// SoftEther VPN Source Code // Cedar Communication Module // Hub.h // Header of Hub.c #ifndef HUB_H #define HUB_H #include "Account.h" #include "Logging.h" // Prefix in the access list for investigating whether the user name which is contained in a particular file #define ACCESS_LIST_INCLUDED_PREFIX "include:" // Included #define ACCESS_LIST_EXCLUDED_PREFIX "exclude:" // Not included // The default value for the cache expiration of the user name reference file of the access list (in seconds) #define ACCESS_LIST_INCLUDE_FILE_CACHE_LIFETIME 30 // The maximum length of the include file in the access list #define ACCESS_LIST_INCLUDE_FILE_MAX_SIZE (1024 * 1024) // tags of the URL in the access list #define ACCESS_LIST_URL_INFO_TAG "" // Old MAC address entry flush interval #define OLD_MAC_ADDRESS_ENTRY_FLUSH_INTERVAL 1000 // Default flooding queue length #define DEFAULT_FLOODING_QUEUE_LENGTH (32 * 1024 * 1024) // SoftEther link control packet struct SE_LINK { UCHAR DestMacAddress[6]; // Destination MAC address UCHAR SrcMacAddress[6]; // Source MAC address UCHAR SignatureS; // 'S' UCHAR SignatureE; // 'E' UCHAR Padding[2]; // Padding UINT Type; // Type UCHAR HubSignature[16]; // HUB signature UINT TransactionId; // Transaction ID UINT Data; // Data UCHAR Dummy[20]; // Dummy UCHAR Checksum[SHA1_SIZE]; // Checksum }; // Test packet reception record struct TEST_HISTORY { SESSION *s1; SESSION *s2; }; // State machine for link test struct SE_TEST { LOCK *lock; // Lock UINT64 LastTestPacketSentTime; // Time that sent the test packet at the last UINT NextTestPacketSendInterval; // Next test packet transmission interval bool CurrentTesting; // Test by sending a test packet currently UINT TransactionId; // Transaction ID LIST *TestHistory; // Reception history }; // Macro #define NO_ACCOUNT_DB(h) ((h)->FarmMember) // Database in the case of a stand-alone or a farm master HUB struct HUBDB { LIST *UserList; // User List LIST *GroupList; // Group List LIST *RootCertList; // Certificate list to trust LIST *CrlList; // CRL list LIST *AcList; // AC List }; // Traffic limiter struct TRAFFIC_LIMITER { UINT64 LastTime; // Time of last measured UINT64 Value; // The current value }; // Record the number of broadcast of each endpoint struct STORM { UCHAR MacAddress[6]; // MAC address UCHAR Padding[2]; // Padding IP SrcIp; // Source IP address IP DestIp; // Destination IP address UINT64 CheckStartTick; // Time that checking is started UINT CurrentBroadcastNum; // The current number of broadcasts UINT DiscardValue; // Ratio to discard the broadcast packet bool StrictMode; // Strict mode }; // Packet adapter information structure for HUB struct HUB_PA { CANCEL *Cancel; // Cancel object QUEUE *PacketQueue; // Packet queue bool MonitorPort; // Monitor port UINT64 Now; // Current time TRAFFIC_LIMITER UploadLimiter; // Upload bandwidth limit TRAFFIC_LIMITER DownloadLimiter; // Download bandwidth limitation SESSION *Session; // Session LIST *StormList; // Broadcast storm recording list UINT64 UsernameHash; // User name hash UINT64 UsernameHashSimple; // User name hash (simple) UINT64 GroupnameHash; // Group name hash }; // HUB options struct HUB_OPTION { // Standard options UINT DefaultGateway; // Used in IPC when DHCP cannot be used (e.g. WireGuard sessions) UINT DefaultSubnet; // Used in IPC when DHCP cannot be used (e.g. WireGuard sessions) UINT MaxSession; // Maximum number of simultaneous connections bool NoEnum; // Excluded from the enumeration // Advanced options bool NoArpPolling; // No ARP polling bool NoIPv6AddrPolling; // No IPv6 address polling bool NoIpTable; // Do not generate an IP address table bool NoMacAddressLog; // Not to write the registration log of the MAC address bool ManageOnlyPrivateIP; // Manage only private IP bool ManageOnlyLocalUnicastIPv6; // Manage only local unicast IPv6 addresses bool DisableIPParsing; // Disable the IP interpretation bool YieldAfterStorePacket; // Yield after the packet is stored bool NoSpinLockForPacketDelay; // Do not use the spin lock UINT BroadcastStormDetectionThreshold; // Broadcast number limit threshold bool FilterPPPoE; // Filtering the PPPoE (0x8863, 0x8864) bool FilterOSPF; // Filtering the OSPF (ip_proto = 89) bool FilterIPv4; // Filter IPv4 packets bool FilterIPv6; // Filter IPv6 packets bool FilterNonIP; // Filter all non-IP packets bool FilterBPDU; // Filter the BPDU packets UINT ClientMinimumRequiredBuild; // If the build number of the client is lower than a certain value, deny it bool NoIPv6DefaultRouterInRAWhenIPv6; // Delete the default router specification from the IPv6 router advertisement (only in the case of IPv6 physical connection) bool NoIPv4PacketLog; // Do not save the packet log for the IPv4 packet bool NoIPv6PacketLog; // Do not save the packet log of IPv6 packets bool NoLookBPDUBridgeId; // Don't look the BPDU bridge ID for switching bool NoManageVlanId; // Don't manage the VLAN ID UINT VlanTypeId; // Type ID of VLAN packets (usually 0x8100) bool FixForDLinkBPDU; // Apply the fix for the BPDU of the strange behavior of the D-Link UINT RequiredClientId; // Client ID UINT AdjustTcpMssValue; // TCP MSS adjustment value bool DisableAdjustTcpMss; // Completely disable the TCP MSS adjustment function bool NoDhcpPacketLogOutsideHub; // Suppress DHCP unrelated log bool DisableHttpParsing; // Prohibit the HTTP interpretation bool DisableUdpAcceleration; // Prohibit the UDP acceleration function bool DisableUdpFilterForLocalBridgeNic; // Not to perform filtering DHCP packets associated with local bridge NIC bool ApplyIPv4AccessListOnArpPacket; // Apply an IPv4 access list to the ARP packet bool RemoveDefGwOnDhcpForLocalhost; // Remove the designation of the DHCP server from the DHCP response packet addressed to localhost UINT SecureNAT_MaxTcpSessionsPerIp; // Maximum number of TCP sessions per IP address UINT SecureNAT_MaxTcpSynSentPerIp; // Maximum number of TCP sessions of SYN_SENT state per IP address UINT SecureNAT_MaxUdpSessionsPerIp; // Maximum number of UDP sessions per IP address UINT SecureNAT_MaxDnsSessionsPerIp; // Maximum number of DNS sessions per IP address UINT SecureNAT_MaxIcmpSessionsPerIp; // Maximum number of ICMP sessions per IP address UINT AccessListIncludeFileCacheLifetime; // Expiration of the access list external file (in seconds) bool DisableKernelModeSecureNAT; // Disable the kernel mode NAT bool DisableIpRawModeSecureNAT; // Disable the IP Raw Mode NAT bool DisableUserModeSecureNAT; // Disable the user mode NAT bool DisableCheckMacOnLocalBridge; // Disable the MAC address verification in local bridge bool DisableCorrectIpOffloadChecksum; // Disable the correction of checksum that is IP-Offloaded bool BroadcastLimiterStrictMode; // Strictly broadcast packets limiting mode UINT MaxLoggedPacketsPerMinute; // Maximum number of logging target packets per minute bool DoNotSaveHeavySecurityLogs; // Do not take heavy security log bool DropBroadcastsInPrivacyFilterMode; // Drop broadcasting packets if the both source and destination session is PrivacyFilter mode bool DropArpInPrivacyFilterMode; // Drop ARP packets if the both source and destination session is PrivacyFilter mode bool AllowSameUserInPrivacyFilterMode; // Allow packets if both the source and destination session user are the same bool SuppressClientUpdateNotification; // Suppress the update notification function on the VPN Client UINT FloodingSendQueueBufferQuota; // The global quota of send queues of flooding packets bool AssignVLanIdByRadiusAttribute; // Assign the VLAN ID for the VPN session, by the attribute value of RADIUS bool DenyAllRadiusLoginWithNoVlanAssign; // Deny all RADIUS login with no VLAN ID assigned bool SecureNAT_RandomizeAssignIp; // Randomize the assignment IP address for new DHCP client UINT DetectDormantSessionInterval; // Interval (seconds) threshold to detect a dormant VPN session bool NoPhysicalIPOnPacketLog; // Disable saving physical IP address on the packet log bool UseHubNameAsDhcpUserClassOption; // Add HubName to DHCP request as User-Class option bool UseHubNameAsRadiusNasId; // Add HubName to Radius request as NAS-Identifier attrioption }; // MAC table entry struct MAC_TABLE_ENTRY { UCHAR MacAddress[6]; // MAC address UCHAR Padding[2]; UINT VlanId; // VLAN ID SESSION *Session; // Session HUB_PA *HubPa; // HUB packet adapter UINT64 CreatedTime; // Creation date and time UINT64 UpdatedTime; // Updating date }; // IP table entry struct IP_TABLE_ENTRY { IP Ip; // IP address SESSION *Session; // Session bool DhcpAllocated; // Assigned by DHCP UINT64 CreatedTime; // Creation date and time UINT64 UpdatedTime; // Updating date UCHAR MacAddress[6]; // MAC address }; // Loop List struct LOOP_LIST { UINT NumSessions; SESSION **Session; }; // Access list struct ACCESS { // IPv4 UINT Id; // ID wchar_t Note[MAX_ACCESSLIST_NOTE_LEN + 1]; // Note // --- Please add items to the bottom of here for enhancements --- bool Active; // Enable flag UINT Priority; // Priority bool Discard; // Discard flag UINT SrcIpAddress; // Source IP address UINT SrcSubnetMask; // Source subnet mask UINT DestIpAddress; // Destination IP address UINT DestSubnetMask; // Destination subnet mask UINT Protocol; // Protocol UINT SrcPortStart; // Source port number starting point UINT SrcPortEnd; // Source port number end point UINT DestPortStart; // Destination port number starting point UINT DestPortEnd; // Destination port number end point UINT64 SrcUsernameHash; // Source user name hash bool IsSrcUsernameIncludeOrExclude; // The source user name is formed as the "include:" or "exclude:" char SrcUsername[MAX_USERNAME_LEN + 1]; bool IsDestUsernameIncludeOrExclude; // The destination user name is formed as "include:" or "exclude:" UINT64 DestUsernameHash; // Destination user name hash char DestUsername[MAX_USERNAME_LEN + 1]; bool CheckSrcMac; // Presence of a source MAC address setting UCHAR SrcMacAddress[6]; // Source MAC address UCHAR SrcMacMask[6]; // Source MAC address mask bool CheckDstMac; // Whether the setting of the destination MAC address exists UCHAR DstMacAddress[6]; // Destination MAC address UCHAR DstMacMask[6]; // Destination MAC address mask bool CheckTcpState; // The state of the TCP connection bool Established; // Established(TCP) UINT Delay; // Delay UINT Jitter; // Jitter UINT Loss; // Packet loss char RedirectUrl[MAX_REDIRECT_URL_LEN + 1]; // URL to redirect to // IPv6 bool IsIPv6; // Whether it's an IPv6 IPV6_ADDR SrcIpAddress6; // The source IP address (IPv6) IPV6_ADDR SrcSubnetMask6; // Source subnet mask (IPv6) IPV6_ADDR DestIpAddress6; // Destination IP address (IPv6) IPV6_ADDR DestSubnetMask6; // Destination subnet mask (IPv6) // --- Please add items to the above of here for enhancements --- // For management UINT UniqueId; // Unique ID }; // Ticket struct TICKET { UINT64 CreatedTick; // Creation date and time UCHAR Ticket[SHA1_SIZE]; // Ticket char Username[MAX_USERNAME_LEN + 1]; // User name char UsernameReal[MAX_USERNAME_LEN + 1]; // Real user name char GroupName[MAX_USERNAME_LEN + 1]; // Group name char SessionName[MAX_SESSION_NAME_LEN + 1]; // Session name POLICY Policy; // Policy }; // Traffic difference struct TRAFFIC_DIFF { UINT Type; // Type TRAFFIC Traffic; // Traffic char *HubName; // HUB name char *Name; // Name }; // Administration options struct ADMIN_OPTION { char Name[MAX_ADMIN_OPTION_NAME_LEN + 1]; // Name UINT Value; // Data wchar_t Descrption[MAX_SIZE]; // Descrption }; // Certificate Revocation List entry struct CRL { X_SERIAL *Serial; // Serial number NAME *Name; // Name information UCHAR DigestMD5[MD5_SIZE]; // MD5 hash UCHAR DigestSHA1[SHA1_SIZE]; // SHA-1 hash }; // Access control struct AC { UINT Id; // ID UINT Priority; // Priority bool Deny; // Deny access bool Masked; // Is masked IP IpAddress; // IP address IP SubnetMask; // Subnet mask }; // User List struct USERLIST { char Filename[MAX_PATH]; // File name LIST *UserHashList; // Hash list of user names }; // HUB structure struct HUB { LOCK *lock; // Lock LOCK *lock_online; // Lock for Online REF *ref; // Reference counter CEDAR *Cedar; // Cedar UINT Type; // Type HUBDB *HubDb; // Database char *Name; // The name of the HUB LOCK *RadiusOptionLock; // Lock for Radius option char *RadiusServerName; // Radius server name UINT RadiusServerPort; // Radius server port number UINT RadiusRetryInterval; // Radius retry interval BUF *RadiusSecret; // Radius shared key char RadiusSuffixFilter[MAX_SIZE]; // Radius suffix filter char RadiusRealm[MAX_SIZE]; // Radius realm (optional) bool RadiusConvertAllMsChapv2AuthRequestToEap; // Convert all MS-CHAPv2 auth request to EAP bool RadiusUsePeapInsteadOfEap; // Use PEAP instead of EAP volatile bool Halt; // Halting flag bool Offline; // Offline bool BeingOffline; // Be Doing Offline LIST *SessionList; // Session list COUNTER *SessionCounter; // Session number generation counter TRAFFIC *Traffic; // Traffic information TRAFFIC *OldTraffic; // Old traffic information LOCK *TrafficLock; // Traffic lock COUNTER *NumSessions; // The current number of sessions COUNTER *NumSessionsClient; // The current number of sessions (client) COUNTER *NumSessionsBridge; // The current number of sessions (bridge) HUB_OPTION *Option; // HUB options HASH_LIST *MacHashTable; // MAC address hash table LIST *IpTable; // IP address table LIST *MonitorList; // Monitor port session list LIST *LinkList; // Linked list UCHAR HubSignature[16]; // HUB signature UCHAR HubMacAddr[6]; // MAC address of the HUB IP HubIp; // IP address of the HUB (IPv4) IPV6_ADDR HubIpV6; // IP address of the HUB (IPv6) UINT HubIP6Id; // IPv6 packet ID of the HUB UCHAR Padding[2]; // Padding LOCK *LoopListLock; // Lock for the loop list UINT NumLoopList; // Number of loop lists LOOP_LIST **LoopLists; // Loop List LIST *AccessList; // Access list HUB_LOG LogSetting; // Log Settings LOG *PacketLogger; // Packet logger LOG *SecurityLogger; // Security logger UCHAR HashedPassword[SHA1_SIZE]; // Password UCHAR SecurePassword[SHA1_SIZE]; // Secure password LIST *TicketList; // Ticket list bool FarmMember; // Farm member UINT64 LastIncrementTraffic; // Traffic reporting time UINT64 LastSendArpTick; // ARP transmission time of the last SNAT *SecureNAT; // SecureNAT bool EnableSecureNAT; // SecureNAT enable / disable flag VH_OPTION *SecureNATOption; // SecureNAT Option THREAD *WatchDogThread; // Watchdog thread EVENT *WatchDogEvent; // Watchdog event bool WatchDogStarted; // Whether the watchdog thread is used volatile bool HaltWatchDog; // Stop the watchdog thread LIST *AdminOptionList; // Administration options list UINT64 CreatedTime; // Creation date and time UINT64 LastCommTime; // Last communication date and time UINT64 LastLoginTime; // Last login date and time UINT NumLogin; // Number of logins bool HubIsOnlineButHalting; // Virtual HUB is really online, but it is in offline state to stop UINT FarmMember_MaxSessionClient; // Maximum client connection sessions for cluster members UINT FarmMember_MaxSessionBridge; // Maximum bridge connection sessions for cluster members bool FarmMember_MaxSessionClientBridgeApply; // Apply the FarmMember_MaxSession* UINT CurrentVersion; // The current version UINT LastVersion; // Version of when the update notification is issued at the last wchar_t *Msg; // Message to be displayed when the client is connected LIST *UserList; // Cache of the user list file bool IsVgsHub; // Whether it's a VGS Virtual HUB bool IsVgsSuperRelayHub; // Whether it's a VGS Super Relay Virtual HUB UINT64 LastFlushTick; // Last tick to flush the MAC address table bool StopAllLinkFlag; // Stop all link flag bool ForceDisableComm; // Disable the communication function }; // Global variable extern ADMIN_OPTION admin_options[]; extern UINT num_admin_options; // Function prototype HUBDB *NewHubDb(); void DeleteHubDb(HUBDB *d); HUB *NewHub(CEDAR *cedar, char *HubName, HUB_OPTION *option); void SetHubMsg(HUB *h, wchar_t *msg); wchar_t *GetHubMsg(HUB *h); void GenHubMacAddress(UCHAR *mac, char *name); void GenHubIpAddress(IP *ip, char *name); bool IsHubIpAddress(IP *ip); bool IsHubIpAddress32(UINT ip32); bool IsHubIpAddress64(IPV6_ADDR *addr); bool IsHubMacAddress(UCHAR *mac); void ReleaseHub(HUB *h); void CleanupHub(HUB *h); int CompareHub(void *p1, void *p2); void LockHubList(CEDAR *cedar); void UnlockHubList(CEDAR *cedar); HUB *GetHub(CEDAR *cedar, char *name); bool IsHub(CEDAR *cedar, char *name); void StopHub(HUB *h); void AddSession(HUB *h, SESSION *s); void DelSession(HUB *h, SESSION *s); SESSION *SearchSessionByUniqueId(HUB *h, UINT id); UINT GetNewUniqueId(HUB *h); void StopAllSession(HUB *h); bool HubPaInit(SESSION *s); void HubPaFree(SESSION *s); CANCEL *HubPaGetCancel(SESSION *s); UINT HubPaGetNextPacket(SESSION *s, void **data); bool HubPaPutPacket(SESSION *s, void *data, UINT size); PACKET_ADAPTER *GetHubPacketAdapter(); int CompareMacTable(void *p1, void *p2); UINT GetHashOfMacTable(void *p); void StorePacket(HUB *hub, SESSION *s, PKT *packet); bool StorePacketFilter(SESSION *s, PKT *packet); void StorePacketToHubPa(HUB_PA *dest, SESSION *src, void *data, UINT size, PKT *packet, bool is_flooding, bool no_check_acl); void SetHubOnline(HUB *h); void SetHubOffline(HUB *h); SESSION *GetSessionByName(HUB *hub, char *name); int CompareIpTable(void *p1, void *p2); bool StorePacketFilterByPolicy(SESSION *s, PKT *p); bool DeleteIPv6DefaultRouterInRA(PKT *p); bool StorePacketFilterByTrafficLimiter(SESSION *s, PKT *p); void IntoTrafficLimiter(TRAFFIC_LIMITER *tr, PKT *p); bool IsMostHighestPriorityPacket(SESSION *s, PKT *p); bool IsPriorityPacketForQoS(PKT *p); int CompareStormList(void *p1, void *p2); STORM *SearchStormList(HUB_PA *pa, UCHAR *mac_address, IP *src_ip, IP *dest_ip, bool strict); STORM *AddStormList(HUB_PA *pa, UCHAR *mac_address, IP *src_ip, IP *dest_ip, bool strict); bool CheckBroadcastStorm(HUB *hub, SESSION *s, PKT *p); void AddRootCert(HUB *hub, X *x); int CmpAccessList(void *p1, void *p2); void InitAccessList(HUB *hub); void FreeAccessList(HUB *hub); void AddAccessList(HUB *hub, ACCESS *a); void AddAccessListEx(HUB *hub, ACCESS *a, bool no_sort, bool no_reassign_id); bool IsTcpPacketNcsiHttpAccess(PKT *p); UINT64 UsernameToInt64(char *name); void MakeSimpleUsernameRemoveNtDomain(char *dst, UINT dst_size, char *src); bool ApplyAccessListToStoredPacket(HUB *hub, SESSION *s, PKT *p); void ForceRedirectToUrl(HUB *hub, SESSION *src_session, PKT *p, char *redirect_url); BUF *BuildRedirectToUrlPayload(HUB *hub, SESSION *s, char *redirect_url); bool ApplyAccessListToForwardPacket(HUB *hub, SESSION *src_session, SESSION *dest_session, PKT *p); bool IsPacketMaskedByAccessList(SESSION *s, PKT *p, ACCESS *a, UINT64 dest_username, UINT64 dest_groupname, SESSION *dest_session); void GetAccessListStr(char *str, UINT size, ACCESS *a); void DeleteOldIpTableEntry(LIST *o); void SetRadiusServer(HUB *hub, char *name, UINT port, char *secret); void SetRadiusServerEx(HUB *hub, char *name, UINT port, char *secret, UINT interval); bool GetRadiusServer(HUB *hub, char *name, UINT size, UINT *port, char *secret, UINT secret_size); bool GetRadiusServerEx(HUB *hub, char *name, UINT size, UINT *port, char *secret, UINT secret_size, UINT *interval); bool GetRadiusServerEx2(HUB *hub, char *name, UINT size, UINT *port, char *secret, UINT secret_size, UINT *interval, char *suffix_filter, UINT suffix_filter_size); int CompareCert(void *p1, void *p2); void GetHubLogSetting(HUB *h, HUB_LOG *setting); void SetHubLogSetting(HUB *h, HUB_LOG *setting); void SetHubLogSettingEx(HUB *h, HUB_LOG *setting, bool no_change_switch_type); void DeleteExpiredIpTableEntry(LIST *o); void DeleteExpiredMacTableEntry(HASH_LIST *h); void AddTrafficDiff(HUB *h, char *name, UINT type, TRAFFIC *traffic); void IncrementHubTraffic(HUB *h); void EnableSecureNAT(HUB *h, bool enable); void EnableSecureNATEx(HUB *h, bool enable, bool no_change); void StartHubWatchDog(HUB *h); void StopHubWatchDog(HUB *h); void HubWatchDogThread(THREAD *t, void *param); int CompareAdminOption(void *p1, void *p2); UINT GetHubAdminOptionEx(HUB *h, char *name, UINT default_value); UINT GetHubAdminOption(HUB *h, char *name); void DeleteAllHubAdminOption(HUB *h, bool lock); void AddHubAdminOptionsDefaults(HUB *h, bool lock); bool IsCertMatchCrl(X *x, CRL *crl); bool IsCertMatchCrlList(X *x, LIST *o); wchar_t *GenerateCrlStr(CRL *crl); bool IsValidCertInHub(HUB *h, X *x); void FreeCrl(CRL *crl); CRL *CopyCrl(CRL *crl); int CmpAc(void *p1, void *p2); LIST *NewAcList(); void AddAc(LIST *o, AC *ac); bool DelAc(LIST *o, UINT id); AC *GetAc(LIST *o, UINT id); void SetAc(LIST *o, UINT id, AC *ac); void DelAllAc(LIST *o); void SetAcList(LIST *o, LIST *src); void NormalizeAcList(LIST *o); bool IsIpMaskedByAc(IP *ip, AC *ac); bool IsIpDeniedByAcList(IP *ip, LIST *o); char *GenerateAcStr(AC *ac); void FreeAcList(LIST *o); LIST *CloneAcList(LIST *o); bool IsIPManagementTargetForHUB(IP *ip, HUB *hub); wchar_t *GetHubAdminOptionHelpString(char *name); void HubOptionStructToData(RPC_ADMIN_OPTION *ao, HUB_OPTION *o, char *hub_name); ADMIN_OPTION *NewAdminOption(char *name, UINT value); void DataToHubOptionStruct(HUB_OPTION *o, RPC_ADMIN_OPTION *ao); UINT GetHubAdminOptionData(RPC_ADMIN_OPTION *ao, char *name); bool IsURLMsg(wchar_t *str, char *url, UINT url_size); LIST *NewUserList(); void DeleteAllUserListCache(LIST *o); void FreeUserList(LIST *o); void FreeUserListEntry(USERLIST *u); int CompareUserList(void *p1, void *p2); USERLIST *LoadUserList(LIST *o, char *filename); USERLIST *FindUserList(LIST *o, char *filename); bool IsUserMatchInUserList(LIST *o, char *filename, UINT64 user_hash); bool IsUserMatchInUserListWithCacheExpires(LIST *o, char *filename, UINT64 user_hash, UINT64 lifetime); bool IsUserMatchInUserListWithCacheExpiresAcl(LIST *o, char *name_in_acl, UINT64 user_hash, UINT64 lifetime); bool CheckMaxLoggedPacketsPerMinute(SESSION *s, UINT max_packets, UINT64 now); EAP_CLIENT *HubNewEapClient(CEDAR *cedar, char *hubname, char *client_ip_str, char *username, char *vpn_protocol_state_str); #endif // HUB_H