mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-29 17:28:52 +00:00
450 lines
13 KiB
C++
450 lines
13 KiB
C++
/*
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* Copyright (c)2019 ZeroTier, Inc.
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*
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* Use of this software is governed by the Business Source License included
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* in the LICENSE.TXT file in the project's root directory.
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*
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* Change Date: 2023-01-01
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*
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* On the date above, in accordance with the Business Source License, use
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* of this software will be governed by version 2.0 of the Apache License.
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*/
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/****/
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#ifndef ZT_IDENTITY_HPP
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#define ZT_IDENTITY_HPP
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#include <stdio.h>
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#include <stdlib.h>
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#include "Constants.hpp"
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#include "Utils.hpp"
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#include "Address.hpp"
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#include "C25519.hpp"
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#include "Buffer.hpp"
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#include "SHA512.hpp"
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#include "ECC384.hpp"
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#define ZT_IDENTITY_STRING_BUFFER_LENGTH 512
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namespace ZeroTier {
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/**
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* A ZeroTier identity
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*
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* An identity consists of a public key, a 40-bit ZeroTier address computed
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* from that key in a collision-resistant fashion, and a self-signature.
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*
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* The address derivation algorithm makes it computationally very expensive to
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* search for a different public key that duplicates an existing address. (See
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* code for deriveAddress() for this algorithm.)
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*/
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class Identity
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{
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public:
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/**
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* Identity type -- numeric values of these enums are protocol constants
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*/
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enum Type
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{
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C25519 = ZT_CRYPTO_ALG_C25519, // Type 0 -- Curve25519 and Ed25519 (1.x and 2.x, default)
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P384 = ZT_CRYPTO_ALG_P384 // Type 1 -- NIST P-384 with linked Curve25519 and Ed25519 secondaries (2.x+)
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};
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ZT_ALWAYS_INLINE Identity() { memset(reinterpret_cast<void *>(this),0,sizeof(Identity)); }
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ZT_ALWAYS_INLINE Identity(const Identity &id) { memcpy(reinterpret_cast<void *>(this),&id,sizeof(Identity)); }
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inline Identity(const char *str)
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{
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if (!fromString(str))
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throw ZT_EXCEPTION_INVALID_SERIALIZED_DATA_INVALID_TYPE;
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}
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template<unsigned int C>
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inline Identity(const Buffer<C> &b,unsigned int startAt = 0) { deserialize(b,startAt); }
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ZT_ALWAYS_INLINE ~Identity() { Utils::burn(reinterpret_cast<void *>(this),sizeof(Identity)); }
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/**
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* Set identity to NIL value (all zero)
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*/
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ZT_ALWAYS_INLINE void zero() { Utils::burn(reinterpret_cast<void *>(this),sizeof(Identity)); }
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ZT_ALWAYS_INLINE Identity &operator=(const Identity &id)
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{
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memcpy(reinterpret_cast<void *>(this),&id,sizeof(Identity));
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return *this;
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}
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/**
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* @return Identity type
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*/
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ZT_ALWAYS_INLINE Type type() const { return _type; }
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/**
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* Generate a new identity (address, key pair)
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*
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* This is a time consuming operation.
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*
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* @param t Type of identity to generate
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*/
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void generate(const Type t);
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/**
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* Check the validity of this identity's pairing of key to address
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*
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* @return True if validation check passes
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*/
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bool locallyValidate() const;
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/**
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* @return True if this identity contains a private key
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*/
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ZT_ALWAYS_INLINE bool hasPrivate() const { return _hasPrivate; }
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/**
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* Compute the SHA512 hash of our private key (if we have one)
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*
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* @param sha Buffer to receive SHA512 (MUST be ZT_SHA512_DIGEST_LEN (64) bytes in length)
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* @return True on success, false if no private key
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*/
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inline bool sha512PrivateKey(void *const sha) const
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{
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if (_hasPrivate) {
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switch(_type) {
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case C25519:
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SHA512(sha,_priv.c25519,ZT_C25519_PRIVATE_KEY_LEN);
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return true;
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case P384:
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SHA512(sha,&_priv,ZT_C25519_PRIVATE_KEY_LEN + ZT_ECC384_PRIVATE_KEY_SIZE);
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return true;
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}
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}
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return false;
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}
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/**
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* Compute a 128-bit short hash of this identity's public key
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*
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* This is the first 128 bits of a SHA384 hash and is the hash used
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* in VERB_WILL_RELAY to report reachability.
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*
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* @param h 128-bit buffer to receive hash (must be 16 bytes in size)
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*/
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inline void publicKeyHash128(void *const h) const
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{
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uint8_t tmp[48];
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switch(_type) {
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case C25519:
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SHA384(tmp,_pub.c25519,ZT_C25519_PUBLIC_KEY_LEN);
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break;
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case P384:
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SHA384(tmp,&_pub,ZT_C25519_PUBLIC_KEY_LEN + ZT_ECC384_PUBLIC_KEY_SIZE);
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break;
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}
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for(int i=0;i<16;++i)
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((uint8_t *)h)[i] = tmp[i];
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}
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/**
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* Sign a message with this identity (private key required)
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*
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* The signature buffer should be large enough for the largest
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* signature, which is currently 96 bytes.
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*
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* @param data Data to sign
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* @param len Length of data
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* @param sig Buffer to receive signature
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* @param siglen Length of buffer
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* @return Number of bytes actually written to sig or 0 on error
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*/
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inline unsigned int sign(const void *data,unsigned int len,void *sig,unsigned int siglen) const
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{
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if (_hasPrivate) {
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switch(_type) {
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case C25519:
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if (siglen >= ZT_C25519_SIGNATURE_LEN) {
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C25519::sign(_priv.c25519,_pub.c25519,data,len,sig);
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return ZT_C25519_SIGNATURE_LEN;
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}
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case P384:
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if (siglen >= ZT_ECC384_SIGNATURE_SIZE) {
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// Signature is a hash of the message followed by the c25519/ed25519 type 0
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// identity public keys to ensure that the two public keys are not separable.
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uint8_t h[48];
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SHA384(h,data,len,_pub.c25519,ZT_C25519_PUBLIC_KEY_LEN);
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ECC384ECDSASign(_priv.p384,h,(uint8_t *)sig);
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return ZT_ECC384_SIGNATURE_SIZE;
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}
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}
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}
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return 0;
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}
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/**
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* Verify a message signature against this identity
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*
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* @param data Data to check
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* @param len Length of data
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* @param signature Signature bytes
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* @param siglen Length of signature in bytes
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* @return True if signature validates and data integrity checks
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*/
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inline bool verify(const void *data,unsigned int len,const void *sig,unsigned int siglen) const
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{
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switch(_type) {
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case C25519:
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return C25519::verify(_pub.c25519,data,len,sig,siglen);
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case P384:
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if (siglen == ZT_ECC384_SIGNATURE_SIZE) {
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uint8_t h[48];
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SHA384(h,data,len,_pub.c25519,ZT_C25519_PUBLIC_KEY_LEN);
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return ECC384ECDSAVerify(_pub.p384,h,(const uint8_t *)sig);
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}
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break;
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}
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return false;
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}
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/**
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* Shortcut method to perform key agreement with another identity
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*
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* This identity must have a private key. (Check hasPrivate())
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*
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* @param id Identity to agree with
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* @param key Result parameter to fill with key bytes
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* @return Was agreement successful?
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*/
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inline bool agree(const Identity &id,uint8_t key[ZT_PEER_SECRET_KEY_LENGTH]) const
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{
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uint8_t rawkey[128];
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uint8_t h[64];
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if (_hasPrivate) {
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if (_type == C25519) {
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if ((id._type == C25519)||(id._type == P384)) {
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// If we are a C25519 key we can agree with another C25519 key or with only the
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// C25519 portion of a type 1 P-384 key.
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C25519::agree(_priv.c25519,id._pub.c25519,rawkey);
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SHA512(h,rawkey,ZT_C25519_SHARED_KEY_LEN);
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memcpy(key,h,ZT_PEER_SECRET_KEY_LENGTH);
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return true;
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}
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} else if (_type == P384) {
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if (id._type == P384) {
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// Perform key agreement over both curves for the same reason that C25519 public
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// keys are included in P-384 signature inputs: to bind the keys together so
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// that a type 1 identity with the same C25519 public key (and therefore address)
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// but a different P-384 key will not work.
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C25519::agree(_priv.c25519,id._pub.c25519,rawkey);
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ECC384ECDH(id._pub.p384,_priv.p384,rawkey + ZT_C25519_SHARED_KEY_LEN);
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SHA384(h,rawkey,ZT_C25519_SHARED_KEY_LEN + ZT_ECC384_SHARED_SECRET_SIZE);
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memcpy(key,h,ZT_PEER_SECRET_KEY_LENGTH);
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return true;
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} else if (id._type == C25519) {
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// If the other identity is a C25519 identity we can agree using only that type.
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C25519::agree(_priv.c25519,id._pub.c25519,rawkey);
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SHA512(h,rawkey,ZT_C25519_SHARED_KEY_LEN);
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memcpy(key,h,ZT_PEER_SECRET_KEY_LENGTH);
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return true;
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}
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}
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}
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return false;
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}
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/**
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* @return This identity's address
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*/
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ZT_ALWAYS_INLINE const Address &address() const { return _address; }
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/**
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* Serialize this identity (binary)
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*
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* @param b Destination buffer to append to
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* @param includePrivate If true, include private key component (if present) (default: false)
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* @throws std::out_of_range Buffer too small
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*/
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template<unsigned int C>
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inline void serialize(Buffer<C> &b,bool includePrivate = false) const
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{
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_address.appendTo(b);
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switch(_type) {
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case C25519:
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b.append((uint8_t)C25519);
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b.append(_pub.c25519,ZT_C25519_PUBLIC_KEY_LEN);
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if ((_hasPrivate)&&(includePrivate)) {
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b.append((uint8_t)ZT_C25519_PRIVATE_KEY_LEN);
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b.append(_priv.c25519,ZT_C25519_PRIVATE_KEY_LEN);
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} else {
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b.append((uint8_t)0);
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}
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break;
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case P384:
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b.append((uint8_t)P384);
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b.append(_pub.c25519,ZT_C25519_PUBLIC_KEY_LEN);
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b.append(_pub.p384,ZT_ECC384_PUBLIC_KEY_SIZE);
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if ((_hasPrivate)&&(includePrivate)) {
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b.append((uint8_t)(ZT_C25519_PRIVATE_KEY_LEN + ZT_ECC384_PRIVATE_KEY_SIZE));
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b.append(_priv.c25519,ZT_C25519_PRIVATE_KEY_LEN);
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b.append(_priv.p384,ZT_ECC384_PRIVATE_KEY_SIZE);
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} else {
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b.append((uint8_t)0);
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}
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break;
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}
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}
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/**
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* Deserialize a binary serialized identity
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*
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* If an exception is thrown, the Identity object is left in an undefined
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* state and should not be used.
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*
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* @param b Buffer containing serialized data
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* @param startAt Index within buffer of serialized data (default: 0)
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* @return Length of serialized data read from buffer
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* @throws std::out_of_range Serialized data invalid
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* @throws std::invalid_argument Serialized data invalid
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*/
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template<unsigned int C>
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inline unsigned int deserialize(const Buffer<C> &b,unsigned int startAt = 0)
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{
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_hasPrivate = false;
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unsigned int p = startAt;
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unsigned int pkl;
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_address.setTo(b.field(p,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH);
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p += ZT_ADDRESS_LENGTH;
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switch((_type = (Type)b[p++])) {
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case C25519:
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memcpy(_pub.c25519,b.field(p,ZT_C25519_PUBLIC_KEY_LEN),ZT_C25519_PUBLIC_KEY_LEN);
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p += ZT_C25519_PUBLIC_KEY_LEN;
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pkl = (unsigned int)b[p++];
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if (pkl) {
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if (pkl != ZT_C25519_PRIVATE_KEY_LEN)
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throw ZT_EXCEPTION_INVALID_SERIALIZED_DATA_INVALID_CRYPTOGRAPHIC_TOKEN;
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_hasPrivate = true;
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memcpy(_priv.c25519,b.field(p,ZT_C25519_PRIVATE_KEY_LEN),ZT_C25519_PRIVATE_KEY_LEN);
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p += ZT_C25519_PRIVATE_KEY_LEN;
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} else {
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_hasPrivate = false;
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}
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break;
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case P384:
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memcpy(_pub.c25519,b.field(p,ZT_C25519_PUBLIC_KEY_LEN),ZT_C25519_PUBLIC_KEY_LEN);
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p += ZT_C25519_PUBLIC_KEY_LEN;
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memcpy(_pub.p384,b.field(p,ZT_ECC384_PUBLIC_KEY_SIZE),ZT_ECC384_PUBLIC_KEY_SIZE);
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p += ZT_ECC384_PUBLIC_KEY_SIZE;
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pkl = (unsigned int)b[p++];
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if (pkl) {
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if (pkl != (ZT_C25519_PRIVATE_KEY_LEN + ZT_ECC384_PRIVATE_KEY_SIZE))
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throw ZT_EXCEPTION_INVALID_SERIALIZED_DATA_INVALID_CRYPTOGRAPHIC_TOKEN;
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_hasPrivate = true;
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memcpy(_priv.c25519,b.field(p,ZT_C25519_PRIVATE_KEY_LEN),ZT_C25519_PRIVATE_KEY_LEN);
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p += ZT_C25519_PRIVATE_KEY_LEN;
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memcpy(_priv.p384,b.field(p,ZT_ECC384_PRIVATE_KEY_SIZE),ZT_ECC384_PRIVATE_KEY_SIZE);
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p += ZT_ECC384_PRIVATE_KEY_SIZE;
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} else {
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_hasPrivate = false;
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}
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break;
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default:
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throw ZT_EXCEPTION_INVALID_SERIALIZED_DATA_INVALID_TYPE;
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}
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return (p - startAt);
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}
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/**
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* Serialize to a more human-friendly string
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*
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* @param includePrivate If true, include private key (if it exists)
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* @param buf Buffer to store string
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* @return ASCII string representation of identity
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*/
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char *toString(bool includePrivate,char buf[ZT_IDENTITY_STRING_BUFFER_LENGTH]) const;
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/**
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* Deserialize a human-friendly string
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*
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* Note: validation is for the format only. The locallyValidate() method
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* must be used to check signature and address/key correspondence.
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*
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* @param str String to deserialize
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* @return True if deserialization appears successful
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*/
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bool fromString(const char *str);
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/**
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* @return True if this identity contains something
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*/
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ZT_ALWAYS_INLINE operator bool() const { return (_address); }
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inline bool operator==(const Identity &id) const
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{
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if ((_address == id._address)&&(_type == id._type)) {
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switch(_type) {
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case C25519:
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return (memcmp(_pub.c25519,id._pub.c25519,ZT_C25519_PUBLIC_KEY_LEN) == 0);
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case P384:
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return (memcmp(&_pub,&id._pub,ZT_C25519_PUBLIC_KEY_LEN + ZT_ECC384_PUBLIC_KEY_SIZE) == 0);
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default:
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return false;
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}
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}
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return false;
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}
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inline bool operator<(const Identity &id) const
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{
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if (_address < id._address)
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return true;
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if (_address == id._address) {
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if ((int)_type < (int)id._type)
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return true;
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if (_type == id._type) {
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switch(_type) {
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case C25519:
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return (memcmp(_pub.c25519,id._pub.c25519,ZT_C25519_PUBLIC_KEY_LEN) < 0);
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case P384:
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return (memcmp(&_pub,&id._pub,ZT_C25519_PUBLIC_KEY_LEN + ZT_ECC384_PUBLIC_KEY_SIZE) < 0);
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}
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}
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}
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return false;
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}
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ZT_ALWAYS_INLINE bool operator!=(const Identity &id) const { return !(*this == id); }
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ZT_ALWAYS_INLINE bool operator>(const Identity &id) const { return (id < *this); }
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ZT_ALWAYS_INLINE bool operator<=(const Identity &id) const { return !(id < *this); }
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ZT_ALWAYS_INLINE bool operator>=(const Identity &id) const { return !(*this < id); }
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ZT_ALWAYS_INLINE unsigned long hashCode() const { return (unsigned long)_address.toInt(); }
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private:
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Address _address;
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Type _type;
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bool _hasPrivate;
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ZT_PACKED_STRUCT(struct { // don't re-order these
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uint8_t c25519[ZT_C25519_PRIVATE_KEY_LEN];
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uint8_t p384[ZT_ECC384_PRIVATE_KEY_SIZE];
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}) _priv;
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ZT_PACKED_STRUCT(struct { // don't re-order these
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uint8_t c25519[ZT_C25519_PUBLIC_KEY_LEN];
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uint8_t p384[ZT_ECC384_PUBLIC_KEY_SIZE];
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}) _pub;
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};
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} // namespace ZeroTier
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#endif
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