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authorJason A. Donenfeld <Jason@zx2c4.com>2021-10-28 19:10:04 +0200
committerJason A. Donenfeld <Jason@zx2c4.com>2021-10-29 16:42:36 +0200
commita03ad51622d338d1c116aa8cae3c0effb1b7bcf2 (patch)
tree5bb6bcd061d5ec60c1ec5f305facca4f7ab56217 /tunnel/src/main/java/com/wireguard
parent447b06ec2c7e279a94f9c6519862874298ad89ef (diff)
tunnel: remove kernel module downloader
Nathan Chance dropped the ball repeatedly and never maintained this in a consistent way that anybody could use. With Android 12 out now, just drop it all together. A bummer, but I don't see much of a choice. Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
Diffstat (limited to 'tunnel/src/main/java/com/wireguard')
-rw-r--r--tunnel/src/main/java/com/wireguard/android/backend/WgQuickBackend.java4
-rw-r--r--tunnel/src/main/java/com/wireguard/android/util/ModuleLoader.java215
-rw-r--r--tunnel/src/main/java/com/wireguard/crypto/Ed25519.java2508
3 files changed, 4 insertions, 2723 deletions
diff --git a/tunnel/src/main/java/com/wireguard/android/backend/WgQuickBackend.java b/tunnel/src/main/java/com/wireguard/android/backend/WgQuickBackend.java
index 711cdca4..f583f615 100644
--- a/tunnel/src/main/java/com/wireguard/android/backend/WgQuickBackend.java
+++ b/tunnel/src/main/java/com/wireguard/android/backend/WgQuickBackend.java
@@ -53,6 +53,10 @@ public final class WgQuickBackend implements Backend {
this.toolsInstaller = toolsInstaller;
}
+ public static boolean hasKernelSupport() {
+ return new File("/sys/module/wireguard").exists();
+ }
+
@Override
public Set<String> getRunningTunnelNames() {
final List<String> output = new ArrayList<>();
diff --git a/tunnel/src/main/java/com/wireguard/android/util/ModuleLoader.java b/tunnel/src/main/java/com/wireguard/android/util/ModuleLoader.java
deleted file mode 100644
index d1ad9e16..00000000
--- a/tunnel/src/main/java/com/wireguard/android/util/ModuleLoader.java
+++ /dev/null
@@ -1,215 +0,0 @@
-/*
- * Copyright © 2019-2020 WireGuard LLC. All Rights Reserved.
- * SPDX-License-Identifier: Apache-2.0
- */
-
-package com.wireguard.android.util;
-
-import android.content.Context;
-import android.system.OsConstants;
-import android.util.Base64;
-
-import com.wireguard.android.util.RootShell.RootShellException;
-import com.wireguard.crypto.Ed25519;
-import com.wireguard.util.NonNullForAll;
-
-import java.io.File;
-import java.io.FileOutputStream;
-import java.io.IOException;
-import java.io.InputStream;
-import java.net.HttpURLConnection;
-import java.net.URL;
-import java.nio.charset.StandardCharsets;
-import java.security.InvalidParameterException;
-import java.security.MessageDigest;
-import java.security.NoSuchAlgorithmException;
-import java.util.ArrayList;
-import java.util.Arrays;
-import java.util.HashMap;
-import java.util.List;
-import java.util.Map;
-
-import androidx.annotation.Nullable;
-
-/**
- * Class that implements the logic for downloading and loading signed, prebuilt modules for
- * WireGuard into the running kernel.
- */
-@NonNullForAll
-@SuppressWarnings("MagicNumber")
-public class ModuleLoader {
- private static final String MODULE_LIST_URL = "https://download.wireguard.com/android-module/modules.txt.sig";
- private static final String MODULE_NAME = "wireguard-%s.ko";
- private static final String MODULE_PUBLIC_KEY_BASE64 = "RWRmHuT9PSqtwfsLtEx+QS06BJtLgFYteL9WCNjH7yuyu5Y1DieSN7If";
- private static final String MODULE_URL = "https://download.wireguard.com/android-module/%s";
- private final File moduleDir;
- private final RootShell rootShell;
- private final File tmpDir;
- private final String userAgent;
-
- /**
- * Public constructor for ModuleLoader
- *
- * @param context A {@link Context} instance.
- * @param rootShell A {@link RootShell} instance used to run elevated commands required for module
- * loading.
- * @param userAgent A {@link String} that represents the User-Agent string used for connections
- * to the upstream server.
- */
- public ModuleLoader(final Context context, final RootShell rootShell, final String userAgent) {
- moduleDir = new File(context.getCacheDir(), "kmod");
- tmpDir = new File(context.getCacheDir(), "tmp");
- this.rootShell = rootShell;
- this.userAgent = userAgent;
- }
-
- /**
- * Check whether a WireGuard module is already loaded into the kernel.
- *
- * @return boolean indicating if WireGuard is already enabled in the kernel.
- */
- public static boolean isModuleLoaded() {
- return new File("/sys/module/wireguard").exists();
- }
-
- /**
- * Download the correct WireGuard module for the device
- *
- * @return {@link OsConstants}.EXIT_SUCCESS if everything succeeds, ENOENT otherwise.
- * @throws IOException if the remote hash list was not found or empty.
- * @throws RootShellException if {@link RootShell} has a failure executing elevated commands.
- * @throws NoSuchAlgorithmException if SHA256 algorithm is not available in device JDK.
- */
- public Integer download() throws IOException, RootShellException, NoSuchAlgorithmException {
- final List<String> output = new ArrayList<>();
- rootShell.run(output, "sha256sum /proc/version|cut -d ' ' -f 1");
- if (output.size() != 1 || output.get(0).length() != 64)
- throw new InvalidParameterException("Invalid sha256 of /proc/version");
- final String moduleName = String.format(MODULE_NAME, output.get(0));
- HttpURLConnection connection = (HttpURLConnection) new URL(MODULE_LIST_URL).openConnection();
- connection.setRequestProperty("User-Agent", userAgent);
- connection.connect();
- if (connection.getResponseCode() != HttpURLConnection.HTTP_OK)
- throw new IOException("Hash list could not be found");
- final byte[] input = new byte[1024 * 1024 * 3 /* 3MiB */];
- int len;
- try (final InputStream inputStream = connection.getInputStream()) {
- int offset = 0;
- while (input.length - offset > 0 && (len = inputStream.read(input, offset, input.length - offset)) > 0) {
- offset += len;
- }
- len = offset;
- }
- if (len <= 0)
- throw new IOException("Hash list was empty");
- final Map<String, Sha256Digest> modules = verifySignedHashes(new String(input, 0, len, StandardCharsets.UTF_8));
- if (modules == null)
- throw new InvalidParameterException("The signature did not verify or invalid hash list format");
- if (!modules.containsKey(moduleName))
- return OsConstants.ENOENT;
- connection = (HttpURLConnection) new URL(String.format(MODULE_URL, moduleName)).openConnection();
- connection.setRequestProperty("User-Agent", userAgent);
- connection.connect();
- if (connection.getResponseCode() != HttpURLConnection.HTTP_OK)
- throw new IOException("Module file could not be found, despite being on hash list");
-
- tmpDir.mkdirs();
- moduleDir.mkdir();
- File tempFile = null;
- try {
- tempFile = File.createTempFile("UNVERIFIED-", null, tmpDir);
- final MessageDigest digest = MessageDigest.getInstance("SHA-256");
- try (final InputStream inputStream = connection.getInputStream();
- final FileOutputStream outputStream = new FileOutputStream(tempFile)) {
- int total = 0;
- while ((len = inputStream.read(input)) > 0) {
- total += len;
- if (total > 1024 * 1024 * 15 /* 15 MiB */)
- throw new IOException("File too big");
- outputStream.write(input, 0, len);
- digest.update(input, 0, len);
- }
- outputStream.getFD().sync();
- }
- if (!Arrays.equals(digest.digest(), modules.get(moduleName).bytes))
- throw new IOException("Incorrect file hash");
-
- if (!tempFile.renameTo(new File(moduleDir, moduleName)))
- throw new IOException("Unable to rename to final destination");
- } finally {
- if (tempFile != null)
- tempFile.delete();
- }
- return OsConstants.EXIT_SUCCESS;
- }
-
- /**
- * Load the downloaded module. ModuleLoader#download must be called before this.
- *
- * @throws IOException if {@link RootShell} has a failure executing elevated commands.
- * @throws RootShellException if {@link RootShell} has a failure executing elevated commands.
- */
- public void loadModule() throws IOException, RootShellException {
- rootShell.run(null, String.format("insmod \"%s/wireguard-$(sha256sum /proc/version|cut -d ' ' -f 1).ko\"", moduleDir.getAbsolutePath()));
- }
-
- /**
- * Check if the module might already exist in the app's data.
- *
- * @return boolean indicating whether downloadable module might exist already.
- */
- public boolean moduleMightExist() {
- return moduleDir.exists() && moduleDir.isDirectory();
- }
-
- @Nullable
- private Map<String, Sha256Digest> verifySignedHashes(final String signifyDigest) {
- byte[] publicKeyBytes = Base64.decode(MODULE_PUBLIC_KEY_BASE64, Base64.DEFAULT);
-
- if (publicKeyBytes == null || publicKeyBytes.length != 32 + 10 || publicKeyBytes[0] != 'E' || publicKeyBytes[1] != 'd')
- return null;
-
- final String[] lines = signifyDigest.split("\n", 3);
- if (lines.length != 3)
- return null;
- if (!lines[0].startsWith("untrusted comment: "))
- return null;
-
- byte[] signatureBytes = Base64.decode(lines[1], Base64.DEFAULT);
- if (signatureBytes == null || signatureBytes.length != 64 + 10)
- return null;
- for (int i = 0; i < 10; ++i) {
- if (signatureBytes[i] != publicKeyBytes[i])
- return null;
- }
- publicKeyBytes = Arrays.copyOfRange(publicKeyBytes, 10, 10 + 32);
- signatureBytes = Arrays.copyOfRange(signatureBytes, 10, 10 + 64);
- if (!Ed25519.verify(lines[2].getBytes(StandardCharsets.UTF_8), signatureBytes, publicKeyBytes))
- return null;
-
- final Map<String, Sha256Digest> hashes = new HashMap<>();
- for (final String line : lines[2].split("\n")) {
- final String[] components = line.split(" {2}", 2);
- if (components.length != 2)
- return null;
- try {
- hashes.put(components[1], new Sha256Digest(components[0]));
- } catch (final Exception ignored) {
- return null;
- }
- }
- return hashes;
- }
-
- private static final class Sha256Digest {
- private final byte[] bytes;
-
- private Sha256Digest(final String hex) {
- if (hex.length() != 64)
- throw new InvalidParameterException("SHA256 hashes must be 32 bytes long");
- bytes = new byte[32];
- for (int i = 0; i < 32; ++i)
- bytes[i] = (byte) Integer.parseInt(hex.substring(i * 2, i * 2 + 2), 16);
- }
- }
-}
diff --git a/tunnel/src/main/java/com/wireguard/crypto/Ed25519.java b/tunnel/src/main/java/com/wireguard/crypto/Ed25519.java
deleted file mode 100644
index a60babfb..00000000
--- a/tunnel/src/main/java/com/wireguard/crypto/Ed25519.java
+++ /dev/null
@@ -1,2508 +0,0 @@
-/*
- * Copyright © 2020 WireGuard LLC. All Rights Reserved.
- * Copyright 2017 Google Inc.
- *
- * SPDX-License-Identifier: Apache-2.0
- */
-
-package com.wireguard.crypto;
-
-import java.math.BigInteger;
-import java.security.GeneralSecurityException;
-import java.security.MessageDigest;
-import java.util.Arrays;
-
-/**
- * Implementation of Ed25519 signature verification.
- *
- * <p>This implementation is based on the ed25519/ref10 implementation in NaCl.</p>
- *
- * <p>It implements this twisted Edwards curve:
- *
- * <pre>
- * -x^2 + y^2 = 1 + (-121665 / 121666 mod 2^255-19)*x^2*y^2
- * </pre>
- *
- * @see <a href="https://eprint.iacr.org/2008/013.pdf">Bernstein D.J., Birkner P., Joye M., Lange
- * T., Peters C. (2008) Twisted Edwards Curves</a>
- * @see <a href="https://eprint.iacr.org/2008/522.pdf">Hisil H., Wong K.KH., Carter G., Dawson E.
- * (2008) Twisted Edwards Curves Revisited</a>
- */
-public final class Ed25519 {
-
- // d = -121665 / 121666 mod 2^255-19
- private static final long[] D;
- // 2d
- private static final long[] D2;
- // 2^((p-1)/4) mod p where p = 2^255-19
- private static final long[] SQRTM1;
-
- /**
- * Base point for the Edwards twisted curve = (x, 4/5) and its exponentiations. B_TABLE[i][j] =
- * (j+1)*256^i*B for i in [0, 32) and j in [0, 8). Base point B = B_TABLE[0][0]
- */
- private static final CachedXYT[][] B_TABLE;
- private static final CachedXYT[] B2;
-
- private static final BigInteger P_BI =
- BigInteger.valueOf(2).pow(255).subtract(BigInteger.valueOf(19));
- private static final BigInteger D_BI =
- BigInteger.valueOf(-121665).multiply(BigInteger.valueOf(121666).modInverse(P_BI)).mod(P_BI);
- private static final BigInteger D2_BI = BigInteger.valueOf(2).multiply(D_BI).mod(P_BI);
- private static final BigInteger SQRTM1_BI =
- BigInteger.valueOf(2).modPow(P_BI.subtract(BigInteger.ONE).divide(BigInteger.valueOf(4)), P_BI);
-
- private Ed25519() {
- }
-
- private static class Point {
- private BigInteger x;
- private BigInteger y;
- }
-
- private static BigInteger recoverX(BigInteger y) {
- // x^2 = (y^2 - 1) / (d * y^2 + 1) mod 2^255-19
- BigInteger xx =
- y.pow(2)
- .subtract(BigInteger.ONE)
- .multiply(D_BI.multiply(y.pow(2)).add(BigInteger.ONE).modInverse(P_BI));
- BigInteger x = xx.modPow(P_BI.add(BigInteger.valueOf(3)).divide(BigInteger.valueOf(8)), P_BI);
- if (!x.pow(2).subtract(xx).mod(P_BI).equals(BigInteger.ZERO)) {
- x = x.multiply(SQRTM1_BI).mod(P_BI);
- }
- if (x.testBit(0)) {
- x = P_BI.subtract(x);
- }
- return x;
- }
-
- private static Point edwards(Point a, Point b) {
- Point o = new Point();
- BigInteger xxyy = D_BI.multiply(a.x.multiply(b.x).multiply(a.y).multiply(b.y)).mod(P_BI);
- o.x =
- (a.x.multiply(b.y).add(b.x.multiply(a.y)))
- .multiply(BigInteger.ONE.add(xxyy).modInverse(P_BI))
- .mod(P_BI);
- o.y =
- (a.y.multiply(b.y).add(a.x.multiply(b.x)))
- .multiply(BigInteger.ONE.subtract(xxyy).modInverse(P_BI))
- .mod(P_BI);
- return o;
- }
-
- private static byte[] toLittleEndian(BigInteger n) {
- byte[] b = new byte[32];
- byte[] nBytes = n.toByteArray();
- System.arraycopy(nBytes, 0, b, 32 - nBytes.length, nBytes.length);
- for (int i = 0; i < b.length / 2; i++) {
- byte t = b[i];
- b[i] = b[b.length - i - 1];
- b[b.length - i - 1] = t;
- }
- return b;
- }
-
- private static CachedXYT getCachedXYT(Point p) {
- return new CachedXYT(
- Field25519.expand(toLittleEndian(p.y.add(p.x).mod(P_BI))),
- Field25519.expand(toLittleEndian(p.y.subtract(p.x).mod(P_BI))),
- Field25519.expand(toLittleEndian(D2_BI.multiply(p.x).multiply(p.y).mod(P_BI))));
- }
-
- static {
- Point b = new Point();
- b.y = BigInteger.valueOf(4).multiply(BigInteger.valueOf(5).modInverse(P_BI)).mod(P_BI);
- b.x = recoverX(b.y);
-
- D = Field25519.expand(toLittleEndian(D_BI));
- D2 = Field25519.expand(toLittleEndian(D2_BI));
- SQRTM1 = Field25519.expand(toLittleEndian(SQRTM1_BI));
-
- Point bi = b;
- B_TABLE = new CachedXYT[32][8];
- for (int i = 0; i < 32; i++) {
- Point bij = bi;
- for (int j = 0; j < 8; j++) {
- B_TABLE[i][j] = getCachedXYT(bij);
- bij = edwards(bij, bi);
- }
- for (int j = 0; j < 8; j++) {
- bi = edwards(bi, bi);
- }
- }
- bi = b;
- Point b2 = edwards(b, b);
- B2 = new CachedXYT[8];
- for (int i = 0; i < 8; i++) {
- B2[i] = getCachedXYT(bi);
- bi = edwards(bi, b2);
- }
- }
-
- private static final int PUBLIC_KEY_LEN = Field25519.FIELD_LEN;
- private static final int SIGNATURE_LEN = Field25519.FIELD_LEN * 2;
-
- /**
- * Defines field 25519 function based on <a
- * href="https://github.com/agl/curve25519-donna/blob/master/curve25519-donna.c">curve25519-donna C
- * implementation</a> (mostly identical).
- *
- * <p>Field elements are written as an array of signed, 64-bit limbs (an array of longs), least
- * significant first. The value of the field element is:
- *
- * <pre>
- * x[0] + 2^26·x[1] + 2^51·x[2] + 2^77·x[3] + 2^102·x[4] + 2^128·x[5] + 2^153·x[6] + 2^179·x[7] +
- * 2^204·x[8] + 2^230·x[9],
- * </pre>
- *
- * <p>i.e. the limbs are 26, 25, 26, 25, ... bits wide.
- */
- private static final class Field25519 {
- /**
- * During Field25519 computation, the mixed radix representation may be in different forms:
- * <ul>
- * <li> Reduced-size form: the array has size at most 10.
- * <li> Non-reduced-size form: the array is not reduced modulo 2^255 - 19 and has size at most
- * 19.
- * </ul>
- * <p>
- * TODO(quannguyen):
- * <ul>
- * <li> Clarify ill-defined terminologies.
- * <li> The reduction procedure is different from DJB's paper
- * (http://cr.yp.to/ecdh/curve25519-20060209.pdf). The coefficients after reducing degree and
- * reducing coefficients aren't guaranteed to be in range {-2^25, ..., 2^25}. We should check to
- * see what's going on.
- * <li> Consider using method mult() everywhere and making product() private.
- * </ul>
- */
-
- static final int FIELD_LEN = 32;
- static final int LIMB_CNT = 10;
- private static final long TWO_TO_25 = 1 << 25;
- private static final long TWO_TO_26 = TWO_TO_25 << 1;
-
- private static final int[] EXPAND_START = {0, 3, 6, 9, 12, 16, 19, 22, 25, 28};
- private static final int[] EXPAND_SHIFT = {0, 2, 3, 5, 6, 0, 1, 3, 4, 6};
- private static final int[] MASK = {0x3ffffff, 0x1ffffff};
- private static final int[] SHIFT = {26, 25};
-
- /**
- * Sums two numbers: output = in1 + in2
- * <p>
- * On entry: in1, in2 are in reduced-size form.
- */
- static void sum(long[] output, long[] in1, long[] in2) {
- for (int i = 0; i < LIMB_CNT; i++) {
- output[i] = in1[i] + in2[i];
- }
- }
-
- /**
- * Sums two numbers: output += in
- * <p>
- * On entry: in is in reduced-size form.
- */
- static void sum(long[] output, long[] in) {
- sum(output, output, in);
- }
-
- /**
- * Find the difference of two numbers: output = in1 - in2
- * (note the order of the arguments!).
- * <p>
- * On entry: in1, in2 are in reduced-size form.
- */
- static void sub(long[] output, long[] in1, long[] in2) {
- for (int i = 0; i < LIMB_CNT; i++) {
- output[i] = in1[i] - in2[i];
- }
- }
-
- /**
- * Find the difference of two numbers: output = in - output
- * (note the order of the arguments!).
- * <p>
- * On entry: in, output are in reduced-size form.
- */
- static void sub(long[] output, long[] in) {
- sub(output, in, output);
- }
-
- /**
- * Multiply a number by a scalar: output = in * scalar
- */
- static void scalarProduct(long[] output, long[] in, long scalar) {
- for (int i = 0; i < LIMB_CNT; i++) {
- output[i] = in[i] * scalar;
- }
- }
-
- /**
- * Multiply two numbers: out = in2 * in
- * <p>
- * output must be distinct to both inputs. The inputs are reduced coefficient form,
- * the output is not.
- * <p>
- * out[x] <= 14 * the largest product of the input limbs.
- */
- static void product(long[] out, long[] in2, long[] in) {
- out[0] = in2[0] * in[0];
- out[1] = in2[0] * in[1]
- + in2[1] * in[0];
- out[2] = 2 * in2[1] * in[1]
- + in2[0] * in[2]
- + in2[2] * in[0];
- out[3] = in2[1] * in[2]
- + in2[2] * in[1]
- + in2[0] * in[3]
- + in2[3] * in[0];
- out[4] = in2[2] * in[2]
- + 2 * (in2[1] * in[3] + in2[3] * in[1])
- + in2[0] * in[4]
- + in2[4] * in[0];
- out[5] = in2[2] * in[3]
- + in2[3] * in[2]
- + in2[1] * in[4]
- + in2[4] * in[1]
- + in2[0] * in[5]
- + in2[5] * in[0];
- out[6] = 2 * (in2[3] * in[3] + in2[1] * in[5] + in2[5] * in[1])
- + in2[2] * in[4]
- + in2[4] * in[2]
- + in2[0] * in[6]
- + in2[6] * in[0];
- out[7] = in2[3] * in[4]
- + in2[4] * in[3]
- + in2[2] * in[5]
- + in2[5] * in[2]
- + in2[1] * in[6]
- + in2[6] * in[1]
- + in2[0] * in[7]
- + in2[7] * in[0];
- out[8] = in2[4] * in[4]
- + 2 * (in2[3] * in[5] + in2[5] * in[3] + in2[1] * in[7] + in2[7] * in[1])
- + in2[2] * in[6]
- + in2[6] * in[2]
- + in2[0] * in[8]
- + in2[8] * in[0];
- out[9] = in2[4] * in[5]
- + in2[5] * in[4]
- + in2[3] * in[6]
- + in2[6] * in[3]
- + in2[2] * in[7]
- + in2[7] * in[2]
- + in2[1] * in[8]
- + in2[8] * in[1]
- + in2[0] * in[9]
- + in2[9] * in[0];
- out[10] =
- 2 * (in2[5] * in[5] + in2[3] * in[7] + in2[7] * in[3] + in2[1] * in[9] + in2[9] * in[1])
- + in2[4] * in[6]
- + in2[6] * in[4]
- + in2[2] * in[8]
- + in2[8] * in[2];
- out[11] = in2[5] * in[6]
- + in2[6] * in[5]
- + in2[4] * in[7]
- + in2[7] * in[4]
- + in2[3] * in[8]
- + in2[8] * in[3]
- + in2[2] * in[9]
- + in2[9] * in[2];
- out[12] = in2[6] * in[6]
- + 2 * (in2[5] * in[7] + in2[7] * in[5] + in2[3] * in[9] + in2[9] * in[3])
- + in2[4] * in[8]
- + in2[8] * in[4];
- out[13] = in2[6] * in[7]
- + in2[7] * in[6]
- + in2[5] * in[8]
- + in2[8] * in[5]
- + in2[4] * in[9]
- + in2[9] * in[4];
- out[14] = 2 * (in2[7] * in[7] + in2[5] * in[9] + in2[9] * in[5])
- + in2[6] * in[8]
- + in2[8] * in[6];
- out[15] = in2[7] * in[8]
- + in2[8] * in[7]
- + in2[6] * in[9]
- + in2[9] * in[6];
- out[16] = in2[8] * in[8]
- + 2 * (in2[7] * in[9] + in2[9] * in[7]);
- out[17] = in2[8] * in[9]
- + in2[9] * in[8];
- out[18] = 2 * in2[9] * in[9];
- }
-
- /**
- * Reduce a field element by calling reduceSizeByModularReduction and reduceCoefficients.
- *
- * @param input An input array of any length. If the array has 19 elements, it will be used as
- * temporary buffer and its contents changed.
- * @param output An output array of size LIMB_CNT. After the call |output[i]| < 2^26 will hold.
- */
- static void reduce(long[] input, long[] output) {
- long[] tmp;
- if (input.length == 19) {
- tmp = input;
- } else {
- tmp = new long[19];
- System.arraycopy(input, 0, tmp, 0, input.length);
- }
- reduceSizeByModularReduction(tmp);
- reduceCoefficients(tmp);
- System.arraycopy(tmp, 0, output, 0, LIMB_CNT);
- }
-
- /**
- * Reduce a long form to a reduced-size form by taking the input mod 2^255 - 19.
- * <p>
- * On entry: |output[i]| < 14*2^54
- * On exit: |output[0..8]| < 280*2^54
- */
- static void reduceSizeByModularReduction(long[] output) {
- // The coefficients x[10], x[11],..., x[18] are eliminated by reduction modulo 2^255 - 19.
- // For example, the coefficient x[18] is multiplied by 19 and added to the coefficient x[8].
- //
- // Each of these shifts and adds ends up multiplying the value by 19.
- //
- // For output[0..8], the absolute entry value is < 14*2^54 and we add, at most, 19*14*2^54 thus,
- // on exit, |output[0..8]| < 280*2^54.
- output[8] += output[18] << 4;
- output[8] += output[18] << 1;
- output[8] += output[18];
- output[7] += output[17] << 4;
- output[7] += output[17] << 1;
- output[7] += output[17];
- output[6] += output[16] << 4;
- output[6] += output[16] << 1;
- output[6] += output[16];
- output[5] += output[15] << 4;
- output[5] += output[15] << 1;
- output[5] += output[15];
- output[4] += output[14] << 4;
- output[4] += output[14] << 1;
- output[4] += output[14];
- output[3] += output[13] << 4;
- output[3] += output[13] << 1;
- output[3] += output[13];
- output[2] += output[12] << 4;
- output[2] += output[12] << 1;
- output[2] += output[12];
- output[1] += output[11] << 4;
- output[1] += output[11] << 1;
- output[1] += output[11];
- output[0] += output[10] << 4;
- output[0] += output[10] << 1;
- output[0] += output[10];
- }
-
- /**
- * Reduce all coefficients of the short form input so that |x| < 2^26.
- * <p>
- * On entry: |output[i]| < 280*2^54
- */
- static void reduceCoefficients(long[] output) {
- output[10] = 0;
-
- for (int i = 0; i < LIMB_CNT; i += 2) {
- long over = output[i] / TWO_TO_26;
- // The entry condition (that |output[i]| < 280*2^54) means that over is, at most, 280*2^28 in
- // the first iteration of this loop. This is added to the next limb and we can approximate the
- // resulting bound of that limb by 281*2^54.
- output[i] -= over << 26;
- output[i + 1] += over;
-
- // For the first iteration, |output[i+1]| < 281*2^54, thus |over| < 281*2^29. When this is
- // added to the next limb, the resulting bound can be approximated as 281*2^54.
- //
- // For subsequent iterations of the loop, 281*2^54 remains a conservative bound and no
- // overflow occurs.
- over = output[i + 1] / TWO_TO_25;
- output[i + 1] -= over << 25;
- output[i + 2] += over;
- }
- // Now |output[10]| < 281*2^29 and all other coefficients are reduced.
- output[0] += output[10] << 4;
- output[0] += output[10] << 1;
- output[0] += output[10];
-
- output[10] = 0;
- // Now output[1..9] are reduced, and |output[0]| < 2^26 + 19*281*2^29 so |over| will be no more
- // than 2^16.
- long over = output[0] / TWO_TO_26;
- output[0] -= over << 26;
- output[1] += over;
- // Now output[0,2..9] are reduced, and |output[1]| < 2^25 + 2^16 < 2^26. The bound on
- // |output[1]| is sufficient to meet our needs.
- }
-
- /**
- * A helpful wrapper around {@ref Field25519#product}: output = in * in2.
- * <p>
- * On entry: |in[i]| < 2^27 and |in2[i]| < 2^27.
- * <p>
- * The output is reduced degree (indeed, one need only provide storage for 10 limbs) and
- * |output[i]| < 2^26.
- */
- static void mult(long[] output, long[] in, long[] in2) {
- long[] t = new long[19];
- product(t, in, in2);
- // |t[i]| < 2^26
- reduce(t, output);
- }
-
- /**
- * Square a number: out = in**2
- * <p>
- * output must be distinct from the input. The inputs are reduced coefficient form, the output is
- * not.
- * <p>
- * out[x] <= 14 * the largest product of the input limbs.
- */
- private static void squareInner(long[] out, long[] in) {
- out[0] = in[0] * in[0];
- out[1] = 2 * in[0] * in[1];
- out[2] = 2 * (in[1] * in[1] + in[0] * in[2]);
- out[3] = 2 * (in[1] * in[2] + in[0] * in[3]);
- out[4] = in[2] * in[2]
- + 4 * in[1] * in[3]
- + 2 * in[0] * in[4];
- out[5] = 2 * (in[2] * in[3] + in[1] * in[4] + in[0] * in[5]);
- out[6] = 2 * (in[3] * in[3] + in[2] * in[4] + in[0] * in[6] + 2 * in[1] * in[5]);
- out[7] = 2 * (in[3] * in[4] + in[2] * in[5] + in[1] * in[6] + in[0] * in[7]);
- out[8] = in[4] * in[4]
- + 2 * (in[2] * in[6] + in[0] * in[8] + 2 * (in[1] * in[7] + in[3] * in[5]));
- out[9] = 2 * (in[4] * in[5] + in[3] * in[6] + in[2] * in[7] + in[1] * in[8] + in[0] * in[9]);
- out[10] = 2 * (in[5] * in[5]
- + in[4] * in[6]
- + in[2] * in[8]
- + 2 * (in[3] * in[7] + in[1] * in[9]));
- out[11] = 2 * (in[5] * in[6] + in[4] * in[7] + in[3] * in[8] + in[2] * in[9]);
- out[12] = in[6] * in[6]
- + 2 * (in[4] * in[8] + 2 * (in[5] * in[7] + in[3] * in[9]));
- out[13] = 2 * (in[6] * in[7] + in[5] * in[8] + in[4] * in[9]);
- out[14] = 2 * (in[7] * in[7] + in[6] * in[8] + 2 * in[5] * in[9]);
- out[15] = 2 * (in[7] * in[8] + in[6] * in[9]);
- out[16] = in[8] * in[8] + 4 * in[7] * in[9];
- out[17] = 2 * in[8] * in[9];
- out[18] = 2 * in[9] * in[9];
- }
-
- /**
- * Returns in^2.
- * <p>
- * On entry: The |in| argument is in reduced coefficients form and |in[i]| < 2^27.
- * <p>
- * On exit: The |output| argument is in reduced coefficients form (indeed, one need only provide
- * storage for 10 limbs) and |out[i]| < 2^26.
- */
- static void square(long[] output, long[] in) {
- long[] t = new long[19];
- squareInner(t, in);
- // |t[i]| < 14*2^54 because the largest product of two limbs will be < 2^(27+27) and SquareInner
- // adds together, at most, 14 of those products.
- reduce(t, output);
- }
-
- /**
- * Takes a little-endian, 32-byte number and expands it into mixed radix form.
- */
- static long[] expand(byte[] input) {
- long[] output = new long[LIMB_CNT];
- for (int i = 0; i < LIMB_CNT; i++) {
- output[i] = ((((long) (input[EXPAND_START[i]] & 0xff))
- | ((long) (input[EXPAND_START[i] + 1] & 0xff)) << 8
- | ((long) (input[EXPAND_START[i] + 2] & 0xff)) << 16
- | ((long) (input[EXPAND_START[i] + 3] & 0xff)) << 24) >> EXPAND_SHIFT[i]) & MASK[i & 1];
- }
- return output;
- }
-
- /**
- * Takes a fully reduced mixed radix form number and contract it into a little-endian, 32-byte
- * array.
- * <p>
- * On entry: |input_limbs[i]| < 2^26
- */
- @SuppressWarnings("NarrowingCompoundAssignment")
- static byte[] contract(long[] inputLimbs) {
- long[] input = Arrays.copyOf(inputLimbs, LIMB_CNT);
- for (int j = 0; j < 2; j++) {
- for (int i = 0; i < 9; i++) {
- // This calculation is a time-invariant way to make input[i] non-negative by borrowing
- // from the next-larger limb.
- int carry = -(int) ((input[i] & (input[i] >> 31)) >> SHIFT[i & 1]);
- input[i] = input[i] + (carry << SHIFT[i & 1]);
- input[i + 1] -= carry;
- }
-
- // There's no greater limb for input[9] to borrow from, but we can multiply by 19 and borrow
- // from input[0], which is valid mod 2^255-19.
- {
- int carry = -(int) ((input[9] & (input[9] >> 31)) >> 25);
- input[9] += (carry << 25);
- input[0] -= (carry * 19);
- }
-
- // After the first iteration, input[1..9] are non-negative and fit within 25 or 26 bits,
- // depending on position. However, input[0] may be negative.
- }
-
- // The first borrow-propagation pass above ended with every limb except (possibly) input[0]
- // non-negative.
- //
- // If input[0] was negative after the first pass, then it was because of a carry from input[9].
- // On entry, input[9] < 2^26 so the carry was, at most, one, since (2**26-1) >> 25 = 1. Thus
- // input[0] >= -19.
- //
- // In the second pass, each limb is decreased by at most one. Thus the second borrow-propagation
- // pass could only have wrapped around to decrease input[0] again if the first pass left
- // input[0] negative *and* input[1] through input[9] were all zero. In that case, input[1] is
- // now 2^25 - 1, and this last borrow-propagation step will leave input[1] non-negative.
- {
- int carry = -(int) ((input[0] & (input[0] >> 31)) >> 26);
- input[0] += (carry << 26);
- input[1] -= carry;
- }
-
- // All input[i] are now non-negative. However, there might be values between 2^25 and 2^26 in a
- // limb which is, nominally, 25 bits wide.
- for (int j = 0; j < 2; j++) {
- for (int i = 0; i < 9; i++) {
- int carry = (int) (input[i] >> SHIFT[i & 1]);
- input[i] &= MASK[i & 1];
- input[i + 1] += carry;
- }
- }
-
- {
- int carry = (int) (input[9] >> 25);
- input[9] &= 0x1ffffff;
- input[0] += 19 * carry;
- }
-
- // If the first carry-chain pass, just above, ended up with a carry from input[9], and that
- // caused input[0] to be out-of-bounds, then input[0] was < 2^26 + 2*19, because the carry was,
- // at most, two.
- //
- // If the second pass carried from input[9] again then input[0] is < 2*19 and the input[9] ->
- // input[0] carry didn't push input[0] out of bounds.
-
- // It still remains the case that input might be between 2^255-19 and 2^255. In this case,
- // input[1..9] must take their maximum value and input[0] must be >= (2^255-19) & 0x3ffffff,
- // which is 0x3ffffed.
- int mask = gte((int) input[0], 0x3ffffed);
- for (int i = 1; i < LIMB_CNT; i++) {
- mask &= eq((int) input[i], MASK[i & 1]);
- }
-
- // mask is either 0xffffffff (if input >= 2^255-19) and zero otherwise. Thus this conditionally
- // subtracts 2^255-19.
- input[0] -= mask & 0x3ffffed;
- input[1] -= mask & 0x1ffffff;
- for (int i = 2; i < LIMB_CNT; i += 2) {
- input[i] -= mask & 0x3ffffff;
- input[i + 1] -= mask & 0x1ffffff;
- }
-
- for (int i = 0; i < LIMB_CNT; i++) {
- input[i] <<= EXPAND_SHIFT[i];
- }
- byte[] output = new byte[FIELD_LEN];
- for (int i = 0; i < LIMB_CNT; i++) {
- output[EXPAND_START[i]] |= input[i] & 0xff;
- output[EXPAND_START[i] + 1] |= (input[i] >> 8) & 0xff;
- output[EXPAND_START[i] + 2] |= (input[i] >> 16) & 0xff;
- output[EXPAND_START[i] + 3] |= (input[i] >> 24) & 0xff;
- }
- return output;
- }
-
- /**
- * Computes inverse of z = z(2^255 - 21)
- * <p>
- * Shamelessly copied from agl's code which was shamelessly copied from djb's code. Only the
- * comment format and the variable namings are different from those.
- */
- static void inverse(long[] out, long[] z) {
- long[] z2 = new long[Field25519.LIMB_CNT];
- long[] z9 = new long[Field25519.LIMB_CNT];
- long[] z11 = new long[Field25519.LIMB_CNT];
- long[] z2To5Minus1 = new long[Field25519.LIMB_CNT];
- long[] z2To10Minus1 = new long[Field25519.LIMB_CNT];
- long[] z2To20Minus1 = new long[Field25519.LIMB_CNT];
- long[] z2To50Minus1 = new long[Field25519.LIMB_CNT];
- long[] z2To100Minus1 = new long[Field25519.LIMB_CNT];
- long[] t0 = new long[Field25519.LIMB_CNT];
- long[] t1 = new long[Field25519.LIMB_CNT];
-
- square(z2, z); // 2
- square(t1, z2); // 4
- square(t0, t1); // 8
- mult(z9, t0, z); // 9
- mult(z11, z9, z2); // 11
- square(t0, z11); // 22
- mult(z2To5Minus1, t0, z9); // 2^5 - 2^0 = 31
-
- square(t0, z2To5Minus1); // 2^6 - 2^1
- square(t1, t0); // 2^7 - 2^2
- square(t0, t1); // 2^8 - 2^3
- square(t1, t0); // 2^9 - 2^4
- square(t0, t1); // 2^10 - 2^5
- mult(z2To10Minus1, t0, z2To5Minus1); // 2^10 - 2^0
-
- square(t0, z2To10Minus1); // 2^11 - 2^1
- square(t1, t0); // 2^12 - 2^2
- for (int i = 2; i < 10; i += 2) { // 2^20 - 2^10
- square(t0, t1);
- square(t1, t0);
- }
- mult(z2To20Minus1, t1, z2To10Minus1); // 2^20 - 2^0
-
- square(t0, z2To20Minus1); // 2^21 - 2^1
- square(t1, t0); // 2^22 - 2^2
- for (int i = 2; i < 20; i += 2) { // 2^40 - 2^20
- square(t0, t1);
- square(t1, t0);
- }
- mult(t0, t1, z2To20Minus1); // 2^40 - 2^0
-
- square(t1, t0); // 2^41 - 2^1
- square(t0, t1); // 2^42 - 2^2
- for (int i = 2; i < 10; i += 2) { // 2^50 - 2^10
- square(t1, t0);
- square(t0, t1);
- }
- mult(z2To50Minus1, t0, z2To10Minus1); // 2^50 - 2^0
-
- square(t0, z2To50Minus1); // 2^51 - 2^1
- square(t1, t0); // 2^52 - 2^2
- for (int i = 2; i < 50; i += 2) { // 2^100 - 2^50
- square(t0, t1);
- square(t1, t0);
- }
- mult(z2To100Minus1, t1, z2To50Minus1); // 2^100 - 2^0
-
- square(t1, z2To100Minus1); // 2^101 - 2^1
- square(t0, t1); // 2^102 - 2^2
- for (int i = 2; i < 100; i += 2) { // 2^200 - 2^100
- square(t1, t0);
- square(t0, t1);
- }
- mult(t1, t0, z2To100Minus1); // 2^200 - 2^0
-
- square(t0, t1); // 2^201 - 2^1
- square(t1, t0); // 2^202 - 2^2
- for (int i = 2; i < 50; i += 2) { // 2^250 - 2^50
- square(t0, t1);
- square(t1, t0);
- }
- mult(t0, t1, z2To50Minus1); // 2^250 - 2^0
-
- square(t1, t0); // 2^251 - 2^1
- square(t0, t1); // 2^252 - 2^2
- square(t1, t0); // 2^253 - 2^3
- square(t0, t1); // 2^254 - 2^4
- square(t1, t0); // 2^255 - 2^5
- mult(out, t1, z11); // 2^255 - 21
- }
-
-
- /**
- * Returns 0xffffffff iff a == b and zero otherwise.
- */
- private static int eq(int a, int b) {
- a = ~(a ^ b);
- a &= a << 16;
- a &= a << 8;
- a &= a << 4;
- a &= a << 2;
- a &= a << 1;
- return a >> 31;
- }
-
- /**
- * returns 0xffffffff if a >= b and zero otherwise, where a and b are both non-negative.
- */
- private static int gte(int a, int b) {
- a -= b;
- // a >= 0 iff a >= b.
- return ~(a >> 31);
- }
- }
-
- // (x = 0, y = 1) point
- private static final CachedXYT CACHED_NEUTRAL = new CachedXYT(
- new long[]{1, 0, 0, 0, 0, 0, 0, 0, 0, 0},
- new long[]{1, 0, 0, 0, 0, 0, 0, 0, 0, 0},
- new long[]{0, 0, 0, 0, 0, 0, 0, 0, 0, 0});
- private static final PartialXYZT NEUTRAL = new PartialXYZT(
- new XYZ(new long[]{0, 0, 0, 0, 0, 0, 0, 0, 0, 0},
- new long[]{1, 0, 0, 0, 0, 0, 0, 0, 0, 0},
- new long[]{1, 0, 0, 0, 0, 0, 0, 0, 0, 0}),
- new long[]{1, 0, 0, 0, 0, 0, 0, 0, 0, 0});
-
- /**
- * Projective point representation (X:Y:Z) satisfying x = X/Z, y = Y/Z
- * <p>
- * Note that this is referred as ge_p2 in ref10 impl.
- * Also note that x = X, y = Y and z = Z below following Java coding style.
- * <p>
- * See
- * Koyama K., Tsuruoka Y. (1993) Speeding up Elliptic Cryptosystems by Using a Signed Binary
- * Window Method.
- * <p>
- * https://hyperelliptic.org/EFD/g1p/auto-twisted-projective.html
- */
- private static class XYZ {
-
- final long[] x;
- final long[] y;
- final long[] z;
-
- XYZ() {
- this(new long[Field25519.LIMB_CNT], new long[Field25519.LIMB_CNT], new long[Field25519.LIMB_CNT]);
- }
-
- XYZ(long[] x, long[] y, long[] z) {
- this.x = x;
- this.y = y;
- this.z = z;
- }
-
- XYZ(XYZ xyz) {
- x = Arrays.copyOf(xyz.x, Field25519.LIMB_CNT);
- y = Arrays.copyOf(xyz.y, Field25519.LIMB_CNT);
- z = Arrays.copyOf(xyz.z, Field25519.LIMB_CNT);
- }
-
- XYZ(PartialXYZT partialXYZT) {
- this();
- fromPartialXYZT(this, partialXYZT);
- }
-
- /**
- * ge_p1p1_to_p2.c
- */
- static XYZ fromPartialXYZT(XYZ out, PartialXYZT in) {
- Field25519.mult(out.x, in.xyz.x, in.t);
- Field25519.mult(out.y, in.xyz.y, in.xyz.z);
- Field25519.mult(out.z, in.xyz.z, in.t);
- return out;
- }
-
- /**
- * Encodes this point to bytes.
- */
- byte[] toBytes() {
- long[] recip = new long[Field25519.LIMB_CNT];
- long[] x = new long[Field25519.LIMB_CNT];
- long[] y = new long[Field25519.LIMB_CNT];
- Field25519.inverse(recip, z);
- Field25519.mult(x, this.x, recip);
- Field25519.mult(y, this.y, recip);
- byte[] s = Field25519.contract(y);
- s[31] = (byte) (s[31] ^ (getLsb(x) << 7));
- return s;
- }
-
-
- /**
- * Best effort fix-timing array comparison.
- *
- * @return true if two arrays are equal.
- */
- private static boolean bytesEqual(final byte[] x, final byte[] y) {
- if (x == null || y == null) {
- return false;
- }
- if (x.length != y.length) {
- return false;
- }
- int res = 0;
- for (int i = 0; i < x.length; i++) {
- res |= x[i] ^ y[i];
- }
- return res == 0;
- }
-
- /**
- * Checks that the point is on curve
- */
- boolean isOnCurve() {
- long[] x2 = new long[Field25519.LIMB_CNT];
- Field25519.square(x2, x);
- long[] y2 = new long[Field25519.LIMB_CNT];
- Field25519.square(y2, y);
- long[] z2 = new long[Field25519.LIMB_CNT];
- Field25519.square(z2, z);
- long[] z4 = new long[Field25519.LIMB_CNT];
- Field25519.square(z4, z2);
- long[] lhs = new long[Field25519.LIMB_CNT];
- // lhs = y^2 - x^2
- Field25519.sub(lhs, y2, x2);
- // lhs = z^2 * (y2 - x2)
- Field25519.mult(lhs, lhs, z2);
- long[] rhs = new long[Field25519.LIMB_CNT];
- // rhs = x^2 * y^2
- Field25519.mult(rhs, x2, y2);
- // rhs = D * x^2 * y^2
- Field25519.mult(rhs, rhs, D);
- // rhs = z^4 + D * x^2 * y^2
- Field25519.sum(rhs, z4);
- // Field25519.mult reduces its output, but Field25519.sum does not, so we have to manually
- // reduce it here.
- Field25519.reduce(rhs, rhs);
- // z^2 (y^2 - x^2) == z^4 + D * x^2 * y^2
- return bytesEqual(Field25519.contract(lhs), Field25519.contract(rhs));
- }
- }
-
- /**
- * Represents extended projective point representation (X:Y:Z:T) satisfying x = X/Z, y = Y/Z,
- * XY = ZT
- * <p>
- * Note that this is referred as ge_p3 in ref10 impl.
- * Also note that t = T below following Java coding style.
- * <p>
- * See
- * Hisil H., Wong K.KH., Carter G., Dawson E. (2008) Twisted Edwards Curves Revisited.
- * <p>
- * https://hyperelliptic.org/EFD/g1p/auto-twisted-extended.html
- */
- private static class XYZT {
-
- final XYZ xyz;
- final long[] t;
-
- XYZT() {
- this(new XYZ(), new long[Field25519.LIMB_CNT]);
- }
-
- XYZT(XYZ xyz, long[] t) {
- this.xyz = xyz;
- this.t = t;
- }
-
- XYZT(PartialXYZT partialXYZT) {
- this();
- fromPartialXYZT(this, partialXYZT);
- }
-
- /**
- * ge_p1p1_to_p2.c
- */
- private static XYZT fromPartialXYZT(XYZT out, PartialXYZT in) {
- Field25519.mult(out.xyz.x, in.xyz.x, in.t);
- Field25519.mult(out.xyz.y, in.xyz.y, in.xyz.z);
- Field25519.mult(out.xyz.z, in.xyz.z, in.t);
- Field25519.mult(out.t, in.xyz.x, in.xyz.y);
- return out;
- }
-
- /**
- * Decodes {@code s} into an extented projective point.
- * See Section 5.1.3 Decoding in https://tools.ietf.org/html/rfc8032#section-5.1.3
- */
- private static XYZT fromBytesNegateVarTime(byte[] s) throws GeneralSecurityException {
- long[] x = new long[Field25519.LIMB_CNT];
- long[] y = Field25519.expand(s);
- long[] z = new long[Field25519.LIMB_CNT];
- z[0] = 1;
- long[] t = new long[Field25519.LIMB_CNT];
- long[] u = new long[Field25519.LIMB_CNT];
- long[] v = new long[Field25519.LIMB_CNT];
- long[] vxx = new long[Field25519.LIMB_CNT];
- long[] check = new long[Field25519.LIMB_CNT];
- Field25519.square(u, y);
- Field25519.mult(v, u, D);
- Field25519.sub(u, u, z); // u = y^2 - 1
- Field25519.sum(v, v, z); // v = dy^2 + 1
-
- long[] v3 = new long[Field25519.LIMB_CNT];
- Field25519.square(v3, v);
- Field25519.mult(v3, v3, v); // v3 = v^3
- Field25519.square(x, v3);
- Field25519.mult(x, x, v);
- Field25519.mult(x, x, u); // x = uv^7
-
- pow2252m3(x, x); // x = (uv^7)^((q-5)/8)
- Field25519.mult(x, x, v3);
- Field25519.mult(x, x, u); // x = uv^3(uv^7)^((q-5)/8)
-
- Field25519.square(vxx, x);
- Field25519.mult(vxx, vxx, v);
- Field25519.sub(check, vxx, u); // vx^2-u
- if (isNonZeroVarTime(check)) {
- Field25519.sum(check, vxx, u); // vx^2+u
- if (isNonZeroVarTime(check)) {
- throw new GeneralSecurityException("Cannot convert given bytes to extended projective "
- + "coordinates. No square root exists for modulo 2^255-19");
- }
- Field25519.mult(x, x, SQRTM1);
- }
-
- if (!isNonZeroVarTime(x) && (s[31] & 0xff) >> 7 != 0) {
- throw new GeneralSecurityException("Cannot convert given bytes to extended projective "
- + "coordinates. Computed x is zero and encoded x's least significant bit is not zero");
- }
- if (getLsb(x) == ((s[31] & 0xff) >> 7)) {
- neg(x, x);
- }
-
- Field25519.mult(t, x, y);
- return new XYZT(new XYZ(x, y, z), t);
- }
- }
-
- /**
- * Partial projective point representation ((X:Z),(Y:T)) satisfying x=X/Z, y=Y/T
- * <p>
- * Note that this is referred as complete form in the original ref10 impl (ge_p1p1).
- * Also note that t = T below following Java coding style.
- * <p>
- * Although this has the same types as XYZT, it is redefined to have its own type so that it is
- * readable and 1:1 corresponds to ref10 impl.
- * <p>
- * Can be converted to XYZT as follows:
- * X1 = X * T = x * Z * T = x * Z1
- * Y1 = Y * Z = y * T * Z = y * Z1
- * Z1 = Z * T = Z * T
- * T1 = X * Y = x * Z * y * T = x * y * Z1 = X1Y1 / Z1
- */
- private static class PartialXYZT {
-
- final XYZ xyz;
- final long[] t;
-
- PartialXYZT() {
- this(new XYZ(), new long[Field25519.LIMB_CNT]);
- }
-
- PartialXYZT(XYZ xyz, long[] t) {
- this.xyz = xyz;
- this.t = t;
- }
-
- PartialXYZT(PartialXYZT other) {
- xyz = new XYZ(other.xyz);
- t = Arrays.copyOf(other.t, Field25519.LIMB_CNT);
- }
- }
-
- /**
- * Corresponds to the caching mentioned in the last paragraph of Section 3.1 of
- * Hisil H., Wong K.KH., Carter G., Dawson E. (2008) Twisted Edwards Curves Revisited.
- * with Z = 1.
- */
- private static class CachedXYT {
-
- final long[] yPlusX;
- final long[] yMinusX;
- final long[] t2d;
-
- /**
- * Creates a cached XYZT with Z = 1
- *
- * @param yPlusX y + x
- * @param yMinusX y - x
- * @param t2d 2d * xy
- */
- CachedXYT(long[] yPlusX, long[] yMinusX, long[] t2d) {
- this.yPlusX = yPlusX;
- this.yMinusX = yMinusX;
- this.t2d = t2d;
- }
-
- CachedXYT(CachedXYT other) {
- yPlusX = Arrays.copyOf(other.yPlusX, Field25519.LIMB_CNT);
- yMinusX = Arrays.copyOf(other.yMinusX, Field25519.LIMB_CNT);
- t2d = Arrays.copyOf(other.t2d, Field25519.LIMB_CNT);
- }
-
- // z is one implicitly, so this just copies {@code in} to {@code output}.
- void multByZ(long[] output, long[] in) {
- System.arraycopy(in, 0, output, 0, Field25519.LIMB_CNT);
- }
-
- /**
- * If icopy is 1, copies {@code other} into this point. Time invariant wrt to icopy value.
- */
- void copyConditional(CachedXYT other, int icopy) {
- copyConditional(yPlusX, other.yPlusX, icopy);
- copyConditional(yMinusX, other.yMinusX, icopy);
- copyConditional(t2d, other.t2d, icopy);
- }
-
- /**
- * Conditionally copies a reduced-form limb arrays {@code b} into {@code a} if {@code icopy} is 1,
- * but leave {@code a} unchanged if 'iswap' is 0. Runs in data-invariant time to avoid
- * side-channel attacks.
- *
- * <p>NOTE that this function requires that {@code icopy} be 1 or 0; other values give wrong
- * results. Also, the two limb arrays must be in reduced-coefficient, reduced-degree form: the
- * values in a[10..19] or b[10..19] aren't swapped, and all all values in a[0..9],b[0..9] must
- * have magnitude less than Integer.MAX_VALUE.
- */
- static void copyConditional(long[] a, long[] b, int icopy) {
- int copy = -icopy;
- for (int i = 0; i < Field25519.LIMB_CNT; i++) {
- int x = copy & (((int) a[i]) ^ ((int) b[i]));
- a[i] = ((int) a[i]) ^ x;
- }
- }
- }
-
- private static class CachedXYZT extends CachedXYT {
-
- private final long[] z;
-
- CachedXYZT() {
- this(new long[Field25519.LIMB_CNT], new long[Field25519.LIMB_CNT], new long[Field25519.LIMB_CNT], new long[Field25519.LIMB_CNT]);
- }
-
- /**
- * ge_p3_to_cached.c
- */
- CachedXYZT(XYZT xyzt) {
- this();
- Field25519.sum(yPlusX, xyzt.xyz.y, xyzt.xyz.x);
- Field25519.sub(yMinusX, xyzt.xyz.y, xyzt.xyz.x);
- System.arraycopy(xyzt.xyz.z, 0, z, 0, Field25519.LIMB_CNT);
- Field25519.mult(t2d, xyzt.t, D2);
- }
-
- /**
- * Creates a cached XYZT
- *
- * @param yPlusX Y + X
- * @param yMinusX Y - X
- * @param z Z
- * @param t2d 2d * (XY/Z)
- */
- CachedXYZT(long[] yPlusX, long[] yMinusX, long[] z, long[] t2d) {
- super(yPlusX, yMinusX, t2d);
- this.z = z;
- }
-
- @Override
- public void multByZ(long[] output, long[] in) {
- Field25519.mult(output, in, z);
- }
- }
-
- /**
- * Addition defined in Section 3.1 of
- * Hisil H., Wong K.KH., Carter G., Dawson E. (2008) Twisted Edwards Curves Revisited.
- * <p>
- * Please note that this is a partial of the operation listed there leaving out the final
- * conversion from PartialXYZT to XYZT.
- *
- * @param extended extended projective point input
- * @param cached cached projective point input
- */
- private static void add(PartialXYZT partialXYZT, XYZT extended, CachedXYT cached) {
- long[] t = new long[Field25519.LIMB_CNT];
-
- // Y1 + X1
- Field25519.sum(partialXYZT.xyz.x, extended.xyz.y, extended.xyz.x);
-
- // Y1 - X1
- Field25519.sub(partialXYZT.xyz.y, extended.xyz.y, extended.xyz.x);
-
- // A = (Y1 - X1) * (Y2 - X2)
- Field25519.mult(partialXYZT.xyz.y, partialXYZT.xyz.y, cached.yMinusX);
-
- // B = (Y1 + X1) * (Y2 + X2)
- Field25519.mult(partialXYZT.xyz.z, partialXYZT.xyz.x, cached.yPlusX);
-
- // C = T1 * 2d * T2 = 2d * T1 * T2 (2d is written as k in the paper)
- Field25519.mult(partialXYZT.t, extended.t, cached.t2d);
-
- // Z1 * Z2
- cached.multByZ(partialXYZT.xyz.x, extended.xyz.z);
-
- // D = 2 * Z1 * Z2
- Field25519.sum(t, partialXYZT.xyz.x, partialXYZT.xyz.x);
-
- // X3 = B - A
- Field25519.sub(partialXYZT.xyz.x, partialXYZT.xyz.z, partialXYZT.xyz.y);
-
- // Y3 = B + A
- Field25519.sum(partialXYZT.xyz.y, partialXYZT.xyz.z, partialXYZT.xyz.y);
-
- // Z3 = D + C
- Field25519.sum(partialXYZT.xyz.z, t, partialXYZT.t);
-
- // T3 = D - C
- Field25519.sub(partialXYZT.t, t, partialXYZT.t);
- }
-
- /**
- * Based on the addition defined in Section 3.1 of
- * Hisil H., Wong K.KH., Carter G., Dawson E. (2008) Twisted Edwards Curves Revisited.
- * <p>
- * Please note that this is a partial of the operation listed there leaving out the final
- * conversion from PartialXYZT to XYZT.
- *
- * @param extended extended projective point input
- * @param cached cached projective point input
- */
- private static void sub(PartialXYZT partialXYZT, XYZT extended, CachedXYT cached) {
- long[] t = new long[Field25519.LIMB_CNT];
-
- // Y1 + X1
- Field25519.sum(partialXYZT.xyz.x, extended.xyz.y, extended.xyz.x);
-
- // Y1 - X1
- Field25519.sub(partialXYZT.xyz.y, extended.xyz.y, extended.xyz.x);
-
- // A = (Y1 - X1) * (Y2 + X2)
- Field25519.mult(partialXYZT.xyz.y, partialXYZT.xyz.y, cached.yPlusX);
-
- // B = (Y1 + X1) * (Y2 - X2)
- Field25519.mult(partialXYZT.xyz.z, partialXYZT.xyz.x, cached.yMinusX);
-
- // C = T1 * 2d * T2 = 2d * T1 * T2 (2d is written as k in the paper)
- Field25519.mult(partialXYZT.t, extended.t, cached.t2d);
-
- // Z1 * Z2
- cached.multByZ(partialXYZT.xyz.x, extended.xyz.z);
-
- // D = 2 * Z1 * Z2
- Field25519.sum(t, partialXYZT.xyz.x, partialXYZT.xyz.x);
-
- // X3 = B - A
- Field25519.sub(partialXYZT.xyz.x, partialXYZT.xyz.z, partialXYZT.xyz.y);
-
- // Y3 = B + A
- Field25519.sum(partialXYZT.xyz.y, partialXYZT.xyz.z, partialXYZT.xyz.y);
-
- // Z3 = D - C
- Field25519.sub(partialXYZT.xyz.z, t, partialXYZT.t);
-
- // T3 = D + C
- Field25519.sum(partialXYZT.t, t, partialXYZT.t);
- }
-
- /**
- * Doubles {@code p} and puts the result into this PartialXYZT.
- * <p>
- * This is based on the addition defined in formula 7 in Section 3.3 of
- * Hisil H., Wong K.KH., Carter G., Dawson E. (2008) Twisted Edwards Curves Revisited.
- * <p>
- * Please note that this is a partial of the operation listed there leaving out the final
- * conversion from PartialXYZT to XYZT and also this fixes a typo in calculation of Y3 and T3 in
- * the paper, H should be replaced with A+B.
- */
- private static void doubleXYZ(PartialXYZT partialXYZT, XYZ p) {
- long[] t0 = new long[Field25519.LIMB_CNT];
-
- // XX = X1^2
- Field25519.square(partialXYZT.xyz.x, p.x);
-
- // YY = Y1^2
- Field25519.square(partialXYZT.xyz.z, p.y);
-
- // B' = Z1^2
- Field25519.square(partialXYZT.t, p.z);
-
- // B = 2 * B'
- Field25519.sum(partialXYZT.t, partialXYZT.t, partialXYZT.t);
-
- // A = X1 + Y1
- Field25519.sum(partialXYZT.xyz.y, p.x, p.y);
-
- // AA = A^2
- Field25519.square(t0, partialXYZT.xyz.y);
-
- // Y3 = YY + XX
- Field25519.sum(partialXYZT.xyz.y, partialXYZT.xyz.z, partialXYZT.xyz.x);
-
- // Z3 = YY - XX
- Field25519.sub(partialXYZT.xyz.z, partialXYZT.xyz.z, partialXYZT.xyz.x);
-
- // X3 = AA - Y3
- Field25519.sub(partialXYZT.xyz.x, t0, partialXYZT.xyz.y);
-
- // T3 = B - Z3
- Field25519.sub(partialXYZT.t, partialXYZT.t, partialXYZT.xyz.z);
- }
-
- /**
- * Doubles {@code p} and puts the result into this PartialXYZT.
- */
- private static void doubleXYZT(PartialXYZT partialXYZT, XYZT p) {
- doubleXYZ(partialXYZT, p.xyz);
- }
-
- /**
- * Compares two byte values in constant time.
- */
- private static int eq(int a, int b) {
- int r = ~(a ^ b) & 0xff;
- r &= r << 4;
- r &= r << 2;
- r &= r << 1;
- return (r >> 7) & 1;
- }
-
- /**
- * This is a constant time operation where point b*B*256^pos is stored in {@code t}.
- * When b is 0, t remains the same (i.e., neutral point).
- * <p>
- * Although B_TABLE[32][8] (B_TABLE[i][j] = (j+1)*B*256^i) has j values in [0, 7], the select
- * method negates the corresponding point if b is negative (which is straight forward in elliptic
- * curves by just negating y coordinate). Therefore we can get multiples of B with the half of
- * memory requirements.
- *
- * @param t neutral element (i.e., point 0), also serves as output.
- * @param pos in B[pos][j] = (j+1)*B*256^pos
- * @param b value in [-8, 8] range.
- */
- private static void select(CachedXYT t, int pos, byte b) {
- int bnegative = (b & 0xff) >> 7;
- int babs = b - (((-bnegative) & b) << 1);
-
- t.copyConditional(B_TABLE[pos][0], eq(babs, 1));
- t.copyConditional(B_TABLE[pos][1], eq(babs, 2));
- t.copyConditional(B_TABLE[pos][2], eq(babs, 3));
- t.copyConditional(B_TABLE[pos][3], eq(babs, 4));
- t.copyConditional(B_TABLE[pos][4], eq(babs, 5));
- t.copyConditional(B_TABLE[pos][5], eq(babs, 6));
- t.copyConditional(B_TABLE[pos][6], eq(babs, 7));
- t.copyConditional(B_TABLE[pos][7], eq(babs, 8));
-
- long[] yPlusX = Arrays.copyOf(t.yMinusX, Field25519.LIMB_CNT);
- long[] yMinusX = Arrays.copyOf(t.yPlusX, Field25519.LIMB_CNT);
- long[] t2d = Arrays.copyOf(t.t2d, Field25519.LIMB_CNT);
- neg(t2d, t2d);
- CachedXYT minust = new CachedXYT(yPlusX, yMinusX, t2d);
- t.copyConditional(minust, bnegative);
- }
-
- /**
- * Computes {@code a}*B
- * where a = a[0]+256*a[1]+...+256^31 a[31] and
- * B is the Ed25519 base point (x,4/5) with x positive.
- * <p>
- * Preconditions:
- * a[31] <= 127
- *
- * @throws IllegalStateException iff there is arithmetic error.
- */
- @SuppressWarnings("NarrowingCompoundAssignment")
- private static XYZ scalarMultWithBase(byte[] a) {
- byte[] e = new byte[2 * Field25519.FIELD_LEN];
- for (int i = 0; i < Field25519.FIELD_LEN; i++) {
- e[2 * i + 0] = (byte) (((a[i] & 0xff) >> 0) & 0xf);
- e[2 * i + 1] = (byte) (((a[i] & 0xff) >> 4) & 0xf);
- }
- // each e[i] is between 0 and 15
- // e[63] is between 0 and 7
-
- // Rewrite e in a way that each e[i] is in [-8, 8].
- // This can be done since a[63] is in [0, 7], the carry-over onto the most significant byte
- // a[63] can be at most 1.
- int carry = 0;
- for (int i = 0; i < e.length - 1; i++) {
- e[i] += carry;
- carry = e[i] + 8;
- carry >>= 4;
- e[i] -= carry << 4;
- }
- e[e.length - 1] += carry;
-
- PartialXYZT ret = new PartialXYZT(NEUTRAL);
- XYZT xyzt = new XYZT();
- // Although B_TABLE's i can be at most 31 (stores only 32 4bit multiples of B) and we have 64
- // 4bit values in e array, the below for loop adds cached values by iterating e by two in odd
- // indices. After the result, we can double the result point 4 times to shift the multiplication
- // scalar by 4 bits.
- for (int i = 1; i < e.length; i += 2) {
- CachedXYT t = new CachedXYT(CACHED_NEUTRAL);
- select(t, i / 2, e[i]);
- add(ret, XYZT.fromPartialXYZT(xyzt, ret), t);
- }
-
- // Doubles the result 4 times to shift the multiplication scalar 4 bits to get the actual result
- // for the odd indices in e.
- XYZ xyz = new XYZ();
- doubleXYZ(ret, XYZ.fromPartialXYZT(xyz, ret));
- doubleXYZ(ret, XYZ.fromPartialXYZT(xyz, ret));
- doubleXYZ(ret, XYZ.fromPartialXYZT(xyz, ret));
- doubleXYZ(ret, XYZ.fromPartialXYZT(xyz, ret));
-
- // Add multiples of B for even indices of e.
- for (int i = 0; i < e.length; i += 2) {
- CachedXYT t = new CachedXYT(CACHED_NEUTRAL);
- select(t, i / 2, e[i]);
- add(ret, XYZT.fromPartialXYZT(xyzt, ret), t);
- }
-
- // This check is to protect against flaws, i.e. if there is a computation error through a
- // faulty CPU or if the implementation contains a bug.
- XYZ result = new XYZ(ret);
- if (!result.isOnCurve()) {
- throw new IllegalStateException("arithmetic error in scalar multiplication");
- }
- return result;
- }
-
- @SuppressWarnings("NarrowingCompoundAssignment")
- private static byte[] slide(byte[] a) {
- byte[] r = new byte[256];
- // Writes each bit in a[0..31] into r[0..255]:
- // a = a[0]+256*a[1]+...+256^31*a[31] is equal to
- // r = r[0]+2*r[1]+...+2^255*r[255]
- for (int i = 0; i < 256; i++) {
- r[i] = (byte) (1 & ((a[i >> 3] & 0xff) >> (i & 7)));
- }
-
- // Transforms r[i] as odd values in [-15, 15]
- for (int i = 0; i < 256; i++) {
- if (r[i] != 0) {
- for (int b = 1; b <= 6 && i + b < 256; b++) {
- if (r[i + b] != 0) {
- if (r[i] + (r[i + b] << b) <= 15) {
- r[i] += r[i + b] << b;
- r[i + b] = 0;
- } else if (r[i] - (r[i + b] << b) >= -15) {
- r[i] -= r[i + b] << b;
- for (int k = i + b; k < 256; k++) {
- if (r[k] == 0) {
- r[k] = 1;
- break;
- }
- r[k] = 0;
- }
- } else {
- break;
- }
- }
- }
- }
- }
- return r;
- }
-
- /**
- * Computes {@code a}*{@code pointA}+{@code b}*B
- * where a = a[0]+256*a[1]+...+256^31*a[31].
- * and b = b[0]+256*b[1]+...+256^31*b[31].
- * B is the Ed25519 base point (x,4/5) with x positive.
- * <p>
- * Note that execution time varies based on the input since this will only be used in verification
- * of signatures.
- */
- private static XYZ doubleScalarMultVarTime(byte[] a, XYZT pointA, byte[] b) {
- // pointA, 3*pointA, 5*pointA, 7*pointA, 9*pointA, 11*pointA, 13*pointA, 15*pointA
- CachedXYZT[] pointAArray = new CachedXYZT[8];
- pointAArray[0] = new CachedXYZT(pointA);
- PartialXYZT t = new PartialXYZT();
- doubleXYZT(t, pointA);
- XYZT doubleA = new XYZT(t);
- for (int i = 1; i < pointAArray.length; i++) {
- add(t, doubleA, pointAArray[i - 1]);
- pointAArray[i] = new CachedXYZT(new XYZT(t));
- }
-
- byte[] aSlide = slide(a);
- byte[] bSlide = slide(b);
- t = new PartialXYZT(NEUTRAL);
- XYZT u = new XYZT();
- int i = 255;
- for (; i >= 0; i--) {
- if (aSlide[i] != 0 || bSlide[i] != 0) {
- break;
- }
- }
- for (; i >= 0; i--) {
- doubleXYZ(t, new XYZ(t));
- if (aSlide[i] > 0) {
- add(t, XYZT.fromPartialXYZT(u, t), pointAArray[aSlide[i] / 2]);
- } else if (aSlide[i] < 0) {
- sub(t, XYZT.fromPartialXYZT(u, t), pointAArray[-aSlide[i] / 2]);
- }
- if (bSlide[i] > 0) {
- add(t, XYZT.fromPartialXYZT(u, t), B2[bSlide[i] / 2]);
- } else if (bSlide[i] < 0) {
- sub(t, XYZT.fromPartialXYZT(u, t), B2[-bSlide[i] / 2]);
- }
- }
-
- return new XYZ(t);
- }
-
- /**
- * Returns true if {@code in} is nonzero.
- * <p>
- * Note that execution time might depend on the input {@code in}.
- */
- private static boolean isNonZeroVarTime(long[] in) {
- long[] inCopy = new long[in.length + 1];
- System.arraycopy(in, 0, inCopy, 0, in.length);
- Field25519.reduceCoefficients(inCopy);
- byte[] bytes = Field25519.contract(inCopy);
- for (byte b : bytes) {
- if (b != 0) {
- return true;
- }
- }
- return false;
- }
-
- /**
- * Returns the least significant bit of {@code in}.
- */
- private static int getLsb(long[] in) {
- return Field25519.contract(in)[0] & 1;
- }
-
- /**
- * Negates all values in {@code in} and store it in {@code out}.
- */
- private static void neg(long[] out, long[] in) {
- for (int i = 0; i < in.length; i++) {
- out[i] = -in[i];
- }
- }
-
- /**
- * Computes {@code in}^(2^252-3) mod 2^255-19 and puts the result in {@code out}.
- */
- private static void pow2252m3(long[] out, long[] in) {
- long[] t0 = new long[Field25519.LIMB_CNT];
- long[] t1 = new long[Field25519.LIMB_CNT];
- long[] t2 = new long[Field25519.LIMB_CNT];
-
- // z2 = z1^2^1
- Field25519.square(t0, in);
-
- // z8 = z2^2^2
- Field25519.square(t1, t0);
- for (int i = 1; i < 2; i++) {
- Field25519.square(t1, t1);
- }
-
- // z9 = z1*z8
- Field25519.mult(t1, in, t1);
-
- // z11 = z2*z9
- Field25519.mult(t0, t0, t1);
-
- // z22 = z11^2^1
- Field25519.square(t0, t0);
-
- // z_5_0 = z9*z22
- Field25519.mult(t0, t1, t0);
-
- // z_10_5 = z_5_0^2^5
- Field25519.square(t1, t0);
- for (int i = 1; i < 5; i++) {
- Field25519.square(t1, t1);
- }
-
- // z_10_0 = z_10_5*z_5_0
- Field25519.mult(t0, t1, t0);
-
- // z_20_10 = z_10_0^2^10
- Field25519.square(t1, t0);
- for (int i = 1; i < 10; i++) {
- Field25519.square(t1, t1);
- }
-
- // z_20_0 = z_20_10*z_10_0
- Field25519.mult(t1, t1, t0);
-
- // z_40_20 = z_20_0^2^20
- Field25519.square(t2, t1);
- for (int i = 1; i < 20; i++) {
- Field25519.square(t2, t2);
- }
-
- // z_40_0 = z_40_20*z_20_0
- Field25519.mult(t1, t2, t1);
-
- // z_50_10 = z_40_0^2^10
- Field25519.square(t1, t1);
- for (int i = 1; i < 10; i++) {
- Field25519.square(t1, t1);
- }
-
- // z_50_0 = z_50_10*z_10_0
- Field25519.mult(t0, t1, t0);
-
- // z_100_50 = z_50_0^2^50
- Field25519.square(t1, t0);
- for (int i = 1; i < 50; i++) {
- Field25519.square(t1, t1);
- }
-
- // z_100_0 = z_100_50*z_50_0
- Field25519.mult(t1, t1, t0);
-
- // z_200_100 = z_100_0^2^100
- Field25519.square(t2, t1);
- for (int i = 1; i < 100; i++) {
- Field25519.square(t2, t2);
- }
-
- // z_200_0 = z_200_100*z_100_0
- Field25519.mult(t1, t2, t1);
-
- // z_250_50 = z_200_0^2^50
- Field25519.square(t1, t1);
- for (int i = 1; i < 50; i++) {
- Field25519.square(t1, t1);
- }
-
- // z_250_0 = z_250_50*z_50_0
- Field25519.mult(t0, t1, t0);
-
- // z_252_2 = z_250_0^2^2
- Field25519.square(t0, t0);
- for (int i = 1; i < 2; i++) {
- Field25519.square(t0, t0);
- }
-
- // z_252_3 = z_252_2*z1
- Field25519.mult(out, t0, in);
- }
-
- /**
- * Returns 3 bytes of {@code in} starting from {@code idx} in Little-Endian format.
- */
- private static long load3(byte[] in, int idx) {
- long result;
- result = (long) in[idx] & 0xff;
- result |= (long) (in[idx + 1] & 0xff) << 8;
- result |= (long) (in[idx + 2] & 0xff) << 16;
- return result;
- }
-
- /**
- * Returns 4 bytes of {@code in} starting from {@code idx} in Little-Endian format.
- */
- private static long load4(byte[] in, int idx) {
- long result = load3(in, idx);
- result |= (long) (in[idx + 3] & 0xff) << 24;
- return result;
- }
-
- /**
- * Input:
- * s[0]+256*s[1]+...+256^63*s[63] = s
- * <p>
- * Output:
- * s[0]+256*s[1]+...+256^31*s[31] = s mod l
- * where l = 2^252 + 27742317777372353535851937790883648493.
- * Overwrites s in place.
- */
- private static void reduce(byte[] s) {
- // Observation:
- // 2^252 mod l is equivalent to -27742317777372353535851937790883648493 mod l
- // Let m = -27742317777372353535851937790883648493
- // Thus a*2^252+b mod l is equivalent to a*m+b mod l
- //
- // First s is divided into chunks of 21 bits as follows:
- // s0+2^21*s1+2^42*s3+...+2^462*s23 = s[0]+256*s[1]+...+256^63*s[63]
- long s0 = 2097151 & load3(s, 0);
- long s1 = 2097151 & (load4(s, 2) >> 5);
- long s2 = 2097151 & (load3(s, 5) >> 2);
- long s3 = 2097151 & (load4(s, 7) >> 7);
- long s4 = 2097151 & (load4(s, 10) >> 4);
- long s5 = 2097151 & (load3(s, 13) >> 1);
- long s6 = 2097151 & (load4(s, 15) >> 6);
- long s7 = 2097151 & (load3(s, 18) >> 3);
- long s8 = 2097151 & load3(s, 21);
- long s9 = 2097151 & (load4(s, 23) >> 5);
- long s10 = 2097151 & (load3(s, 26) >> 2);
- long s11 = 2097151 & (load4(s, 28) >> 7);
- long s12 = 2097151 & (load4(s, 31) >> 4);
- long s13 = 2097151 & (load3(s, 34) >> 1);
- long s14 = 2097151 & (load4(s, 36) >> 6);
- long s15 = 2097151 & (load3(s, 39) >> 3);
- long s16 = 2097151 & load3(s, 42);
- long s17 = 2097151 & (load4(s, 44) >> 5);
- long s18 = 2097151 & (load3(s, 47) >> 2);
- long s19 = 2097151 & (load4(s, 49) >> 7);
- long s20 = 2097151 & (load4(s, 52) >> 4);
- long s21 = 2097151 & (load3(s, 55) >> 1);
- long s22 = 2097151 & (load4(s, 57) >> 6);
- long s23 = (load4(s, 60) >> 3);
- long carry0;
- long carry1;
- long carry2;
- long carry3;
- long carry4;
- long carry5;
- long carry6;
- long carry7;
- long carry8;
- long carry9;
- long carry10;
- long carry11;
- long carry12;
- long carry13;
- long carry14;
- long carry15;
- long carry16;
-
- // s23*2^462 = s23*2^210*2^252 is equivalent to s23*2^210*m in mod l
- // As m is a 125 bit number, the result needs to scattered to 6 limbs (125/21 ceil is 6)
- // starting from s11 (s11*2^210)
- // m = [666643, 470296, 654183, -997805, 136657, -683901] in 21-bit limbs
- s11 += s23 * 666643;
- s12 += s23 * 470296;
- s13 += s23 * 654183;
- s14 -= s23 * 997805;
- s15 += s23 * 136657;
- s16 -= s23 * 683901;
- // s23 = 0;
-
- s10 += s22 * 666643;
- s11 += s22 * 470296;
- s12 += s22 * 654183;
- s13 -= s22 * 997805;
- s14 += s22 * 136657;
- s15 -= s22 * 683901;
- // s22 = 0;
-
- s9 += s21 * 666643;
- s10 += s21 * 470296;
- s11 += s21 * 654183;
- s12 -= s21 * 997805;
- s13 += s21 * 136657;
- s14 -= s21 * 683901;
- // s21 = 0;
-
- s8 += s20 * 666643;
- s9 += s20 * 470296;
- s10 += s20 * 654183;
- s11 -= s20 * 997805;
- s12 += s20 * 136657;
- s13 -= s20 * 683901;
- // s20 = 0;
-
- s7 += s19 * 666643;
- s8 += s19 * 470296;
- s9 += s19 * 654183;
- s10 -= s19 * 997805;
- s11 += s19 * 136657;
- s12 -= s19 * 683901;
- // s19 = 0;
-
- s6 += s18 * 666643;
- s7 += s18 * 470296;
- s8 += s18 * 654183;
- s9 -= s18 * 997805;
- s10 += s18 * 136657;
- s11 -= s18 * 683901;
- // s18 = 0;
-
- // Reduce the bit length of limbs from s6 to s15 to 21-bits.
- carry6 = (s6 + (1 << 20)) >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry8 = (s8 + (1 << 20)) >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry10 = (s10 + (1 << 20)) >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
- carry12 = (s12 + (1 << 20)) >> 21;
- s13 += carry12;
- s12 -= carry12 << 21;
- carry14 = (s14 + (1 << 20)) >> 21;
- s15 += carry14;
- s14 -= carry14 << 21;
- carry16 = (s16 + (1 << 20)) >> 21;
- s17 += carry16;
- s16 -= carry16 << 21;
-
- carry7 = (s7 + (1 << 20)) >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry9 = (s9 + (1 << 20)) >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry11 = (s11 + (1 << 20)) >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
- carry13 = (s13 + (1 << 20)) >> 21;
- s14 += carry13;
- s13 -= carry13 << 21;
- carry15 = (s15 + (1 << 20)) >> 21;
- s16 += carry15;
- s15 -= carry15 << 21;
-
- // Resume reduction where we left off.
- s5 += s17 * 666643;
- s6 += s17 * 470296;
- s7 += s17 * 654183;
- s8 -= s17 * 997805;
- s9 += s17 * 136657;
- s10 -= s17 * 683901;
- // s17 = 0;
-
- s4 += s16 * 666643;
- s5 += s16 * 470296;
- s6 += s16 * 654183;
- s7 -= s16 * 997805;
- s8 += s16 * 136657;
- s9 -= s16 * 683901;
- // s16 = 0;
-
- s3 += s15 * 666643;
- s4 += s15 * 470296;
- s5 += s15 * 654183;
- s6 -= s15 * 997805;
- s7 += s15 * 136657;
- s8 -= s15 * 683901;
- // s15 = 0;
-
- s2 += s14 * 666643;
- s3 += s14 * 470296;
- s4 += s14 * 654183;
- s5 -= s14 * 997805;
- s6 += s14 * 136657;
- s7 -= s14 * 683901;
- // s14 = 0;
-
- s1 += s13 * 666643;
- s2 += s13 * 470296;
- s3 += s13 * 654183;
- s4 -= s13 * 997805;
- s5 += s13 * 136657;
- s6 -= s13 * 683901;
- // s13 = 0;
-
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- s12 = 0;
-
- // Reduce the range of limbs from s0 to s11 to 21-bits.
- carry0 = (s0 + (1 << 20)) >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry2 = (s2 + (1 << 20)) >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry4 = (s4 + (1 << 20)) >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry6 = (s6 + (1 << 20)) >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry8 = (s8 + (1 << 20)) >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry10 = (s10 + (1 << 20)) >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
-
- carry1 = (s1 + (1 << 20)) >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry3 = (s3 + (1 << 20)) >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry5 = (s5 + (1 << 20)) >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry7 = (s7 + (1 << 20)) >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry9 = (s9 + (1 << 20)) >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry11 = (s11 + (1 << 20)) >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
-
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- s12 = 0;
-
- // Carry chain reduction to propagate excess bits from s0 to s5 to the most significant limbs.
- carry0 = s0 >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry1 = s1 >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry2 = s2 >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry3 = s3 >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry4 = s4 >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry5 = s5 >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry6 = s6 >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry7 = s7 >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry8 = s8 >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry9 = s9 >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry10 = s10 >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
- carry11 = s11 >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
-
- // Do one last reduction as s12 might be 1.
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- // s12 = 0;
-
- carry0 = s0 >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry1 = s1 >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry2 = s2 >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry3 = s3 >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry4 = s4 >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry5 = s5 >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry6 = s6 >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry7 = s7 >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry8 = s8 >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry9 = s9 >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry10 = s10 >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
-
- // Serialize the result into the s.
- s[0] = (byte) s0;
- s[1] = (byte) (s0 >> 8);
- s[2] = (byte) ((s0 >> 16) | (s1 << 5));
- s[3] = (byte) (s1 >> 3);
- s[4] = (byte) (s1 >> 11);
- s[5] = (byte) ((s1 >> 19) | (s2 << 2));
- s[6] = (byte) (s2 >> 6);
- s[7] = (byte) ((s2 >> 14) | (s3 << 7));
- s[8] = (byte) (s3 >> 1);
- s[9] = (byte) (s3 >> 9);
- s[10] = (byte) ((s3 >> 17) | (s4 << 4));
- s[11] = (byte) (s4 >> 4);
- s[12] = (byte) (s4 >> 12);
- s[13] = (byte) ((s4 >> 20) | (s5 << 1));
- s[14] = (byte) (s5 >> 7);
- s[15] = (byte) ((s5 >> 15) | (s6 << 6));
- s[16] = (byte) (s6 >> 2);
- s[17] = (byte) (s6 >> 10);
- s[18] = (byte) ((s6 >> 18) | (s7 << 3));
- s[19] = (byte) (s7 >> 5);
- s[20] = (byte) (s7 >> 13);
- s[21] = (byte) s8;
- s[22] = (byte) (s8 >> 8);
- s[23] = (byte) ((s8 >> 16) | (s9 << 5));
- s[24] = (byte) (s9 >> 3);
- s[25] = (byte) (s9 >> 11);
- s[26] = (byte) ((s9 >> 19) | (s10 << 2));
- s[27] = (byte) (s10 >> 6);
- s[28] = (byte) ((s10 >> 14) | (s11 << 7));
- s[29] = (byte) (s11 >> 1);
- s[30] = (byte) (s11 >> 9);
- s[31] = (byte) (s11 >> 17);
- }
-
- /**
- * Input:
- * a[0]+256*a[1]+...+256^31*a[31] = a
- * b[0]+256*b[1]+...+256^31*b[31] = b
- * c[0]+256*c[1]+...+256^31*c[31] = c
- * <p>
- * Output:
- * s[0]+256*s[1]+...+256^31*s[31] = (ab+c) mod l
- * where l = 2^252 + 27742317777372353535851937790883648493.
- */
- private static void mulAdd(byte[] s, byte[] a, byte[] b, byte[] c) {
- // This is very similar to Ed25519.reduce, the difference in here is that it computes ab+c
- // See Ed25519.reduce for related comments.
- long a0 = 2097151 & load3(a, 0);
- long a1 = 2097151 & (load4(a, 2) >> 5);
- long a2 = 2097151 & (load3(a, 5) >> 2);
- long a3 = 2097151 & (load4(a, 7) >> 7);
- long a4 = 2097151 & (load4(a, 10) >> 4);
- long a5 = 2097151 & (load3(a, 13) >> 1);
- long a6 = 2097151 & (load4(a, 15) >> 6);
- long a7 = 2097151 & (load3(a, 18) >> 3);
- long a8 = 2097151 & load3(a, 21);
- long a9 = 2097151 & (load4(a, 23) >> 5);
- long a10 = 2097151 & (load3(a, 26) >> 2);
- long a11 = (load4(a, 28) >> 7);
- long b0 = 2097151 & load3(b, 0);
- long b1 = 2097151 & (load4(b, 2) >> 5);
- long b2 = 2097151 & (load3(b, 5) >> 2);
- long b3 = 2097151 & (load4(b, 7) >> 7);
- long b4 = 2097151 & (load4(b, 10) >> 4);
- long b5 = 2097151 & (load3(b, 13) >> 1);
- long b6 = 2097151 & (load4(b, 15) >> 6);
- long b7 = 2097151 & (load3(b, 18) >> 3);
- long b8 = 2097151 & load3(b, 21);
- long b9 = 2097151 & (load4(b, 23) >> 5);
- long b10 = 2097151 & (load3(b, 26) >> 2);
- long b11 = (load4(b, 28) >> 7);
- long c0 = 2097151 & load3(c, 0);
- long c1 = 2097151 & (load4(c, 2) >> 5);
- long c2 = 2097151 & (load3(c, 5) >> 2);
- long c3 = 2097151 & (load4(c, 7) >> 7);
- long c4 = 2097151 & (load4(c, 10) >> 4);
- long c5 = 2097151 & (load3(c, 13) >> 1);
- long c6 = 2097151 & (load4(c, 15) >> 6);
- long c7 = 2097151 & (load3(c, 18) >> 3);
- long c8 = 2097151 & load3(c, 21);
- long c9 = 2097151 & (load4(c, 23) >> 5);
- long c10 = 2097151 & (load3(c, 26) >> 2);
- long c11 = (load4(c, 28) >> 7);
- long s0;
- long s1;
- long s2;
- long s3;
- long s4;
- long s5;
- long s6;
- long s7;
- long s8;
- long s9;
- long s10;
- long s11;
- long s12;
- long s13;
- long s14;
- long s15;
- long s16;
- long s17;
- long s18;
- long s19;
- long s20;
- long s21;
- long s22;
- long s23;
- long carry0;
- long carry1;
- long carry2;
- long carry3;
- long carry4;
- long carry5;
- long carry6;
- long carry7;
- long carry8;
- long carry9;
- long carry10;
- long carry11;
- long carry12;
- long carry13;
- long carry14;
- long carry15;
- long carry16;
- long carry17;
- long carry18;
- long carry19;
- long carry20;
- long carry21;
- long carry22;
-
- s0 = c0 + a0 * b0;
- s1 = c1 + a0 * b1 + a1 * b0;
- s2 = c2 + a0 * b2 + a1 * b1 + a2 * b0;
- s3 = c3 + a0 * b3 + a1 * b2 + a2 * b1 + a3 * b0;
- s4 = c4 + a0 * b4 + a1 * b3 + a2 * b2 + a3 * b1 + a4 * b0;
- s5 = c5 + a0 * b5 + a1 * b4 + a2 * b3 + a3 * b2 + a4 * b1 + a5 * b0;
- s6 = c6 + a0 * b6 + a1 * b5 + a2 * b4 + a3 * b3 + a4 * b2 + a5 * b1 + a6 * b0;
- s7 = c7 + a0 * b7 + a1 * b6 + a2 * b5 + a3 * b4 + a4 * b3 + a5 * b2 + a6 * b1 + a7 * b0;
- s8 = c8 + a0 * b8 + a1 * b7 + a2 * b6 + a3 * b5 + a4 * b4 + a5 * b3 + a6 * b2 + a7 * b1
- + a8 * b0;
- s9 = c9 + a0 * b9 + a1 * b8 + a2 * b7 + a3 * b6 + a4 * b5 + a5 * b4 + a6 * b3 + a7 * b2
- + a8 * b1 + a9 * b0;
- s10 = c10 + a0 * b10 + a1 * b9 + a2 * b8 + a3 * b7 + a4 * b6 + a5 * b5 + a6 * b4 + a7 * b3
- + a8 * b2 + a9 * b1 + a10 * b0;
- s11 = c11 + a0 * b11 + a1 * b10 + a2 * b9 + a3 * b8 + a4 * b7 + a5 * b6 + a6 * b5 + a7 * b4
- + a8 * b3 + a9 * b2 + a10 * b1 + a11 * b0;
- s12 = a1 * b11 + a2 * b10 + a3 * b9 + a4 * b8 + a5 * b7 + a6 * b6 + a7 * b5 + a8 * b4 + a9 * b3
- + a10 * b2 + a11 * b1;
- s13 = a2 * b11 + a3 * b10 + a4 * b9 + a5 * b8 + a6 * b7 + a7 * b6 + a8 * b5 + a9 * b4 + a10 * b3
- + a11 * b2;
- s14 = a3 * b11 + a4 * b10 + a5 * b9 + a6 * b8 + a7 * b7 + a8 * b6 + a9 * b5 + a10 * b4
- + a11 * b3;
- s15 = a4 * b11 + a5 * b10 + a6 * b9 + a7 * b8 + a8 * b7 + a9 * b6 + a10 * b5 + a11 * b4;
- s16 = a5 * b11 + a6 * b10 + a7 * b9 + a8 * b8 + a9 * b7 + a10 * b6 + a11 * b5;
- s17 = a6 * b11 + a7 * b10 + a8 * b9 + a9 * b8 + a10 * b7 + a11 * b6;
- s18 = a7 * b11 + a8 * b10 + a9 * b9 + a10 * b8 + a11 * b7;
- s19 = a8 * b11 + a9 * b10 + a10 * b9 + a11 * b8;
- s20 = a9 * b11 + a10 * b10 + a11 * b9;
- s21 = a10 * b11 + a11 * b10;
- s22 = a11 * b11;
- s23 = 0;
-
- carry0 = (s0 + (1 << 20)) >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry2 = (s2 + (1 << 20)) >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry4 = (s4 + (1 << 20)) >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry6 = (s6 + (1 << 20)) >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry8 = (s8 + (1 << 20)) >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry10 = (s10 + (1 << 20)) >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
- carry12 = (s12 + (1 << 20)) >> 21;
- s13 += carry12;
- s12 -= carry12 << 21;
- carry14 = (s14 + (1 << 20)) >> 21;
- s15 += carry14;
- s14 -= carry14 << 21;
- carry16 = (s16 + (1 << 20)) >> 21;
- s17 += carry16;
- s16 -= carry16 << 21;
- carry18 = (s18 + (1 << 20)) >> 21;
- s19 += carry18;
- s18 -= carry18 << 21;
- carry20 = (s20 + (1 << 20)) >> 21;
- s21 += carry20;
- s20 -= carry20 << 21;
- carry22 = (s22 + (1 << 20)) >> 21;
- s23 += carry22;
- s22 -= carry22 << 21;
-
- carry1 = (s1 + (1 << 20)) >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry3 = (s3 + (1 << 20)) >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry5 = (s5 + (1 << 20)) >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry7 = (s7 + (1 << 20)) >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry9 = (s9 + (1 << 20)) >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry11 = (s11 + (1 << 20)) >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
- carry13 = (s13 + (1 << 20)) >> 21;
- s14 += carry13;
- s13 -= carry13 << 21;
- carry15 = (s15 + (1 << 20)) >> 21;
- s16 += carry15;
- s15 -= carry15 << 21;
- carry17 = (s17 + (1 << 20)) >> 21;
- s18 += carry17;
- s17 -= carry17 << 21;
- carry19 = (s19 + (1 << 20)) >> 21;
- s20 += carry19;
- s19 -= carry19 << 21;
- carry21 = (s21 + (1 << 20)) >> 21;
- s22 += carry21;
- s21 -= carry21 << 21;
-
- s11 += s23 * 666643;
- s12 += s23 * 470296;
- s13 += s23 * 654183;
- s14 -= s23 * 997805;
- s15 += s23 * 136657;
- s16 -= s23 * 683901;
- // s23 = 0;
-
- s10 += s22 * 666643;
- s11 += s22 * 470296;
- s12 += s22 * 654183;
- s13 -= s22 * 997805;
- s14 += s22 * 136657;
- s15 -= s22 * 683901;
- // s22 = 0;
-
- s9 += s21 * 666643;
- s10 += s21 * 470296;
- s11 += s21 * 654183;
- s12 -= s21 * 997805;
- s13 += s21 * 136657;
- s14 -= s21 * 683901;
- // s21 = 0;
-
- s8 += s20 * 666643;
- s9 += s20 * 470296;
- s10 += s20 * 654183;
- s11 -= s20 * 997805;
- s12 += s20 * 136657;
- s13 -= s20 * 683901;
- // s20 = 0;
-
- s7 += s19 * 666643;
- s8 += s19 * 470296;
- s9 += s19 * 654183;
- s10 -= s19 * 997805;
- s11 += s19 * 136657;
- s12 -= s19 * 683901;
- // s19 = 0;
-
- s6 += s18 * 666643;
- s7 += s18 * 470296;
- s8 += s18 * 654183;
- s9 -= s18 * 997805;
- s10 += s18 * 136657;
- s11 -= s18 * 683901;
- // s18 = 0;
-
- carry6 = (s6 + (1 << 20)) >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry8 = (s8 + (1 << 20)) >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry10 = (s10 + (1 << 20)) >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
- carry12 = (s12 + (1 << 20)) >> 21;
- s13 += carry12;
- s12 -= carry12 << 21;
- carry14 = (s14 + (1 << 20)) >> 21;
- s15 += carry14;
- s14 -= carry14 << 21;
- carry16 = (s16 + (1 << 20)) >> 21;
- s17 += carry16;
- s16 -= carry16 << 21;
-
- carry7 = (s7 + (1 << 20)) >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry9 = (s9 + (1 << 20)) >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry11 = (s11 + (1 << 20)) >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
- carry13 = (s13 + (1 << 20)) >> 21;
- s14 += carry13;
- s13 -= carry13 << 21;
- carry15 = (s15 + (1 << 20)) >> 21;
- s16 += carry15;
- s15 -= carry15 << 21;
-
- s5 += s17 * 666643;
- s6 += s17 * 470296;
- s7 += s17 * 654183;
- s8 -= s17 * 997805;
- s9 += s17 * 136657;
- s10 -= s17 * 683901;
- // s17 = 0;
-
- s4 += s16 * 666643;
- s5 += s16 * 470296;
- s6 += s16 * 654183;
- s7 -= s16 * 997805;
- s8 += s16 * 136657;
- s9 -= s16 * 683901;
- // s16 = 0;
-
- s3 += s15 * 666643;
- s4 += s15 * 470296;
- s5 += s15 * 654183;
- s6 -= s15 * 997805;
- s7 += s15 * 136657;
- s8 -= s15 * 683901;
- // s15 = 0;
-
- s2 += s14 * 666643;
- s3 += s14 * 470296;
- s4 += s14 * 654183;
- s5 -= s14 * 997805;
- s6 += s14 * 136657;
- s7 -= s14 * 683901;
- // s14 = 0;
-
- s1 += s13 * 666643;
- s2 += s13 * 470296;
- s3 += s13 * 654183;
- s4 -= s13 * 997805;
- s5 += s13 * 136657;
- s6 -= s13 * 683901;
- // s13 = 0;
-
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- s12 = 0;
-
- carry0 = (s0 + (1 << 20)) >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry2 = (s2 + (1 << 20)) >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry4 = (s4 + (1 << 20)) >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry6 = (s6 + (1 << 20)) >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry8 = (s8 + (1 << 20)) >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry10 = (s10 + (1 << 20)) >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
-
- carry1 = (s1 + (1 << 20)) >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry3 = (s3 + (1 << 20)) >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry5 = (s5 + (1 << 20)) >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry7 = (s7 + (1 << 20)) >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry9 = (s9 + (1 << 20)) >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry11 = (s11 + (1 << 20)) >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
-
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- s12 = 0;
-
- carry0 = s0 >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry1 = s1 >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry2 = s2 >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry3 = s3 >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry4 = s4 >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry5 = s5 >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry6 = s6 >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry7 = s7 >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry8 = s8 >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry9 = s9 >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry10 = s10 >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
- carry11 = s11 >> 21;
- s12 += carry11;
- s11 -= carry11 << 21;
-
- s0 += s12 * 666643;
- s1 += s12 * 470296;
- s2 += s12 * 654183;
- s3 -= s12 * 997805;
- s4 += s12 * 136657;
- s5 -= s12 * 683901;
- // s12 = 0;
-
- carry0 = s0 >> 21;
- s1 += carry0;
- s0 -= carry0 << 21;
- carry1 = s1 >> 21;
- s2 += carry1;
- s1 -= carry1 << 21;
- carry2 = s2 >> 21;
- s3 += carry2;
- s2 -= carry2 << 21;
- carry3 = s3 >> 21;
- s4 += carry3;
- s3 -= carry3 << 21;
- carry4 = s4 >> 21;
- s5 += carry4;
- s4 -= carry4 << 21;
- carry5 = s5 >> 21;
- s6 += carry5;
- s5 -= carry5 << 21;
- carry6 = s6 >> 21;
- s7 += carry6;
- s6 -= carry6 << 21;
- carry7 = s7 >> 21;
- s8 += carry7;
- s7 -= carry7 << 21;
- carry8 = s8 >> 21;
- s9 += carry8;
- s8 -= carry8 << 21;
- carry9 = s9 >> 21;
- s10 += carry9;
- s9 -= carry9 << 21;
- carry10 = s10 >> 21;
- s11 += carry10;
- s10 -= carry10 << 21;
-
- s[0] = (byte) s0;
- s[1] = (byte) (s0 >> 8);
- s[2] = (byte) ((s0 >> 16) | (s1 << 5));
- s[3] = (byte) (s1 >> 3);
- s[4] = (byte) (s1 >> 11);
- s[5] = (byte) ((s1 >> 19) | (s2 << 2));
- s[6] = (byte) (s2 >> 6);
- s[7] = (byte) ((s2 >> 14) | (s3 << 7));
- s[8] = (byte) (s3 >> 1);
- s[9] = (byte) (s3 >> 9);
- s[10] = (byte) ((s3 >> 17) | (s4 << 4));
- s[11] = (byte) (s4 >> 4);
- s[12] = (byte) (s4 >> 12);
- s[13] = (byte) ((s4 >> 20) | (s5 << 1));
- s[14] = (byte) (s5 >> 7);
- s[15] = (byte) ((s5 >> 15) | (s6 << 6));
- s[16] = (byte) (s6 >> 2);
- s[17] = (byte) (s6 >> 10);
- s[18] = (byte) ((s6 >> 18) | (s7 << 3));
- s[19] = (byte) (s7 >> 5);
- s[20] = (byte) (s7 >> 13);
- s[21] = (byte) s8;
- s[22] = (byte) (s8 >> 8);
- s[23] = (byte) ((s8 >> 16) | (s9 << 5));
- s[24] = (byte) (s9 >> 3);
- s[25] = (byte) (s9 >> 11);
- s[26] = (byte) ((s9 >> 19) | (s10 << 2));
- s[27] = (byte) (s10 >> 6);
- s[28] = (byte) ((s10 >> 14) | (s11 << 7));
- s[29] = (byte) (s11 >> 1);
- s[30] = (byte) (s11 >> 9);
- s[31] = (byte) (s11 >> 17);
- }
-
- // The order of the generator as unsigned bytes in little endian order.
- // (2^252 + 0x14def9dea2f79cd65812631a5cf5d3ed, cf. RFC 7748)
- private static final byte[] GROUP_ORDER = {
- (byte) 0xed, (byte) 0xd3, (byte) 0xf5, (byte) 0x5c,
- (byte) 0x1a, (byte) 0x63, (byte) 0x12, (byte) 0x58,
- (byte) 0xd6, (byte) 0x9c, (byte) 0xf7, (byte) 0xa2,
- (byte) 0xde, (byte) 0xf9, (byte) 0xde, (byte) 0x14,
- (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00,
- (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00,
- (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00,
- (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x10};
-
- // Checks whether s represents an integer smaller than the order of the group.
- // This is needed to ensure that EdDSA signatures are non-malleable, as failing to check
- // the range of S allows to modify signatures (cf. RFC 8032, Section 5.2.7 and Section 8.4.)
- // @param s an integer in little-endian order.
- private static boolean isSmallerThanGroupOrder(byte[] s) {
- for (int j = Field25519.FIELD_LEN - 1; j >= 0; j--) {
- // compare unsigned bytes
- int a = s[j] & 0xff;
- int b = GROUP_ORDER[j] & 0xff;
- if (a != b) {
- return a < b;
- }
- }
- return false;
- }
-
- /**
- * Returns true if the EdDSA {@code signature} with {@code message}, can be verified with
- * {@code publicKey}.
- */
- public static boolean verify(final byte[] message, final byte[] signature,
- final byte[] publicKey) {
- try {
- if (signature.length != SIGNATURE_LEN) {
- return false;
- }
- if (publicKey.length != PUBLIC_KEY_LEN) {
- return false;
- }
- byte[] s = Arrays.copyOfRange(signature, Field25519.FIELD_LEN, SIGNATURE_LEN);
- if (!isSmallerThanGroupOrder(s)) {
- return false;
- }
- MessageDigest digest = MessageDigest.getInstance("SHA-512");
- digest.update(signature, 0, Field25519.FIELD_LEN);
- digest.update(publicKey);
- digest.update(message);
- byte[] h = digest.digest();
- reduce(h);
-
- XYZT negPublicKey = XYZT.fromBytesNegateVarTime(publicKey);
- XYZ xyz = doubleScalarMultVarTime(h, negPublicKey, s);
- byte[] expectedR = xyz.toBytes();
- for (int i = 0; i < Field25519.FIELD_LEN; i++) {
- if (expectedR[i] != signature[i]) {
- return false;
- }
- }
- return true;
- } catch (final GeneralSecurityException ignored) {
- return false;
- }
- }
-}