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The Bouncy Castle Java APIs for the TLS, including a JSSE provider. The APIs are designed primarily to be used in conjunction with the BC LTS provider but may also be used with other providers providing cryptographic services.

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package org.bouncycastle.tls;

/**
 * RFC 7919
 */
public class NamedGroup
{
    /*
     * RFC 4492 5.1.1
     * 

* The named curves defined here are those specified in SEC 2 [13]. Note that many of these curves * are also recommended in ANSI X9.62 [7] and FIPS 186-2 [11]. Values 0xFE00 through 0xFEFF are * reserved for private use. Values 0xFF01 and 0xFF02 indicate that the client supports arbitrary * prime and characteristic-2 curves, respectively (the curve parameters must be encoded explicitly * in ECParameters). */ public static final int sect163k1 = 1; public static final int sect163r1 = 2; public static final int sect163r2 = 3; public static final int sect193r1 = 4; public static final int sect193r2 = 5; public static final int sect233k1 = 6; public static final int sect233r1 = 7; public static final int sect239k1 = 8; public static final int sect283k1 = 9; public static final int sect283r1 = 10; public static final int sect409k1 = 11; public static final int sect409r1 = 12; public static final int sect571k1 = 13; public static final int sect571r1 = 14; public static final int secp160k1 = 15; public static final int secp160r1 = 16; public static final int secp160r2 = 17; public static final int secp192k1 = 18; public static final int secp192r1 = 19; public static final int secp224k1 = 20; public static final int secp224r1 = 21; public static final int secp256k1 = 22; public static final int secp256r1 = 23; public static final int secp384r1 = 24; public static final int secp521r1 = 25; /* * RFC 7027 */ public static final int brainpoolP256r1 = 26; public static final int brainpoolP384r1 = 27; public static final int brainpoolP512r1 = 28; /* * RFC 8422 */ public static final int x25519 = 29; public static final int x448 = 30; /* * RFC 8734 */ public static final int brainpoolP256r1tls13 = 31; public static final int brainpoolP384r1tls13 = 32; public static final int brainpoolP512r1tls13 = 33; /* * draft-smyshlyaev-tls12-gost-suites-10 */ public static final int GC256A = 34; public static final int GC256B = 35; public static final int GC256C = 36; public static final int GC256D = 37; public static final int GC512A = 38; public static final int GC512B = 39; public static final int GC512C = 40; /* * RFC 8998 */ public static final int curveSM2 = 41; /* * RFC 7919 2. Codepoints in the "Supported Groups Registry" with a high byte of 0x01 (that is, * between 256 and 511, inclusive) are set aside for FFDHE groups, though only a small number of * them are initially defined and we do not expect many other FFDHE groups to be added to this * range. No codepoints outside of this range will be allocated to FFDHE groups. */ public static final int ffdhe2048 = 256; public static final int ffdhe3072 = 257; public static final int ffdhe4096 = 258; public static final int ffdhe6144 = 259; public static final int ffdhe8192 = 260; /* * RFC 8446 reserved ffdhe_private_use (0x01FC..0x01FF) */ /* * RFC 4492 reserved ecdhe_private_use (0xFE00..0xFEFF) */ /* * RFC 4492 */ public static final int arbitrary_explicit_prime_curves = 0xFF01; public static final int arbitrary_explicit_char2_curves = 0xFF02; /* Names of the actual underlying elliptic curves (not necessarily matching the NamedGroup names). */ private static final String[] CURVE_NAMES = new String[] { "sect163k1", "sect163r1", "sect163r2", "sect193r1", "sect193r2", "sect233k1", "sect233r1", "sect239k1", "sect283k1", "sect283r1", "sect409k1", "sect409r1", "sect571k1", "sect571r1", "secp160k1", "secp160r1", "secp160r2", "secp192k1", "secp192r1", "secp224k1", "secp224r1", "secp256k1", "secp256r1", "secp384r1", "secp521r1", "brainpoolP256r1", "brainpoolP384r1", "brainpoolP512r1", "X25519", "X448", "brainpoolP256r1", "brainpoolP384r1", "brainpoolP512r1", "Tc26-Gost-3410-12-256-paramSetA", "GostR3410-2001-CryptoPro-A", "GostR3410-2001-CryptoPro-B", "GostR3410-2001-CryptoPro-C", "Tc26-Gost-3410-12-512-paramSetA", "Tc26-Gost-3410-12-512-paramSetB", "Tc26-Gost-3410-12-512-paramSetC", "sm2p256v1" }; private static final String[] FINITE_FIELD_NAMES = new String[] { "ffdhe2048", "ffdhe3072", "ffdhe4096", "ffdhe6144", "ffdhe8192" }; public static boolean canBeNegotiated(int namedGroup, ProtocolVersion version) { if (TlsUtils.isTLSv13(version)) { if ((namedGroup >= sect163k1 && namedGroup <= secp256k1) || (namedGroup >= brainpoolP256r1 && namedGroup <= brainpoolP512r1) || (namedGroup >= GC256A && namedGroup <= GC512C) || (namedGroup >= arbitrary_explicit_prime_curves && namedGroup <= arbitrary_explicit_char2_curves)) { return false; } } else { if ((namedGroup >= brainpoolP256r1tls13 && namedGroup <= brainpoolP512r1tls13) || (namedGroup == curveSM2)) { return false; } } return isValid(namedGroup); } public static int getCurveBits(int namedGroup) { switch (namedGroup) { case secp160k1: case secp160r1: case secp160r2: return 160; case sect163k1: case sect163r1: case sect163r2: return 163; case secp192k1: case secp192r1: return 192; case sect193r1: case sect193r2: return 193; case secp224k1: case secp224r1: return 224; case sect233k1: case sect233r1: return 233; case sect239k1: return 239; case x25519: return 252; case brainpoolP256r1: case brainpoolP256r1tls13: case curveSM2: case GC256A: case GC256B: case GC256C: case GC256D: case secp256k1: case secp256r1: return 256; case sect283k1: case sect283r1: return 283; case brainpoolP384r1: case brainpoolP384r1tls13: case secp384r1: return 384; case sect409k1: case sect409r1: return 409; case x448: return 446; case brainpoolP512r1: case brainpoolP512r1tls13: case GC512A: case GC512B: case GC512C: return 512; case secp521r1: return 521; case sect571k1: case sect571r1: return 571; default: return 0; } } public static String getCurveName(int namedGroup) { if (refersToASpecificCurve(namedGroup)) { return CURVE_NAMES[namedGroup - sect163k1]; } return null; } public static int getFiniteFieldBits(int namedGroup) { switch (namedGroup) { case ffdhe2048: return 2048; case ffdhe3072: return 3072; case ffdhe4096: return 4096; case ffdhe6144: return 6144; case ffdhe8192: return 8192; default: return 0; } } public static String getFiniteFieldName(int namedGroup) { if (refersToASpecificFiniteField(namedGroup)) { return FINITE_FIELD_NAMES[namedGroup - ffdhe2048]; } return null; } public static int getMaximumChar2CurveBits() { return 571; } public static int getMaximumCurveBits() { return 571; } public static int getMaximumFiniteFieldBits() { return 8192; } public static int getMaximumPrimeCurveBits() { return 521; } public static String getName(int namedGroup) { if (isPrivate(namedGroup)) { return "PRIVATE"; } switch (namedGroup) { case x25519: return "x25519"; case x448: return "x448"; case brainpoolP256r1tls13: return "brainpoolP256r1tls13"; case brainpoolP384r1tls13: return "brainpoolP384r1tls13"; case brainpoolP512r1tls13: return "brainpoolP512r1tls13"; case GC256A: return "GC256A"; case GC256B: return "GC256B"; case GC256C: return "GC256C"; case GC256D: return "GC256D"; case GC512A: return "GC512A"; case GC512B: return "GC512B"; case GC512C: return "GC512C"; case curveSM2: return "curveSM2"; case arbitrary_explicit_prime_curves: return "arbitrary_explicit_prime_curves"; case arbitrary_explicit_char2_curves: return "arbitrary_explicit_char2_curves"; } String standardName = getStandardName(namedGroup); if (null != standardName) { return standardName; } return "UNKNOWN"; } public static String getStandardName(int namedGroup) { String curveName = getCurveName(namedGroup); if (null != curveName) { return curveName; } String finiteFieldName = getFiniteFieldName(namedGroup); if (null != finiteFieldName) { return finiteFieldName; } return null; } public static String getText(int namedGroup) { return getName(namedGroup) + "(" + namedGroup + ")"; } public static boolean isChar2Curve(int namedGroup) { return (namedGroup >= sect163k1 && namedGroup <= sect571r1) || (namedGroup == arbitrary_explicit_char2_curves); } public static boolean isFiniteField(int namedGroup) { return (namedGroup & 0xFFFFFF00) == 0x00000100; } public static boolean isPrimeCurve(int namedGroup) { return (namedGroup >= secp160k1 && namedGroup <= curveSM2) || (namedGroup == arbitrary_explicit_prime_curves); } public static boolean isPrivate(int namedGroup) { return (namedGroup >>> 2) == 0x7F || (namedGroup >>> 8) == 0xFE; } public static boolean isValid(int namedGroup) { return refersToASpecificGroup(namedGroup) || isPrivate(namedGroup) || (namedGroup >= arbitrary_explicit_prime_curves && namedGroup <= arbitrary_explicit_char2_curves); } public static boolean refersToAnECDHCurve(int namedGroup) { return refersToASpecificCurve(namedGroup); } public static boolean refersToAnECDSACurve(int namedGroup) { /* * TODO[RFC 8998] Double-check whether this method is only being used to mean * "signature-capable" or specifically ECDSA, and consider curveSM2 behaviour * accordingly. */ return refersToASpecificCurve(namedGroup) && !refersToAnXDHCurve(namedGroup); } public static boolean refersToAnXDHCurve(int namedGroup) { return namedGroup >= x25519 && namedGroup <= x448; } public static boolean refersToASpecificCurve(int namedGroup) { return namedGroup >= sect163k1 && namedGroup <= curveSM2; } public static boolean refersToASpecificFiniteField(int namedGroup) { return namedGroup >= ffdhe2048 && namedGroup <= ffdhe8192; } public static boolean refersToASpecificGroup(int namedGroup) { return refersToASpecificCurve(namedGroup) || refersToASpecificFiniteField(namedGroup); } }





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