#ifndef LEASE_SET_H__ #define LEASE_SET_H__ #include #include #include #include #include #include "Identity.h" #include "Timestamp.h" namespace i2p { namespace tunnel { class InboundTunnel; } namespace data { const int LEASE_ENDDATE_THRESHOLD = 51000; // in milliseconds struct Lease { IdentHash tunnelGateway; uint32_t tunnelID; uint64_t endDate; // 0 means invalid bool isUpdated; // trasient /* return true if this lease expires within t millisecond + fudge factor */ bool ExpiresWithin( const uint64_t t, const uint64_t fudge = 1000 ) const { auto expire = i2p::util::GetMillisecondsSinceEpoch (); if(fudge) expire += rand() % fudge; if (endDate < expire) return true; return (endDate - expire) < t; } }; struct LeaseCmp { bool operator() (std::shared_ptr l1, std::shared_ptr l2) const { if (l1->tunnelID != l2->tunnelID) return l1->tunnelID < l2->tunnelID; else return l1->tunnelGateway < l2->tunnelGateway; }; }; typedef std::function LeaseInspectFunc; const size_t MAX_LS_BUFFER_SIZE = 3072; const size_t LEASE_SIZE = 44; // 32 + 4 + 8 const size_t LEASE2_SIZE = 40; // 32 + 4 + 4 const uint8_t MAX_NUM_LEASES = 16; const uint8_t NETDB_STORE_TYPE_LEASESET = 1; class LeaseSet: public RoutingDestination { public: LeaseSet (const uint8_t * buf, size_t len, bool storeLeases = true); virtual ~LeaseSet () { delete[] m_Buffer; }; void Update (const uint8_t * buf, size_t len, bool verifySignature = true); bool IsNewer (const uint8_t * buf, size_t len) const; void PopulateLeases (); // from buffer const uint8_t * GetBuffer () const { return m_Buffer; }; size_t GetBufferLen () const { return m_BufferLen; }; bool IsValid () const { return m_IsValid; }; const std::vector > GetNonExpiredLeases (bool withThreshold = true) const; const std::vector > GetNonExpiredLeasesExcluding (LeaseInspectFunc exclude, bool withThreshold = true) const; bool HasExpiredLeases () const; bool IsExpired () const; bool IsEmpty () const { return m_Leases.empty (); }; uint64_t GetExpirationTime () const { return m_ExpirationTime; }; bool ExpiresSoon(const uint64_t dlt=1000 * 5, const uint64_t fudge = 0) const ; bool operator== (const LeaseSet& other) const { return m_BufferLen == other.m_BufferLen && !memcmp (m_Buffer, other.m_Buffer, m_BufferLen); }; virtual uint8_t GetStoreType () const { return NETDB_STORE_TYPE_LEASESET; }; // implements RoutingDestination std::shared_ptr GetIdentity () const { return m_Identity; }; void Encrypt (const uint8_t * data, uint8_t * encrypted, BN_CTX * ctx) const; bool IsDestination () const { return true; }; protected: void UpdateLeasesBegin (); void UpdateLeasesEnd (); void UpdateLease (const Lease& lease, uint64_t ts); // called from LeaseSet2 LeaseSet (bool storeLeases); void SetBuffer (const uint8_t * buf, size_t len); void SetIdentity (std::shared_ptr identity) { m_Identity = identity; }; void SetExpirationTime (uint64_t t) { m_ExpirationTime = t; }; void SetIsValid (bool isValid) { m_IsValid = isValid; }; bool IsStoreLeases () const { return m_StoreLeases; }; private: void ReadFromBuffer (bool readIdentity = true, bool verifySignature = true); uint64_t ExtractTimestamp (const uint8_t * buf, size_t len) const; // returns max expiration time private: bool m_IsValid, m_StoreLeases; // we don't need to store leases for floodfill std::set, LeaseCmp> m_Leases; uint64_t m_ExpirationTime; // in milliseconds std::shared_ptr m_Identity; uint8_t m_EncryptionKey[256]; uint8_t * m_Buffer; size_t m_BufferLen; }; /** validate lease set buffer signature and extract expiration timestamp @returns true if the leaseset is well formed and signature is valid */ bool LeaseSetBufferValidate(const uint8_t * ptr, size_t sz, uint64_t & expires); const uint8_t NETDB_STORE_TYPE_STANDARD_LEASESET2 = 3; const uint8_t NETDB_STORE_TYPE_ENCRYPTED_LEASESET2 = 5; const uint8_t NETDB_STORE_TYPE_META_LEASESET2 = 7; class LeaseSet2: public LeaseSet { public: LeaseSet2 (uint8_t storeType, const uint8_t * buf, size_t len, bool storeLeases = true); uint8_t GetStoreType () const { return m_StoreType; }; // implements RoutingDestination void Encrypt (const uint8_t * data, uint8_t * encrypted, BN_CTX * ctx) const; private: void ReadFromBuffer (const uint8_t * buf, size_t len); void ReadFromBufferEncrypted (const uint8_t * buf, size_t len); size_t ReadStandardLS2TypeSpecificPart (const uint8_t * buf, size_t len); size_t ReadMetaLS2TypeSpecificPart (const uint8_t * buf, size_t len); template bool VerifySignature (Verifier& verifier, const uint8_t * buf, size_t len, size_t signatureOffset); private: uint8_t m_StoreType; std::shared_ptr m_Encryptor; // for standardLS2 }; class LocalLeaseSet { public: LocalLeaseSet (std::shared_ptr identity, const uint8_t * encryptionPublicKey, std::vector > tunnels); LocalLeaseSet (std::shared_ptr identity, const uint8_t * buf, size_t len); virtual ~LocalLeaseSet () { delete[] m_Buffer; }; virtual uint8_t * GetBuffer () const { return m_Buffer; }; uint8_t * GetSignature () { return GetBuffer () + GetBufferLen () - GetSignatureLen (); }; virtual size_t GetBufferLen () const { return m_BufferLen; }; size_t GetSignatureLen () const { return m_Identity->GetSignatureLen (); }; uint8_t * GetLeases () { return m_Leases; }; const IdentHash& GetIdentHash () const { return m_Identity->GetIdentHash (); }; bool IsExpired () const; uint64_t GetExpirationTime () const { return m_ExpirationTime; }; void SetExpirationTime (uint64_t expirationTime) { m_ExpirationTime = expirationTime; }; bool operator== (const LeaseSet& other) const { return GetBufferLen () == other.GetBufferLen () && !memcmp (GetBuffer (), other.GetBuffer (), GetBufferLen ()); }; virtual uint8_t GetStoreType () const { return NETDB_STORE_TYPE_LEASESET; }; private: uint64_t m_ExpirationTime; // in milliseconds std::shared_ptr m_Identity; uint8_t * m_Buffer, * m_Leases; size_t m_BufferLen; }; class LocalLeaseSet2: public LocalLeaseSet { public: LocalLeaseSet2 (uint8_t storeType, std::shared_ptr identity, uint16_t keyType, uint16_t keyLen, const uint8_t * encryptionPublicKey, std::vector > tunnels); virtual ~LocalLeaseSet2 () { delete[] m_Buffer; }; uint8_t * GetBuffer () const { return m_Buffer + 1; }; size_t GetBufferLen () const { return m_BufferLen; }; uint8_t GetStoreType () const { return m_Buffer[0]; }; private: uint8_t * m_Buffer; // 1 byte store type + actual buffer size_t m_BufferLen; }; } } #endif