/*++ Copyright (c) 1994 Microsoft Corporation Module Name: dhcstub.c Abstract: Client stubs of the DHCP server service APIs. Author: Madan Appiah (madana) 10-Sep-1993 Environment: User Mode - Win32 Revision History: --*/ #include "dhcpcli.h" #include // this is from dhcpds directory #include #include #include CRITICAL_SECTION DhcpsapiDllCritSect; static DWORD Initialized = 0; static DWORD TlsIndex = 0xFFFFFFFF; // This flag is used to set a shorter bind timeout value extern BOOL fShortTimeOut; BOOLEAN DllMain ( IN PVOID DllHandle, IN ULONG Reason, IN PCONTEXT Context OPTIONAL ) /*++ Routine Description: This is the DLL initialization routine for dhcpsapi.dll. Arguments: Standard. Return Value: TRUE iff initialization succeeded. --*/ { DWORD Error = ERROR_SUCCESS; BOOL BoolError; DWORD Length; UNREFERENCED_PARAMETER(DllHandle); // avoid compiler warnings UNREFERENCED_PARAMETER(Context); // avoid compiler warnings // // Handle attaching netlogon.dll to a new process. // if (Reason == DLL_PROCESS_ATTACH) { if ( !DisableThreadLibraryCalls( DllHandle ) ) { return( FALSE ); } try { InitializeCriticalSection(&DhcpsapiDllCritSect); } except ( I_RpcExceptionFilter(RpcExceptionCode())) { Error = GetLastError( ); return FALSE; } } else if (Reason == DLL_PROCESS_DETACH) { DeleteCriticalSection( &DhcpsapiDllCritSect ); } return( TRUE ); } VOID _cdecl DbgPrint( char *, ... ); LPWSTR _inline DhcpOemToUnicode( // convert from ansi buffer to uni buffer IN LPSTR Ansi, IN OUT LPWSTR Unicode ) { if( NULL == Unicode || NULL == Ansi ) { // should not happen return NULL; } if( -1 == mbstowcs(Unicode, Ansi, 1+strlen(Ansi))) { return NULL; } return Unicode; } //DOC DhcpDsInit must be called exactly once per process.. this initializes the //DOC memory and other structures for this process. This initializes some DS //DOC object handles (memory), and hence is slow as this has to read from DS. DWORD DhcpDsInit( VOID ) { DWORD Err = NO_ERROR; EnterCriticalSection(&DhcpsapiDllCritSect); do { if( 0 != Initialized ) { break; } TlsIndex = TlsAlloc(); if( 0xFFFFFFFF == TlsIndex ) { Err = GetLastError(); break; } Err = DhcpDsInitDS(0, NULL); if( ERROR_SUCCESS != Err ) { TlsFree(TlsIndex); TlsIndex = 0xFFFFFFFF; } break; } while ( 0 ); if( NO_ERROR == Err ) Initialized ++; LeaveCriticalSection(&DhcpsapiDllCritSect); return Err; } //DOC DhcpDsCleanup undoes the effect of any DhcpDsInit. This function should be //DOC called exactly once for each process, and only at termination. Note that //DOC it is safe to call this function even if DhcpDsInit does not succeed. VOID DhcpDsCleanup( VOID ) { EnterCriticalSection(&DhcpsapiDllCritSect); do { if( 0 == Initialized ) break; Initialized --; if( 0 != Initialized ) break; TlsFree(TlsIndex); DhcpDsCleanupDS(); TlsIndex = 0xFFFFFFFF; } while ( 0 ); LeaveCriticalSection(&DhcpsapiDllCritSect); } #define DHCP_FLAGS_DONT_ACCESS_DS 0x01 #define DHCP_FLAGS_DONT_DO_RPC 0x02 //DOC DhcpSetThreadOptions currently allows only one option to be set. This is the //DOC flag DHCP_FLAGS_DONT_ACCESS_DS. This affects only the current executing thread. //DOC When this function is executed, all calls made further DONT access the registry, //DOC excepting the DhcpEnumServers, DhcpAddServer and DhcpDeleteServer calls. DWORD DhcpSetThreadOptions( // set options for current thread IN DWORD Flags, // options, currently 0 or DHCP_FLAGS_DONT_ACCESS_DS IN LPVOID Reserved // must be NULL, reserved for future ) { BOOL Err; Err = TlsSetValue(TlsIndex, ULongToPtr(Flags)); if( FALSE == Err ) { // could not set the value? return GetLastError(); } return ERROR_SUCCESS; } //DOC DhcpGetThreadOptions retrieves the current thread options as set by DhcpSetThreadOptions. //DOC If none were set, the return value is zero. DWORD DhcpGetThreadOptions( // get current thread options OUT LPDWORD pFlags, // this DWORD is filled with current optiosn.. IN OUT LPVOID Reserved // must be NULL, reserved for future ) { if( NULL == pFlags ) return ERROR_INVALID_PARAMETER; *pFlags = (DWORD)((DWORD_PTR)TlsGetValue(TlsIndex)); if( 0 == *pFlags ) return GetLastError(); // dont know if there were no options or error return ERROR_SUCCESS; } //DOC DontAccessDs is an inline that checks to see if requested NOT to access DS .. BOOL _inline // TRUE ==> Dont access DS. DontAccessDs( // check to see if requested NOT to access DS VOID ) { DWORD Flags; if( CFLAG_DONT_DO_DSWORK ) return TRUE; // if DS is turned off return TRUE immediately.. Flags = (DWORD)((DWORD_PTR)TlsGetValue(TlsIndex)); // dont bother if it fails, as this would be 0 then. return (Flags & DHCP_FLAGS_DONT_ACCESS_DS)? TRUE : FALSE; } //DOC DontDoRPC is an inline that checks to see if requested NOT to do RPC (maybe only DS).. BOOL _inline // TRUE ==> Dont do RPC DontDoRPC( // check to see if requested not to do RPC VOID ) { DWORD Flags; Flags = (DWORD)((DWORD_PTR)TlsGetValue(TlsIndex)); // dont bother if it fails, as this would be 0 then. return (Flags & DHCP_FLAGS_DONT_DO_RPC)? TRUE : FALSE; } // // API proto types // // // Subnet APIs // DWORD DhcpCreateSubnet( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_INFO SubnetInfo ) /*++ Routine Description: This function creates a new subnet structure in the server registry database. The server will start managing the new subnet and distribute IP address to clients from that subnet. However the administrator should call DhcpAddSubnetElement() to add an address range for distribution. The PrimaryHost field specified in the SubnetInfo should be same as the server pointed by ServerIpAddress. Arguments: ServerIpAddress : IP address string of the DHCP server (Primary). SubnetAddress : IP Address of the new subnet. SubnetInfo : Pointer to the new subnet information structure. Return Value: ERROR_DHCP_SUBNET_EXISTS - if the subnet is already managed. ERROR_INVALID_PARAMETER - if the information structure contains an inconsistent fields. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateSubnet( ServerIpAddress, SubnetAddress, SubnetInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetSubnetInfo( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_INFO SubnetInfo ) /*++ Routine Description: This function sets the information fields of the subnet that is already managed by the server. The valid fields that can be modified are 1. SubnetName, 2. SubnetComment, 3. PrimaryHost.NetBiosName and 4. PrimaryHost.HostName. Other fields can't be modified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. SubnetInfo : Pointer to the subnet information structure. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetSubnetInfo( ServerIpAddress, SubnetAddress, SubnetInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetSubnetInfo( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_INFO *SubnetInfo ) /*++ Routine Description: This function retrieves the information of the subnet managed by the server. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. SubnetInfo : Pointer to a location where the subnet information structure pointer is returned. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetSubnetInfo( ServerIpAddress, SubnetAddress, SubnetInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnets( DHCP_CONST WCHAR *ServerIpAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_IP_ARRAY *EnumInfo, DWORD *ElementsRead, DWORD *ElementsTotal ) /*++ Routine Description: This function enumerates the available subnets. Arguments: ServerIpAddress : IP address string of the DHCP server. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. EnumInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). ElementsRead : Pointer to a DWORD where the number of subnet elements in the above buffer is returned. ElementsTotal : Pointer to a DWORD where the total number of elements remaining from the current position is returned. Return Value: ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnets( ServerIpAddress, ResumeHandle, PreferredMaximum, EnumInfo, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpAddSubnetElement( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_ELEMENT_DATA AddElementInfo ) /*++ Routine Description: This function adds a enumerable type of subnet elements to the specified subnet. The new elements that are added to the subnet will come into effect immediately. NOTE: It is not clear now how do we handle the new secondary hosts. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. AddElementInfo : Pointer to an element information structure containing new element that is added to the subnet. DhcpIPClusters element type is invalid to specify. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpAddSubnetElement( ServerIpAddress, SubnetAddress, AddElementInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnetElements( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_SUBNET_ELEMENT_TYPE EnumElementType, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_SUBNET_ELEMENT_INFO_ARRAY *EnumElementInfo, DWORD *ElementsRead, DWORD *ElementsTotal ) /*++ Routine Description: This function enumerates the eumerable fields of a subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. EnumElementType : Type of the subnet element that are enumerated. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. EnumElementInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). ElementsRead : Pointer to a DWORD where the number of subnet elements in the above buffer is returned. ElementsTotal : Pointer to a DWORD where the total number of elements remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetElements( ServerIpAddress, SubnetAddress, EnumElementType, ResumeHandle, PreferredMaximum, EnumElementInfo, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveSubnetElement( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_ELEMENT_DATA RemoveElementInfo, DHCP_FORCE_FLAG ForceFlag ) /*++ Routine Description: This function removes a subnet element from managing. If the subnet element is in use (for example, if the IpRange is in use) then it returns error according to the ForceFlag specified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. RemoveElementInfo : Pointer to an element information structure containing element that should be removed from the subnet. DhcpIPClusters element type is invalid to specify. ForceFlag - Indicates how forcefully this element is removed. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. DHCP_ELEMENT_CANT_REMOVE - if the element can't be removed for the reason it is has been used. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveSubnetElement( ServerIpAddress, SubnetAddress, RemoveElementInfo, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteSubnet( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_FORCE_FLAG ForceFlag ) /*++ Routine Description: This function removes a subnet from DHCP server management. If the subnet is in use (for example, if the IpRange is in use) then it returns error according to the ForceFlag specified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ForceFlag - Indicates how forcefully this element is removed. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. DHCP_ELEMENT_CANT_REMOVE - if the element can't be removed for the reason it is has been used. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteSubnet( ServerIpAddress, SubnetAddress, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } // // Option APIs // DWORD DhcpCreateOption( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION OptionInfo ) /*++ Routine Description: This function creates a new option that will be managed by the server. The optionID specified the ID of the new option, it should be within 0-255 range. If no default value is specified for this option, then this API automatically adds a default value from RFC 1122 doc. (if it is defined). Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the new option. OptionInfo : Pointer to new option information structure. Return Value: ERROR_DHCP_OPTION_EXISTS - if the option exists already. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateOption( ServerIpAddress, OptionID, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetOptionInfo( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION OptionInfo ) /*++ Routine Description: This functions sets the Options information fields. Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option to be set. OptionInfo : Pointer to new option information structure. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option does not exist. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionInfo( ServerIpAddress, OptionID, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetOptionInfo( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION *OptionInfo ) /*++ Routine Description: This function retrieves the current information structure of the specified option. Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option to be retrieved. OptionInfo : Pointer to a location where the retrieved option structure pointer is returned. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option does not exist. other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetOptionInfo( ServerIpAddress, OptionID, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumOptions( LPWSTR ServerIpAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_OPTION_ARRAY *Options, DWORD *OptionsRead, DWORD *OptionsTotal ) /*++ Routine Description: This functions retrieves the information of all known options. Arguments: ServerIpAddress : IP address string of the DHCP server. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. Options : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). OptionsRead : Pointer to a DWORD where the number of options in the above buffer is returned. OptionsTotal : Pointer to a DWORD where the total number of options remaining from the current position is returned. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option does not exist. other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumOptions( ServerIpAddress, ResumeHandle, PreferredMaximum, Options, OptionsRead, OptionsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveOption( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID ) /*++ Routine Description: This function removes the specified option from the server database. Also it browses through the Global/Subnet/ReservedIP option lists and deletes them too (?? This will be too expensive.). Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option to be removed. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option does not exist. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveOption( ServerIpAddress, OptionID ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetOptionValue( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION_SCOPE_INFO ScopeInfo, LPDHCP_OPTION_DATA OptionValue ) /*++ Routine Description: The function sets a new option value at the specified scope. If there is already a value available for the specified option at specified scope then this function will replace it otherwise it will create a new entry at that scope. Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option whose value should be set. ScopeInfo : Pointer to the scope information structure. OptionValue : Pointer to the option value structure. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option is unknown. ERROR_INVALID_PARAMETER - if the scope information specified is invalid. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionValue( ServerIpAddress, OptionID, ScopeInfo, OptionValue ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetOptionValues( LPWSTR ServerIpAddress, LPDHCP_OPTION_SCOPE_INFO ScopeInfo, LPDHCP_OPTION_VALUE_ARRAY OptionValues ) /*++ Routine Description: The function sets a set of new options value at the specified scope. If there is already a value available for the specified option at specified scope then this function will replace it otherwise it will create a new entry at that scope. Arguments: ServerIpAddress : IP address string of the DHCP server. ScopeInfo : Pointer to the scope information structure. OptionValue : Pointer to the option value structure. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option is unknown. ERROR_INVALID_PARAMETER - if the scope information specified is invalid. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionValues( ServerIpAddress, ScopeInfo, OptionValues ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetOptionValue( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION_SCOPE_INFO ScopeInfo, LPDHCP_OPTION_VALUE *OptionValue ) /*++ Routine Description: This function retrieves the current option value at the specified scope. It returns error if there is no option value is available at the specified scope. Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option whose value is returned. ScopeInfo : Pointer to the scope information structure. OptionValue : Pointer to a location where the pointer to the option value structure is returned. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option is unknown. ERROR_DHCP_NO_OPTION_VALUE - if no the option value is available at the specified scope. other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetOptionValue( ServerIpAddress, OptionID, ScopeInfo, OptionValue ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumOptionValues( LPWSTR ServerIpAddress, LPDHCP_OPTION_SCOPE_INFO ScopeInfo, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_OPTION_VALUE_ARRAY *OptionValues, DWORD *OptionsRead, DWORD *OptionsTotal ) /*++ Routine Description: This function enumerates the available options values at the specified scope. Arguments: ServerIpAddress : IP address string of the DHCP server. ScopeInfo : Pointer to the scope information structure. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. OptionValues : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). OptionsRead : Pointer to a DWORD where the number of options in the above buffer is returned. OptionsTotal : Pointer to a DWORD where the total number of options remaining from the current position is returned. Return Value: ERROR_DHCP_SCOPE_NOT_PRESENT - if the scope is unknown. ERROR_MORE_DATA - if more options available to enumerate. ERROR_NO_MORE_ITEMS - if no more option to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumOptionValues( ServerIpAddress, ScopeInfo, ResumeHandle, PreferredMaximum, OptionValues, OptionsRead, OptionsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveOptionValue( LPWSTR ServerIpAddress, DHCP_OPTION_ID OptionID, LPDHCP_OPTION_SCOPE_INFO ScopeInfo ) /*++ Routine Description: This function removes the specified option from specified scope. Arguments: ServerIpAddress : IP address string of the DHCP server. OptionID : The ID of the option to be removed. ScopeInfo : Pointer to the scope information structure. Return Value: ERROR_DHCP_OPTION_NOT_PRESENT - if the option does not exist. other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveOptionValue( ServerIpAddress, OptionID, ScopeInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } // // Client APIs // DWORD DhcpCreateClientInfo( LPWSTR ServerIpAddress, LPDHCP_CLIENT_INFO ClientInfo ) /*++ Routine Description: This function creates a client record in server's database. Also this marks the specified client IP address as unavailable (or distributed). This function returns error under the following cases : 1. If the specified client IP address is not within the server management. 2. If the specified client IP address is already unavailable. 3. If the specified client record is already in the server's database. This function may be used to distribute IP addresses manually. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to the client information structure. Return Value: ERROR_DHCP_IP_ADDRESS_NOT_MANAGED - if the specified client IP address is not managed by the server. ERROR_DHCP_IP_ADDRESS_NOT_AVAILABLE - if the specified client IP address is not available. May be in use by some other client. ERROR_DHCP_CLIENT_EXISTS - if the client record exists already in server's database. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateClientInfo( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetClientInfo( LPWSTR ServerIpAddress, LPDHCP_CLIENT_INFO ClientInfo ) /*++ Routine Description: This function sets client information record on the server's database. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to the client information structure. Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. ERROR_INVALID_PARAMETER - if the client information structure contains inconsistent data. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpSetClientInfo( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetClientInfo( LPWSTR ServerIpAddress, LPDHCP_SEARCH_INFO SearchInfo, LPDHCP_CLIENT_INFO *ClientInfo ) /*++ Routine Description: This function retrieves client information record from the server's database. Arguments: ServerIpAddress : IP address string of the DHCP server. SearchInfo : Pointer to a search information record which is the key for the client's record search. ClientInfo : Pointer to a location where the pointer to the client information structure is returned. This caller should free up this buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. ERROR_INVALID_PARAMETER - if the search information invalid. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetClientInfo( ServerIpAddress, SearchInfo, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteClientInfo( LPWSTR ServerIpAddress, LPDHCP_SEARCH_INFO ClientInfo ) /*++ Routine Description: This function deletes the specified client record. Also it frees up the client IP address for redistribution. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to a client information which is the key for the client's record search. Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteClientInfo( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnetClients( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_CLIENT_INFO_ARRAY *ClientInfo, DWORD *ClientsRead, DWORD *ClientsTotal ) /*++ Routine Description: This function returns all registered clients of the specified subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. ClientInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). ClientsRead : Pointer to a DWORD where the number of clients that in the above buffer is returned. ClientsTotal : Pointer to a DWORD where the total number of clients remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetClients( ServerIpAddress, SubnetAddress, ResumeHandle, PreferredMaximum, ClientInfo, ClientsRead, ClientsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetClientOptions( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS ClientIpAddress, DHCP_IP_MASK ClientSubnetMask, LPDHCP_OPTION_LIST *ClientOptions ) /*++ Routine Description: This function retrieves the options that are given to the specified client on boot request. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientIpAddress : IP Address of the client whose options to be retrieved ClientSubnetMask : Subnet mask of the client. ClientOptions : Pointer to a location where the retrieved option structure pointer is returned. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the specified client subnet is not managed by the server. ERROR_DHCP_IP_ADDRESS_NOT_MANAGED - if the specified client IP address is not managed by the server. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpGetClientOptions( ServerIpAddress, ClientIpAddress, ClientSubnetMask, ClientOptions ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetMibInfo( LPWSTR ServerIpAddress, LPDHCP_MIB_INFO *MibInfo ) /*++ Routine Description: This function retrieves all counter values of the DHCP server service. Arguments: ServerIpAddress : IP address string of the DHCP server. MibInfo : pointer a counter/table buffer. Caller should free up this buffer after usage. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpGetMibInfo( ServerIpAddress, MibInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerSetConfig( LPWSTR ServerIpAddress, DWORD FieldsToSet, LPDHCP_SERVER_CONFIG_INFO ConfigInfo ) /*++ Routine Description: This function sets the DHCP server configuration information. Serveral of the configuration information will become effective immediately. The following parameters require restart of the service after this API is called successfully. Set_APIProtocolSupport Set_DatabaseName Set_DatabasePath Set_DatabaseLoggingFlag Set_RestoreFlag Arguments: ServerIpAddress : IP address string of the DHCP server. FieldsToSet : Bit mask of the fields in the ConfigInfo structure to be set. ConfigInfo: Pointer to the info structure to be set. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpServerSetConfig( ServerIpAddress, FieldsToSet, ConfigInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerGetConfig( LPWSTR ServerIpAddress, LPDHCP_SERVER_CONFIG_INFO *ConfigInfo ) /*++ Routine Description: This function retrieves the current configuration information of the server. Arguments: ServerIpAddress : IP address string of the DHCP server. ConfigInfo: Pointer to a location where the pointer to the dhcp server config info structure is returned. Caller should free up this structure after use. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpServerGetConfig( ServerIpAddress, ConfigInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpScanDatabase( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DWORD FixFlag, LPDHCP_SCAN_LIST *ScanList ) /*++ Routine Description: This function scans the database entries and registry bit-map for specified subnet scope and veryfies to see they match. If they don't match, this api will return the list of inconsistent entries. Optionally FixFlag can be used to fix the bad entries. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : Address of the subnet scope to verify. FixFlag : If this flag is TRUE, this api will fix the bad entries. ScanList : List of bad entries returned. The caller should free up this memory after it has been used. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpScanDatabase( ServerIpAddress, SubnetAddress, FixFlag, ScanList ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetVersion( LPWSTR ServerIpAddress, LPDWORD MajorVersion, LPDWORD MinorVersion ) /*++ Routine Description: This function returns the major and minor version numbers of the server. Arguments: ServerIpAddress : IP address string of the DHCP server. MajorVersion : pointer to a location where the major version of the server is returned. MinorVersion : pointer to a location where the minor version of the server is returned. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpGetVersion( ServerIpAddress, MajorVersion, MinorVersion ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } VOID DhcpRpcFreeMemory( PVOID BufferPointer ) /*++ Routine Description: This function deallocates the memory that was alloted by the RPC and given to the client as part of the retrun info structures. Arguments: BufferPointer : pointer to a memory block that is deallocated. Return Value: none. --*/ { MIDL_user_free( BufferPointer ); } // // NT4 SP1 interface // DWORD DhcpAddSubnetElementV4( DHCP_CONST WCHAR *ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_CONST DHCP_SUBNET_ELEMENT_DATA_V4 * AddElementInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpAddSubnetElementV4( ServerIpAddress, SubnetAddress, AddElementInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnetElementsV4( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_SUBNET_ELEMENT_TYPE EnumElementType, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_SUBNET_ELEMENT_INFO_ARRAY_V4 *EnumElementInfo, DWORD *ElementsRead, DWORD *ElementsTotal ) /*++ Routine Description: This function enumerates the eumerable fields of a subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. EnumElementType : Type of the subnet element that are enumerated. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. EnumElementInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). ElementsRead : Pointer to a DWORD where the number of subnet elements in the above buffer is returned. ElementsTotal : Pointer to a DWORD where the total number of elements remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetElementsV4( ServerIpAddress, SubnetAddress, EnumElementType, ResumeHandle, PreferredMaximum, EnumElementInfo, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveSubnetElementV4( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, LPDHCP_SUBNET_ELEMENT_DATA_V4 RemoveElementInfo, DHCP_FORCE_FLAG ForceFlag ) /*++ Routine Description: This function removes a subnet element from managing. If the subnet element is in use (for example, if the IpRange is in use) then it returns error according to the ForceFlag specified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. RemoveElementInfo : Pointer to an element information structure containing element that should be removed from the subnet. DhcpIPClusters element type is invalid to specify. ForceFlag - Indicates how forcefully this element is removed. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. DHCP_ELEMENT_CANT_REMOVE - if the element can't be removed for the reason it is has been used. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveSubnetElementV4( ServerIpAddress, SubnetAddress, RemoveElementInfo, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpCreateClientInfoV4( LPWSTR ServerIpAddress, LPDHCP_CLIENT_INFO_V4 ClientInfo ) /*++ Routine Description: This function creates a client record in server's database. Also this marks the specified client IP address as unavailable (or distributed). This function returns error under the following cases : 1. If the specified client IP address is not within the server management. 2. If the specified client IP address is already unavailable. 3. If the specified client record is already in the server's database. This function may be used to distribute IP addresses manually. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to the client information structure. Return Value: ERROR_DHCP_IP_ADDRESS_NOT_MANAGED - if the specified client IP address is not managed by the server. ERROR_DHCP_IP_ADDRESS_NOT_AVAILABLE - if the specified client IP address is not available. May be in use by some other client. ERROR_DHCP_CLIENT_EXISTS - if the client record exists already in server's database. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateClientInfoV4( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetClientInfoV4( LPWSTR ServerIpAddress, LPDHCP_SEARCH_INFO SearchInfo, LPDHCP_CLIENT_INFO_V4 *ClientInfo ) /*++ Routine Description: This function retrieves client information record from the server's database. Arguments: ServerIpAddress : IP address string of the DHCP server. SearchInfo : Pointer to a search information record which is the key for the client's record search. ClientInfo : Pointer to a location where the pointer to the client information structure is returned. This caller should free up this buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. ERROR_INVALID_PARAMETER - if the search information invalid. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetClientInfoV4( ServerIpAddress, SearchInfo, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetClientInfoV4( LPWSTR ServerIpAddress, LPDHCP_CLIENT_INFO_V4 ClientInfo ) /*++ Routine Description: This function sets client information record on the server's database. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to the client information structure. Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. ERROR_INVALID_PARAMETER - if the client information structure contains inconsistent data. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetClientInfoV4( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnetClientsV4( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_CLIENT_INFO_ARRAY_V4 *ClientInfo, DWORD *ClientsRead, DWORD *ClientsTotal ) /*++ Routine Description: This function returns all registered clients of the specified subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. ClientInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). ClientsRead : Pointer to a DWORD where the number of clients that in the above buffer is returned. ClientsTotal : Pointer to a DWORD where the total number of clients remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetClientsV4( ServerIpAddress, SubnetAddress, ResumeHandle, PreferredMaximum, ClientInfo, ClientsRead, ClientsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumSubnetClientsV5( LPWSTR ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_CLIENT_INFO_ARRAY_V5 *ClientInfo, DWORD *ClientsRead, DWORD *ClientsTotal ) /*++ Routine Description: This function returns all registered clients of the specified subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. ClientInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). ClientsRead : Pointer to a DWORD where the number of clients that in the above buffer is returned. ClientsTotal : Pointer to a DWORD where the total number of clients remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetClientsV5( ServerIpAddress, SubnetAddress, ResumeHandle, PreferredMaximum, ClientInfo, ClientsRead, ClientsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerSetConfigV4( LPWSTR ServerIpAddress, DWORD FieldsToSet, LPDHCP_SERVER_CONFIG_INFO_V4 ConfigInfo ) /*++ Routine Description: This function sets the DHCP server configuration information. Serveral of the configuration information will become effective immediately. The following parameters require restart of the service after this API is called successfully. Set_APIProtocolSupport Set_DatabaseName Set_DatabasePath Set_DatabaseLoggingFlag Set_RestoreFlag Arguments: ServerIpAddress : IP address string of the DHCP server. FieldsToSet : Bit mask of the fields in the ConfigInfo structure to be set. ConfigInfo: Pointer to the info structure to be set. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpServerSetConfigV4( ServerIpAddress, FieldsToSet, ConfigInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerGetConfigV4( LPWSTR ServerIpAddress, LPDHCP_SERVER_CONFIG_INFO_V4 *ConfigInfo ) /*++ Routine Description: This function retrieves the current configuration information of the server. Arguments: ServerIpAddress : IP address string of the DHCP server. ConfigInfo: Pointer to a location where the pointer to the dhcp server config info structure is returned. Caller should free up this structure after use. Return Value: WINDOWS errors. --*/ { DWORD Status; Status = ERROR_CALL_NOT_IMPLEMENTED; RedoRpc: RpcTryExcept { Status = R_DhcpServerGetConfigV4( ServerIpAddress, ConfigInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpSetSuperScopeV4( DHCP_CONST DHCP_SRV_HANDLE ServerIpAddress, DHCP_CONST DHCP_IP_ADDRESS SubnetAddress, DHCP_CONST LPWSTR SuperScopeName, DHCP_CONST BOOL ChangeExisting ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetSuperScopeV4( ServerIpAddress, SubnetAddress, SuperScopeName, ChangeExisting ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteSuperScopeV4( DHCP_CONST WCHAR *ServerIpAddress, DHCP_CONST LPWSTR SuperScopeName ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteSuperScopeV4( ServerIpAddress, SuperScopeName ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetSuperScopeInfoV4( DHCP_CONST DHCP_SRV_HANDLE ServerIpAddress, LPDHCP_SUPER_SCOPE_TABLE *SuperScopeTable ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetSuperScopeInfoV4( ServerIpAddress, SuperScopeTable ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } //================================================================================ // V5 NT 5.0 Beta2 work (ClassId and Vendor specific stuff) // In the following function, if flags is DHCP_FLAGS_OPTION_IS_VENDOR // implies the option being considered is vendor, otherwise the option is normal... // ClasName = NULL imples there is no class (otherwise the class is named) //================================================================================ DWORD // ERROR_DHCP_OPTION_EXITS if option is already there DhcpCreateOptionV5( // create a new option (must not exist) IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionId, // must be between 0-255 or 256-511 (for vendor stuff) IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION OptionInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateOptionV5( ServerIpAddress, Flags, OptionId, ClassName, VendorName, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // ERROR_DHCP_OPTION_NOT_PRESENT if option does not exist DhcpSetOptionInfoV5( // Modify existing option's fields IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionID, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION OptionInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionInfoV5( ServerIpAddress, Flags, OptionID, ClassName, VendorName, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // ERROR_DHCP_OPTION_NOT_PRESENT DhcpGetOptionInfoV5( // retrieve the information from off the mem structures IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionID, IN LPWSTR ClassName, IN LPWSTR VendorName, OUT LPDHCP_OPTION *OptionInfo // allocate memory using MIDL functions ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetOptionInfoV5( ServerIpAddress, Flags, OptionID, ClassName, VendorName, OptionInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // ERROR_DHCP_OPTION_NOT_PRESENT if option does not exist DhcpEnumOptionsV5( // enumerate the options defined IN LPWSTR ServerIpAddress, IN DWORD Flags, IN LPWSTR ClassName, IN LPWSTR VendorName, IN OUT DHCP_RESUME_HANDLE *ResumeHandle, // must be zero intially and then never touched IN DWORD PreferredMaximum, // max # of bytes of info to pass along OUT LPDHCP_OPTION_ARRAY *Options, // fill this option array OUT DWORD *OptionsRead, // fill in the # of options read OUT DWORD *OptionsTotal // fill in the total # here ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumOptionsV5( ServerIpAddress, Flags, ClassName, VendorName, ResumeHandle, PreferredMaximum, Options, OptionsRead, OptionsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // ERROR_DHCP_OPTION_NOT_PRESENT if option not existent DhcpRemoveOptionV5( // remove the option definition from the registry IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionID, IN LPWSTR ClassName, IN LPWSTR VendorName ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveOptionV5( ServerIpAddress, Flags, OptionID, ClassName, VendorName ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // OPTION_NOT_PRESENT if option is not defined DhcpSetOptionValueV5( // replace or add a new option value IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionId, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo, IN LPDHCP_OPTION_DATA OptionValue ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionValueV5( ServerIpAddress, Flags, OptionId, ClassName, VendorName, ScopeInfo, OptionValue ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // not atomic!!!! DhcpSetOptionValuesV5( // set a bunch of options IN LPWSTR ServerIpAddress, IN DWORD Flags, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo, IN LPDHCP_OPTION_VALUE_ARRAY OptionValues ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpSetOptionValuesV5( ServerIpAddress, Flags, ClassName, VendorName, ScopeInfo, OptionValues ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetOptionValueV5( // fetch the required option at required level IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionID, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo, OUT LPDHCP_OPTION_VALUE *OptionValue // allocate memory using MIDL_user_allocate ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetOptionValueV5( ServerIpAddress, Flags, OptionID, ClassName, VendorName, ScopeInfo, OptionValue ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumOptionValuesV5( IN LPWSTR ServerIpAddress, IN DWORD Flags, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo, IN DHCP_RESUME_HANDLE *ResumeHandle, IN DWORD PreferredMaximum, OUT LPDHCP_OPTION_VALUE_ARRAY *OptionValues, OUT DWORD *OptionsRead, OUT DWORD *OptionsTotal ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumOptionValuesV5( ServerIpAddress, Flags, ClassName, VendorName, ScopeInfo, ResumeHandle, PreferredMaximum, OptionValues, OptionsRead, OptionsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveOptionValueV5( IN LPWSTR ServerIpAddress, IN DWORD Flags, IN DHCP_OPTION_ID OptionID, IN LPWSTR ClassName, IN LPWSTR VendorName, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveOptionValueV5( ServerIpAddress, Flags, OptionID, ClassName, VendorName, ScopeInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpCreateClass( IN LPWSTR ServerIpAddress, IN DWORD ReservedMustBeZero, IN LPDHCP_CLASS_INFO ClassInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpCreateClass( ServerIpAddress, ReservedMustBeZero, ClassInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpModifyClass( IN LPWSTR ServerIpAddress, IN DWORD ReservedMustBeZero, IN LPDHCP_CLASS_INFO ClassInfo ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpModifyClass( ServerIpAddress, ReservedMustBeZero, ClassInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteClass( IN LPWSTR ServerIpAddress, IN DWORD ReservedMustBeZero, IN LPWSTR ClassName ) { DWORD Status; Status = ERROR_SUCCESS; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteClass( ServerIpAddress, ReservedMustBeZero, ClassName ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetClassInfo( IN LPWSTR ServerIpAddress, IN DWORD ReservedMustBeZero, IN LPDHCP_CLASS_INFO PartialClassInfo, OUT LPDHCP_CLASS_INFO *FilledClassInfo ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetClassInfo( ServerIpAddress, ReservedMustBeZero, PartialClassInfo, FilledClassInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumClasses( IN LPWSTR ServerIpAddress, IN DWORD ReservedMustBeZero, IN OUT DHCP_RESUME_HANDLE *ResumeHandle, IN DWORD PreferredMaximum, OUT LPDHCP_CLASS_INFO_ARRAY *ClassInfoArray, OUT DWORD *nRead, OUT DWORD *nTotal ) { DWORD Status; *nRead = *nTotal =0; RedoRpc: RpcTryExcept { Status = R_DhcpEnumClasses( ServerIpAddress, ReservedMustBeZero, ResumeHandle, PreferredMaximum, ClassInfoArray, nRead, nTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetAllOptions( IN LPWSTR ServerIpAddress, IN DWORD Flags, // what do we care about vendor/classid stuff? OUT LPDHCP_ALL_OPTIONS *OptionStruct // fill the fields of this structure ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetAllOptions( ServerIpAddress, Flags, OptionStruct ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetAllOptionValues( IN LPWSTR ServerIpAddress, IN DWORD Flags, IN LPDHCP_OPTION_SCOPE_INFO ScopeInfo, OUT LPDHCP_ALL_OPTION_VALUES *Values ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetAllOptionValues( ServerIpAddress, Flags, ScopeInfo, Values ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } //DOC DhcpEnumServers enumerates the list of servers found in the DS. If the DS //DOC is not accessible, it returns an error. The only currently used parameter //DOC is the out parameter Servers. This is a SLOW call. DWORD DhcpEnumServers( IN DWORD Flags, // must be zero IN LPVOID IdInfo, // must be NULL OUT LPDHCP_SERVER_INFO_ARRAY *Servers, // output servers list IN LPVOID CallbackFn, // must be NULL IN LPVOID CallbackData // must be NULL ) { DWORD Result; Result = DhcpEnumServersDS(Flags,IdInfo,Servers,CallbackFn,CallbackData); return Result; } //DOC DhcpAddServer tries to add a new server to the existing list of servers in //DOC the DS. The function returns error if the Server already exists in the DS. //DOC The function tries to upload the server configuration to the DS.. //DOC This is a SLOW call. Currently, the DsLocation and DsLocType are not valid //DOC fields in the NewServer and they'd be ignored. Version must be zero. DWORD DhcpAddServer( IN DWORD Flags, // must be zero IN LPVOID IdInfo, // must be NULL IN LPDHCP_SERVER_INFO NewServer, // input server information IN LPVOID CallbackFn, // must be NULL IN LPVOID CallbackData // must be NULL ) { DWORD Err, IpAddress; WCHAR wBuf[sizeof("xxx.xxx.xxx.xxx")]; Err = DhcpAddServerDS(Flags,IdInfo,NewServer,CallbackFn,CallbackData); if( ERROR_SUCCESS != Err ) return Err; IpAddress = htonl(NewServer->ServerAddress); (void)DhcpServerRedoAuthorization( DhcpOemToUnicode( inet_ntoa(*(struct in_addr*)&IpAddress), wBuf), 0 ); return ERROR_SUCCESS; } //DOC DhcpDeleteServer tries to delete the server from DS. It is an error if the //DOC server does not already exist. This also deletes any objects related to //DOC this server in the DS (like subnet, reservations etc.). DWORD DhcpDeleteServer( IN DWORD Flags, // must be zero IN LPVOID IdInfo, // must be NULL IN LPDHCP_SERVER_INFO NewServer, // input server information IN LPVOID CallbackFn, // must be NULL IN LPVOID CallbackData // must be NULL ) { DWORD Err, IpAddress; WCHAR wBuf[sizeof("xxx.xxx.xxx.xxx")]; Err = DhcpDeleteServerDS(Flags,IdInfo,NewServer,CallbackFn,CallbackData); if( ERROR_SUCCESS != Err ) return Err; IpAddress = htonl(NewServer->ServerAddress); (void)DhcpServerRedoAuthorization( DhcpOemToUnicode( inet_ntoa(*(struct in_addr*)&IpAddress), wBuf), 0 ); return ERROR_SUCCESS; } //================================================================================ // Multicast stuff //================================================================================ DWORD DhcpSetMScopeInfo( DHCP_CONST DHCP_SRV_HANDLE ServerIpAddress, LPWSTR MScopeName, LPDHCP_MSCOPE_INFO MScopeInfo, BOOL NewScope ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpSetMScopeInfo( ServerIpAddress, MScopeName, MScopeInfo, NewScope ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetMScopeInfo( DHCP_CONST DHCP_SRV_HANDLE ServerIpAddress, LPWSTR MScopeName, LPDHCP_MSCOPE_INFO *MScopeInfo ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetMScopeInfo( ServerIpAddress, MScopeName, MScopeInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumMScopes( DHCP_CONST WCHAR *ServerIpAddress, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_MSCOPE_TABLE *MScopeTable, DWORD *ElementsRead, DWORD *ElementsTotal ) /*++ Routine Description: This function enumerates the available subnets. Arguments: ServerIpAddress : IP address string of the DHCP server. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. ElementsRead : Pointer to a DWORD where the number of subnet elements in the above buffer is returned. ElementsTotal : Pointer to a DWORD where the total number of elements remaining from the current position is returned. Return Value: ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumMScopes( ServerIpAddress, ResumeHandle, PreferredMaximum, MScopeTable, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpAddMScopeElement( LPWSTR ServerIpAddress, LPWSTR MScopeName, LPDHCP_SUBNET_ELEMENT_DATA_V4 AddElementInfo ) /*++ Routine Description: This function adds a enumerable type of subnet elements to the specified subnet. The new elements that are added to the subnet will come into effect immediately. NOTE: It is not clear now how do we handle the new secondary hosts. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. AddElementInfo : Pointer to an element information structure containing new element that is added to the subnet. DhcpIPClusters element type is invalid to specify. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpAddMScopeElement( ServerIpAddress, MScopeName, AddElementInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumMScopeElements( LPWSTR ServerIpAddress, LPWSTR MScopeName, DHCP_SUBNET_ELEMENT_TYPE EnumElementType, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_SUBNET_ELEMENT_INFO_ARRAY_V4 *EnumElementInfo, DWORD *ElementsRead, DWORD *ElementsTotal ) /*++ Routine Description: This function enumerates the eumerable fields of a subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. EnumElementType : Type of the subnet element that are enumerated. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. EnumElementInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up the buffer after use by calling DhcpRPCFreeMemory(). ElementsRead : Pointer to a DWORD where the number of subnet elements in the above buffer is returned. ElementsTotal : Pointer to a DWORD where the total number of elements remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumMScopeElements( ServerIpAddress, MScopeName, EnumElementType, ResumeHandle, PreferredMaximum, EnumElementInfo, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpRemoveMScopeElement( LPWSTR ServerIpAddress, LPWSTR MScopeName, LPDHCP_SUBNET_ELEMENT_DATA_V4 RemoveElementInfo, DHCP_FORCE_FLAG ForceFlag ) /*++ Routine Description: This function removes a subnet element from managing. If the subnet element is in use (for example, if the IpRange is in use) then it returns error according to the ForceFlag specified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. RemoveElementInfo : Pointer to an element information structure containing element that should be removed from the subnet. DhcpIPClusters element type is invalid to specify. ForceFlag - Indicates how forcefully this element is removed. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. DHCP_ELEMENT_CANT_REMOVE - if the element can't be removed for the reason it is has been used. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveMScopeElement( ServerIpAddress, MScopeName, RemoveElementInfo, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteMScope( LPWSTR ServerIpAddress, LPWSTR MScopeName, DHCP_FORCE_FLAG ForceFlag ) /*++ Routine Description: This function removes a subnet from DHCP server management. If the subnet is in use (for example, if the IpRange is in use) then it returns error according to the ForceFlag specified. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ForceFlag - Indicates how forcefully this element is removed. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_INVALID_PARAMETER - if the information structure contains invalid data. DHCP_ELEMENT_CANT_REMOVE - if the element can't be removed for the reason it is has been used. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteMScope( ServerIpAddress, MScopeName, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetMClientInfo( LPWSTR ServerIpAddress, LPDHCP_SEARCH_INFO SearchInfo, LPDHCP_MCLIENT_INFO *ClientInfo ) /*++ Routine Description: This function retrieves client information record from the server's database. Arguments: ServerIpAddress : IP address string of the DHCP server. SearchInfo : Pointer to a search information record which is the key for the client's record search. ClientInfo : Pointer to a location where the pointer to the client information structure is returned. This caller should free up this buffer after use by calling DhcpRPCFreeMemory(). Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. ERROR_INVALID_PARAMETER - if the search information invalid. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetMClientInfo( ServerIpAddress, SearchInfo, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpDeleteMClientInfo( LPWSTR ServerIpAddress, LPDHCP_SEARCH_INFO ClientInfo ) /*++ Routine Description: This function deletes the specified client record. Also it frees up the client IP address for redistribution. Arguments: ServerIpAddress : IP address string of the DHCP server. ClientInfo : Pointer to a client information which is the key for the client's record search. Return Value: ERROR_DHCP_CLIENT_NOT_PRESENT - if the specified client record does not exist on the server's database. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpDeleteMClientInfo( ServerIpAddress, ClientInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpEnumMScopeClients( LPWSTR ServerIpAddress, LPWSTR MScopeName, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_MCLIENT_INFO_ARRAY *ClientInfo, DWORD *ClientsRead, DWORD *ClientsTotal ) /*++ Routine Description: This function returns all registered clients of the specified subnet. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : IP Address of the subnet. ResumeHandle : Pointer to a resume handle where the resume information is returned. The resume handle should be set to zero on first call and left unchanged for subsequent calls. PreferredMaximum : Preferred maximum length of the return buffer. ClientInfo : Pointer to a location where the return buffer pointer is stored. Caller should free up this buffer after use by calling DhcpRPCFreeMemory(). ClientsRead : Pointer to a DWORD where the number of clients that in the above buffer is returned. ClientsTotal : Pointer to a DWORD where the total number of clients remaining from the current position is returned. Return Value: ERROR_DHCP_SUBNET_NOT_PRESENT - if the subnet is not managed by the server. ERROR_MORE_DATA - if more elements available to enumerate. ERROR_NO_MORE_ITEMS - if no more element to enumerate. Other WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumMScopeClients( ServerIpAddress, MScopeName, ResumeHandle, PreferredMaximum, ClientInfo, ClientsRead, ClientsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpScanMDatabase( LPWSTR ServerIpAddress, LPWSTR MScopeName, DWORD FixFlag, LPDHCP_SCAN_LIST *ScanList ) /*++ Routine Description: This function scans the database entries and registry bit-map for specified subnet scope and veryfies to see they match. If they don't match, this api will return the list of inconsistent entries. Optionally FixFlag can be used to fix the bad entries. Arguments: ServerIpAddress : IP address string of the DHCP server. SubnetAddress : Address of the subnet scope to verify. FixFlag : If this flag is TRUE, this api will fix the bad entries. ScanList : List of bad entries returned. The caller should free up this memory after it has been used. Return Value: WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpScanMDatabase( ServerIpAddress, MScopeName, FixFlag, ScanList ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpGetMCastMibInfo( LPWSTR ServerIpAddress, LPDHCP_MCAST_MIB_INFO *MibInfo ) /*++ Routine Description: This function retrieves all counter values of the DHCP server service. Arguments: ServerIpAddress : IP address string of the DHCP server. MibInfo : pointer a counter/table buffer. Caller should free up this buffer after usage. Return Value: WINDOWS errors. --*/ { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetMCastMibInfo( ServerIpAddress, MibInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpAuditLogSetParams( // set some auditlogging params IN LPWSTR ServerIpAddress, IN DWORD Flags, // currently must be zero IN LPWSTR AuditLogDir, // directory to log files in.. IN DWORD DiskCheckInterval, // how often to check disk space? IN DWORD MaxLogFilesSize, // how big can all logs files be.. IN DWORD MinSpaceOnDisk // mininum amt of free disk space ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpAuditLogSetParams( ServerIpAddress, Flags, AuditLogDir, DiskCheckInterval, MaxLogFilesSize, MinSpaceOnDisk ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpAuditLogGetParams( // get the auditlogging params IN LPWSTR ServerIpAddress, IN DWORD Flags, // must be zero OUT LPWSTR *AuditLogDir, // same meaning as in AuditLogSetParams OUT DWORD *DiskCheckInterval, // ditto OUT DWORD *MaxLogFilesSize, // ditto OUT DWORD *MinSpaceOnDisk // ditto ) { DWORD Status; RedoRpc: RpcTryExcept { Status = R_DhcpAuditLogGetParams( ServerIpAddress, Flags, AuditLogDir, DiskCheckInterval, MaxLogFilesSize, MinSpaceOnDisk ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // Status code DhcpServerQueryAttribute( // get a server status IN LPWSTR ServerIpAddr, // String form of server IP IN ULONG dwReserved, // reserved for future IN DHCP_ATTRIB_ID DhcpAttribId, // the attrib being queried OUT LPDHCP_ATTRIB *pDhcpAttrib // fill in this field ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpServerQueryAttribute( ServerIpAddr, dwReserved, DhcpAttribId, pDhcpAttrib ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // Status code DhcpServerQueryAttributes( // query multiple attributes IN LPWSTR ServerIpAddr, // String form of server IP IN ULONG dwReserved, // reserved for future IN ULONG dwAttribCount, // # of attribs being queried IN DHCP_ATTRIB_ID pDhcpAttribs[],// array of attribs OUT LPDHCP_ATTRIB_ARRAY *pDhcpAttribArr // Ptr is filled w/ array ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpServerQueryAttributes( ServerIpAddr, dwReserved, dwAttribCount, pDhcpAttribs, pDhcpAttribArr ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD // Status code DhcpServerRedoAuthorization( // retry the rogue server stuff IN LPWSTR ServerIpAddr, // String form of server IP IN ULONG dwReserved // reserved for future ) { ULONG Status; // Use a short timeout value fShortTimeOut = TRUE; RpcTryExcept { Status = R_DhcpServerRedoAuthorization( ServerIpAddr, dwReserved ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; return Status; } DWORD DHCP_API_FUNCTION DhcpAddSubnetElementV5( DHCP_CONST WCHAR *ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_CONST DHCP_SUBNET_ELEMENT_DATA_V5 * AddElementInfo ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpAddSubnetElementV5( ServerIpAddress, SubnetAddress, AddElementInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DHCP_API_FUNCTION DhcpEnumSubnetElementsV5( DHCP_CONST WCHAR *ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_SUBNET_ELEMENT_TYPE EnumElementType, DHCP_RESUME_HANDLE *ResumeHandle, DWORD PreferredMaximum, LPDHCP_SUBNET_ELEMENT_INFO_ARRAY_V5 *EnumElementInfo, DWORD *ElementsRead, DWORD *ElementsTotal ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpEnumSubnetElementsV5( ServerIpAddress, SubnetAddress, EnumElementType, ResumeHandle, PreferredMaximum, EnumElementInfo, ElementsRead, ElementsTotal ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DHCP_API_FUNCTION DhcpRemoveSubnetElementV5( DHCP_CONST WCHAR *ServerIpAddress, DHCP_IP_ADDRESS SubnetAddress, DHCP_CONST DHCP_SUBNET_ELEMENT_DATA_V5 * RemoveElementInfo, DHCP_FORCE_FLAG ForceFlag ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpRemoveSubnetElementV5( ServerIpAddress, SubnetAddress, RemoveElementInfo, ForceFlag ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DHCP_API_FUNCTION DhcpSetServerBindingInfo( IN DHCP_CONST WCHAR *ServerIpAddress, IN ULONG Flags, IN LPDHCP_BIND_ELEMENT_ARRAY BindInfo ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpSetServerBindingInfo( ServerIpAddress, Flags, BindInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DHCP_API_FUNCTION DhcpGetServerBindingInfo( IN DHCP_CONST WCHAR *ServerIpAddress, IN ULONG Flags, OUT LPDHCP_BIND_ELEMENT_ARRAY *BindInfo ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpGetServerBindingInfo( ServerIpAddress, Flags, BindInfo ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerQueryDnsRegCredentials( IN LPWSTR ServerIpAddress, IN ULONG UnameSize, //in BYTES OUT LPWSTR Uname, IN ULONG DomainSize, // in BYTES OUT LPWSTR Domain ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpQueryDnsRegCredentials( ServerIpAddress, UnameSize/sizeof(WCHAR), Uname, DomainSize/sizeof(WCHAR), Domain ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerSetDnsRegCredentials( IN LPWSTR ServerIpAddress, IN LPWSTR Uname, IN LPWSTR Domain, IN LPWSTR Passwd ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpSetDnsRegCredentials( ServerIpAddress, Uname, Domain, Passwd ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerBackupDatabase( IN LPWSTR ServerIpAddress, IN LPWSTR Path ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpBackupDatabase( ServerIpAddress, Path ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } DWORD DhcpServerRestoreDatabase( IN LPWSTR ServerIpAddress, IN LPWSTR Path ) { ULONG Status; RedoRpc: RpcTryExcept { Status = R_DhcpRestoreDatabase( ServerIpAddress, Path ); } RpcExcept( I_RpcExceptionFilter(RpcExceptionCode()) ) { Status = RpcExceptionCode(); } RpcEndExcept; if( Status == RPC_S_UNKNOWN_AUTHN_SERVICE && !DhcpGlobalTryDownlevel ) { DhcpGlobalTryDownlevel = TRUE; goto RedoRpc; } return Status; } #define BINL_SVC_NAME L"binlsvc" BOOL BinlServiceInstalled( VOID ) /*++ Routine Description: This routine checks if BINL service has been installed. BINL service is "binlsvc" Return Values; TRUE -- binl service is installed FALSE -- binl service is not installed --*/ { SC_HANDLE hScManager, hService; ULONG Error, Attempt; SERVICE_STATUS ServiceStatus; hScManager = OpenSCManager( NULL, NULL, STANDARD_RIGHTS_READ | SC_MANAGER_ENUMERATE_SERVICE ); if( NULL == hScManager ) { DbgPrint("DHCP: OpenSCManager failed 0x%lx\n", GetLastError()); //ASSERT(FALSE); return FALSE; } hService = OpenService( hScManager, BINL_SVC_NAME, SERVICE_QUERY_STATUS ); #if DBG if( NULL == hService ) { Error = GetLastError(); if( ERROR_SERVICE_DOES_NOT_EXIST != Error ) { //ASSERT(FALSE); } DbgPrint("DHCP: Can't open BINLSVC service: 0x%lx\n", Error); } #endif CloseServiceHandle(hService); CloseServiceHandle(hScManager); return (NULL != hService); } VOID WINAPI DhcpDsClearHostServerEntries( VOID ) /*++ Routine Description: This routine clears off any entries in DS for the current host assuming it has permissions to do so.. --*/ { ULONG Error; struct hostent *HostEnt; int i, j; WSADATA wsadata; LPDHCP_SERVER_INFO_ARRAY Servers = NULL; if( BinlServiceInstalled() ) { // // Do not do anything if BINL is installed // return ; } Error = WSAStartup( 0x0101, &wsadata); if( ERROR_SUCCESS != Error ) { return; } do { HostEnt = gethostbyname( NULL ); if( NULL == HostEnt ) break; // // Now try to start the DS module.. // Error = DhcpDsInit(); if( ERROR_SUCCESS != Error ) break; do { Error = DhcpEnumServers( 0, NULL, &Servers, 0, 0 ); if( ERROR_SUCCESS != Error ) break; i = 0; if( !Servers ) break; while( HostEnt->h_addr_list[i] ) { ULONG Addr = *(ULONG *)(HostEnt->h_addr_list[i]); i ++; if( Addr == 0 || Addr == ~0 || Addr == INADDR_LOOPBACK ) continue; for( j = 0; j < (int)Servers->NumElements; j ++ ) { if( Addr == ntohl(Servers->Servers[j].ServerAddress )) { DhcpDeleteServer( 0, NULL, &Servers->Servers[j], NULL, NULL ); } } } DhcpRpcFreeMemory( Servers ); } while ( 0 ); DhcpDsCleanup(); } while ( 0 ); WSACleanup(); } //================================================================================ // end of file //================================================================================