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I2P: End-to-End encrypted and anonymous Internet
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739 lines
24 KiB
739 lines
24 KiB
#include <time.h> |
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#include <stdio.h> |
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#include "Crypto.h" |
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#include "I2PEndian.h" |
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#include "Log.h" |
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#include "Identity.h" |
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namespace i2p |
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{ |
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namespace data |
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{ |
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Identity& Identity::operator=(const Keys& keys) |
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{ |
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// copy public and signing keys together |
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memcpy (publicKey, keys.publicKey, sizeof (publicKey) + sizeof (signingKey)); |
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memset (certificate, 0, sizeof (certificate)); |
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return *this; |
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} |
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size_t Identity::FromBuffer (const uint8_t * buf, size_t len) |
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{ |
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if ( len < DEFAULT_IDENTITY_SIZE ) { |
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// buffer too small, don't overflow |
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return 0; |
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} |
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memcpy (publicKey, buf, DEFAULT_IDENTITY_SIZE); |
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return DEFAULT_IDENTITY_SIZE; |
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} |
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IdentHash Identity::Hash () const |
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{ |
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IdentHash hash; |
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SHA256(publicKey, DEFAULT_IDENTITY_SIZE, hash); |
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return hash; |
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} |
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IdentityEx::IdentityEx (): |
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m_IsVerifierCreated (false), m_ExtendedLen (0), m_ExtendedBuffer (nullptr) |
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{ |
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} |
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IdentityEx::IdentityEx(const uint8_t * publicKey, const uint8_t * signingKey, SigningKeyType type, CryptoKeyType cryptoType): |
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m_IsVerifierCreated (false) |
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{ |
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memcpy (m_StandardIdentity.publicKey, publicKey, 256); // publicKey in awlays assumed 256 regardless actual size, padding must be taken care of |
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if (type != SIGNING_KEY_TYPE_DSA_SHA1) |
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{ |
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size_t excessLen = 0; |
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uint8_t * excessBuf = nullptr; |
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switch (type) |
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{ |
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case SIGNING_KEY_TYPE_ECDSA_SHA256_P256: |
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{ |
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size_t padding = 128 - i2p::crypto::ECDSAP256_KEY_LENGTH; // 64 = 128 - 64 |
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RAND_bytes (m_StandardIdentity.signingKey, padding); |
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memcpy (m_StandardIdentity.signingKey + padding, signingKey, i2p::crypto::ECDSAP256_KEY_LENGTH); |
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break; |
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} |
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case SIGNING_KEY_TYPE_ECDSA_SHA384_P384: |
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{ |
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size_t padding = 128 - i2p::crypto::ECDSAP384_KEY_LENGTH; // 32 = 128 - 96 |
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RAND_bytes (m_StandardIdentity.signingKey, padding); |
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memcpy (m_StandardIdentity.signingKey + padding, signingKey, i2p::crypto::ECDSAP384_KEY_LENGTH); |
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break; |
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} |
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case SIGNING_KEY_TYPE_ECDSA_SHA512_P521: |
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{ |
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memcpy (m_StandardIdentity.signingKey, signingKey, 128); |
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excessLen = i2p::crypto::ECDSAP521_KEY_LENGTH - 128; // 4 = 132 - 128 |
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excessBuf = new uint8_t[excessLen]; |
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memcpy (excessBuf, signingKey + 128, excessLen); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA256_2048: |
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{ |
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memcpy (m_StandardIdentity.signingKey, signingKey, 128); |
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excessLen = i2p::crypto::RSASHA2562048_KEY_LENGTH - 128; // 128 = 256 - 128 |
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excessBuf = new uint8_t[excessLen]; |
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memcpy (excessBuf, signingKey + 128, excessLen); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA384_3072: |
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{ |
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memcpy (m_StandardIdentity.signingKey, signingKey, 128); |
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excessLen = i2p::crypto::RSASHA3843072_KEY_LENGTH - 128; // 256 = 384 - 128 |
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excessBuf = new uint8_t[excessLen]; |
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memcpy (excessBuf, signingKey + 128, excessLen); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA512_4096: |
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{ |
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memcpy (m_StandardIdentity.signingKey, signingKey, 128); |
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excessLen = i2p::crypto::RSASHA5124096_KEY_LENGTH - 128; // 384 = 512 - 128 |
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excessBuf = new uint8_t[excessLen]; |
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memcpy (excessBuf, signingKey + 128, excessLen); |
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break; |
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} |
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case SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519: |
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{ |
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size_t padding = 128 - i2p::crypto::EDDSA25519_PUBLIC_KEY_LENGTH; // 96 = 128 - 32 |
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RAND_bytes (m_StandardIdentity.signingKey, padding); |
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memcpy (m_StandardIdentity.signingKey + padding, signingKey, i2p::crypto::EDDSA25519_PUBLIC_KEY_LENGTH); |
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break; |
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} |
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case SIGNING_KEY_TYPE_GOSTR3410_CRYPTO_PRO_A_GOSTR3411_256: |
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{ |
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// 256 |
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size_t padding = 128 - i2p::crypto::GOSTR3410_256_PUBLIC_KEY_LENGTH; // 64 = 128 - 64 |
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RAND_bytes (m_StandardIdentity.signingKey, padding); |
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memcpy (m_StandardIdentity.signingKey + padding, signingKey, i2p::crypto::GOSTR3410_256_PUBLIC_KEY_LENGTH); |
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break; |
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} |
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case SIGNING_KEY_TYPE_GOSTR3410_TC26_A_512_GOSTR3411_512: |
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{ |
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// 512 |
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// no padding, key length is 128 |
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memcpy (m_StandardIdentity.signingKey, signingKey, i2p::crypto::GOSTR3410_512_PUBLIC_KEY_LENGTH); |
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break; |
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} |
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default: |
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LogPrint (eLogError, "Identity: Signing key type ", (int)type, " is not supported"); |
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} |
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m_ExtendedLen = 4 + excessLen; // 4 bytes extra + excess length |
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// fill certificate |
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m_StandardIdentity.certificate[0] = CERTIFICATE_TYPE_KEY; |
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htobe16buf (m_StandardIdentity.certificate + 1, m_ExtendedLen); |
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// fill extended buffer |
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m_ExtendedBuffer = new uint8_t[m_ExtendedLen]; |
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htobe16buf (m_ExtendedBuffer, type); |
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htobe16buf (m_ExtendedBuffer + 2, cryptoType); |
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if (excessLen && excessBuf) |
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{ |
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memcpy (m_ExtendedBuffer + 4, excessBuf, excessLen); |
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delete[] excessBuf; |
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} |
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// calculate ident hash |
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RecalculateIdentHash(); |
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} |
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else // DSA-SHA1 |
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{ |
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memcpy (m_StandardIdentity.signingKey, signingKey, sizeof (m_StandardIdentity.signingKey)); |
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memset (m_StandardIdentity.certificate, 0, sizeof (m_StandardIdentity.certificate)); |
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m_IdentHash = m_StandardIdentity.Hash (); |
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m_ExtendedLen = 0; |
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m_ExtendedBuffer = nullptr; |
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} |
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CreateVerifier (); |
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} |
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void IdentityEx::RecalculateIdentHash(uint8_t * buf) |
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{ |
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bool dofree = buf == nullptr; |
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size_t sz = GetFullLen(); |
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if(!buf) |
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buf = new uint8_t[sz]; |
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ToBuffer (buf, sz); |
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SHA256(buf, sz, m_IdentHash); |
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if(dofree) |
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delete[] buf; |
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} |
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IdentityEx::IdentityEx (const uint8_t * buf, size_t len): |
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m_IsVerifierCreated (false), m_ExtendedLen (0), m_ExtendedBuffer (nullptr) |
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{ |
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FromBuffer (buf, len); |
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} |
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IdentityEx::IdentityEx (const IdentityEx& other): |
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m_IsVerifierCreated (false), m_ExtendedLen (0), m_ExtendedBuffer (nullptr) |
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{ |
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*this = other; |
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} |
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IdentityEx::IdentityEx (const Identity& standard): |
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m_IsVerifierCreated (false), m_ExtendedLen (0), m_ExtendedBuffer (nullptr) |
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{ |
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*this = standard; |
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} |
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IdentityEx::~IdentityEx () |
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{ |
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delete[] m_ExtendedBuffer; |
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} |
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IdentityEx& IdentityEx::operator=(const IdentityEx& other) |
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{ |
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memcpy (&m_StandardIdentity, &other.m_StandardIdentity, DEFAULT_IDENTITY_SIZE); |
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m_IdentHash = other.m_IdentHash; |
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delete[] m_ExtendedBuffer; |
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m_ExtendedLen = other.m_ExtendedLen; |
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if (m_ExtendedLen > 0) |
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{ |
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m_ExtendedBuffer = new uint8_t[m_ExtendedLen]; |
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memcpy (m_ExtendedBuffer, other.m_ExtendedBuffer, m_ExtendedLen); |
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} |
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else |
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m_ExtendedBuffer = nullptr; |
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m_Verifier = nullptr; |
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m_IsVerifierCreated = false; |
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return *this; |
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} |
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IdentityEx& IdentityEx::operator=(const Identity& standard) |
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{ |
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m_StandardIdentity = standard; |
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m_IdentHash = m_StandardIdentity.Hash (); |
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delete[] m_ExtendedBuffer; |
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m_ExtendedBuffer = nullptr; |
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m_ExtendedLen = 0; |
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m_Verifier = nullptr; |
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m_IsVerifierCreated = false; |
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return *this; |
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} |
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size_t IdentityEx::FromBuffer (const uint8_t * buf, size_t len) |
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{ |
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if (len < DEFAULT_IDENTITY_SIZE) |
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{ |
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LogPrint (eLogError, "Identity: buffer length ", len, " is too small"); |
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return 0; |
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} |
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memcpy (&m_StandardIdentity, buf, DEFAULT_IDENTITY_SIZE); |
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if(m_ExtendedBuffer) delete[] m_ExtendedBuffer; |
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m_ExtendedBuffer = nullptr; |
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m_ExtendedLen = bufbe16toh (m_StandardIdentity.certificate + 1); |
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if (m_ExtendedLen) |
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{ |
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if (m_ExtendedLen + DEFAULT_IDENTITY_SIZE <= len) |
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{ |
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m_ExtendedBuffer = new uint8_t[m_ExtendedLen]; |
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memcpy (m_ExtendedBuffer, buf + DEFAULT_IDENTITY_SIZE, m_ExtendedLen); |
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} |
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else |
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{ |
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LogPrint (eLogError, "Identity: Certificate length ", m_ExtendedLen, " exceeds buffer length ", len - DEFAULT_IDENTITY_SIZE); |
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m_ExtendedLen = 0; |
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return 0; |
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} |
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} |
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else |
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{ |
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m_ExtendedLen = 0; |
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m_ExtendedBuffer = nullptr; |
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} |
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SHA256(buf, GetFullLen (), m_IdentHash); |
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m_Verifier = nullptr; |
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return GetFullLen (); |
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} |
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size_t IdentityEx::ToBuffer (uint8_t * buf, size_t len) const |
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{ |
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const size_t fullLen = GetFullLen(); |
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if (fullLen > len) return 0; // buffer is too small and may overflow somewhere else |
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memcpy (buf, &m_StandardIdentity, DEFAULT_IDENTITY_SIZE); |
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if (m_ExtendedLen > 0 && m_ExtendedBuffer) |
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memcpy (buf + DEFAULT_IDENTITY_SIZE, m_ExtendedBuffer, m_ExtendedLen); |
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return fullLen; |
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} |
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size_t IdentityEx::FromBase64(const std::string& s) |
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{ |
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const size_t slen = s.length(); |
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std::vector<uint8_t> buf(slen); // binary data can't exceed base64 |
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const size_t len = Base64ToByteStream (s.c_str(), slen, buf.data(), slen); |
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return FromBuffer (buf.data(), len); |
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} |
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std::string IdentityEx::ToBase64 () const |
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{ |
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const size_t bufLen = GetFullLen(); |
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const size_t strLen = Base64EncodingBufferSize(bufLen); |
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std::vector<uint8_t> buf(bufLen); |
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std::vector<char> str(strLen); |
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size_t l = ToBuffer (buf.data(), bufLen); |
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size_t l1 = i2p::data::ByteStreamToBase64 (buf.data(), l, str.data(), strLen); |
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return std::string (str.data(), l1); |
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} |
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size_t IdentityEx::GetSigningPublicKeyLen () const |
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{ |
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if (!m_Verifier) CreateVerifier (); |
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if (m_Verifier) |
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return m_Verifier->GetPublicKeyLen (); |
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return 128; |
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} |
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size_t IdentityEx::GetSigningPrivateKeyLen () const |
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{ |
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if (!m_Verifier) CreateVerifier (); |
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if (m_Verifier) |
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return m_Verifier->GetPrivateKeyLen (); |
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return GetSignatureLen ()/2; |
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} |
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size_t IdentityEx::GetSignatureLen () const |
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{ |
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if (!m_Verifier) CreateVerifier (); |
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if (m_Verifier) |
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return m_Verifier->GetSignatureLen (); |
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return i2p::crypto::DSA_SIGNATURE_LENGTH; |
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} |
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bool IdentityEx::Verify (const uint8_t * buf, size_t len, const uint8_t * signature) const |
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{ |
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if (!m_Verifier) CreateVerifier (); |
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if (m_Verifier) |
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return m_Verifier->Verify (buf, len, signature); |
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return false; |
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} |
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SigningKeyType IdentityEx::GetSigningKeyType () const |
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{ |
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if (m_StandardIdentity.certificate[0] == CERTIFICATE_TYPE_KEY && m_ExtendedLen >= 2) |
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return bufbe16toh (m_ExtendedBuffer); // signing key |
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return SIGNING_KEY_TYPE_DSA_SHA1; |
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} |
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CryptoKeyType IdentityEx::GetCryptoKeyType () const |
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{ |
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if (m_StandardIdentity.certificate[0] == CERTIFICATE_TYPE_KEY && m_ExtendedLen >= 4) |
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return bufbe16toh (m_ExtendedBuffer + 2); // crypto key |
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return CRYPTO_KEY_TYPE_ELGAMAL; |
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} |
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void IdentityEx::CreateVerifier () const |
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{ |
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if (m_Verifier) return; // don't create again |
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auto keyType = GetSigningKeyType (); |
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switch (keyType) |
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{ |
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case SIGNING_KEY_TYPE_DSA_SHA1: |
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UpdateVerifier (new i2p::crypto::DSAVerifier (m_StandardIdentity.signingKey)); |
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break; |
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case SIGNING_KEY_TYPE_ECDSA_SHA256_P256: |
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{ |
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size_t padding = 128 - i2p::crypto::ECDSAP256_KEY_LENGTH; // 64 = 128 - 64 |
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UpdateVerifier (new i2p::crypto::ECDSAP256Verifier (m_StandardIdentity.signingKey + padding)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_ECDSA_SHA384_P384: |
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{ |
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size_t padding = 128 - i2p::crypto::ECDSAP384_KEY_LENGTH; // 32 = 128 - 96 |
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UpdateVerifier (new i2p::crypto::ECDSAP384Verifier (m_StandardIdentity.signingKey + padding)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_ECDSA_SHA512_P521: |
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{ |
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uint8_t signingKey[i2p::crypto::ECDSAP521_KEY_LENGTH]; |
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memcpy (signingKey, m_StandardIdentity.signingKey, 128); |
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size_t excessLen = i2p::crypto::ECDSAP521_KEY_LENGTH - 128; // 4 = 132- 128 |
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memcpy (signingKey + 128, m_ExtendedBuffer + 4, excessLen); // right after signing and crypto key types |
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UpdateVerifier (new i2p::crypto::ECDSAP521Verifier (signingKey)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA256_2048: |
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{ |
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uint8_t signingKey[i2p::crypto::RSASHA2562048_KEY_LENGTH]; |
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memcpy (signingKey, m_StandardIdentity.signingKey, 128); |
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size_t excessLen = i2p::crypto::RSASHA2562048_KEY_LENGTH - 128; // 128 = 256- 128 |
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memcpy (signingKey + 128, m_ExtendedBuffer + 4, excessLen); // right after signing and crypto key types |
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UpdateVerifier (new i2p::crypto:: RSASHA2562048Verifier (signingKey)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA384_3072: |
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{ |
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uint8_t signingKey[i2p::crypto::RSASHA3843072_KEY_LENGTH]; |
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memcpy (signingKey, m_StandardIdentity.signingKey, 128); |
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size_t excessLen = i2p::crypto::RSASHA3843072_KEY_LENGTH - 128; // 256 = 384- 128 |
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memcpy (signingKey + 128, m_ExtendedBuffer + 4, excessLen); // right after signing and crypto key types |
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UpdateVerifier (new i2p::crypto:: RSASHA3843072Verifier (signingKey)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_RSA_SHA512_4096: |
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{ |
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uint8_t signingKey[i2p::crypto::RSASHA5124096_KEY_LENGTH]; |
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memcpy (signingKey, m_StandardIdentity.signingKey, 128); |
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size_t excessLen = i2p::crypto::RSASHA5124096_KEY_LENGTH - 128; // 384 = 512- 128 |
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memcpy (signingKey + 128, m_ExtendedBuffer + 4, excessLen); // right after signing and crypto key types |
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UpdateVerifier (new i2p::crypto:: RSASHA5124096Verifier (signingKey)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519: |
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{ |
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size_t padding = 128 - i2p::crypto::EDDSA25519_PUBLIC_KEY_LENGTH; // 96 = 128 - 32 |
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UpdateVerifier (new i2p::crypto::EDDSA25519Verifier (m_StandardIdentity.signingKey + padding)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_GOSTR3410_CRYPTO_PRO_A_GOSTR3411_256: |
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{ |
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size_t padding = 128 - i2p::crypto::GOSTR3410_256_PUBLIC_KEY_LENGTH; // 64 = 128 - 64 |
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UpdateVerifier (new i2p::crypto::GOSTR3410_256_Verifier (i2p::crypto::eGOSTR3410CryptoProA, m_StandardIdentity.signingKey + padding)); |
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break; |
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} |
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case SIGNING_KEY_TYPE_GOSTR3410_TC26_A_512_GOSTR3411_512: |
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{ |
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// zero padding |
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UpdateVerifier (new i2p::crypto::GOSTR3410_512_Verifier (i2p::crypto::eGOSTR3410TC26A512, m_StandardIdentity.signingKey)); |
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break; |
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} |
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default: |
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LogPrint (eLogError, "Identity: Signing key type ", (int)keyType, " is not supported"); |
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} |
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} |
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void IdentityEx::UpdateVerifier (i2p::crypto::Verifier * verifier) const |
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{ |
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if (!m_Verifier) |
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{ |
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auto created = m_IsVerifierCreated.exchange (true); |
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if (!created) |
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m_Verifier.reset (verifier); |
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else |
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{ |
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delete verifier; |
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int count = 0; |
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while (!m_Verifier && count < 500) // 5 seconds |
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{ |
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std::this_thread::sleep_for (std::chrono::milliseconds(10)); |
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count++; |
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} |
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if (!m_Verifier) |
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LogPrint (eLogError, "Identity: couldn't get verifier in 5 seconds"); |
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} |
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} |
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else |
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delete verifier; |
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} |
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|
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void IdentityEx::DropVerifier () const |
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{ |
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// TODO: potential race condition with Verify |
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m_IsVerifierCreated = false; |
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m_Verifier = nullptr; |
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} |
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|
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std::shared_ptr<i2p::crypto::CryptoKeyEncryptor> IdentityEx::CreateEncryptor (const uint8_t * key) const |
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{ |
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if (!key) key = GetEncryptionPublicKey (); // use publicKey |
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switch (GetCryptoKeyType ()) |
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{ |
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case CRYPTO_KEY_TYPE_ELGAMAL: |
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return std::make_shared<i2p::crypto::ElGamalEncryptor>(key); |
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break; |
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case CRYPTO_KEY_TYPE_ECIES_P256_SHA256_AES256CBC: |
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return std::make_shared<i2p::crypto::ECIESP256Encryptor>(key); |
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break; |
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case CRYPTO_KEY_TYPE_ECIES_GOSTR3410_CRYPTO_PRO_A_SHA256_AES256CBC: |
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return std::make_shared<i2p::crypto::ECIESGOSTR3410Encryptor>(key); |
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break; |
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default: |
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LogPrint (eLogError, "Identity: Unknown crypto key type ", (int)GetCryptoKeyType ()); |
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}; |
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return nullptr; |
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} |
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|
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PrivateKeys& PrivateKeys::operator=(const Keys& keys) |
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{ |
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m_Public = std::make_shared<IdentityEx>(Identity (keys)); |
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memcpy (m_PrivateKey, keys.privateKey, 256); // 256 |
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memcpy (m_SigningPrivateKey, keys.signingPrivateKey, m_Public->GetSigningPrivateKeyLen ()); |
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m_Signer = nullptr; |
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CreateSigner (); |
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return *this; |
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} |
|
|
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PrivateKeys& PrivateKeys::operator=(const PrivateKeys& other) |
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{ |
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m_Public = std::make_shared<IdentityEx>(*other.m_Public); |
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memcpy (m_PrivateKey, other.m_PrivateKey, 256); // 256 |
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memcpy (m_SigningPrivateKey, other.m_SigningPrivateKey, m_Public->GetSigningPrivateKeyLen ()); |
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m_Signer = nullptr; |
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CreateSigner (); |
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return *this; |
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} |
|
|
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size_t PrivateKeys::FromBuffer (const uint8_t * buf, size_t len) |
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{ |
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m_Public = std::make_shared<IdentityEx>(); |
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size_t ret = m_Public->FromBuffer (buf, len); |
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if (!ret || ret + 256 > len) return 0; // overflow |
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memcpy (m_PrivateKey, buf + ret, 256); // private key always 256 |
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ret += 256; |
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size_t signingPrivateKeySize = m_Public->GetSigningPrivateKeyLen (); |
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if(signingPrivateKeySize + ret > len) return 0; // overflow |
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memcpy (m_SigningPrivateKey, buf + ret, signingPrivateKeySize); |
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ret += signingPrivateKeySize; |
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m_Signer = nullptr; |
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CreateSigner (); |
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return ret; |
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} |
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|
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size_t PrivateKeys::ToBuffer (uint8_t * buf, size_t len) const |
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{ |
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size_t ret = m_Public->ToBuffer (buf, len); |
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memcpy (buf + ret, m_PrivateKey, 256); // private key always 256 |
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ret += 256; |
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size_t signingPrivateKeySize = m_Public->GetSigningPrivateKeyLen (); |
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if(ret + signingPrivateKeySize > len) return 0; // overflow |
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memcpy (buf + ret, m_SigningPrivateKey, signingPrivateKeySize); |
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ret += signingPrivateKeySize; |
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return ret; |
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} |
|
|
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size_t PrivateKeys::FromBase64(const std::string& s) |
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{ |
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uint8_t * buf = new uint8_t[s.length ()]; |
|
size_t l = i2p::data::Base64ToByteStream (s.c_str (), s.length (), buf, s.length ()); |
|
size_t ret = FromBuffer (buf, l); |
|
delete[] buf; |
|
return ret; |
|
} |
|
|
|
std::string PrivateKeys::ToBase64 () const |
|
{ |
|
uint8_t * buf = new uint8_t[GetFullLen ()]; |
|
char * str = new char[GetFullLen ()*2]; |
|
size_t l = ToBuffer (buf, GetFullLen ()); |
|
size_t l1 = i2p::data::ByteStreamToBase64 (buf, l, str, GetFullLen ()*2); |
|
str[l1] = 0; |
|
delete[] buf; |
|
std::string ret(str); |
|
delete[] str; |
|
return ret; |
|
} |
|
|
|
void PrivateKeys::Sign (const uint8_t * buf, int len, uint8_t * signature) const |
|
{ |
|
if (!m_Signer) |
|
CreateSigner(); |
|
m_Signer->Sign (buf, len, signature); |
|
} |
|
|
|
void PrivateKeys::CreateSigner () const |
|
{ |
|
if (m_Signer) return; |
|
switch (m_Public->GetSigningKeyType ()) |
|
{ |
|
case SIGNING_KEY_TYPE_DSA_SHA1: |
|
m_Signer.reset (new i2p::crypto::DSASigner (m_SigningPrivateKey, m_Public->GetStandardIdentity ().signingKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_ECDSA_SHA256_P256: |
|
m_Signer.reset (new i2p::crypto::ECDSAP256Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_ECDSA_SHA384_P384: |
|
m_Signer.reset (new i2p::crypto::ECDSAP384Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_ECDSA_SHA512_P521: |
|
m_Signer.reset (new i2p::crypto::ECDSAP521Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA256_2048: |
|
m_Signer.reset (new i2p::crypto::RSASHA2562048Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA384_3072: |
|
m_Signer.reset (new i2p::crypto::RSASHA3843072Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA512_4096: |
|
m_Signer.reset (new i2p::crypto::RSASHA5124096Signer (m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519: |
|
m_Signer.reset (new i2p::crypto::EDDSA25519Signer (m_SigningPrivateKey, m_Public->GetStandardIdentity ().certificate - i2p::crypto::EDDSA25519_PUBLIC_KEY_LENGTH)); |
|
break; |
|
case SIGNING_KEY_TYPE_GOSTR3410_CRYPTO_PRO_A_GOSTR3411_256: |
|
m_Signer.reset (new i2p::crypto::GOSTR3410_256_Signer (i2p::crypto::eGOSTR3410CryptoProA, m_SigningPrivateKey)); |
|
break; |
|
case SIGNING_KEY_TYPE_GOSTR3410_TC26_A_512_GOSTR3411_512: |
|
m_Signer.reset (new i2p::crypto::GOSTR3410_512_Signer (i2p::crypto::eGOSTR3410TC26A512, m_SigningPrivateKey)); |
|
break; |
|
default: |
|
LogPrint (eLogError, "Identity: Signing key type ", (int)m_Public->GetSigningKeyType (), " is not supported"); |
|
} |
|
} |
|
|
|
uint8_t * PrivateKeys::GetPadding() |
|
{ |
|
if(m_Public->GetSigningKeyType () == SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519) |
|
return m_Public->GetEncryptionPublicKeyBuffer() + 256; |
|
else |
|
return nullptr; // TODO: implement me |
|
} |
|
|
|
std::shared_ptr<i2p::crypto::CryptoKeyDecryptor> PrivateKeys::CreateDecryptor (const uint8_t * key) const |
|
{ |
|
if (!key) key = m_PrivateKey; // use privateKey |
|
return CreateDecryptor (m_Public->GetCryptoKeyType (), key); |
|
} |
|
|
|
std::shared_ptr<i2p::crypto::CryptoKeyDecryptor> PrivateKeys::CreateDecryptor (CryptoKeyType cryptoType, const uint8_t * key) |
|
{ |
|
if (!key) return nullptr; |
|
switch (cryptoType) |
|
{ |
|
case CRYPTO_KEY_TYPE_ELGAMAL: |
|
return std::make_shared<i2p::crypto::ElGamalDecryptor>(key); |
|
break; |
|
case CRYPTO_KEY_TYPE_ECIES_P256_SHA256_AES256CBC: |
|
return std::make_shared<i2p::crypto::ECIESP256Decryptor>(key); |
|
break; |
|
case CRYPTO_KEY_TYPE_ECIES_GOSTR3410_CRYPTO_PRO_A_SHA256_AES256CBC: |
|
return std::make_shared<i2p::crypto::ECIESGOSTR3410Decryptor>(key); |
|
break; |
|
default: |
|
LogPrint (eLogError, "Identity: Unknown crypto key type ", (int)cryptoType); |
|
}; |
|
return nullptr; |
|
} |
|
|
|
PrivateKeys PrivateKeys::CreateRandomKeys (SigningKeyType type, CryptoKeyType cryptoType) |
|
{ |
|
if (type != SIGNING_KEY_TYPE_DSA_SHA1) |
|
{ |
|
PrivateKeys keys; |
|
// signature |
|
uint8_t signingPublicKey[512]; // signing public key is 512 bytes max |
|
switch (type) |
|
{ |
|
case SIGNING_KEY_TYPE_ECDSA_SHA256_P256: |
|
i2p::crypto::CreateECDSAP256RandomKeys (keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_ECDSA_SHA384_P384: |
|
i2p::crypto::CreateECDSAP384RandomKeys (keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_ECDSA_SHA512_P521: |
|
i2p::crypto::CreateECDSAP521RandomKeys (keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA256_2048: |
|
i2p::crypto::CreateRSARandomKeys (i2p::crypto::RSASHA2562048_KEY_LENGTH, keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA384_3072: |
|
i2p::crypto::CreateRSARandomKeys (i2p::crypto::RSASHA3843072_KEY_LENGTH, keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_RSA_SHA512_4096: |
|
i2p::crypto::CreateRSARandomKeys (i2p::crypto::RSASHA5124096_KEY_LENGTH, keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519: |
|
i2p::crypto::CreateEDDSA25519RandomKeys (keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_GOSTR3410_CRYPTO_PRO_A_GOSTR3411_256: |
|
i2p::crypto::CreateGOSTR3410RandomKeys (i2p::crypto::eGOSTR3410CryptoProA, keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
case SIGNING_KEY_TYPE_GOSTR3410_TC26_A_512_GOSTR3411_512: |
|
i2p::crypto::CreateGOSTR3410RandomKeys (i2p::crypto::eGOSTR3410TC26A512, keys.m_SigningPrivateKey, signingPublicKey); |
|
break; |
|
default: |
|
LogPrint (eLogError, "Identity: Signing key type ", (int)type, " is not supported. Create DSA-SHA1"); |
|
return PrivateKeys (i2p::data::CreateRandomKeys ()); // DSA-SHA1 |
|
} |
|
// encryption |
|
uint8_t publicKey[256]; |
|
GenerateCryptoKeyPair (cryptoType, keys.m_PrivateKey, publicKey); |
|
// identity |
|
keys.m_Public = std::make_shared<IdentityEx> (publicKey, signingPublicKey, type, cryptoType); |
|
|
|
keys.CreateSigner (); |
|
return keys; |
|
} |
|
return PrivateKeys (i2p::data::CreateRandomKeys ()); // DSA-SHA1 |
|
} |
|
|
|
void PrivateKeys::GenerateCryptoKeyPair (CryptoKeyType type, uint8_t * priv, uint8_t * pub) |
|
{ |
|
switch (type) |
|
{ |
|
case CRYPTO_KEY_TYPE_ELGAMAL: |
|
i2p::crypto::GenerateElGamalKeyPair(priv, pub); |
|
break; |
|
case CRYPTO_KEY_TYPE_ECIES_P256_SHA256_AES256CBC: |
|
i2p::crypto::CreateECIESP256RandomKeys (priv, pub); |
|
break; |
|
case CRYPTO_KEY_TYPE_ECIES_GOSTR3410_CRYPTO_PRO_A_SHA256_AES256CBC: |
|
i2p::crypto::CreateECIESGOSTR3410RandomKeys (priv, pub); |
|
break; |
|
default: |
|
LogPrint (eLogError, "Identity: Crypto key type ", (int)type, " is not supported"); |
|
} |
|
} |
|
|
|
Keys CreateRandomKeys () |
|
{ |
|
Keys keys; |
|
// encryption |
|
i2p::crypto::GenerateElGamalKeyPair(keys.privateKey, keys.publicKey); |
|
// signing |
|
i2p::crypto::CreateDSARandomKeys (keys.signingPrivateKey, keys.signingKey); |
|
return keys; |
|
} |
|
|
|
IdentHash CreateRoutingKey (const IdentHash& ident) |
|
{ |
|
uint8_t buf[41]; // ident + yyyymmdd |
|
memcpy (buf, (const uint8_t *)ident, 32); |
|
time_t t = time (nullptr); |
|
struct tm tm; |
|
#ifdef _WIN32 |
|
gmtime_s(&tm, &t); |
|
sprintf_s((char *)(buf + 32), 9, "%04i%02i%02i", tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday); |
|
#else |
|
gmtime_r(&t, &tm); |
|
sprintf((char *)(buf + 32), "%04i%02i%02i", tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday); |
|
#endif |
|
IdentHash key; |
|
SHA256(buf, 40, key); |
|
return key; |
|
} |
|
|
|
XORMetric operator^(const IdentHash& key1, const IdentHash& key2) |
|
{ |
|
XORMetric m; |
|
#if defined(__AVX__) // for AVX |
|
__asm__ |
|
( |
|
"vmovups %1, %%ymm0 \n" |
|
"vmovups %2, %%ymm1 \n" |
|
"vxorps %%ymm0, %%ymm1, %%ymm1 \n" |
|
"vmovups %%ymm1, %0 \n" |
|
: "=m"(*m.metric) |
|
: "m"(*key1), "m"(*key2) |
|
: "memory", "%xmm0", "%xmm1" // should be replaced by %ymm0/1 once supported by compiler |
|
); |
|
#else |
|
const uint64_t * hash1 = key1.GetLL (), * hash2 = key2.GetLL (); |
|
m.metric_ll[0] = hash1[0] ^ hash2[0]; |
|
m.metric_ll[1] = hash1[1] ^ hash2[1]; |
|
m.metric_ll[2] = hash1[2] ^ hash2[2]; |
|
m.metric_ll[3] = hash1[3] ^ hash2[3]; |
|
#endif |
|
|
|
return m; |
|
} |
|
} |
|
}
|
|
|