Copy(proofs[i].communicatedBits, 0, sigBytes, sigByteIndex, andSizeBytes); sigByteIndex += andSizeBytes; - System.Array.Copy(proofs[i].seed1, 0, sigBytes, sigByteIndex, seedSizeBytes); + Array.Copy(proofs[i].seed1, 0, sigBytes, sigByteIndex, seedSizeBytes); sigByteIndex += seedSizeBytes; - System.Array.Copy(proofs[i].seed2, 0, sigBytes, sigByteIndex, seedSizeBytes); + Array.Copy(proofs[i].seed2, 0, sigBytes, sigByteIndex, seedSizeBytes); sigByteIndex += seedSizeBytes; if (challenge == 1 || challenge == 2) @@ -1235,7 +1211,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic private int SerializeSignature2(Signature2 sig, byte[] sigBytes, int sigOffset) { - /* Compute the number of bytes required for the signature */ int bytesRequired = digestSizeBytes + saltSizeBytes; /* challenge and salt */ @@ -1266,16 +1241,16 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } int sigByteIndex = sigOffset; - System.Array.Copy(sig.challengeHash, 0, sigBytes, sigByteIndex, digestSizeBytes); + Array.Copy(sig.challengeHash, 0, sigBytes, sigByteIndex, digestSizeBytes); sigByteIndex += digestSizeBytes; - System.Array.Copy(sig.salt, 0, sigBytes, sigByteIndex, saltSizeBytes); + Array.Copy(sig.salt, 0, sigBytes, sigByteIndex, saltSizeBytes); sigByteIndex += saltSizeBytes; - System.Array.Copy(sig.iSeedInfo, 0, sigBytes, sigByteIndex, sig.iSeedInfoLen); + Array.Copy(sig.iSeedInfo, 0, sigBytes, sigByteIndex, sig.iSeedInfoLen); sigByteIndex += sig.iSeedInfoLen; - System.Array.Copy(sig.cvInfo, 0, sigBytes, sigByteIndex, sig.cvInfoLen); + Array.Copy(sig.cvInfo, 0, sigBytes, sigByteIndex, sig.cvInfoLen); sigByteIndex += sig.cvInfoLen; /* Write the proofs */ @@ -1283,24 +1258,24 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { if (Contains(sig.challengeC, numOpenedRounds, t)) { - System.Array.Copy(sig.proofs[t].seedInfo, 0, sigBytes, sigByteIndex, sig.proofs[t].seedInfoLen); + Array.Copy(sig.proofs[t].seedInfo, 0, sigBytes, sigByteIndex, sig.proofs[t].seedInfoLen); sigByteIndex += sig.proofs[t].seedInfoLen; - uint P_t = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; + uint P_t = sig.challengeP[IndexOf(sig.challengeC, numOpenedRounds, t)]; if (P_t != (numMPCParties - 1)) { - System.Array.Copy(sig.proofs[t].aux, 0, sigBytes, sigByteIndex, andSizeBytes); + Array.Copy(sig.proofs[t].aux, 0, sigBytes, sigByteIndex, andSizeBytes); sigByteIndex += andSizeBytes; } - System.Array.Copy(sig.proofs[t].input, 0, sigBytes, sigByteIndex, stateSizeBytes); + Array.Copy(sig.proofs[t].input, 0, sigBytes, sigByteIndex, stateSizeBytes); sigByteIndex += stateSizeBytes; - System.Array.Copy(sig.proofs[t].msgs, 0, sigBytes, sigByteIndex, andSizeBytes); + Array.Copy(sig.proofs[t].msgs, 0, sigBytes, sigByteIndex, andSizeBytes); sigByteIndex += andSizeBytes; - System.Array.Copy(sig.proofs[t].C, 0, sigBytes, sigByteIndex, digestSizeBytes); + Array.Copy(sig.proofs[t].C, 0, sigBytes, sigByteIndex, digestSizeBytes); sigByteIndex += digestSizeBytes; } } @@ -1318,7 +1293,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { views[i] = new View[3]; } - + byte[][][] AS = new byte[numMPCRounds][][]; // numMPCRounds, numMPCParties, digestSizeBytes for (int i = 0; i < numMPCRounds; i++) { @@ -1328,7 +1303,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic AS[i][j] = new byte[digestSizeBytes]; } } - + byte[][][] gs = new byte[numMPCRounds][][]; // numMPCRounds, 3, UnruhGWithInputBytes for (int i = 0; i < numMPCRounds; i++) { @@ -1338,13 +1313,13 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic gs[i][j] = new byte[UnruhGWithInputBytes]; } } - - + + /* Compute seeds for all parallel iterations */ byte[] seeds = ComputeSeeds(privateKey, pubKey, plaintext, message); int seedLen = numMPCParties * seedSizeBytes; - System.Array.Copy(seeds, (seedLen) * (numMPCRounds), sig.salt, 0, saltSizeBytes); + Array.Copy(seeds, (seedLen) * (numMPCRounds), sig.salt, 0, saltSizeBytes); //Allocate a random tape (re-used per parallel iteration), and a temporary buffer Tape tape = new Tape(this); @@ -1368,10 +1343,10 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return -1; } - System.Array.Copy(tmp, 0, view_byte, 0, stateSizeBytes); - ZeroTrailingBits(view_byte, stateSizeBits); + Array.Copy(tmp, 0, view_byte, 0, stateSizeBytes); + Utils.ZeroTrailingBits(view_byte, stateSizeBits); Pack.LE_To_UInt32(view_byte, 0, views[k][j].inputShare); - System.Array.Copy(tmp, stateSizeBytes, tape.tapes[j], 0, andSizeBytes); + Array.Copy(tmp, stateSizeBytes, tape.tapes[j], 0, andSizeBytes); } // Now set third party's wires. The random bits are from the seed, the input is @@ -1439,7 +1414,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic (transform != TRANSFORM_UR) ? null : gs[i]); //todo check if } - return 0; } @@ -1449,18 +1423,18 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { if (challenge == 0) { - System.Array.Copy(seeds, seedsOffset + 0 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); - System.Array.Copy(seeds, seedsOffset + 1 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 0 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 1 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); } else if (challenge == 1) { - System.Array.Copy(seeds, seedsOffset + 1 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); - System.Array.Copy(seeds, seedsOffset + 2 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 1 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 2 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); } else if (challenge == 2) { - System.Array.Copy(seeds, seedsOffset + 2 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); - System.Array.Copy(seeds, seedsOffset + 0 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 2 * seedSizeBytes, proof.seed1, 0, seedSizeBytes); + Array.Copy(seeds, seedsOffset + 0 * seedSizeBytes, proof.seed2, 0, seedSizeBytes); } else { @@ -1469,16 +1443,16 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic if (challenge == 1 || challenge == 2) { - System.Array.Copy(views[2].inputShare, 0, proof.inputShare, 0, stateSizeBytes); + Array.Copy(views[2].inputShare, 0, proof.inputShare, 0, stateSizeBytes); } - System.Array.Copy(views[(challenge + 1) % 3].communicatedBits, 0, proof.communicatedBits, 0, andSizeBytes); + Array.Copy(views[(challenge + 1) % 3].communicatedBits, 0, proof.communicatedBits, 0, andSizeBytes); - System.Array.Copy(commitments[(challenge + 2) % 3], 0, proof.view3Commitment, 0, digestSizeBytes); + Array.Copy(commitments[(challenge + 2) % 3], 0, proof.view3Commitment, 0, digestSizeBytes); if (transform == TRANSFORM_UR) { int view3UnruhLength = (challenge == 0) ? UnruhGWithInputBytes : UnruhGWithoutInputBytes; - System.Array.Copy(gs[(challenge + 2) % 3], 0, proof.view3UnruhG, 0, view3UnruhLength); + Array.Copy(gs[(challenge + 2) % 3], 0, proof.view3UnruhG, 0, view3UnruhLength); } } @@ -1652,7 +1626,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic for (int i = 0; i < 3; i++) { - System.Array.Copy(slab, (3 + i) * stateSizeWords, views[i].outputShare, 0, stateSizeWords); + Array.Copy(slab, (3 + i) * stateSizeWords, views[i].outputShare, 0, stateSizeWords); } } @@ -1730,7 +1704,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic rand.pos++; } - private void mpc_xor(uint[] state, uint[] input, int len, int players) { for (int player = 0; player < players; player++) @@ -1743,7 +1716,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } } - private void mpc_matrix_mul(uint[] output, int outputOffset, uint[] state, int stateOffset, uint[] matrix, int matrixOffset, int players) { @@ -1764,7 +1736,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } } - private bool CreateRandomTape(byte[] seed, int seedOffset, byte[] salt, uint roundNumber, uint playerNumber, byte[] tape, int tapeLen) { @@ -1807,9 +1778,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return allSeeds; } - - - private void sign_picnic3(uint[] privateKey, uint[] pubKey, uint[] plaintext, byte[] message, Signature2 sig) { byte[] saltAndRoot = new byte[saltSizeBytes + seedSizeBytes]; @@ -1924,7 +1892,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic sig.cvInfo = treeCv.OpenMerkleTree(missingLeaves, (uint)missingLeavesSize, cvInfoLen); sig.cvInfoLen = cvInfoLen[0]; - /* Reveal iSeeds for unopned rounds, those in {0..T-1} \ ChallengeC. */ + /* Reveal iSeeds for unopened rounds, those in {0..T-1} \ ChallengeC. */ sig.iSeedInfo = new byte[numMPCRounds * seedSizeBytes]; sig.iSeedInfoLen = iSeedsTree.RevealSeeds(sig.challengeC, (uint)numOpenedRounds, sig.iSeedInfo, numMPCRounds * seedSizeBytes); @@ -1934,7 +1902,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic sig.proofs = new Signature2.Proof2[numMPCRounds]; for (uint t = 0; t < numMPCRounds; t++) { - if (Contains(sig.challengeC, numOpenedRounds, (uint)t)) + if (Contains(sig.challengeC, numOpenedRounds, t)) { sig.proofs[t] = new Signature2.Proof2(this); int P_index = IndexOf(sig.challengeC, numOpenedRounds, t); @@ -1951,34 +1919,23 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic GetAuxBits(sig.proofs[t].aux, tapes[t]); } - System.Array.Copy(inputs[t], 0, sig.proofs[t].input, 0, stateSizeBytes); - System.Array.Copy(msgs[t].msgs[sig.challengeP[P_index]], 0, sig.proofs[t].msgs, 0, andSizeBytes); - System.Array.Copy(C[t][sig.challengeP[P_index]], 0, sig.proofs[t].C, 0, digestSizeBytes); + Array.Copy(inputs[t], 0, sig.proofs[t].input, 0, stateSizeBytes); + Array.Copy(msgs[t].msgs[sig.challengeP[P_index]], 0, sig.proofs[t].msgs, 0, andSizeBytes); + Array.Copy(C[t][sig.challengeP[P_index]], 0, sig.proofs[t].C, 0, digestSizeBytes); } } - } - static int IndexOf(uint[] list, int len, uint value) + private static int IndexOf(uint[] list, int len, uint value) { - for (int i = 0; i < len; i++) - { - if (list[i] == value) - { - return i; - } - } - - return -1; + return Array.IndexOf(list, value, 0, len); } - - private uint[] GetMissingLeavesList(uint[] challengeC) { uint missingLeavesSize = (uint)(numMPCRounds - numOpenedRounds); uint[] missingLeaves = new uint[missingLeavesSize]; - uint pos = 0; + uint pos = 0; for (int i = 0; i < numMPCRounds; i++) { @@ -2055,8 +2012,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return position + 1; } - - private void ExpandChallengeHash(byte[] challengeHash, uint[] challengeC, uint[] challengeP) { // Populate C @@ -2065,7 +2020,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic uint[] chunks = new uint[digestSizeBytes * 8 / System.Math.Min(bitsPerChunkC, bitsPerChunkP)]; byte[] h = new byte[MAX_DIGEST_SIZE]; - System.Array.Copy(challengeHash, 0, h, 0, digestSizeBytes); + Array.Copy(challengeHash, 0, h, 0, digestSizeBytes); uint countC = 0; while (countC < numOpenedRounds) @@ -2137,8 +2092,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic digest.DoFinal(digest_arr, 0, digestSizeBytes); } - - private int SimulateOnline(uint[] maskedKey, Tape tape, uint[] tmp_shares, Msg msg, uint[] plaintext, uint[] pubKey) { @@ -2169,7 +2122,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic xor_array(state, roundKey, state, 0, stateSizeWords); // state += roundKey } - if (!(SubarrayEquals(state, pubKey, stateSizeWords))) + if (!SubarrayEquals(state, pubKey, stateSizeWords)) { ret = -1; } @@ -2335,15 +2288,16 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic private void GetAuxBits(byte[] output, Tape tape) { - int last = numMPCParties - 1; - int pos = 0; - int n = stateSizeBits; + var lastTape = tape.tapes[numMPCParties - 1]; + int n = stateSizeBits, pos = 0, tapePos = 0; for (int j = 0; j < numRounds; j++) { + tapePos += n; + for (int i = 0; i < n; i++) { - Utils.SetBit(output, pos++, Utils.GetBit(tape.tapes[last], n + n * 2 * j + i)); + Utils.SetBit(output, pos++, Utils.GetBit(lastTape, tapePos++)); } } } @@ -2389,13 +2343,9 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic static bool is_picnic3(int parameters) { - if (parameters == 7 /*Picnic3_L1*/ || - parameters == 8 /*Picnic3_L3*/ || - parameters == 9 /*Picnic3_L5*/ ) - { - return true; - } - return false; + return parameters == 7 /*Picnic3_L1*/ || + parameters == 8 /*Picnic3_L3*/ || + parameters == 9 /*Picnic3_L5*/ ; } //todo return int; @@ -2421,9 +2371,9 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } buf[0] = (byte) parameters; - System.Array.Copy(data, 0, buf, 1, stateSizeBytes); - System.Array.Copy(ciphertext, 0, buf, 1 + stateSizeBytes, stateSizeBytes); - System.Array.Copy(plaintext, 0, buf, 1 + 2 * stateSizeBytes, stateSizeBytes); + Array.Copy(data, 0, buf, 1, stateSizeBytes); + Array.Copy(ciphertext, 0, buf, 1 + stateSizeBytes, stateSizeBytes); + Array.Copy(plaintext, 0, buf, 1 + 2 * stateSizeBytes, stateSizeBytes); return bytesRequired; } @@ -2437,8 +2387,8 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } buf[0] = (byte) parameters; - System.Array.Copy(ciphertext, 0, buf, 1, stateSizeBytes); - System.Array.Copy(plaintext, 0, buf, 1 + stateSizeBytes, stateSizeBytes); + Array.Copy(ciphertext, 0, buf, 1, stateSizeBytes); + Array.Copy(plaintext, 0, buf, 1 + stateSizeBytes, stateSizeBytes); return bytesRequired; } @@ -2450,30 +2400,18 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic uint[] data = new uint[data_bytes.Length / 4]; uint[] plaintext = new uint[plaintext_bytes.Length / 4]; uint[] ciphertext = new uint[ciphertext_bytes.Length / 4]; - byte[] temp = new byte[stateSizeBytes]; // generate a private key - random.NextBytes(temp); - ZeroTrailingBits(temp, stateSizeBits); - System.Array.Copy(temp, 0, data_bytes, 0, temp.Length); - - for (int i = 0; i < data.Length; i++) - { - data[i] = Pack.LE_To_UInt32(data_bytes, i * 4); - } - + random.NextBytes(data_bytes, 0, stateSizeBytes); + Utils.ZeroTrailingBits(data_bytes, stateSizeBits); + Pack.LE_To_UInt32(data_bytes, 0, data); // generate a plaintext block - random.NextBytes(temp); - ZeroTrailingBits(temp, stateSizeBits); - System.Array.Copy(temp, 0, plaintext_bytes, 0, temp.Length); - - for (int i = 0; i < plaintext.Length; i++) - { - plaintext[i] = Pack.LE_To_UInt32(plaintext_bytes, i * 4); - } + random.NextBytes(plaintext_bytes, 0, stateSizeBytes); + Utils.ZeroTrailingBits(plaintext_bytes, stateSizeBits); + Pack.LE_To_UInt32(plaintext_bytes, 0, plaintext); - // computer ciphertext + // compute ciphertext LowMCEnc(plaintext, ciphertext, data); //copy back to byte array @@ -2482,15 +2420,14 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic Pack.UInt32_To_LE(ciphertext, ciphertext_bytes, 0); } - private void LowMCEnc(uint[] plaintext, uint[] output, uint[] key) { uint[] roundKey = new uint[LOWMC_MAX_WORDS]; - if (plaintext != (output)) + if (plaintext != output) { /* output will hold the intermediate state */ - System.Array.Copy(plaintext, 0, output, 0, stateSizeWords); + Array.Copy(plaintext, 0, output, 0, stateSizeWords); } KMatricesWithPointer current = LowmcConstants.Instance.KMatrix(this, 0); @@ -2514,7 +2451,6 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } } - private void Substitution(uint[] state) { for (int i = 0; i < numSboxes * 3; i += 3) @@ -2551,47 +2487,35 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic matrix_mul_offset(output, 0, state, 0, matrix, matrixOffset); } - protected void matrix_mul_offset(uint[] output, int outputOffset, - uint[] state, int stateOffset, - uint[] matrix, int matrixOffset) + protected void matrix_mul_offset(uint[] output, int outputOffset, uint[] state, int stateOffset, uint[] matrix, + int matrixOffset) { // Use temp to correctly handle the case when state = output - uint prod; uint[] temp = new uint[LOWMC_MAX_WORDS]; temp[stateSizeWords - 1] = 0; int wholeWords = stateSizeBits / WORD_SIZE_BITS; for (int i = 0; i < stateSizeBits; i++) { - prod = 0; + uint prod = 0; for (int j = 0; j < wholeWords; j++) { int index = i * stateSizeWords + j; - prod ^= (state[j + stateOffset] & matrix[matrixOffset + index]); + prod ^= state[j + stateOffset] & matrix[matrixOffset + index]; } for (int j = wholeWords * WORD_SIZE_BITS; j < stateSizeBits; j++) { int index = i * stateSizeWords * WORD_SIZE_BITS + j; - uint bit = (Utils.GetBitFromWordArray(state, j + stateOffset * 32) & - Utils.GetBitFromWordArray(matrix, matrixOffset * 32 + index)); + uint bit = Utils.GetBitFromWordArray(state, stateOffset * 32 + j) + & Utils.GetBitFromWordArray(matrix, matrixOffset * 32 + index); prod ^= bit; } - Utils.SetBit(temp, i, (int)Utils.Parity32(prod)); - + Utils.SetBit(temp, i, Utils.Parity32(prod)); } - System.Array.Copy(temp, 0, output, outputOffset, stateSizeWords); - } - - private void ZeroTrailingBits(byte[] data, int bitLength) - { - int byteLength = Utils.NumBytes(bitLength); - for (int i = bitLength; i < byteLength * 8; i++) - { - Utils.SetBit(data, i, (byte) 0); - } + Array.Copy(temp, 0, output, outputOffset, stateSizeWords); } } -} \ No newline at end of file +} diff --git a/crypto/src/pqc/crypto/picnic/Utils.cs b/crypto/src/pqc/crypto/picnic/Utils.cs index a23985568..8e0bdc6ff 100644 --- a/crypto/src/pqc/crypto/picnic/Utils.cs +++ b/crypto/src/pqc/crypto/picnic/Utils.cs @@ -1,20 +1,20 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic { - public class Utils + internal static class Utils { - protected internal static void Fill(uint[] buf, int from, int to, uint b) + internal static void Fill(uint[] buf, int from, int to, uint b) { for (int i = from; i < to; ++i) { buf[i] = b; } } - protected internal static int NumBytes(int numBits) + internal static int NumBytes(int numBits) { - return (numBits == 0) ? 0 : ((numBits - 1) / 8 + 1); + return (numBits + 7) >> 3; } - protected internal static uint ceil_log2(uint x) + internal static uint ceil_log2(uint x) { if (x == 0) { @@ -59,8 +59,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return n; } - - protected static int Parity(byte[] data, int len) + internal static int Parity(byte[] data, int len) { byte x = data[0]; @@ -81,7 +80,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return y & 1; } - protected internal static uint Parity16(uint x) + internal static uint Parity16(uint x) { uint y = x ^ (x >> 1); @@ -91,7 +90,7 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic return y & 1; } - protected internal static uint Parity32(uint x) + internal static uint Parity32(uint x) { /* Compute parity of x using code from Section 5-2 of * H.S. Warren, *Hacker's Delight*, Pearson Education, 2003. @@ -107,32 +106,32 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic /* Set a specific bit in a byte array to a given value */ - protected internal static void SetBitInWordArray(uint[] array, int bitNumber, uint val) + internal static void SetBitInWordArray(uint[] array, int bitNumber, uint val) { - SetBit(array, bitNumber, (int)val); + SetBit(array, bitNumber, val); } /* Get one bit from a 32-bit int array */ - protected internal static uint GetBitFromWordArray(uint[] array, int bitNumber) + internal static uint GetBitFromWordArray(uint[] array, int bitNumber) { return GetBit(array, bitNumber); } /* Get one bit from a byte array */ - internal protected static byte GetBit(byte[] array, int bitNumber) + internal static byte GetBit(byte[] array, int bitNumber) { int arrayPos = bitNumber >> 3, bitPos = (bitNumber & 7) ^ 7; return (byte)((array[arrayPos] >> bitPos) & 1); } /* Get one bit from a byte array */ - internal protected static uint GetBit(uint[] array, int bitNumber) + internal static uint GetBit(uint[] array, int bitNumber) { int arrayPos = bitNumber >> 5, bitPos = (bitNumber & 31) ^ 7; return (array[arrayPos] >> bitPos) & 1; } - internal protected static void SetBit(byte[] array, int bitNumber, byte val) + internal static void SetBit(byte[] array, int bitNumber, byte val) { int arrayPos = bitNumber >> 3, bitPos = (bitNumber & 7) ^ 7; uint t = array[arrayPos]; @@ -142,13 +141,22 @@ namespace Org.BouncyCastle.Pqc.Crypto.Picnic } /* Set a specific bit in a int array to a given value */ - internal protected static void SetBit(uint[] array, int bitNumber, int val) + internal static void SetBit(uint[] array, int bitNumber, uint val) { int arrayPos = bitNumber >> 5, bitPos = (bitNumber & 31) ^ 7; uint t = array[arrayPos]; t &= ~(1U << bitPos); - t |= (uint)val << bitPos; + t |= val << bitPos; array[arrayPos] = t; } + + internal static void ZeroTrailingBits(byte[] data, int bitLength) + { + int partial = bitLength & 7; + if (partial != 0) + { + data[bitLength >> 3] &= (byte)(0xFF00 >> partial); + } + } } } |