/*++ BUILD Version: 0011 // Increment this if a change has global effects Copyright (c) 1989-1999 Microsoft Corporation Module Name: ntlsa.h Abstract: This module contains the public data structures and API definitions needed to utilize Local Security Authority (LSA) services. Author: Jim Kelly (JimK) 21-February-1991 Revision History: --*/ #ifndef _NTLSA_ #define _NTLSA_ #if _MSC_VER > 1000 #pragma once #endif #ifdef __cplusplus extern "C" { #endif // // Generic negative values for unknown IDs, inapplicable indices etc. // #define LSA_UNKNOWN_ID ((ULONG) 0xFFFFFFFFL) #define LSA_UNKNOWN_INDEX ((LONG) -1) // begin_ntsecapi #ifndef _NTLSA_IFS_ // begin_ntifs // // Security operation mode of the system is held in a control // longword. // typedef ULONG LSA_OPERATIONAL_MODE, *PLSA_OPERATIONAL_MODE; // end_ntifs #endif // _NTLSA_IFS_ // // The flags in the security operational mode are defined // as: // // PasswordProtected - Some level of authentication (such as // a password) must be provided by users before they are // allowed to use the system. Once set, this value will // not be cleared without re-booting the system. // // IndividualAccounts - Each user must identify an account to // logon to. This flag is only meaningful if the // PasswordProtected flag is also set. If this flag is // not set and the PasswordProtected flag is set, then all // users may logon to the same account. Once set, this value // will not be cleared without re-booting the system. // // MandatoryAccess - Indicates the system is running in a mandatory // access control mode (e.g., B-level as defined by the U.S.A's // Department of Defense's "Orange Book"). This is not utilized // in the current release of NT. This flag is only meaningful // if both the PasswordProtected and IndividualAccounts flags are // set. Once set, this value will not be cleared without // re-booting the system. // // LogFull - Indicates the system has been brought up in a mode in // which if must perform security auditing, but its audit log // is full. This may (should) restrict the operations that // can occur until the audit log is made not-full again. THIS // VALUE MAY BE CLEARED WHILE THE SYSTEM IS RUNNING (I.E., WITHOUT // REBOOTING). // // If the PasswordProtected flag is not set, then the system is running // without security, and user interface should be adjusted appropriately. // #define LSA_MODE_PASSWORD_PROTECTED (0x00000001L) #define LSA_MODE_INDIVIDUAL_ACCOUNTS (0x00000002L) #define LSA_MODE_MANDATORY_ACCESS (0x00000004L) #define LSA_MODE_LOG_FULL (0x00000008L) // end_ntsecapi ///////////////////////////////////////////////////////////////////////// // // // Widely used LSA defines // // // ///////////////////////////////////////////////////////////////////////// // // Defines for Count Limits on LSA API // #define LSA_MAXIMUM_SID_COUNT (0x00000100L) #define LSA_MAXIMUM_ENUMERATION_LENGTH (32000) // // Flag OR'ed into AuthenticationPackage parameter of LsaLogonUser to // request that the license server be called upon successful logon. // #define LSA_CALL_LICENSE_SERVER 0x80000000 ///////////////////////////////////////////////////////////////////////// // // // Data types used by logon processes // // // ///////////////////////////////////////////////////////////////////////// // begin_ntsecapi #ifndef _NTLSA_IFS_ // begin_ntifs // // Used by a logon process to indicate what type of logon is being // requested. // typedef enum _SECURITY_LOGON_TYPE { Interactive = 2, // Interactively logged on (locally or remotely) Network, // Accessing system via network Batch, // Started via a batch queue Service, // Service started by service controller Proxy, // Proxy logon Unlock, // Unlock workstation NetworkCleartext, // Network logon with cleartext credentials NewCredentials, // Clone caller, new default credentials RemoteInteractive, // Remote, yet interactive. Terminal server CachedInteractive, // Try cached credentials without hitting the net. CachedRemoteInteractive, // Same as RemoteInteractive, this is used internally for auditing purpose CachedUnlock // Cached Unlock workstation } SECURITY_LOGON_TYPE, *PSECURITY_LOGON_TYPE; // end_ntifs #endif // _NTLSA_IFS_ // end_ntsecapi // // Security System Access Flags. These correspond to the enumerated // type values in SECURITY_LOGON_TYPE. // // IF YOU ADD A NEW LOGON TYPE HERE, ALSO ADD IT TO THE POLICY_MODE_xxx // data definitions. // #define SECURITY_ACCESS_INTERACTIVE_LOGON ((ULONG) 0x00000001L) #define SECURITY_ACCESS_NETWORK_LOGON ((ULONG) 0x00000002L) #define SECURITY_ACCESS_BATCH_LOGON ((ULONG) 0x00000004L) #define SECURITY_ACCESS_SERVICE_LOGON ((ULONG) 0x00000010L) #define SECURITY_ACCESS_PROXY_LOGON ((ULONG) 0x00000020L) #define SECURITY_ACCESS_DENY_INTERACTIVE_LOGON ((ULONG) 0x00000040L) #define SECURITY_ACCESS_DENY_NETWORK_LOGON ((ULONG) 0x00000080L) #define SECURITY_ACCESS_DENY_BATCH_LOGON ((ULONG) 0x00000100L) #define SECURITY_ACCESS_DENY_SERVICE_LOGON ((ULONG) 0x00000200L) #define SECURITY_ACCESS_REMOTE_INTERACTIVE_LOGON ((ULONG) 0x00000400L) #define SECURITY_ACCESS_DENY_REMOTE_INTERACTIVE_LOGON ((ULONG) 0x00000800L) ///////////////////////////////////////////////////////////////////////// // // // Data types related to Auditing // // // ///////////////////////////////////////////////////////////////////////// // // The following enumerated type is used between the reference monitor and // LSA in the generation of audit messages. It is used to indicate the // type of data being passed as a parameter from the reference monitor // to LSA. LSA is responsible for transforming the specified data type // into a set of unicode strings that are added to the event record in // the audit log. // typedef enum _SE_ADT_PARAMETER_TYPE { SeAdtParmTypeNone = 0, //Produces 1 parameter //Received value: // // None. // //Results in: // // a unicode string containing "-". // //Note: This is typically used to // indicate that a parameter value // was not available. // SeAdtParmTypeString, //Produces 1 parameter. //Received Value: // // Unicode String (variable length) // //Results in: // // No transformation. The string // entered into the event record as // received. // // The Address value of the audit info // should be a pointer to a UNICODE_STRING // structure. SeAdtParmTypeFileSpec, //Produces 1 parameter. //Received value: // // Unicode string containing a file or // directory name. // //Results in: // // Unicode string with the prefix of the // file's path replaced by a drive letter // if possible. // SeAdtParmTypeUlong, //Produces 1 parameter //Received value: // // Ulong // //Results in: // // Unicode string representation of // unsigned integer value. SeAdtParmTypeSid, //Produces 1 parameter. //Received value: // // SID (variable length) // //Results in: // // String representation of SID // SeAdtParmTypeLogonId, //Produces 3 parameters. //Received Value: // // LUID (fixed length) // //Results in: // // param 1: Username string // param 2: domain name string // param 3: Logon ID (Luid) string SeAdtParmTypeNoLogonId, //Produces 3 parameters. //Received value: // // None. // //Results in: // // param 1: "-" // param 2: "-" // param 3: "-" // //Note: // // This type is used when a logon ID // is needed, but one is not available // to pass. For example, if an // impersonation logon ID is expected // but the subject is not impersonating // anyone. // SeAdtParmTypeAccessMask, //Produces 1 parameter with formatting. //Received value: // // ACCESS_MASK followed by // a Unicode string. The unicode // string contains the name of the // type of object the access mask // applies to. The event's source // further qualifies the object type. // //Results in: // // formatted unicode string built to // take advantage of the specified // source's parameter message file. // //Note: // // An access mask containing three // access types for a Widget object // type (defined by the Foozle source) // might end up looking like: // // %%1062\n\t\t%1066\n\t\t%%601 // // The %%numbers are signals to the // event viewer to perform parameter // substitution before display. // SeAdtParmTypePrivs, //Produces 1 parameter with formatting. //Received value: // // ??? Check with RobertRe and ScottBi // //Results in: // // formatted unicode string similar to // that for access types. Each priv // will be formatted to be displayed // on its own line. E.g., // // %%642\n\t\t%%651\n\t\t%%655 // SeAdtParmTypeObjectTypes, //Produces 10 parameters with formatting. //Received value: // // Produces a list a stringized GUIDS along // with information similar to that for // an access mask. SeAdtParmTypeHexUlong, //Produces 1 parameter //Received value: // // Ulong // //Results in: // // Unicode string representation of // unsigned integer value in hexadecimal. SeAdtParmTypePtr, //Produces 1 parameter //Received value: // // pointer // //Results in: // // Unicode string representation of // unsigned integer value in hexadecimal. SeAdtParmTypeTime, //Produces 2 parameters //Received value: // // LARGE_INTEGER // //Results in: // // Unicode string representation of // date and time. // SeAdtParmTypeGuid, //Produces 1 parameter //Received value: // // GUID pointer // //Results in: // // Unicode string representation of GUID // {xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx} // SeAdtParmTypeLuid, // //Produces 1 parameter //Received value: // // LUID // //Results in: // // Hex LUID // SeAdtParmTypeHexInt64, //Produces 1 parameter //Received value: // // 64 bit integer // //Results in: // // Unicode string representation of // unsigned integer value in hexadecimal. SeAdtParmTypeStringList, //Produces 1 parameter //Received value: // // ptr to LSAP_ADT_STRING_LIST // //Results in: // // Unicode string representation of // concatenation of the strings in the list SeAdtParmTypeSidList, //Produces 1 parameter //Received value: // // ptr to LSAP_ADT_SID_LIST // //Results in: // // Unicode string representation of // concatenation of the SIDs in the list SeAdtParmTypeDuration, //Produces 1 parameters //Received value: // // LARGE_INTEGER // //Results in: // // Unicode string representation of // a duration. SeAdtParmTypeUserAccountControl,//Produces 3 parameters //Received value: // // old and new UserAccountControl values // //Results in: // // Unicode string representations of // the flags in UserAccountControl. // 1 - old value in hex // 2 - new value in hex // 3 - difference as strings SeAdtParmTypeNoUac, //Produces 3 parameters //Received value: // // none // //Results in: // // Three dashes ('-') as unicode strings. SeAdtParmTypeMessage, //Produces 1 Parameter //Received value: // // ULONG (MessageNo from msobjs.mc) // //Results in: // // Unicode string representation of // %%MessageNo which the event viewer // will replace with the message string // from msobjs.mc SeAdtParmTypeDateTime, //Produces 1 Parameter //Received value: // // LARGE_INTEGER // //Results in: // // Unicode string representation of // date and time (in _one_ string). SeAdtParmTypeSockAddr // Produces 2 parameters // // Received value: // // pointer to SOCKADDR_IN/SOCKADDR_IN6 // structure // // Results in: // // param 1: IP address string // param 2: Port number string // } SE_ADT_PARAMETER_TYPE, *PSE_ADT_PARAMETER_TYPE; #ifndef GUID_DEFINED #include #endif /* GUID_DEFINED */ typedef struct _SE_ADT_OBJECT_TYPE { GUID ObjectType; USHORT Flags; #define SE_ADT_OBJECT_ONLY 0x1 USHORT Level; ACCESS_MASK AccessMask; } SE_ADT_OBJECT_TYPE, *PSE_ADT_OBJECT_TYPE; typedef struct _SE_ADT_PARAMETER_ARRAY_ENTRY { SE_ADT_PARAMETER_TYPE Type; ULONG Length; ULONG_PTR Data[2]; PVOID Address; } SE_ADT_PARAMETER_ARRAY_ENTRY, *PSE_ADT_PARAMETER_ARRAY_ENTRY; // // Structure that will be passed between the Reference Monitor and LSA // to transmit auditing information. // #define SE_MAX_AUDIT_PARAMETERS 32 typedef struct _SE_ADT_PARAMETER_ARRAY { ULONG CategoryId; ULONG AuditId; ULONG ParameterCount; ULONG Length; USHORT Type; ULONG Flags; SE_ADT_PARAMETER_ARRAY_ENTRY Parameters[ SE_MAX_AUDIT_PARAMETERS ]; } SE_ADT_PARAMETER_ARRAY, *PSE_ADT_PARAMETER_ARRAY; #define SE_ADT_PARAMETERS_SELF_RELATIVE 0x00000001 /////////////////////////////////////////////////////////////////////////// // // // Structures describing the complex param type SeAdtParmTypeStringList // // // /////////////////////////////////////////////////////////////////////////// typedef struct _LSA_ADT_STRING_LIST_ENTRY { ULONG Flags; UNICODE_STRING String; } LSA_ADT_STRING_LIST_ENTRY, *PLSA_ADT_STRING_LIST_ENTRY; typedef struct _LSA_ADT_STRING_LIST { ULONG cStrings; PLSA_ADT_STRING_LIST_ENTRY Strings; } LSA_ADT_STRING_LIST, *PLSA_ADT_STRING_LIST; /////////////////////////////////////////////////////////////////////////// // // // Structures describing the complex param type SeAdtParmTypeSidList // // // /////////////////////////////////////////////////////////////////////////// typedef struct _LSA_ADT_SID_LIST_ENTRY { ULONG Flags; PSID Sid; } LSA_ADT_SID_LIST_ENTRY, *PLSA_ADT_SID_LIST_ENTRY; typedef struct _LSA_ADT_SID_LIST { ULONG cSids; PLSA_ADT_SID_LIST_ENTRY Sids; } LSA_ADT_SID_LIST, *PLSA_ADT_SID_LIST; // begin_ntsecapi // // Audit Event Categories // // The following are the built-in types or Categories of audit event. // WARNING! This structure is subject to expansion. The user should not // compute the number of elements of this type directly, but instead // should obtain the count of elements by calling LsaQueryInformationPolicy() // for the PolicyAuditEventsInformation class and extracting the count from // the MaximumAuditEventCount field of the returned structure. // typedef enum _POLICY_AUDIT_EVENT_TYPE { AuditCategorySystem, AuditCategoryLogon, AuditCategoryObjectAccess, AuditCategoryPrivilegeUse, AuditCategoryDetailedTracking, AuditCategoryPolicyChange, AuditCategoryAccountManagement, AuditCategoryDirectoryServiceAccess, AuditCategoryAccountLogon } POLICY_AUDIT_EVENT_TYPE, *PPOLICY_AUDIT_EVENT_TYPE; // // The following defines describe the auditing options for each // event type // // Leave options specified for this event unchanged #define POLICY_AUDIT_EVENT_UNCHANGED (0x00000000L) // Audit successful occurrences of events of this type #define POLICY_AUDIT_EVENT_SUCCESS (0x00000001L) // Audit failed attempts to cause an event of this type to occur #define POLICY_AUDIT_EVENT_FAILURE (0x00000002L) #define POLICY_AUDIT_EVENT_NONE (0x00000004L) // Mask of valid event auditing options #define POLICY_AUDIT_EVENT_MASK \ (POLICY_AUDIT_EVENT_SUCCESS | \ POLICY_AUDIT_EVENT_FAILURE | \ POLICY_AUDIT_EVENT_UNCHANGED | \ POLICY_AUDIT_EVENT_NONE) #ifdef _NTDEF_ // begin_ntifs typedef UNICODE_STRING LSA_UNICODE_STRING, *PLSA_UNICODE_STRING; typedef STRING LSA_STRING, *PLSA_STRING; typedef OBJECT_ATTRIBUTES LSA_OBJECT_ATTRIBUTES, *PLSA_OBJECT_ATTRIBUTES; // end_ntifs #else // _NTDEF_ #ifndef IN #define IN #endif #ifndef OUT #define OUT #endif #ifndef OPTIONAL #define OPTIONAL #endif typedef struct _LSA_UNICODE_STRING { USHORT Length; USHORT MaximumLength; #ifdef MIDL_PASS [size_is(MaximumLength/2), length_is(Length/2)] #endif // MIDL_PASS PWSTR Buffer; } LSA_UNICODE_STRING, *PLSA_UNICODE_STRING; typedef struct _LSA_STRING { USHORT Length; USHORT MaximumLength; PCHAR Buffer; } LSA_STRING, *PLSA_STRING; typedef struct _LSA_OBJECT_ATTRIBUTES { ULONG Length; HANDLE RootDirectory; PLSA_UNICODE_STRING ObjectName; ULONG Attributes; PVOID SecurityDescriptor; // Points to type SECURITY_DESCRIPTOR PVOID SecurityQualityOfService; // Points to type SECURITY_QUALITY_OF_SERVICE } LSA_OBJECT_ATTRIBUTES, *PLSA_OBJECT_ATTRIBUTES; #endif // _NTDEF_ // end_ntsecapi // begin_ntsecapi // // Macro for determining whether an API succeeded. // #define LSA_SUCCESS(Error) ((LONG)(Error) >= 0) // end_ntsecapi ///////////////////////////////////////////////////////////////////////// // // // Services provided for use by logon processes // // // ///////////////////////////////////////////////////////////////////////// // begin_ntsecapi #ifndef _NTLSA_IFS_ // begin_ntifs NTSTATUS NTAPI LsaRegisterLogonProcess ( IN PLSA_STRING LogonProcessName, OUT PHANDLE LsaHandle, OUT PLSA_OPERATIONAL_MODE SecurityMode ); NTSTATUS NTAPI LsaLogonUser ( IN HANDLE LsaHandle, IN PLSA_STRING OriginName, IN SECURITY_LOGON_TYPE LogonType, IN ULONG AuthenticationPackage, IN PVOID AuthenticationInformation, IN ULONG AuthenticationInformationLength, IN PTOKEN_GROUPS LocalGroups OPTIONAL, IN PTOKEN_SOURCE SourceContext, OUT PVOID *ProfileBuffer, OUT PULONG ProfileBufferLength, OUT PLUID LogonId, OUT PHANDLE Token, OUT PQUOTA_LIMITS Quotas, OUT PNTSTATUS SubStatus ); // end_ntifs NTSTATUS NTAPI LsaLookupAuthenticationPackage ( IN HANDLE LsaHandle, IN PLSA_STRING PackageName, OUT PULONG AuthenticationPackage ); // begin_ntifs NTSTATUS NTAPI LsaFreeReturnBuffer ( IN PVOID Buffer ); // end_ntifs NTSTATUS NTAPI LsaCallAuthenticationPackage ( IN HANDLE LsaHandle, IN ULONG AuthenticationPackage, IN PVOID ProtocolSubmitBuffer, IN ULONG SubmitBufferLength, OUT PVOID *ProtocolReturnBuffer, OUT PULONG ReturnBufferLength, OUT PNTSTATUS ProtocolStatus ); NTSTATUS NTAPI LsaDeregisterLogonProcess ( IN HANDLE LsaHandle ); NTSTATUS NTAPI LsaConnectUntrusted ( OUT PHANDLE LsaHandle ); #endif // _NTLSA_IFS_ // end_ntsecapi // begin_ntsecpkg ///////////////////////////////////////////////////////////////////////// // // // Data types used by authentication packages // // // ///////////////////////////////////////////////////////////////////////// // // opaque data type which represents a client request // typedef PVOID *PLSA_CLIENT_REQUEST; // // When a logon of a user is requested, the authentication package // is expected to return one of the following structures indicating // the contents of a user's token. // typedef enum _LSA_TOKEN_INFORMATION_TYPE { LsaTokenInformationNull, // Implies LSA_TOKEN_INFORMATION_NULL data type LsaTokenInformationV1, // Implies LSA_TOKEN_INFORMATION_V1 data type LsaTokenInformationV2 // Implies LSA_TOKEN_INFORMATION_V2 data type } LSA_TOKEN_INFORMATION_TYPE, *PLSA_TOKEN_INFORMATION_TYPE; // // The NULL information is used in cases where a non-authenticated // system access is needed. For example, a non-authentication network // circuit (such as LAN Manager's null session) can be given NULL // information. This will result in an anonymous token being generated // for the logon that gives the user no ability to access protected system // resources, but does allow access to non-protected system resources. // typedef struct _LSA_TOKEN_INFORMATION_NULL { // // Time at which the security context becomes invalid. // Use a value in the distant future if the context // never expires. // LARGE_INTEGER ExpirationTime; // // The SID(s) of groups the user is to be made a member of. This should // not include WORLD or other system defined and assigned // SIDs. These will be added automatically by LSA. // // Each SID is expected to be in a separately allocated block // of memory. The TOKEN_GROUPS structure is also expected to // be in a separately allocated block of memory. // PTOKEN_GROUPS Groups; } LSA_TOKEN_INFORMATION_NULL, *PLSA_TOKEN_INFORMATION_NULL; // // The V1 token information structure is superceeded by the V2 token // information structure. The V1 strucure should only be used for // backwards compatability. // This structure contains information that an authentication package // can place in a Version 1 NT token object. // typedef struct _LSA_TOKEN_INFORMATION_V1 { // // Time at which the security context becomes invalid. // Use a value in the distant future if the context // never expires. // LARGE_INTEGER ExpirationTime; // // The SID of the user logging on. The SID value is in a // separately allocated block of memory. // TOKEN_USER User; // // The SID(s) of groups the user is a member of. This should // not include WORLD or other system defined and assigned // SIDs. These will be added automatically by LSA. // // Each SID is expected to be in a separately allocated block // of memory. The TOKEN_GROUPS structure is also expected to // be in a separately allocated block of memory. // PTOKEN_GROUPS Groups; // // This field is used to establish the primary group of the user. // This value does not have to correspond to one of the SIDs // assigned to the user. // // The SID pointed to by this structure is expected to be in // a separately allocated block of memory. // // This field is mandatory and must be filled in. // TOKEN_PRIMARY_GROUP PrimaryGroup; // // The privileges the user is assigned. This list of privileges // will be augmented or over-ridden by any local security policy // assigned privileges. // // Each privilege is expected to be in a separately allocated // block of memory. The TOKEN_PRIVILEGES structure is also // expected to be in a separately allocated block of memory. // // If there are no privileges to assign to the user, this field // may be set to NULL. // PTOKEN_PRIVILEGES Privileges; // // This field may be used to establish an explicit default // owner. Normally, the user ID is used as the default owner. // If another value is desired, it must be specified here. // // The Owner.Sid field may be set to NULL to indicate there is no // alternate default owner value. // TOKEN_OWNER Owner; // // This field may be used to establish a default // protection for the user. If no value is provided, then // a default protection that grants everyone all access will // be established. // // The DefaultDacl.DefaultDacl field may be set to NULL to indicate // there is no default protection. // TOKEN_DEFAULT_DACL DefaultDacl; } LSA_TOKEN_INFORMATION_V1, *PLSA_TOKEN_INFORMATION_V1; // // The V2 information is used in most cases of logon. The structure is identical // to the V1 token information structure, with the exception that the memory allocation // is handled differently. The LSA_TOKEN_INFORMATION_V2 structure is intended to be // allocated monolithiclly, with the privileges, DACL, sids, and group array either part of // same allocation, or allocated and freed externally. // typedef LSA_TOKEN_INFORMATION_V1 LSA_TOKEN_INFORMATION_V2, *PLSA_TOKEN_INFORMATION_V2; ///////////////////////////////////////////////////////////////////////// // // // Interface definitions available for use by authentication packages // // // ///////////////////////////////////////////////////////////////////////// typedef NTSTATUS (NTAPI LSA_CREATE_LOGON_SESSION) ( IN PLUID LogonId ); typedef NTSTATUS (NTAPI LSA_DELETE_LOGON_SESSION) ( IN PLUID LogonId ); typedef NTSTATUS (NTAPI LSA_ADD_CREDENTIAL) ( IN PLUID LogonId, IN ULONG AuthenticationPackage, IN PLSA_STRING PrimaryKeyValue, IN PLSA_STRING Credentials ); typedef NTSTATUS (NTAPI LSA_GET_CREDENTIALS) ( IN PLUID LogonId, IN ULONG AuthenticationPackage, IN OUT PULONG QueryContext, IN BOOLEAN RetrieveAllCredentials, IN PLSA_STRING PrimaryKeyValue, OUT PULONG PrimaryKeyLength, IN PLSA_STRING Credentials ); typedef NTSTATUS (NTAPI LSA_DELETE_CREDENTIAL) ( IN PLUID LogonId, IN ULONG AuthenticationPackage, IN PLSA_STRING PrimaryKeyValue ); typedef PVOID (NTAPI LSA_ALLOCATE_LSA_HEAP) ( IN ULONG Length ); typedef VOID (NTAPI LSA_FREE_LSA_HEAP) ( IN PVOID Base ); typedef PVOID (NTAPI LSA_ALLOCATE_PRIVATE_HEAP) ( IN SIZE_T Length ); typedef VOID (NTAPI LSA_FREE_PRIVATE_HEAP) ( IN PVOID Base ); typedef NTSTATUS (NTAPI LSA_ALLOCATE_CLIENT_BUFFER) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN ULONG LengthRequired, OUT PVOID *ClientBaseAddress ); typedef NTSTATUS (NTAPI LSA_FREE_CLIENT_BUFFER) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN PVOID ClientBaseAddress ); typedef NTSTATUS (NTAPI LSA_COPY_TO_CLIENT_BUFFER) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN ULONG Length, IN PVOID ClientBaseAddress, IN PVOID BufferToCopy ); typedef NTSTATUS (NTAPI LSA_COPY_FROM_CLIENT_BUFFER) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN ULONG Length, IN PVOID BufferToCopy, IN PVOID ClientBaseAddress ); typedef LSA_CREATE_LOGON_SESSION * PLSA_CREATE_LOGON_SESSION ; typedef LSA_DELETE_LOGON_SESSION * PLSA_DELETE_LOGON_SESSION ; typedef LSA_ADD_CREDENTIAL * PLSA_ADD_CREDENTIAL ; typedef LSA_GET_CREDENTIALS * PLSA_GET_CREDENTIALS ; typedef LSA_DELETE_CREDENTIAL * PLSA_DELETE_CREDENTIAL ; typedef LSA_ALLOCATE_LSA_HEAP * PLSA_ALLOCATE_LSA_HEAP ; typedef LSA_FREE_LSA_HEAP * PLSA_FREE_LSA_HEAP ; typedef LSA_ALLOCATE_PRIVATE_HEAP * PLSA_ALLOCATE_PRIVATE_HEAP ; typedef LSA_FREE_PRIVATE_HEAP * PLSA_FREE_PRIVATE_HEAP ; typedef LSA_ALLOCATE_CLIENT_BUFFER * PLSA_ALLOCATE_CLIENT_BUFFER ; typedef LSA_FREE_CLIENT_BUFFER * PLSA_FREE_CLIENT_BUFFER ; typedef LSA_COPY_TO_CLIENT_BUFFER * PLSA_COPY_TO_CLIENT_BUFFER ; typedef LSA_COPY_FROM_CLIENT_BUFFER * PLSA_COPY_FROM_CLIENT_BUFFER ; // // The dispatch table of LSA services which are available to // authentication packages. // typedef struct _LSA_DISPATCH_TABLE { PLSA_CREATE_LOGON_SESSION CreateLogonSession; PLSA_DELETE_LOGON_SESSION DeleteLogonSession; PLSA_ADD_CREDENTIAL AddCredential; PLSA_GET_CREDENTIALS GetCredentials; PLSA_DELETE_CREDENTIAL DeleteCredential; PLSA_ALLOCATE_LSA_HEAP AllocateLsaHeap; PLSA_FREE_LSA_HEAP FreeLsaHeap; PLSA_ALLOCATE_CLIENT_BUFFER AllocateClientBuffer; PLSA_FREE_CLIENT_BUFFER FreeClientBuffer; PLSA_COPY_TO_CLIENT_BUFFER CopyToClientBuffer; PLSA_COPY_FROM_CLIENT_BUFFER CopyFromClientBuffer; } LSA_DISPATCH_TABLE, *PLSA_DISPATCH_TABLE; //////////////////////////////////////////////////////////////////////////// // // // Interface definitions of services provided by authentication packages // // // //////////////////////////////////////////////////////////////////////////// // // Routine names // // The routines provided by the DLL must be assigned the following names // so that their addresses can be retrieved when the DLL is loaded. // #define LSA_AP_NAME_INITIALIZE_PACKAGE "LsaApInitializePackage\0" #define LSA_AP_NAME_LOGON_USER "LsaApLogonUser\0" #define LSA_AP_NAME_LOGON_USER_EX "LsaApLogonUserEx\0" #define LSA_AP_NAME_CALL_PACKAGE "LsaApCallPackage\0" #define LSA_AP_NAME_LOGON_TERMINATED "LsaApLogonTerminated\0" #define LSA_AP_NAME_CALL_PACKAGE_UNTRUSTED "LsaApCallPackageUntrusted\0" #define LSA_AP_NAME_CALL_PACKAGE_PASSTHROUGH "LsaApCallPackagePassthrough\0" // // Routine templates // typedef NTSTATUS (NTAPI LSA_AP_INITIALIZE_PACKAGE) ( IN ULONG AuthenticationPackageId, IN PLSA_DISPATCH_TABLE LsaDispatchTable, IN PLSA_STRING Database OPTIONAL, IN PLSA_STRING Confidentiality OPTIONAL, OUT PLSA_STRING *AuthenticationPackageName ); typedef NTSTATUS (NTAPI LSA_AP_LOGON_USER) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN SECURITY_LOGON_TYPE LogonType, IN PVOID AuthenticationInformation, IN PVOID ClientAuthenticationBase, IN ULONG AuthenticationInformationLength, OUT PVOID *ProfileBuffer, OUT PULONG ProfileBufferLength, OUT PLUID LogonId, OUT PNTSTATUS SubStatus, OUT PLSA_TOKEN_INFORMATION_TYPE TokenInformationType, OUT PVOID *TokenInformation, OUT PLSA_UNICODE_STRING *AccountName, OUT PLSA_UNICODE_STRING *AuthenticatingAuthority ); typedef NTSTATUS (NTAPI LSA_AP_LOGON_USER_EX) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN SECURITY_LOGON_TYPE LogonType, IN PVOID AuthenticationInformation, IN PVOID ClientAuthenticationBase, IN ULONG AuthenticationInformationLength, OUT PVOID *ProfileBuffer, OUT PULONG ProfileBufferLength, OUT PLUID LogonId, OUT PNTSTATUS SubStatus, OUT PLSA_TOKEN_INFORMATION_TYPE TokenInformationType, OUT PVOID *TokenInformation, OUT PUNICODE_STRING *AccountName, OUT PUNICODE_STRING *AuthenticatingAuthority, OUT PUNICODE_STRING *MachineName ); typedef NTSTATUS (NTAPI LSA_AP_CALL_PACKAGE) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN PVOID ProtocolSubmitBuffer, IN PVOID ClientBufferBase, IN ULONG SubmitBufferLength, OUT PVOID *ProtocolReturnBuffer, OUT PULONG ReturnBufferLength, OUT PNTSTATUS ProtocolStatus ); typedef NTSTATUS (NTAPI LSA_AP_CALL_PACKAGE_PASSTHROUGH) ( IN PLSA_CLIENT_REQUEST ClientRequest, IN PVOID ProtocolSubmitBuffer, IN PVOID ClientBufferBase, IN ULONG SubmitBufferLength, OUT PVOID *ProtocolReturnBuffer, OUT PULONG ReturnBufferLength, OUT PNTSTATUS ProtocolStatus ); typedef VOID (NTAPI LSA_AP_LOGON_TERMINATED) ( IN PLUID LogonId ); typedef LSA_AP_CALL_PACKAGE LSA_AP_CALL_PACKAGE_UNTRUSTED; typedef LSA_AP_INITIALIZE_PACKAGE * PLSA_AP_INITIALIZE_PACKAGE ; typedef LSA_AP_LOGON_USER * PLSA_AP_LOGON_USER ; typedef LSA_AP_LOGON_USER_EX * PLSA_AP_LOGON_USER_EX ; typedef LSA_AP_CALL_PACKAGE * PLSA_AP_CALL_PACKAGE ; typedef LSA_AP_CALL_PACKAGE_PASSTHROUGH * PLSA_AP_CALL_PACKAGE_PASSTHROUGH ; typedef LSA_AP_LOGON_TERMINATED * PLSA_AP_LOGON_TERMINATED ; typedef LSA_AP_CALL_PACKAGE_UNTRUSTED * PLSA_AP_CALL_PACKAGE_UNTRUSTED ; // end_ntsecpkg // begin_ntsecapi //////////////////////////////////////////////////////////////////////////// // // // Local Security Policy Administration API datatypes and defines // // // //////////////////////////////////////////////////////////////////////////// // // Access types for the Policy object // #define POLICY_VIEW_LOCAL_INFORMATION 0x00000001L #define POLICY_VIEW_AUDIT_INFORMATION 0x00000002L #define POLICY_GET_PRIVATE_INFORMATION 0x00000004L #define POLICY_TRUST_ADMIN 0x00000008L #define POLICY_CREATE_ACCOUNT 0x00000010L #define POLICY_CREATE_SECRET 0x00000020L #define POLICY_CREATE_PRIVILEGE 0x00000040L #define POLICY_SET_DEFAULT_QUOTA_LIMITS 0x00000080L #define POLICY_SET_AUDIT_REQUIREMENTS 0x00000100L #define POLICY_AUDIT_LOG_ADMIN 0x00000200L #define POLICY_SERVER_ADMIN 0x00000400L #define POLICY_LOOKUP_NAMES 0x00000800L #define POLICY_NOTIFICATION 0x00001000L #define POLICY_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED |\ POLICY_VIEW_LOCAL_INFORMATION |\ POLICY_VIEW_AUDIT_INFORMATION |\ POLICY_GET_PRIVATE_INFORMATION |\ POLICY_TRUST_ADMIN |\ POLICY_CREATE_ACCOUNT |\ POLICY_CREATE_SECRET |\ POLICY_CREATE_PRIVILEGE |\ POLICY_SET_DEFAULT_QUOTA_LIMITS |\ POLICY_SET_AUDIT_REQUIREMENTS |\ POLICY_AUDIT_LOG_ADMIN |\ POLICY_SERVER_ADMIN |\ POLICY_LOOKUP_NAMES) #define POLICY_READ (STANDARD_RIGHTS_READ |\ POLICY_VIEW_AUDIT_INFORMATION |\ POLICY_GET_PRIVATE_INFORMATION) #define POLICY_WRITE (STANDARD_RIGHTS_WRITE |\ POLICY_TRUST_ADMIN |\ POLICY_CREATE_ACCOUNT |\ POLICY_CREATE_SECRET |\ POLICY_CREATE_PRIVILEGE |\ POLICY_SET_DEFAULT_QUOTA_LIMITS |\ POLICY_SET_AUDIT_REQUIREMENTS |\ POLICY_AUDIT_LOG_ADMIN |\ POLICY_SERVER_ADMIN) #define POLICY_EXECUTE (STANDARD_RIGHTS_EXECUTE |\ POLICY_VIEW_LOCAL_INFORMATION |\ POLICY_LOOKUP_NAMES) // // Policy object specific data types. // // // The following data type is used to identify a domain // typedef struct _LSA_TRUST_INFORMATION { LSA_UNICODE_STRING Name; PSID Sid; } LSA_TRUST_INFORMATION, *PLSA_TRUST_INFORMATION; // where members have the following usage: // // Name - The name of the domain. // // Sid - A pointer to the Sid of the Domain // // // The following data type is used in name and SID lookup services to // describe the domains referenced in the lookup operation. // typedef struct _LSA_REFERENCED_DOMAIN_LIST { ULONG Entries; PLSA_TRUST_INFORMATION Domains; } LSA_REFERENCED_DOMAIN_LIST, *PLSA_REFERENCED_DOMAIN_LIST; // where members have the following usage: // // Entries - Is a count of the number of domains described in the // Domains array. // // Domains - Is a pointer to an array of Entries LSA_TRUST_INFORMATION data // structures. // // // The following data type is used in name to SID lookup services to describe // the domains referenced in the lookup operation. // typedef struct _LSA_TRANSLATED_SID { SID_NAME_USE Use; ULONG RelativeId; LONG DomainIndex; } LSA_TRANSLATED_SID, *PLSA_TRANSLATED_SID; // where members have the following usage: // // Use - identifies the use of the SID. If this value is SidUnknown or // SidInvalid, then the remainder of the record is not set and // should be ignored. // // RelativeId - Contains the relative ID of the translated SID. The // remainder of the SID (the prefix) is obtained using the // DomainIndex field. // // DomainIndex - Is the index of an entry in a related // LSA_REFERENCED_DOMAIN_LIST data structure describing the // domain in which the account was found. // // If there is no corresponding reference domain for an entry, then // this field will contain a negative value. // typedef struct _LSA_TRANSLATED_SID2 { SID_NAME_USE Use; PSID Sid; LONG DomainIndex; ULONG Flags; } LSA_TRANSLATED_SID2, *PLSA_TRANSLATED_SID2; // where members have the following usage: // // Use - identifies the use of the SID. If this value is SidUnknown or // SidInvalid, then the remainder of the record is not set and // should be ignored. // // Sid - Contains the complete Sid of the tranlated SID // // DomainIndex - Is the index of an entry in a related // LSA_REFERENCED_DOMAIN_LIST data structure describing the // domain in which the account was found. // // If there is no corresponding reference domain for an entry, then // this field will contain a negative value. // // // The following data type is used in SID to name lookup services to // describe the domains referenced in the lookup operation. // typedef struct _LSA_TRANSLATED_NAME { SID_NAME_USE Use; LSA_UNICODE_STRING Name; LONG DomainIndex; } LSA_TRANSLATED_NAME, *PLSA_TRANSLATED_NAME; // where the members have the following usage: // // Use - Identifies the use of the name. If this value is SidUnknown // or SidInvalid, then the remainder of the record is not set and // should be ignored. If this value is SidWellKnownGroup then the // Name field is invalid, but the DomainIndex field is not. // // Name - Contains the isolated name of the translated SID. // // DomainIndex - Is the index of an entry in a related // LSA_REFERENCED_DOMAIN_LIST data structure describing the domain // in which the account was found. // // If there is no corresponding reference domain for an entry, then // this field will contain a negative value. // // end_ntsecapi // // The following data type specifies the ways in which a user or member of // an alias or group may be allowed to access the system. An account may // be granted zero or more of these types of access to the system. // // The types of access are: // // Interactive - The user or alias/group member may interactively logon // to the system. // // Network - The user or alias/group member may access the system via // the network (e.g., through shares). // // Service - The user or alias may be activated as a service on the // system. // typedef ULONG POLICY_SYSTEM_ACCESS_MODE, *PPOLICY_SYSTEM_ACCESS_MODE; #define POLICY_MODE_INTERACTIVE SECURITY_ACCESS_INTERACTIVE_LOGON #define POLICY_MODE_NETWORK SECURITY_ACCESS_NETWORK_LOGON #define POLICY_MODE_BATCH SECURITY_ACCESS_BATCH_LOGON #define POLICY_MODE_SERVICE SECURITY_ACCESS_SERVICE_LOGON #define POLICY_MODE_PROXY SECURITY_ACCESS_PROXY_LOGON #define POLICY_MODE_DENY_INTERACTIVE SECURITY_ACCESS_DENY_INTERACTIVE_LOGON #define POLICY_MODE_DENY_NETWORK SECURITY_ACCESS_DENY_NETWORK_LOGON #define POLICY_MODE_DENY_BATCH SECURITY_ACCESS_DENY_BATCH_LOGON #define POLICY_MODE_DENY_SERVICE SECURITY_ACCESS_DENY_SERVICE_LOGON #define POLICY_MODE_REMOTE_INTERACTIVE SECURITY_ACCESS_REMOTE_INTERACTIVE_LOGON #define POLICY_MODE_DENY_REMOTE_INTERACTIVE SECURITY_ACCESS_DENY_REMOTE_INTERACTIVE_LOGON #define POLICY_MODE_ALL (POLICY_MODE_INTERACTIVE | \ POLICY_MODE_NETWORK | \ POLICY_MODE_BATCH | \ POLICY_MODE_SERVICE | \ POLICY_MODE_PROXY | \ POLICY_MODE_DENY_INTERACTIVE | \ POLICY_MODE_DENY_NETWORK | \ SECURITY_ACCESS_DENY_BATCH_LOGON | \ SECURITY_ACCESS_DENY_SERVICE_LOGON | \ POLICY_MODE_REMOTE_INTERACTIVE | \ POLICY_MODE_DENY_REMOTE_INTERACTIVE ) // // The following is the bits allowed in NT4.0 // #define POLICY_MODE_ALL_NT4 (POLICY_MODE_INTERACTIVE | \ POLICY_MODE_NETWORK | \ POLICY_MODE_BATCH | \ POLICY_MODE_SERVICE | \ POLICY_MODE_PROXY ) // begin_ntsecapi // // The following data type is used to represent the role of the LSA // server (primary or backup). // typedef enum _POLICY_LSA_SERVER_ROLE { PolicyServerRoleBackup = 2, PolicyServerRolePrimary } POLICY_LSA_SERVER_ROLE, *PPOLICY_LSA_SERVER_ROLE; // // The following data type is used to specify the auditing options for // an Audit Event Type. // typedef ULONG POLICY_AUDIT_EVENT_OPTIONS, *PPOLICY_AUDIT_EVENT_OPTIONS; // where the following flags can be set: // // POLICY_AUDIT_EVENT_UNCHANGED - Leave existing auditing options // unchanged for events of this type. This flag is only used for // set operations. If this flag is set, then all other flags // are ignored. // // POLICY_AUDIT_EVENT_NONE - Cancel all auditing options for events // of this type. If this flag is set, the success/failure flags // are ignored. // // POLICY_AUDIT_EVENT_SUCCESS - When auditing is enabled, audit all // successful occurrences of events of the given type. // // POLICY_AUDIT_EVENT_FAILURE - When auditing is enabled, audit all // unsuccessful occurrences of events of the given type. // // end_ntsecapi // // The following data type is used to return information about privileges // defined on a system. // typedef struct _POLICY_PRIVILEGE_DEFINITION { LSA_UNICODE_STRING Name; LUID LocalValue; } POLICY_PRIVILEGE_DEFINITION, *PPOLICY_PRIVILEGE_DEFINITION; // // where the members have the following usage: // // Name - Is the architected name of the privilege. This is the // primary key of the privilege and the only value that is // transportable between systems. // // Luid - is a LUID value assigned locally for efficient representation // of the privilege. Ths value is meaningful only on the system it // was assigned on and is not transportable in any way. // // // System Flags for LsaLookupNames2 // // // Note the flags start backward so that public values // don't have gaps. // // // This flag controls LsaLookupNames2 such that isolated names, including // UPN's are not searched for off the machine. Composite names // (domain\username) are still sent off machine if necessary. // #define LSA_LOOKUP_ISOLATED_AS_LOCAL 0x80000000 // begin_ntsecapi // // The following data type defines the classes of Policy Information // that may be queried/set. // typedef enum _POLICY_INFORMATION_CLASS { PolicyAuditLogInformation = 1, PolicyAuditEventsInformation, PolicyPrimaryDomainInformation, PolicyPdAccountInformation, PolicyAccountDomainInformation, PolicyLsaServerRoleInformation, PolicyReplicaSourceInformation, PolicyDefaultQuotaInformation, PolicyModificationInformation, PolicyAuditFullSetInformation, PolicyAuditFullQueryInformation, PolicyDnsDomainInformation, PolicyDnsDomainInformationInt } POLICY_INFORMATION_CLASS, *PPOLICY_INFORMATION_CLASS; // // The following data type corresponds to the PolicyAuditLogInformation // information class. It is used to represent information relating to // the Audit Log. // // This structure may be used in both query and set operations. However, // when used in set operations, some fields are ignored. // typedef struct _POLICY_AUDIT_LOG_INFO { ULONG AuditLogPercentFull; ULONG MaximumLogSize; LARGE_INTEGER AuditRetentionPeriod; BOOLEAN AuditLogFullShutdownInProgress; LARGE_INTEGER TimeToShutdown; ULONG NextAuditRecordId; } POLICY_AUDIT_LOG_INFO, *PPOLICY_AUDIT_LOG_INFO; // where the members have the following usage: // // AuditLogPercentFull - Indicates the percentage of the Audit Log // currently being used. // // MaximumLogSize - Specifies the maximum size of the Audit Log in // kilobytes. // // AuditRetentionPeriod - Indicates the length of time that Audit // Records are to be retained. Audit Records are discardable // if their timestamp predates the current time minus the // retention period. // // AuditLogFullShutdownInProgress - Indicates whether or not a system // shutdown is being initiated due to the security Audit Log becoming // full. This condition will only occur if the system is configured // to shutdown when the log becomes full. // // TRUE indicates that a shutdown is in progress // FALSE indicates that a shutdown is not in progress. // // Once a shutdown has been initiated, this flag will be set to // TRUE. If an administrator is able to currect the situation // before the shutdown becomes irreversible, then this flag will // be reset to false. // // This field is ignored for set operations. // // TimeToShutdown - If the AuditLogFullShutdownInProgress flag is set, // then this field contains the time left before the shutdown // becomes irreversible. // // This field is ignored for set operations. // // // The following data type corresponds to the PolicyAuditEventsInformation // information class. It is used to represent information relating to // the audit requirements. // typedef struct _POLICY_AUDIT_EVENTS_INFO { BOOLEAN AuditingMode; PPOLICY_AUDIT_EVENT_OPTIONS EventAuditingOptions; ULONG MaximumAuditEventCount; } POLICY_AUDIT_EVENTS_INFO, *PPOLICY_AUDIT_EVENTS_INFO; // where the members have the following usage: // // AuditingMode - A Boolean variable specifying the Auditing Mode value. // This value is interpreted as follows: // // TRUE - Auditing is to be enabled (set operations) or is enabled // (query operations). Audit Records will be generated according // to the Event Auditing Options in effect (see the // EventAuditingOptions field. // // FALSE - Auditing is to be disabled (set operations) or is // disabled (query operations). No Audit Records will be // generated. Note that for set operations the Event Auditing // Options in effect will still be updated as specified by the // EventAuditingOptions field whether Auditing is enabled or // disabled. // // EventAuditingOptions - Pointer to an array of Auditing Options // indexed by Audit Event Type. // // MaximumAuditEventCount - Specifiesa count of the number of Audit // Event Types specified by the EventAuditingOptions parameter. If // this count is less than the number of Audit Event Types supported // by the system, the Auditing Options for Event Types with IDs // higher than (MaximumAuditEventCount + 1) are left unchanged. // // // The following structure corresponds to the PolicyAccountDomainInformation // information class. // typedef struct _POLICY_ACCOUNT_DOMAIN_INFO { LSA_UNICODE_STRING DomainName; PSID DomainSid; } POLICY_ACCOUNT_DOMAIN_INFO, *PPOLICY_ACCOUNT_DOMAIN_INFO; // where the members have the following usage: // // DomainName - Is the name of the domain // // DomainSid - Is the Sid of the domain // // // The following structure corresponds to the PolicyPrimaryDomainInformation // information class. // typedef struct _POLICY_PRIMARY_DOMAIN_INFO { LSA_UNICODE_STRING Name; PSID Sid; } POLICY_PRIMARY_DOMAIN_INFO, *PPOLICY_PRIMARY_DOMAIN_INFO; // where the members have the following usage: // // Name - Is the name of the domain // // Sid - Is the Sid of the domain // // // The following structure corresponds to the PolicyDnsDomainInformation // information class // typedef struct _POLICY_DNS_DOMAIN_INFO { LSA_UNICODE_STRING Name; LSA_UNICODE_STRING DnsDomainName; LSA_UNICODE_STRING DnsForestName; GUID DomainGuid; PSID Sid; } POLICY_DNS_DOMAIN_INFO, *PPOLICY_DNS_DOMAIN_INFO; // where the members have the following usage: // // Name - Is the name of the Domain // // DnsDomainName - Is the DNS name of the domain // // DnsForestName - Is the DNS forest name of the domain // // DomainGuid - Is the GUID of the domain // // Sid - Is the Sid of the domain // // The following structure corresponds to the PolicyPdAccountInformation // information class. This structure may be used in Query operations // only. // typedef struct _POLICY_PD_ACCOUNT_INFO { LSA_UNICODE_STRING Name; } POLICY_PD_ACCOUNT_INFO, *PPOLICY_PD_ACCOUNT_INFO; // where the members have the following usage: // // Name - Is the name of an account in the domain that should be used // for authentication and name/ID lookup requests. // // // The following structure corresponds to the PolicyLsaServerRoleInformation // information class. // typedef struct _POLICY_LSA_SERVER_ROLE_INFO { POLICY_LSA_SERVER_ROLE LsaServerRole; } POLICY_LSA_SERVER_ROLE_INFO, *PPOLICY_LSA_SERVER_ROLE_INFO; // where the fields have the following usage: // // TBS // // // The following structure corresponds to the PolicyReplicaSourceInformation // information class. // typedef struct _POLICY_REPLICA_SOURCE_INFO { LSA_UNICODE_STRING ReplicaSource; LSA_UNICODE_STRING ReplicaAccountName; } POLICY_REPLICA_SOURCE_INFO, *PPOLICY_REPLICA_SOURCE_INFO; // // The following structure corresponds to the PolicyDefaultQuotaInformation // information class. // typedef struct _POLICY_DEFAULT_QUOTA_INFO { QUOTA_LIMITS QuotaLimits; } POLICY_DEFAULT_QUOTA_INFO, *PPOLICY_DEFAULT_QUOTA_INFO; // // The following structure corresponds to the PolicyModificationInformation // information class. // typedef struct _POLICY_MODIFICATION_INFO { LARGE_INTEGER ModifiedId; LARGE_INTEGER DatabaseCreationTime; } POLICY_MODIFICATION_INFO, *PPOLICY_MODIFICATION_INFO; // where the members have the following usage: // // ModifiedId - Is a 64-bit unsigned integer that is incremented each // time anything in the LSA database is modified. This value is // only modified on Primary Domain Controllers. // // DatabaseCreationTime - Is the date/time that the LSA Database was // created. On Backup Domain Controllers, this value is replicated // from the Primary Domain Controller. // // // The following structure type corresponds to the PolicyAuditFullSetInformation // Information Class. // typedef struct _POLICY_AUDIT_FULL_SET_INFO { BOOLEAN ShutDownOnFull; } POLICY_AUDIT_FULL_SET_INFO, *PPOLICY_AUDIT_FULL_SET_INFO; // // The following structure type corresponds to the PolicyAuditFullQueryInformation // Information Class. // typedef struct _POLICY_AUDIT_FULL_QUERY_INFO { BOOLEAN ShutDownOnFull; BOOLEAN LogIsFull; } POLICY_AUDIT_FULL_QUERY_INFO, *PPOLICY_AUDIT_FULL_QUERY_INFO; // // The following data type defines the classes of Policy Information // that may be queried/set that has domain wide effect. // typedef enum _POLICY_DOMAIN_INFORMATION_CLASS { // PolicyDomainQualityOfServiceInformation, // value was used in W2K; no longer supported PolicyDomainEfsInformation = 2, PolicyDomainKerberosTicketInformation } POLICY_DOMAIN_INFORMATION_CLASS, *PPOLICY_DOMAIN_INFORMATION_CLASS; // // The following structure corresponds to the PolicyEfsInformation // information class // typedef struct _POLICY_DOMAIN_EFS_INFO { ULONG InfoLength; PUCHAR EfsBlob; } POLICY_DOMAIN_EFS_INFO, *PPOLICY_DOMAIN_EFS_INFO; // // where the members have the following usage: // // InfoLength - Length of the EFS Information blob // // EfsBlob - Efs blob data // // // The following structure corresponds to the PolicyDomainKerberosTicketInformation // information class // #define POLICY_KERBEROS_VALIDATE_CLIENT 0x00000080 typedef struct _POLICY_DOMAIN_KERBEROS_TICKET_INFO { ULONG AuthenticationOptions; LARGE_INTEGER MaxServiceTicketAge; LARGE_INTEGER MaxTicketAge; LARGE_INTEGER MaxRenewAge; LARGE_INTEGER MaxClockSkew; LARGE_INTEGER Reserved; } POLICY_DOMAIN_KERBEROS_TICKET_INFO, *PPOLICY_DOMAIN_KERBEROS_TICKET_INFO; // // where the members have the following usage // // AuthenticationOptions -- allowed ticket options (POLICY_KERBEROS_* flags ) // // MaxServiceTicketAge -- Maximum lifetime for a service ticket // // MaxTicketAge -- Maximum lifetime for the initial ticket // // MaxRenewAge -- Maximum cumulative age a renewable ticket can be with // requring authentication // // MaxClockSkew -- Maximum tolerance for synchronization of computer clocks // // Reserved -- Reserved // // The following data type defines the classes of Policy Information / Policy Domain Information // that may be used to request notification // typedef enum _POLICY_NOTIFICATION_INFORMATION_CLASS { PolicyNotifyAuditEventsInformation = 1, PolicyNotifyAccountDomainInformation, PolicyNotifyServerRoleInformation, PolicyNotifyDnsDomainInformation, PolicyNotifyDomainEfsInformation, PolicyNotifyDomainKerberosTicketInformation, PolicyNotifyMachineAccountPasswordInformation } POLICY_NOTIFICATION_INFORMATION_CLASS, *PPOLICY_NOTIFICATION_INFORMATION_CLASS; // end_ntsecapi // // Account object type-specific Access Types // #define ACCOUNT_VIEW 0x00000001L #define ACCOUNT_ADJUST_PRIVILEGES 0x00000002L #define ACCOUNT_ADJUST_QUOTAS 0x00000004L #define ACCOUNT_ADJUST_SYSTEM_ACCESS 0x00000008L #define ACCOUNT_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED |\ ACCOUNT_VIEW |\ ACCOUNT_ADJUST_PRIVILEGES |\ ACCOUNT_ADJUST_QUOTAS |\ ACCOUNT_ADJUST_SYSTEM_ACCESS) #define ACCOUNT_READ (STANDARD_RIGHTS_READ |\ ACCOUNT_VIEW) #define ACCOUNT_WRITE (STANDARD_RIGHTS_WRITE |\ ACCOUNT_ADJUST_PRIVILEGES |\ ACCOUNT_ADJUST_QUOTAS |\ ACCOUNT_ADJUST_SYSTEM_ACCESS) #define ACCOUNT_EXECUTE (STANDARD_RIGHTS_EXECUTE) // begin_ntsecapi // // LSA RPC Context Handle (Opaque form). Note that a Context Handle is // always a pointer type unlike regular handles. // typedef PVOID LSA_HANDLE, *PLSA_HANDLE; // end_ntsecapi // // Trusted Domain object specific access types // #define TRUSTED_QUERY_DOMAIN_NAME 0x00000001L #define TRUSTED_QUERY_CONTROLLERS 0x00000002L #define TRUSTED_SET_CONTROLLERS 0x00000004L #define TRUSTED_QUERY_POSIX 0x00000008L #define TRUSTED_SET_POSIX 0x00000010L #define TRUSTED_SET_AUTH 0x00000020L #define TRUSTED_QUERY_AUTH 0x00000040L #define TRUSTED_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED |\ TRUSTED_QUERY_DOMAIN_NAME |\ TRUSTED_QUERY_CONTROLLERS |\ TRUSTED_SET_CONTROLLERS |\ TRUSTED_QUERY_POSIX |\ TRUSTED_SET_POSIX |\ TRUSTED_SET_AUTH |\ TRUSTED_QUERY_AUTH) #define TRUSTED_READ (STANDARD_RIGHTS_READ |\ TRUSTED_QUERY_DOMAIN_NAME) #define TRUSTED_WRITE (STANDARD_RIGHTS_WRITE |\ TRUSTED_SET_CONTROLLERS |\ TRUSTED_SET_POSIX |\ TRUSTED_SET_AUTH ) #define TRUSTED_EXECUTE (STANDARD_RIGHTS_EXECUTE |\ TRUSTED_QUERY_CONTROLLERS |\ TRUSTED_QUERY_POSIX) // begin_ntsecapi // // Trusted Domain Object specific data types // // // This data type defines the following information classes that may be // queried or set. // typedef enum _TRUSTED_INFORMATION_CLASS { TrustedDomainNameInformation = 1, TrustedControllersInformation, TrustedPosixOffsetInformation, TrustedPasswordInformation, TrustedDomainInformationBasic, TrustedDomainInformationEx, TrustedDomainAuthInformation, TrustedDomainFullInformation, TrustedDomainAuthInformationInternal, TrustedDomainFullInformationInternal, TrustedDomainInformationEx2Internal, TrustedDomainFullInformation2Internal, } TRUSTED_INFORMATION_CLASS, *PTRUSTED_INFORMATION_CLASS; // // The following data type corresponds to the TrustedDomainNameInformation // information class. // typedef struct _TRUSTED_DOMAIN_NAME_INFO { LSA_UNICODE_STRING Name; } TRUSTED_DOMAIN_NAME_INFO, *PTRUSTED_DOMAIN_NAME_INFO; // where members have the following meaning: // // Name - The name of the Trusted Domain. // // // The following data type corresponds to the TrustedControllersInformation // information class. // typedef struct _TRUSTED_CONTROLLERS_INFO { ULONG Entries; PLSA_UNICODE_STRING Names; } TRUSTED_CONTROLLERS_INFO, *PTRUSTED_CONTROLLERS_INFO; // where members have the following meaning: // // Entries - Indicate how mamy entries there are in the Names array. // // Names - Pointer to an array of LSA_UNICODE_STRING structures containing the // names of domain controllers of the domain. This information may not // be accurate and should be used only as a hint. The order of this // list is considered significant and will be maintained. // // By convention, the first name in this list is assumed to be the // Primary Domain Controller of the domain. If the Primary Domain // Controller is not known, the first name should be set to the NULL // string. // // // The following data type corresponds to the TrustedPosixOffsetInformation // information class. // typedef struct _TRUSTED_POSIX_OFFSET_INFO { ULONG Offset; } TRUSTED_POSIX_OFFSET_INFO, *PTRUSTED_POSIX_OFFSET_INFO; // where members have the following meaning: // // Offset - Is an offset to use for the generation of Posix user and group // IDs from SIDs. The Posix ID corresponding to any particular SID is // generated by adding the RID of that SID to the Offset of the SID's // corresponding TrustedDomain object. // // // The following data type corresponds to the TrustedPasswordInformation // information class. // typedef struct _TRUSTED_PASSWORD_INFO { LSA_UNICODE_STRING Password; LSA_UNICODE_STRING OldPassword; } TRUSTED_PASSWORD_INFO, *PTRUSTED_PASSWORD_INFO; typedef LSA_TRUST_INFORMATION TRUSTED_DOMAIN_INFORMATION_BASIC; typedef PLSA_TRUST_INFORMATION PTRUSTED_DOMAIN_INFORMATION_BASIC; // // Direction of the trust // #define TRUST_DIRECTION_DISABLED 0x00000000 #define TRUST_DIRECTION_INBOUND 0x00000001 #define TRUST_DIRECTION_OUTBOUND 0x00000002 #define TRUST_DIRECTION_BIDIRECTIONAL (TRUST_DIRECTION_INBOUND | TRUST_DIRECTION_OUTBOUND) #define TRUST_TYPE_DOWNLEVEL 0x00000001 // NT4 and before #define TRUST_TYPE_UPLEVEL 0x00000002 // NT5 #define TRUST_TYPE_MIT 0x00000003 // Trust with a MIT Kerberos realm // #define TRUST_TYPE_DCE 0x00000004 // Trust with a DCE realm // Levels 0x5 - 0x000FFFFF reserved for future use // Provider specific trust levels are from 0x00100000 to 0xFFF00000 #define TRUST_ATTRIBUTE_NON_TRANSITIVE 0x00000001 // Disallow transitivity #define TRUST_ATTRIBUTE_UPLEVEL_ONLY 0x00000002 // Trust link only valid for uplevel client #define TRUST_ATTRIBUTE_QUARANTINED_DOMAIN 0x00000004 // Used to quarantine domains #define TRUST_ATTRIBUTE_FOREST_TRANSITIVE 0x00000008 // This link may contain forest trust information #define TRUST_ATTRIBUTE_CROSS_ORGANIZATION 0x00000010 // This trust is to a domain/forest which is not part of this enterprise #define TRUST_ATTRIBUTE_WITHIN_FOREST 0x00000020 // Trust is internal to this forest #define TRUST_ATTRIBUTE_TREAT_AS_EXTERNAL 0x00000040 // Trust is to be treated as external for trust boundary purposes // Trust attributes 0x00000040 through 0x00200000 are reserved for future use // Trust attributes 0x00400000 through 0x00800000 were used previously (up to W2K) and should not be re-used // Trust attributes 0x01000000 through 0x80000000 are reserved for user #define TRUST_ATTRIBUTES_VALID 0xFF03FFFF #define TRUST_ATTRIBUTES_USER 0xFF000000 typedef struct _TRUSTED_DOMAIN_INFORMATION_EX { LSA_UNICODE_STRING Name; LSA_UNICODE_STRING FlatName; PSID Sid; ULONG TrustDirection; ULONG TrustType; ULONG TrustAttributes; } TRUSTED_DOMAIN_INFORMATION_EX, *PTRUSTED_DOMAIN_INFORMATION_EX; typedef struct _TRUSTED_DOMAIN_INFORMATION_EX2 { LSA_UNICODE_STRING Name; LSA_UNICODE_STRING FlatName; PSID Sid; ULONG TrustDirection; ULONG TrustType; ULONG TrustAttributes; ULONG ForestTrustLength; #ifdef MIDL_PASS [size_is( ForestTrustLength )] #endif PUCHAR ForestTrustInfo; } TRUSTED_DOMAIN_INFORMATION_EX2, *PTRUSTED_DOMAIN_INFORMATION_EX2; // // Type of authentication information // #define TRUST_AUTH_TYPE_NONE 0 // Ignore this entry #define TRUST_AUTH_TYPE_NT4OWF 1 // NT4 OWF password #define TRUST_AUTH_TYPE_CLEAR 2 // Cleartext password #define TRUST_AUTH_TYPE_VERSION 3 // Cleartext password version number typedef struct _LSA_AUTH_INFORMATION { LARGE_INTEGER LastUpdateTime; ULONG AuthType; ULONG AuthInfoLength; PUCHAR AuthInfo; } LSA_AUTH_INFORMATION, *PLSA_AUTH_INFORMATION; typedef struct _TRUSTED_DOMAIN_AUTH_INFORMATION { ULONG IncomingAuthInfos; PLSA_AUTH_INFORMATION IncomingAuthenticationInformation; PLSA_AUTH_INFORMATION IncomingPreviousAuthenticationInformation; ULONG OutgoingAuthInfos; PLSA_AUTH_INFORMATION OutgoingAuthenticationInformation; PLSA_AUTH_INFORMATION OutgoingPreviousAuthenticationInformation; } TRUSTED_DOMAIN_AUTH_INFORMATION, *PTRUSTED_DOMAIN_AUTH_INFORMATION; typedef struct _TRUSTED_DOMAIN_FULL_INFORMATION { TRUSTED_DOMAIN_INFORMATION_EX Information; TRUSTED_POSIX_OFFSET_INFO PosixOffset; TRUSTED_DOMAIN_AUTH_INFORMATION AuthInformation; } TRUSTED_DOMAIN_FULL_INFORMATION, *PTRUSTED_DOMAIN_FULL_INFORMATION; typedef struct _TRUSTED_DOMAIN_FULL_INFORMATION2 { TRUSTED_DOMAIN_INFORMATION_EX2 Information; TRUSTED_POSIX_OFFSET_INFO PosixOffset; TRUSTED_DOMAIN_AUTH_INFORMATION AuthInformation; } TRUSTED_DOMAIN_FULL_INFORMATION2, *PTRUSTED_DOMAIN_FULL_INFORMATION2; typedef enum { ForestTrustTopLevelName, ForestTrustTopLevelNameEx, ForestTrustDomainInfo, ForestTrustRecordTypeLast = ForestTrustDomainInfo } LSA_FOREST_TRUST_RECORD_TYPE; // // Bottom 16 bits of the flags are reserved for disablement reasons // #define LSA_FTRECORD_DISABLED_REASONS ( 0x0000FFFFL ) // // Reasons for a top-level name forest trust record to be disabled // #define LSA_TLN_DISABLED_NEW ( 0x00000001L ) #define LSA_TLN_DISABLED_ADMIN ( 0x00000002L ) #define LSA_TLN_DISABLED_CONFLICT ( 0x00000004L ) // // Reasons for a domain information forest trust record to be disabled // #define LSA_SID_DISABLED_ADMIN ( 0x00000001L ) #define LSA_SID_DISABLED_CONFLICT ( 0x00000002L ) #define LSA_NB_DISABLED_ADMIN ( 0x00000004L ) #define LSA_NB_DISABLED_CONFLICT ( 0x00000008L ) typedef struct _LSA_FOREST_TRUST_DOMAIN_INFO { #ifdef MIDL_PASS PISID Sid; #else PSID Sid; #endif LSA_UNICODE_STRING DnsName; LSA_UNICODE_STRING NetbiosName; } LSA_FOREST_TRUST_DOMAIN_INFO, *PLSA_FOREST_TRUST_DOMAIN_INFO; // // To prevent huge data to be passed in, we should put a limit on LSA_FOREST_TRUST_BINARY_DATA. // 128K is large enough that can't be reached in the near future, and small enough not to // cause memory problems. #define MAX_FOREST_TRUST_BINARY_DATA_SIZE ( 128 * 1024 ) typedef struct _LSA_FOREST_TRUST_BINARY_DATA { #ifdef MIDL_PASS [range(0, MAX_FOREST_TRUST_BINARY_DATA_SIZE)] ULONG Length; [size_is( Length )] PUCHAR Buffer; #else ULONG Length; PUCHAR Buffer; #endif } LSA_FOREST_TRUST_BINARY_DATA, *PLSA_FOREST_TRUST_BINARY_DATA; typedef struct _LSA_FOREST_TRUST_RECORD { ULONG Flags; LSA_FOREST_TRUST_RECORD_TYPE ForestTrustType; // type of record LARGE_INTEGER Time; #ifdef MIDL_PASS [switch_type( LSA_FOREST_TRUST_RECORD_TYPE ), switch_is( ForestTrustType )] #endif union { // actual data #ifdef MIDL_PASS [case( ForestTrustTopLevelName, ForestTrustTopLevelNameEx )] LSA_UNICODE_STRING TopLevelName; [case( ForestTrustDomainInfo )] LSA_FOREST_TRUST_DOMAIN_INFO DomainInfo; [default] LSA_FOREST_TRUST_BINARY_DATA Data; #else LSA_UNICODE_STRING TopLevelName; LSA_FOREST_TRUST_DOMAIN_INFO DomainInfo; LSA_FOREST_TRUST_BINARY_DATA Data; // used for unrecognized types #endif } ForestTrustData; } LSA_FOREST_TRUST_RECORD, *PLSA_FOREST_TRUST_RECORD; // // To prevent forest trust blobs of large size, number of records must be // smaller than MAX_RECORDS_IN_FOREST_TRUST_INFO // #define MAX_RECORDS_IN_FOREST_TRUST_INFO 4000 typedef struct _LSA_FOREST_TRUST_INFORMATION { #ifdef MIDL_PASS [range(0, MAX_RECORDS_IN_FOREST_TRUST_INFO)] ULONG RecordCount; [size_is( RecordCount )] PLSA_FOREST_TRUST_RECORD * Entries; #else ULONG RecordCount; PLSA_FOREST_TRUST_RECORD * Entries; #endif } LSA_FOREST_TRUST_INFORMATION, *PLSA_FOREST_TRUST_INFORMATION; typedef enum { CollisionTdo, CollisionXref, CollisionOther } LSA_FOREST_TRUST_COLLISION_RECORD_TYPE; typedef struct _LSA_FOREST_TRUST_COLLISION_RECORD { ULONG Index; LSA_FOREST_TRUST_COLLISION_RECORD_TYPE Type; ULONG Flags; LSA_UNICODE_STRING Name; } LSA_FOREST_TRUST_COLLISION_RECORD, *PLSA_FOREST_TRUST_COLLISION_RECORD; typedef struct _LSA_FOREST_TRUST_COLLISION_INFORMATION { ULONG RecordCount; #ifdef MIDL_PASS [size_is( RecordCount )] #endif PLSA_FOREST_TRUST_COLLISION_RECORD * Entries; } LSA_FOREST_TRUST_COLLISION_INFORMATION, *PLSA_FOREST_TRUST_COLLISION_INFORMATION; // end_ntsecapi // // Secret object specific access types // #define SECRET_SET_VALUE 0x00000001L #define SECRET_QUERY_VALUE 0x00000002L #define SECRET_ALL_ACCESS (STANDARD_RIGHTS_REQUIRED |\ SECRET_SET_VALUE |\ SECRET_QUERY_VALUE) #define SECRET_READ (STANDARD_RIGHTS_READ |\ SECRET_QUERY_VALUE) #define SECRET_WRITE (STANDARD_RIGHTS_WRITE |\ SECRET_SET_VALUE) #define SECRET_EXECUTE (STANDARD_RIGHTS_EXECUTE) // // Global secret object prefix // #define LSA_GLOBAL_SECRET_PREFIX L"G$" #define LSA_GLOBAL_SECRET_PREFIX_LENGTH 2 #define LSA_LOCAL_SECRET_PREFIX L"L$" #define LSA_LOCAL_SECRET_PREFIX_LENGTH 2 #define LSA_MACHINE_SECRET_PREFIX L"M$" #define LSA_MACHINE_SECRET_PREFIX_LENGTH \ ( ( sizeof( LSA_MACHINE_SECRET_PREFIX ) - sizeof( WCHAR ) ) / sizeof( WCHAR ) ) // // Secret object specific data types. // // // Secret object limits // #define LSA_SECRET_MAXIMUM_COUNT 0x00001000L #define LSA_SECRET_MAXIMUM_LENGTH 0x00000200L // begin_ntsecapi // // LSA Enumeration Context // typedef ULONG LSA_ENUMERATION_HANDLE, *PLSA_ENUMERATION_HANDLE; // // LSA Enumeration Information // typedef struct _LSA_ENUMERATION_INFORMATION { PSID Sid; } LSA_ENUMERATION_INFORMATION, *PLSA_ENUMERATION_INFORMATION; //////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Miscellaneous API function prototypes // // // //////////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaFreeMemory( IN PVOID Buffer ); NTSTATUS NTAPI LsaClose( IN LSA_HANDLE ObjectHandle ); // end_ntsecapi NTSTATUS NTAPI LsaDelete( IN LSA_HANDLE ObjectHandle ); NTSTATUS NTAPI LsaQuerySecurityObject( IN LSA_HANDLE ObjectHandle, IN SECURITY_INFORMATION SecurityInformation, OUT PSECURITY_DESCRIPTOR *SecurityDescriptor ); NTSTATUS NTAPI LsaSetSecurityObject( IN LSA_HANDLE ObjectHandle, IN SECURITY_INFORMATION SecurityInformation, IN PSECURITY_DESCRIPTOR SecurityDescriptor ); NTSTATUS NTAPI LsaChangePassword( IN PLSA_UNICODE_STRING ServerName, IN PLSA_UNICODE_STRING DomainName, IN PLSA_UNICODE_STRING AccountName, IN PLSA_UNICODE_STRING OldPassword, IN PLSA_UNICODE_STRING NewPassword ); // begin_ntsecapi typedef struct _SECURITY_LOGON_SESSION_DATA { ULONG Size ; LUID LogonId ; LSA_UNICODE_STRING UserName ; LSA_UNICODE_STRING LogonDomain ; LSA_UNICODE_STRING AuthenticationPackage ; ULONG LogonType ; ULONG Session ; PSID Sid ; LARGE_INTEGER LogonTime ; // // new for whistler: // LSA_UNICODE_STRING LogonServer ; LSA_UNICODE_STRING DnsDomainName ; LSA_UNICODE_STRING Upn ; } SECURITY_LOGON_SESSION_DATA, * PSECURITY_LOGON_SESSION_DATA ; NTSTATUS NTAPI LsaEnumerateLogonSessions( OUT PULONG LogonSessionCount, OUT PLUID * LogonSessionList ); NTSTATUS NTAPI LsaGetLogonSessionData( IN PLUID LogonId, OUT PSECURITY_LOGON_SESSION_DATA * ppLogonSessionData ); // end_ntsecapi /////////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Policy Object API function prototypes // // // /////////////////////////////////////////////////////////////////////////////// // begin_ntsecapi NTSTATUS NTAPI LsaOpenPolicy( IN PLSA_UNICODE_STRING SystemName OPTIONAL, IN PLSA_OBJECT_ATTRIBUTES ObjectAttributes, IN ACCESS_MASK DesiredAccess, IN OUT PLSA_HANDLE PolicyHandle ); // end_ntsecapi NTSTATUS NTAPI LsaOpenPolicySce( IN PLSA_UNICODE_STRING SystemName OPTIONAL, IN PLSA_OBJECT_ATTRIBUTES ObjectAttributes, IN ACCESS_MASK DesiredAccess, IN OUT PLSA_HANDLE PolicyHandle ); // begin_ntsecapi NTSTATUS NTAPI LsaQueryInformationPolicy( IN LSA_HANDLE PolicyHandle, IN POLICY_INFORMATION_CLASS InformationClass, OUT PVOID *Buffer ); NTSTATUS NTAPI LsaSetInformationPolicy( IN LSA_HANDLE PolicyHandle, IN POLICY_INFORMATION_CLASS InformationClass, IN PVOID Buffer ); NTSTATUS NTAPI LsaQueryDomainInformationPolicy( IN LSA_HANDLE PolicyHandle, IN POLICY_DOMAIN_INFORMATION_CLASS InformationClass, OUT PVOID *Buffer ); NTSTATUS NTAPI LsaSetDomainInformationPolicy( IN LSA_HANDLE PolicyHandle, IN POLICY_DOMAIN_INFORMATION_CLASS InformationClass, IN PVOID Buffer ); NTSTATUS NTAPI LsaRegisterPolicyChangeNotification( IN POLICY_NOTIFICATION_INFORMATION_CLASS InformationClass, IN HANDLE NotificationEventHandle ); NTSTATUS NTAPI LsaUnregisterPolicyChangeNotification( IN POLICY_NOTIFICATION_INFORMATION_CLASS InformationClass, IN HANDLE NotificationEventHandle ); // end_ntsecapi NTSTATUS NTAPI LsaClearAuditLog( IN LSA_HANDLE PolicyHandle ); NTSTATUS NTAPI LsaCreateAccount( IN LSA_HANDLE PolicyHandle, IN PSID AccountSid, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE AccountHandle ); NTSTATUS NTAPI LsaEnumerateAccounts( IN LSA_HANDLE PolicyHandle, IN OUT PLSA_ENUMERATION_HANDLE EnumerationContext, OUT PVOID *EnumerationBuffer, IN ULONG PreferedMaximumLength, OUT PULONG CountReturned ); NTSTATUS NTAPI LsaCreateTrustedDomain( IN LSA_HANDLE PolicyHandle, IN PLSA_TRUST_INFORMATION TrustedDomainInformation, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE TrustedDomainHandle ); // begin_ntsecapi NTSTATUS NTAPI LsaEnumerateTrustedDomains( IN LSA_HANDLE PolicyHandle, IN OUT PLSA_ENUMERATION_HANDLE EnumerationContext, OUT PVOID *Buffer, IN ULONG PreferedMaximumLength, OUT PULONG CountReturned ); // end_ntsecapi NTSTATUS NTAPI LsaEnumeratePrivileges( IN LSA_HANDLE PolicyHandle, IN OUT PLSA_ENUMERATION_HANDLE EnumerationContext, OUT PVOID *Buffer, IN ULONG PreferedMaximumLength, OUT PULONG CountReturned ); // begin_ntsecapi NTSTATUS NTAPI LsaLookupNames( IN LSA_HANDLE PolicyHandle, IN ULONG Count, IN PLSA_UNICODE_STRING Names, OUT PLSA_REFERENCED_DOMAIN_LIST *ReferencedDomains, OUT PLSA_TRANSLATED_SID *Sids ); NTSTATUS NTAPI LsaLookupNames2( IN LSA_HANDLE PolicyHandle, IN ULONG Flags, // Reserved IN ULONG Count, IN PLSA_UNICODE_STRING Names, OUT PLSA_REFERENCED_DOMAIN_LIST *ReferencedDomains, OUT PLSA_TRANSLATED_SID2 *Sids ); NTSTATUS NTAPI LsaLookupSids( IN LSA_HANDLE PolicyHandle, IN ULONG Count, IN PSID *Sids, OUT PLSA_REFERENCED_DOMAIN_LIST *ReferencedDomains, OUT PLSA_TRANSLATED_NAME *Names ); // end_ntsecapi NTSTATUS NTAPI LsaCreateSecret( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING SecretName, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE SecretHandle ); /////////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Account Object API function prototypes // // // /////////////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaOpenAccount( IN LSA_HANDLE PolicyHandle, IN PSID AccountSid, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE AccountHandle ); NTSTATUS NTAPI LsaEnumeratePrivilegesOfAccount( IN LSA_HANDLE AccountHandle, OUT PPRIVILEGE_SET *Privileges ); NTSTATUS NTAPI LsaAddPrivilegesToAccount( IN LSA_HANDLE AccountHandle, IN PPRIVILEGE_SET Privileges ); NTSTATUS NTAPI LsaRemovePrivilegesFromAccount( IN LSA_HANDLE AccountHandle, IN BOOLEAN AllPrivileges, IN PPRIVILEGE_SET Privileges ); NTSTATUS NTAPI LsaGetQuotasForAccount( IN LSA_HANDLE AccountHandle, OUT PQUOTA_LIMITS QuotaLimits ); NTSTATUS NTAPI LsaSetQuotasForAccount( IN LSA_HANDLE AccountHandle, IN PQUOTA_LIMITS QuotaLimits ); NTSTATUS NTAPI LsaGetSystemAccessAccount( IN LSA_HANDLE AccountHandle, OUT PULONG SystemAccess ); NTSTATUS NTAPI LsaSetSystemAccessAccount( IN LSA_HANDLE AccountHandle, IN ULONG SystemAccess ); /////////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Trusted Domain Object API function prototypes // // // /////////////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaOpenTrustedDomain( IN LSA_HANDLE PolicyHandle, IN PSID TrustedDomainSid, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE TrustedDomainHandle ); NTSTATUS NTAPI LsaQueryInfoTrustedDomain( IN LSA_HANDLE TrustedDomainHandle, IN TRUSTED_INFORMATION_CLASS InformationClass, OUT PVOID *Buffer ); NTSTATUS NTAPI LsaSetInformationTrustedDomain( IN LSA_HANDLE TrustedDomainHandle, IN TRUSTED_INFORMATION_CLASS InformationClass, IN PVOID Buffer ); /////////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Secret Object API function prototypes // // // /////////////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaOpenSecret( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING SecretName, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE SecretHandle ); NTSTATUS NTAPI LsaSetSecret( IN LSA_HANDLE SecretHandle, IN OPTIONAL PLSA_UNICODE_STRING CurrentValue, IN OPTIONAL PLSA_UNICODE_STRING OldValue ); NTSTATUS NTAPI LsaQuerySecret( IN LSA_HANDLE SecretHandle, OUT OPTIONAL PLSA_UNICODE_STRING *CurrentValue, OUT OPTIONAL PLARGE_INTEGER CurrentValueSetTime, OUT OPTIONAL PLSA_UNICODE_STRING *OldValue, OUT OPTIONAL PLARGE_INTEGER OldValueSetTime ); ///////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Privilege Object API Prototypes // // // ///////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaLookupPrivilegeValue( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING Name, OUT PLUID Value ); NTSTATUS NTAPI LsaLookupPrivilegeName( IN LSA_HANDLE PolicyHandle, IN PLUID Value, OUT PLSA_UNICODE_STRING *Name ); NTSTATUS NTAPI LsaLookupPrivilegeDisplayName( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING Name, OUT PLSA_UNICODE_STRING *DisplayName, OUT PSHORT LanguageReturned ); ///////////////////////////////////////////////////////////////////////// // // // Local Security Policy - New APIs for NT 4.0 (SUR release) // // // ///////////////////////////////////////////////////////////////////////// NTSTATUS LsaGetUserName( OUT PLSA_UNICODE_STRING * UserName, OUT OPTIONAL PLSA_UNICODE_STRING * DomainName ); NTSTATUS LsaGetRemoteUserName( IN OPTIONAL PLSA_UNICODE_STRING SystemName, OUT PLSA_UNICODE_STRING * UserName, OUT OPTIONAL PLSA_UNICODE_STRING * DomainName ); ///////////////////////////////////////////////////////////////////////// // // // Local Security Policy - New APIs for NT 3.51 (PPC release) // // // ///////////////////////////////////////////////////////////////////////// // begin_ntsecapi #define SE_INTERACTIVE_LOGON_NAME TEXT("SeInteractiveLogonRight") #define SE_NETWORK_LOGON_NAME TEXT("SeNetworkLogonRight") #define SE_BATCH_LOGON_NAME TEXT("SeBatchLogonRight") #define SE_SERVICE_LOGON_NAME TEXT("SeServiceLogonRight") #define SE_DENY_INTERACTIVE_LOGON_NAME TEXT("SeDenyInteractiveLogonRight") #define SE_DENY_NETWORK_LOGON_NAME TEXT("SeDenyNetworkLogonRight") #define SE_DENY_BATCH_LOGON_NAME TEXT("SeDenyBatchLogonRight") #define SE_DENY_SERVICE_LOGON_NAME TEXT("SeDenyServiceLogonRight") #define SE_REMOTE_INTERACTIVE_LOGON_NAME TEXT("SeRemoteInteractiveLogonRight") #define SE_DENY_REMOTE_INTERACTIVE_LOGON_NAME TEXT("SeDenyRemoteInteractiveLogonRight") // // This new API returns all the accounts with a certain privilege // NTSTATUS NTAPI LsaEnumerateAccountsWithUserRight( IN LSA_HANDLE PolicyHandle, IN OPTIONAL PLSA_UNICODE_STRING UserRights, OUT PVOID *EnumerationBuffer, OUT PULONG CountReturned ); // // These new APIs differ by taking a SID instead of requiring the caller // to open the account first and passing in an account handle // NTSTATUS NTAPI LsaEnumerateAccountRights( IN LSA_HANDLE PolicyHandle, IN PSID AccountSid, OUT PLSA_UNICODE_STRING *UserRights, OUT PULONG CountOfRights ); NTSTATUS NTAPI LsaAddAccountRights( IN LSA_HANDLE PolicyHandle, IN PSID AccountSid, IN PLSA_UNICODE_STRING UserRights, IN ULONG CountOfRights ); NTSTATUS NTAPI LsaRemoveAccountRights( IN LSA_HANDLE PolicyHandle, IN PSID AccountSid, IN BOOLEAN AllRights, IN PLSA_UNICODE_STRING UserRights, IN ULONG CountOfRights ); /////////////////////////////////////////////////////////////////////////////// // // // Local Security Policy - Trusted Domain Object API function prototypes // // // /////////////////////////////////////////////////////////////////////////////// NTSTATUS NTAPI LsaOpenTrustedDomainByName( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING TrustedDomainName, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE TrustedDomainHandle ); NTSTATUS NTAPI LsaQueryTrustedDomainInfo( IN LSA_HANDLE PolicyHandle, IN PSID TrustedDomainSid, IN TRUSTED_INFORMATION_CLASS InformationClass, OUT PVOID *Buffer ); NTSTATUS NTAPI LsaSetTrustedDomainInformation( IN LSA_HANDLE PolicyHandle, IN PSID TrustedDomainSid, IN TRUSTED_INFORMATION_CLASS InformationClass, IN PVOID Buffer ); NTSTATUS NTAPI LsaDeleteTrustedDomain( IN LSA_HANDLE PolicyHandle, IN PSID TrustedDomainSid ); NTSTATUS NTAPI LsaQueryTrustedDomainInfoByName( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING TrustedDomainName, IN TRUSTED_INFORMATION_CLASS InformationClass, OUT PVOID *Buffer ); NTSTATUS NTAPI LsaSetTrustedDomainInfoByName( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING TrustedDomainName, IN TRUSTED_INFORMATION_CLASS InformationClass, IN PVOID Buffer ); NTSTATUS NTAPI LsaEnumerateTrustedDomainsEx( IN LSA_HANDLE PolicyHandle, IN OUT PLSA_ENUMERATION_HANDLE EnumerationContext, OUT PVOID *Buffer, IN ULONG PreferedMaximumLength, OUT PULONG CountReturned ); NTSTATUS NTAPI LsaCreateTrustedDomainEx( IN LSA_HANDLE PolicyHandle, IN PTRUSTED_DOMAIN_INFORMATION_EX TrustedDomainInformation, IN PTRUSTED_DOMAIN_AUTH_INFORMATION AuthenticationInformation, IN ACCESS_MASK DesiredAccess, OUT PLSA_HANDLE TrustedDomainHandle ); NTSTATUS NTAPI LsaQueryForestTrustInformation( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING TrustedDomainName, OUT PLSA_FOREST_TRUST_INFORMATION * ForestTrustInfo ); NTSTATUS NTAPI LsaSetForestTrustInformation( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING TrustedDomainName, IN PLSA_FOREST_TRUST_INFORMATION ForestTrustInfo, IN BOOLEAN CheckOnly, OUT PLSA_FOREST_TRUST_COLLISION_INFORMATION * CollisionInfo ); // #define TESTING_MATCHING_ROUTINE #ifdef TESTING_MATCHING_ROUTINE NTSTATUS NTAPI LsaForestTrustFindMatch( IN LSA_HANDLE PolicyHandle, IN ULONG Type, IN PLSA_UNICODE_STRING Name, OUT PLSA_UNICODE_STRING * Match ); #endif // // This API sets the workstation password (equivalent of setting/getting // the SSI_SECRET_NAME secret) // NTSTATUS NTAPI LsaStorePrivateData( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING KeyName, IN PLSA_UNICODE_STRING PrivateData ); NTSTATUS NTAPI LsaRetrievePrivateData( IN LSA_HANDLE PolicyHandle, IN PLSA_UNICODE_STRING KeyName, OUT PLSA_UNICODE_STRING * PrivateData ); ULONG NTAPI LsaNtStatusToWinError( NTSTATUS Status ); // // Define a symbol so we can tell if ntifs.h has been included. // // begin_ntifs #ifndef _NTLSA_IFS_ #define _NTLSA_IFS_ #endif // end_ntifs // // SPNEGO package stuff // enum NEGOTIATE_MESSAGES { NegEnumPackagePrefixes = 0, NegGetCallerName = 1, NegCallPackageMax } ; #define NEGOTIATE_MAX_PREFIX 32 typedef struct _NEGOTIATE_PACKAGE_PREFIX { ULONG_PTR PackageId ; PVOID PackageDataA ; PVOID PackageDataW ; ULONG_PTR PrefixLen ; UCHAR Prefix[ NEGOTIATE_MAX_PREFIX ]; } NEGOTIATE_PACKAGE_PREFIX, * PNEGOTIATE_PACKAGE_PREFIX ; typedef struct _NEGOTIATE_PACKAGE_PREFIXES { ULONG MessageType ; ULONG PrefixCount ; ULONG Offset ; // Offset to array of _PREFIX above ULONG Pad ; // Align structure for 64-bit } NEGOTIATE_PACKAGE_PREFIXES, *PNEGOTIATE_PACKAGE_PREFIXES ; typedef struct _NEGOTIATE_CALLER_NAME_REQUEST { ULONG MessageType ; LUID LogonId ; } NEGOTIATE_CALLER_NAME_REQUEST, *PNEGOTIATE_CALLER_NAME_REQUEST ; typedef struct _NEGOTIATE_CALLER_NAME_RESPONSE { ULONG MessageType ; PWSTR CallerName ; } NEGOTIATE_CALLER_NAME_RESPONSE, * PNEGOTIATE_CALLER_NAME_RESPONSE ; // end_ntsecapi #define NEGOTIATE_ALLOW_NTLM 0x10000000 #define NEGOTIATE_NEG_NTLM 0x20000000 // // Define parallel structures for WOW64 environment. These // *must* stay in sync with their complements above. // typedef struct _NEGOTIATE_PACKAGE_PREFIX_WOW { ULONG PackageId ; ULONG PackageDataA ; ULONG PackageDataW ; ULONG PrefixLen ; UCHAR Prefix[ NEGOTIATE_MAX_PREFIX ]; } NEGOTIATE_PACKAGE_PREFIX_WOW, * PNEGOTIATE_PACKAGE_PREFIX_WOW ; typedef struct _NEGOTIATE_CALLER_NAME_RESPONSE_WOW { ULONG MessageType ; ULONG CallerName ; } NEGOTIATE_CALLER_NAME_RESPONSE_WOW, * PNEGOTIATE_CALLER_NAME_RESPONSE_WOW ; NTSTATUS NTAPI LsaSetPolicyReplicationHandle( IN OUT PLSA_HANDLE PolicyHandle ); #ifdef __cplusplus } #endif #endif // _NTLSA_