/*++ Copyright (c) 1994 Microsoft Corporation Module Name: dhcpdef.h Abstract: This module contains data type definitions for the DHCP client. Author: Madan Appiah (madana) 31-Oct-1993 Environment: User Mode - Win32 Revision History: --*/ #ifndef _DHCPDEF_ #define _DHCPDEF_ // // the registry key is of different type between NT and Memphis. // #ifdef VXD typedef VMMHKEY DHCPKEY; #else // NT typedef HKEY DHCPKEY; #endif // // The amount of time to wait for a retry if we have no IP address // #define ADDRESS_ALLOCATION_RETRY 300 // 5 minutes #define EASYNET_ALLOCATION_RETRY 300 // 5 minutes // // The amount of time to wait for a retry if we have an IP address, // but the renewal on startup failed. // #if !DBG #define RENEWAL_RETRY 600 // 10 minutes #else #define RENEWAL_RETRY 60 // 1 minute #endif // // The number of times to send a request before giving up waiting // for a response. // #define DHCP_MAX_RETRIES 4 #define DHCP_ACCEPT_RETRIES 2 #define DHCP_MAX_RENEW_RETRIES 3 // // amount of time required between consequtive send_informs.. // #define DHCP_DEFAULT_INFORM_SEPARATION_INTERVAL 60 // one minute // // amount of time to wait after an address conflict is detected // #define ADDRESS_CONFLICT_RETRY 10 // 10 seconds // // // Expoenential backoff delay. // #define DHCP_EXPO_DELAY 4 // // The maximum total amount of time to spend trying to obtain an // initial address. // // This delay is computed as below: // // DHCP_MAX_RETRIES - n // DHCP_EXPO_DELAY - m // WAIT_FOR_RESPONSE_TIME - w // MAX_STARTUP_DELAY - t // // Binary Exponential backup Algorithm. // // t > m * (n*(n+1)/2) + n + w*n // ------------------- --- // random wait + response wait // #define MAX_STARTUP_DELAY \ DHCP_EXPO_DELAY * \ (( DHCP_MAX_RETRIES * (DHCP_MAX_RETRIES + 1)) / 2) + \ DHCP_MAX_RETRIES + DHCP_MAX_RETRIES * WAIT_FOR_RESPONSE_TIME #define MAX_RENEW_DELAY \ DHCP_EXPO_DELAY * \ (( DHCP_MAX_RENEW_RETRIES * (DHCP_MAX_RENEW_RETRIES + 1)) / 2) + \ DHCP_MAX_RENEW_RETRIES + DHCP_MAX_RENEW_RETRIES * \ WAIT_FOR_RESPONSE_TIME // // The maximum amount of time to wait between renewal retries, if the // lease period is between T1 and T2. // #define MAX_RETRY_TIME 3600 // 1 hour // // Minimum time to sleep between retries. // #if DBG #define MIN_SLEEP_TIME 1 // 1 sec. #else #define MIN_SLEEP_TIME 5 // 5 sec. #endif // // Minimum lease time. // #define DHCP_MINIMUM_LEASE 60*60 // 1 hour. #define DHCP_DNS_TTL 0 // let the DNS api decide.. // // IP Autoconfiguration defaults // #define DHCP_IPAUTOCONFIGURATION_DEFAULT_SUBNET "169.254.0.0" #define DHCP_IPAUTOCONFIGURATION_DEFAULT_MASK "255.255.0.0" // define the reserved range of autonet addresses.. #define DHCP_RESERVED_AUTOCFG_SUBNET "169.254.255.0" #define DHCP_RESERVED_AUTOCFG_MASK "255.255.255.0" // will dhcp pick any reserved autonet addr? NO! #define DHCP_RESERVED_AUTOCFG_FLAG (1) // self default route (0,0,) will have a metric of (3) #define DHCP_SELF_DEFAULT_METRIC (3) // // General purpose macros // #define MIN(a,b) ((a) < (b) ? (a) : (b)) #define MAX(a,b) ((a) > (b) ? (a) : (b)) #if DBG #define STATIC #else #define STATIC static #endif #define LOCK_RENEW_LIST() EnterCriticalSection(&DhcpGlobalRenewListCritSect) #define UNLOCK_RENEW_LIST() LeaveCriticalSection(&DhcpGlobalRenewListCritSect) #define LOCK_INTERFACE() EnterCriticalSection(&DhcpGlobalSetInterfaceCritSect) #define UNLOCK_INTERFACE() LeaveCriticalSection(&DhcpGlobalSetInterfaceCritSect) #define LOCK_OPTIONS_LIST() EnterCriticalSection(&DhcpGlobalOptionsListCritSect) #define UNLOCK_OPTIONS_LIST() LeaveCriticalSection(&DhcpGlobalOptionsListCritSect) #define ZERO_TIME 0x0 // in secs. // // length of the time string returned by ctime. // actually it is 26. // #define TIME_STRING_LEN 32 // // String size when a long converted to printable string. // 2^32 = 4294967295 (10 digits) + termination char. // #define LONG_STRING_SIZE 12 // // A renewal function. // typedef DWORD (*PRENEWAL_FUNCTION) ( IN PVOID Context, LPDWORD Sleep ); // // DHCP Client-Identifier (option 61) // typedef struct _DHCP_CLIENT_IDENTIFIER { BYTE *pbID; DWORD cbID; BYTE bType; BOOL fSpecified; } DHCP_CLIENT_IDENTIFIER; // // state information for IP autoconfiguration // typedef struct _DHCP_IPAUTOCONFIGURATION_CONTEXT { DHCP_IP_ADDRESS Address; DHCP_IP_ADDRESS Subnet; DHCP_IP_ADDRESS Mask; DWORD Seed; } DHCP_IPAUTOCONFIGURATION_CONTEXT; // // A DHCP context block. One block is maintained per NIC (network // interface Card). // typedef struct _DHCP_CONTEXT { // list of adapters. LIST_ENTRY NicListEntry; // to place in renewal list. LIST_ENTRY RenewalListEntry; // Ref count LONG RefCount; // failed to renew because of lack of resources? BOOL bFailedRenewal; // hardware type. BYTE HardwareAddressType; // HW address, just follows this context structure. LPBYTE HardwareAddress; // Length of HW address. DWORD HardwareAddressLength; // Selected IpAddress, NetworkOrder. DHCP_IP_ADDRESS IpAddress; // Selected subnet mask. NetworkOrder. DHCP_IP_ADDRESS SubnetMask; // Selected DHCP server address. Network Order. DHCP_IP_ADDRESS DhcpServerAddress; // Desired IpAddress the client request in next discover. DHCP_IP_ADDRESS DesiredIpAddress; // The ip address that was used just before losing this.. DHCP_IP_ADDRESS NackedIpAddress; // The ip address that just resulted in address conflict DHCP_IP_ADDRESS ConflictAddress; // current domain name for this adapter. BYTE DomainName[260]; // IP Autoconfiguration state DHCP_IPAUTOCONFIGURATION_CONTEXT IPAutoconfigurationContext; DHCP_CLIENT_IDENTIFIER ClientIdentifier; // Lease time in seconds. DWORD Lease; // Time the lease was obtained. time_t LeaseObtained; // Time the client should start renew its address. time_t T1Time; // Time the client should start broadcast to renew address. time_t T2Time; // Time the lease expires. The clinet should stop using the // IpAddress. // LeaseObtained < T1Time < T2Time < LeaseExpires time_t LeaseExpires; // when was the last time an inform was sent? time_t LastInformSent; // how many seconds between consecutive informs? DWORD InformSeparationInterval; // # of gateways and the currently plumbed gateways are stored here DWORD nGateways; DHCP_IP_ADDRESS *GatewayAddresses; // # of static routes and the actual static routes are stored here DWORD nStaticRoutes; DHCP_IP_ADDRESS *StaticRouteAddresses; // Time for next renewal state. time_t RunTime; // seconds passed since boot. DWORD SecondsSinceBoot; // should we ping the g/w or always assume g/w is NOT present? BOOL DontPingGatewayFlag; // can we use DHCP_INFORM packets or should we use DHCP_REQUEST instead? BOOL UseInformFlag; // Release on shutdown? ULONG ReleaseOnShutdown; // turn timers on off? BOOL fTimersEnabled; #ifdef BOOTPERF // allow saving of quickboot information? ULONG fQuickBootEnabled; #endif BOOTPERF // what to function at next renewal state. PRENEWAL_FUNCTION RenewalFunction; // A semaphore for synchronization to this structure HANDLE RenewHandle; // the list of options to send and the list of options received LIST_ENTRY SendOptionsList; LIST_ENTRY RecdOptionsList; // the list of options defining the fallback configuration LIST_ENTRY FbOptionsList; // the opened key to the adapter info storage location DHCPKEY AdapterInfoKey; // the class this adapter belongs to LPBYTE ClassId; DWORD ClassIdLength; // Message buffer to send and receive DHCP message. union { PDHCP_MESSAGE MessageBuffer; PMADCAP_MESSAGE MadcapMessageBuffer; }; // state information for this interface. see below for manifests struct /* anonymous */ { unsigned Plumbed : 1 ; // is this interface plumbed unsigned ServerReached : 1 ; // Did we reach the server ever unsigned AutonetEnabled: 1 ; // Autonet enabled? unsigned HasBeenLooked : 1 ; // Has this context been looked at? unsigned DhcpEnabled : 1 ; // Is this context dhcp enabled? unsigned AutoMode : 1 ; // Currently in autonet mode? unsigned MediaState : 2 ; // One of connected, disconnected, reconnected, unbound unsigned MDhcp : 1 ; // Is this context created for Mdhcp? unsigned PowerResumed : 1 ; // Was power just resumed on this interface? unsigned Fallback : 1 ; // Is fallback configuration available? unsigned ApiContext : 1 ; // Is this context created by an API call? unsigned UniDirectional: 1 ; // Is this context created for a unidirectional adapter? } State; // // The following 2 fields are for the cancellation mechanism. // DWORD NumberOfWaitingThreads; WSAEVENT CancelEvent; // machine specific information PVOID LocalInformation; } DHCP_CONTEXT, *PDHCP_CONTEXT; #define ADDRESS_PLUMBED(Ctxt) ((Ctxt)->State.Plumbed = 1) #define ADDRESS_UNPLUMBED(Ctxt) ((Ctxt)->State.Plumbed = 0) #define IS_ADDRESS_PLUMBED(Ctxt) ((Ctxt)->State.Plumbed) #define IS_ADDRESS_UNPLUMBED(Ctxt) (!(Ctxt)->State.Plumbed) #define SERVER_REACHED(Ctxt) ((Ctxt)->State.ServerReached = 1) #define SERVER_UNREACHED(Ctxt) ((Ctxt)->State.ServerReached = 0) #define IS_SERVER_REACHABLE(Ctxt) ((Ctxt)->State.ServerReached) #define IS_SERVER_UNREACHABLE(Ctxt) (!(Ctxt)->State.ServerReached) #define AUTONET_ENABLED(Ctxt) ((Ctxt)->State.AutonetEnabled = 1) #define AUTONET_DISABLED(Ctxt) ((Ctxt)->State.AutonetEnabled = 0) #define IS_AUTONET_ENABLED(Ctxt) ((Ctxt)->State.AutonetEnabled) #define IS_AUTONET_DISABLED(Ctxt) (!(Ctxt)->State.AutonetEnabled) #define CTXT_WAS_LOOKED(Ctxt) ((Ctxt)->State.HasBeenLooked = 1) #define CTXT_WAS_NOT_LOOKED(Ctxt) ((Ctxt)->State.HasBeenLooked = 0) #define WAS_CTXT_LOOKED(Ctxt) ((Ctxt)->State.HasBeenLooked) #define WAS_CTXT_NOT_LOOKED(Ctxt) (!(Ctxt)->State.HasBeenLooked) #define DHCP_ENABLED(Ctxt) ((Ctxt)->State.DhcpEnabled = 1) #define DHCP_DISABLED(Ctxt) ((Ctxt)->State.DhcpEnabled = 0) #define IS_DHCP_ENABLED(Ctxt) ((Ctxt)->State.DhcpEnabled ) #define IS_DHCP_DISABLED(Ctxt) (!(Ctxt)->State.DhcpEnabled ) #define FALLBACK_ENABLED(Ctxt) ((Ctxt)->State.Fallback = 1) #define FALLBACK_DISABLED(Ctxt) ((Ctxt)->State.Fallback = 0) #define IS_FALLBACK_ENABLED(Ctxt) ((Ctxt)->State.Fallback) #define IS_FALLBACK_DISABLED(Ctxt) (!(Ctxt)->State.Fallback) #define APICTXT_ENABLED(Ctxt) ((Ctxt)->State.ApiContext = 1) #define APICTXT_DISABLED(Ctxt) ((Ctxt)->State.ApiContext = 0) #define IS_APICTXT_ENABLED(Ctxt) ((Ctxt)->State.ApiContext) #define IS_APICTXT_DISABLED(Ctxt) (!(Ctxt)->State.ApiContext) #define IS_UNIDIRECTIONAL(Ctxt) ((Ctxt)->State.UniDirectional) // // DNS resolver uses these without defines. So, don't change them. // #define ADDRESS_TYPE_AUTO 1 #define ADDRESS_TYPE_DHCP 0 #define ACQUIRED_DHCP_ADDRESS(Ctxt) ((Ctxt)->State.AutoMode = 0 ) #define ACQUIRED_AUTO_ADDRESS(Ctxt) ((Ctxt)->State.AutoMode = 1 ) #define IS_ADDRESS_DHCP(Ctxt) (!(Ctxt)->State.AutoMode) #define IS_ADDRESS_AUTO(Ctxt) ((Ctxt)->State.AutoMode) #define MEDIA_CONNECTED(Ctxt) ((Ctxt)->State.MediaState = 0) #define MEDIA_RECONNECTED(Ctxt) ((Ctxt)->State.MediaState = 1) #define MEDIA_DISCONNECTED(Ctxt) ((Ctxt)->State.MediaState = 2) #define MEDIA_UNBOUND(Ctxt) ((Ctxt)->State.MediaState = 3) #define IS_MEDIA_CONNECTED(Ctxt) ((Ctxt)->State.MediaState == 0) #define IS_MEDIA_RECONNECTED(Ctxt) ((Ctxt)->State.MediaState == 1) #define IS_MEDIA_DISCONNECTED(Ctxt) ((Ctxt)->State.MediaState == 2) #define IS_MEDIA_UNBOUND(Ctxt) ((Ctxt)->State.MediaState == 3) #define _INIT_STATE1(Ctxt) do{(Ctxt)->State.Plumbed = 0; (Ctxt)->State.AutonetEnabled=0;}while(0) #define _INIT_STATE2(Ctxt) do{(Ctxt)->State.HasBeenLooked = 0; (Ctxt)->State.DhcpEnabled=1;}while(0) #define _INIT_STATE3(Ctxt) do{(Ctxt)->State.AutoMode = 0; (Ctxt)->State.MediaState = 0;}while(0) #define INIT_STATE(Ctxt) do{_INIT_STATE1(Ctxt);_INIT_STATE2(Ctxt);_INIT_STATE3(Ctxt);}while(0) #define MDHCP_CTX(Ctxt) ((Ctxt)->State.MDhcp = 1) #define NONMDHCP_CTX(Ctxt) ((Ctxt)->State.MDhcp = 0) #define IS_MDHCP_CTX(Ctxt) ((Ctxt)->State.MDhcp ) #define SET_MDHCP_STATE( Ctxt ) { \ ADDRESS_PLUMBED( Ctxt ), MDHCP_CTX( Ctxt ); \ } #define POWER_RESUMED(Ctxt) ((Ctxt)->State.PowerResumed = 1) #define POWER_NOT_RESUMED(Ctxt) ((Ctxt)->State.PowerResumed = 0) #define IS_POWER_RESUMED(Ctxt) ((Ctxt)->State.PowerResumed ) LPSTR _inline // the string'ed version of state (same as Buffer) ConvertStateToString( // convert from bits to string IN PDHCP_CONTEXT Ctxt, // The context to print state for IN LPBYTE Buffer // The input buffer to write state into ) { strcpy(Buffer, IS_DHCP_ENABLED(Ctxt)?"DhcpEnabled ":"DhcpDisabled "); strcat(Buffer, IS_AUTONET_ENABLED(Ctxt)?"AutonetEnabled ":"AutonetDisabled "); strcat(Buffer, IS_ADDRESS_DHCP(Ctxt)?"DhcpMode ":"AutoMode "); strcat(Buffer, IS_ADDRESS_PLUMBED(Ctxt)?"Plumbed ":"UnPlumbed "); strcat(Buffer, IS_SERVER_REACHABLE(Ctxt)?"(server-present) ":"(server-absent) "); strcat(Buffer, WAS_CTXT_LOOKED(Ctxt)? "(seen) ":"(not-seen) "); if(IS_MEDIA_CONNECTED(Ctxt) ) strcat(Buffer, "MediaConnected\n"); else if(IS_MEDIA_RECONNECTED(Ctxt)) strcat(Buffer, "MediaReConnected\n"); else if(IS_MEDIA_DISCONNECTED(Ctxt)) strcat(Buffer, "MediaDisConnected\n"); else strcat(Buffer, "MediaUnknownState\n"); strcat(Buffer, IS_MDHCP_CTX(Ctxt)? "(MDhcp) ":""); strcat(Buffer, IS_POWER_RESUMED(Ctxt)? "Pwr Resumed ":""); return Buffer; } // // Release on shutdown values.. // #define RELEASE_ON_SHUTDOWN_OBEY_DHCP_SERVER 2 #define RELEASE_ON_SHUTDOWN_ALWAYS 1 #define RELEASE_ON_SHUTDOWN_NEVER 0 // // The types of machines.. laptop would have aggressive EASYNET behaviour. // #define MACHINE_NONE 0 #define MACHINE_LAPTOP 1 // // Here is the set of expected options by the client -- If they are absent, not much can be done // typedef struct _DHCP_EXPECTED_OPTIONS { BYTE UNALIGNED* MessageType; DHCP_IP_ADDRESS UNALIGNED* SubnetMask; DHCP_IP_ADDRESS UNALIGNED* LeaseTime; DHCP_IP_ADDRESS UNALIGNED* ServerIdentifier; BYTE UNALIGNED* AutoconfOption; BYTE UNALIGNED* DomainName; DWORD DomainNameSize; } DHCP_EXPECTED_OPTIONS, *PDHCP_EXPECTED_OPTIONS, *LPDHCP_EXPECTED_OPTIONS; // // Here is the set of options understood by the client // typedef struct _DHCP_FULL_OPTIONS { BYTE UNALIGNED* MessageType; // What kind of message is this? // Basic IP Parameters DHCP_IP_ADDRESS UNALIGNED* SubnetMask; DHCP_IP_ADDRESS UNALIGNED* LeaseTime; DHCP_IP_ADDRESS UNALIGNED* T1Time; DHCP_IP_ADDRESS UNALIGNED* T2Time; DHCP_IP_ADDRESS UNALIGNED* GatewayAddresses; DWORD nGateways; DHCP_IP_ADDRESS UNALIGNED* ClassedRouteAddresses; DWORD nClassedRoutes; BYTE UNALIGNED* ClasslessRouteAddresses; DWORD nClasslessRoutes; DHCP_IP_ADDRESS UNALIGNED* ServerIdentifier; // DNS parameters BYTE UNALIGNED* DnsFlags; BYTE UNALIGNED* DnsRcode1; BYTE UNALIGNED* DnsRcode2; BYTE UNALIGNED* DomainName; DWORD DomainNameSize; DHCP_IP_ADDRESS UNALIGNED* DnsServerList; DWORD nDnsServers; // Server message is something that the server may inform us of BYTE UNALIGNED* ServerMessage; DWORD ServerMessageLength; } DHCP_FULL_OPTIONS, *PDHCP_FULL_OPTIONS, *LPDHCP_FULL_OPTIONS; typedef DHCP_FULL_OPTIONS DHCP_OPTIONS, *PDHCP_OPTIONS; typedef struct _MADCAP_OPTIONS { DWORD UNALIGNED* LeaseTime; DWORD UNALIGNED* Time; DWORD UNALIGNED* RetryTime; DHCP_IP_ADDRESS UNALIGNED* ServerIdentifier; BYTE * ClientGuid; WORD ClientGuidLength; BYTE * MScopeList; WORD MScopeListLength; DWORD UNALIGNED* MCastLeaseStartTime; BYTE * AddrRangeList; WORD AddrRangeListSize; DWORD UNALIGNED* McastScope; DWORD UNALIGNED* Error; } MADCAP_OPTIONS, *PMADCAP_OPTIONS, *LPMADCAP_OPTIONS; // // structure for a list of messages // typedef struct _MSG_LIST { LIST_ENTRY MessageListEntry; DWORD ServerIdentifier; DWORD MessageSize; DWORD LeaseExpirationTime; DHCP_MESSAGE Message; } MSGLIST, *PMSGLIST, *LPMSGLIST; // // structure for IP/Subnet pair // typedef struct { DHCP_IP_ADDRESS IpAddress; DHCP_IP_ADDRESS SubnetMask; } IP_SUBNET, *PIP_SUBNET; #endif // _DHCPDEF_