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windows-nt/Source/XPSP1/NT/ds/netapi/svcdlls/lls/server/rpc.c
CryptoAlgo Inc b3cac27891 Add source files
2020-09-26 16:20:57 +08:00

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/*++
Copyright (c) 1995 Microsoft Corporation
Module Name:
rpc.c
Abstract:
Author:
Arthur Hanson (arth) 06-Jan-1995
Revision History:
Jeff Parham (jeffparh) 05-Dec-1995
o Added replication of certificate database and secure service list.
o Added Llsr API to support secure certificates.
o Added LLS_LICENSE_INFO_1 support to LlsrLicenseEnumW() and
LlsrLicenseAddW().
o Added LLS_PRODUCT_LICENSE_INFO_1 support to LlsrProductLicenseEnumW().
o Added save of all data files after receiving replicated data.
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <dsgetdc.h>
#include "llsapi.h"
#include "debug.h"
#include "llssrv.h"
#include "mapping.h"
#include "msvctbl.h"
#include "svctbl.h"
#include "perseat.h"
#include "purchase.h"
#include "server.h"
#include "llsrpc_s.h"
#include "lsapi_s.h"
#include "llsdbg_s.h"
#include "repl.h"
#include "pack.h"
#include "registry.h"
#include "certdb.h"
#include "llsrtl.h"
#define LLS_SIG "LLSS"
#define LLS_SIG_SIZE 4
#define LLS_REPL_SIG "REPL"
#define LLS_REPL_SIG_SIZE 4
extern RTL_RESOURCE CertDbHeaderListLock;
typedef struct {
char Signature[LLS_SIG_SIZE];
PVOID *ProductUserEnumWRestartTable;
DWORD ProductUserEnumWRestartTableSize;
PVOID *UserEnumWRestartTable;
DWORD UserEnumWRestartTableSize;
TCHAR Name[MAX_COMPUTERNAME_LENGTH + 1];
} CLIENT_CONTEXT_TYPE, *PCLIENT_CONTEXT_TYPE;
typedef struct {
char Signature[LLS_REPL_SIG_SIZE];
TCHAR Name[MAX_COMPUTERNAME_LENGTH + 1];
DWORD ReplicationStart;
BOOL Active;
BOOL Replicated;
BOOL ServicesSent;
ULONG ServiceTableSize;
PREPL_SERVICE_RECORD Services;
BOOL ServersSent;
ULONG ServerTableSize;
PREPL_SERVER_RECORD Servers;
BOOL ServerServicesSent;
ULONG ServerServiceTableSize;
PREPL_SERVER_SERVICE_RECORD ServerServices;
BOOL UsersSent;
ULONG UserLevel;
ULONG UserTableSize;
LPVOID Users;
BOOL CertDbSent;
ULONG CertDbProductStringSize;
WCHAR * CertDbProductStrings;
ULONG CertDbNumHeaders;
PREPL_CERT_DB_CERTIFICATE_HEADER_0 CertDbHeaders;
ULONG CertDbNumClaims;
PREPL_CERT_DB_CERTIFICATE_CLAIM_0 CertDbClaims;
BOOL ProductSecuritySent;
ULONG ProductSecurityStringSize;
WCHAR * ProductSecurityStrings;
} REPL_CONTEXT_TYPE, *PREPL_CONTEXT_TYPE;
//
// This function is obtained from the April 1998 Knowledge Base
// Its purpose is to determine if the current user is an
// Administrator and therefore priveledged to change license
// settings.
//
// BOOL IsAdmin(void)
//
// returns TRUE if user is an admin
// FALSE if user is not an admin
//
#if 0
BOOL IsAdmin(void)
{
HANDLE hAccessToken;
UCHAR InfoBuffer[1024];
PTOKEN_GROUPS ptgGroups = (PTOKEN_GROUPS)InfoBuffer;
DWORD dwInfoBufferSize;
PSID psidAdministrators;
SID_IDENTIFIER_AUTHORITY siaNtAuthority = SECURITY_NT_AUTHORITY;
UINT x;
BOOL bSuccess;
if (!OpenThreadToken(GetCurrentThread(), TOKEN_QUERY, TRUE,
&hAccessToken )) {
if (GetLastError() != ERROR_NO_TOKEN)
return FALSE;
//
// retry against process token if no thread token exists
//
if (!OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY,
&hAccessToken))
return FALSE;
}
bSuccess = GetTokenInformation(hAccessToken,TokenGroups,InfoBuffer,
1024, &dwInfoBufferSize);
CloseHandle(hAccessToken);
if (!bSuccess )
return FALSE;
if (!AllocateAndInitializeSid(&siaNtAuthority, 2,
SECURITY_BUILTIN_DOMAIN_RID,
DOMAIN_ALIAS_RID_ADMINS,
0, 0, 0, 0, 0, 0,
&psidAdministrators))
return FALSE;
// assume that we don't find the admin SID.
bSuccess = FALSE;
for (x=0;x<ptgGroups->GroupCount;x++) {
if ( EqualSid(psidAdministrators, ptgGroups->Groups[x].Sid) ) {
bSuccess = TRUE;
break;
}
}
FreeSid(psidAdministrators);
return bSuccess;
}
#endif
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LLSRpcListen (
IN PVOID ThreadParameter
)
/*++
Routine Description:
Arguments:
ThreadParameter - Indicates how many active threads there currently
are.
Return Value:
None.
--*/
{
RPC_STATUS Status;
Status = RpcServerListen(1, RPC_C_LISTEN_MAX_CALLS_DEFAULT, 0);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerListen Failed (0x%lx)\n"), Status);
#endif
}
return Status;
} // LLSRpcListen
/////////////////////////////////////////////////////////////////////////
VOID
LLSRpcInit()
/*++
Routine Description:
Arguments:
Return Value:
None.
--*/
{
RPC_STATUS Status;
DWORD Ignore;
HANDLE Thread;
//
// Setup for LPC calls..
//
Status = RpcServerUseProtseqEp(TEXT("ncalrpc"), RPC_C_PROTSEQ_MAX_REQS_DEFAULT, TEXT(LLS_LPC_ENDPOINT), NULL);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerUseProtseq ncalrpc Failed (0x%lx)\n"), Status);
#endif
return;
}
// Named pipes as well
Status = RpcServerUseProtseqEp(TEXT("ncacn_np"), RPC_C_PROTSEQ_MAX_REQS_DEFAULT, TEXT(LLS_NP_ENDPOINT), NULL);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerUseProtseq ncacn_np Failed (0x%lx)\n"), Status);
#endif
return;
}
// register the interface for the UI RPC's
Status = RpcServerRegisterIf(llsrpc_ServerIfHandle, NULL, NULL);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerRegisterIf Failed (0x%lx)\n"), Status);
#endif
return;
}
// Now the interface for the Licensing RPC's
Status = RpcServerRegisterIf(lsapirpc_ServerIfHandle, NULL, NULL);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerRegisterIf2 Failed (0x%lx)\n"), Status);
#endif
return;
}
#if DBG
//
// ... and if DEBUG then the debugging interface
//
Status = RpcServerRegisterIf(llsdbgrpc_ServerIfHandle, NULL, NULL);
if (Status) {
#if DBG
dprintf(TEXT("RpcServerRegisterIf (debug) Failed (0x%lx)\n"), Status);
#endif
return;
}
#endif
//
// Create thread to listen for requests.
//
Thread = CreateThread(
NULL,
0L,
(LPTHREAD_START_ROUTINE) LLSRpcListen,
0L,
0L,
&Ignore
);
#if DBG
if (NULL == Thread) {
dprintf(TEXT("CreateThread Failed\n"));
}
#endif
if (NULL != Thread)
CloseHandle(Thread);
} // LLSRpcInit
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
VOID __RPC_USER LLS_HANDLE_rundown(
LLS_HANDLE Handle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
PCLIENT_CONTEXT_TYPE pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LLS_HANDLE_rundown\n"));
#endif
pClient = (PCLIENT_CONTEXT_TYPE) Handle;
if (0 != memcmp(pClient->Signature,LLS_SIG,LLS_SIG_SIZE))
{
return;
}
if (NULL != pClient->ProductUserEnumWRestartTable)
LocalFree(pClient->ProductUserEnumWRestartTable);
if (NULL != pClient->UserEnumWRestartTable)
LocalFree(pClient->UserEnumWRestartTable);
//
// Deallocate context.
//
midl_user_free(Handle);
} // LLS_HANDLE_rundown
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrConnect(
PLLS_HANDLE Handle,
LPTSTR Name
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
CLIENT_CONTEXT_TYPE *pClient;
RPC_STATUS Status = STATUS_SUCCESS;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsConnect: %s\n"), Name);
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == Handle)
{
return STATUS_INVALID_PARAMETER;
}
*Handle = NULL;
pClient = (CLIENT_CONTEXT_TYPE *) midl_user_allocate(sizeof(CLIENT_CONTEXT_TYPE));
if (NULL == pClient)
{
#if DBG
dprintf(TEXT("midl_user_allocate Failed\n"));
#endif
Status = STATUS_NO_MEMORY;
goto LlsrConnectExit;
}
if (Name != NULL)
{
if (lstrlen(Name) > MAX_COMPUTERNAME_LENGTH)
{
Status = STATUS_INVALID_PARAMETER;
midl_user_free(pClient);
goto LlsrConnectExit;
}
lstrcpy(pClient->Name, Name);
}
else
lstrcpy(pClient->Name, TEXT(""));
memcpy(pClient->Signature,LLS_SIG,LLS_SIG_SIZE);
pClient->ProductUserEnumWRestartTable = NULL;
pClient->ProductUserEnumWRestartTableSize = 0;
pClient->UserEnumWRestartTable = NULL;
pClient->UserEnumWRestartTableSize = 0;
*Handle = pClient;
LlsrConnectExit:
return Status;
} // LlsrConnect
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrClose(
LLS_HANDLE Handle
)
/*++
Routine Description:
Obsolete - use LlsrCloseEx
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsClose\n"));
#endif
//
// Don't do anything; let rundown do cleanup
// We have no way of telling RPC system the handle can't be used
//
return STATUS_SUCCESS;
} // LlsrClose
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrCloseEx(
LLS_HANDLE * pHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsCloseEx\n"));
#endif
if ((pHandle != NULL) && (*pHandle != NULL))
{
LLS_HANDLE_rundown(*pHandle);
*pHandle = NULL;
}
return STATUS_SUCCESS;
} // LlsrCloseEx
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLicenseEnumW(
LLS_HANDLE Handle,
PLLS_LICENSE_ENUM_STRUCTW pLicenseInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
DWORD RecordSize;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLicenseEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to scan list so get read access.
//
RtlAcquireResourceShared(&LicenseListLock, TRUE);
if ((NULL == pLicenseInfo) || (NULL == pTotalEntries))
{
return STATUS_INVALID_PARAMETER;
}
Level = pLicenseInfo->Level;
*pTotalEntries = 0;
if ( 0 == Level )
{
if (NULL == pLicenseInfo->LlsLicenseInfo.Level0)
{
return STATUS_INVALID_PARAMETER;
}
RecordSize = sizeof( LLS_LICENSE_INFO_0W );
}
else if ( 1 == Level )
{
if (NULL == pLicenseInfo->LlsLicenseInfo.Level1)
{
return STATUS_INVALID_PARAMETER;
}
RecordSize = sizeof( LLS_LICENSE_INFO_1W );
}
else
{
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ( ( i < PurchaseListSize ) && ( BufSize < pPrefMaxLen ) )
{
if ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) )
{
BufSize += RecordSize;
EntriesRead++;
}
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen)
{
BufSize -= RecordSize;
EntriesRead--;
}
//
// Now walk to the end of the list to see how many more records are still
// available.
//
while ( i < PurchaseListSize )
{
if ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) )
{
TotalEntries++;
}
i++;
}
if (TotalEntries > EntriesRead)
Status = STATUS_MORE_ENTRIES;
//
// Reset Enum to correct place.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrLicenseEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
while ((j < EntriesRead) && (i < PurchaseListSize))
{
if ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) )
{
if ( 0 == Level )
{
((PLLS_LICENSE_INFO_0W) BufPtr)[j].Product = PurchaseList[i].Service->ServiceName;
((PLLS_LICENSE_INFO_0W) BufPtr)[j].Quantity = PurchaseList[i].NumberLicenses;
((PLLS_LICENSE_INFO_0W) BufPtr)[j].Date = PurchaseList[i].Date;
((PLLS_LICENSE_INFO_0W) BufPtr)[j].Admin = PurchaseList[i].Admin;
((PLLS_LICENSE_INFO_0W) BufPtr)[j].Comment = PurchaseList[i].Comment;
}
else
{
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Product = ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT )
? PurchaseList[i].Service->ServiceName
: PurchaseList[i].PerServerService->ServiceName;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Vendor = PurchaseList[i].Vendor;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Quantity = PurchaseList[i].NumberLicenses;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].MaxQuantity = PurchaseList[i].MaxQuantity;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Date = PurchaseList[i].Date;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Admin = PurchaseList[i].Admin;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Comment = PurchaseList[i].Comment;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].AllowedModes = PurchaseList[i].AllowedModes;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].CertificateID = PurchaseList[i].CertificateID;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].Source = PurchaseList[i].Source;
((PLLS_LICENSE_INFO_1W) BufPtr)[j].ExpirationDate = PurchaseList[i].ExpirationDate;
memcpy( ((PLLS_LICENSE_INFO_1W) BufPtr)[j].Secrets, PurchaseList[i].Secrets, LLS_NUM_SECRETS * sizeof( *PurchaseList[i].Secrets ) );
}
j++;
}
i++;
}
LlsrLicenseEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
if ( 0 == Level )
{
pLicenseInfo->LlsLicenseInfo.Level0->EntriesRead = EntriesRead;
pLicenseInfo->LlsLicenseInfo.Level0->Buffer = (PLLS_LICENSE_INFO_0W) BufPtr;
}
else
{
pLicenseInfo->LlsLicenseInfo.Level1->EntriesRead = EntriesRead;
pLicenseInfo->LlsLicenseInfo.Level1->Buffer = (PLLS_LICENSE_INFO_1W) BufPtr;
}
return Status;
} // LlsrLicenseEnumW
void LlsrLicenseEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&LicenseListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLicenseEnumA(
LLS_HANDLE Handle,
PLLS_LICENSE_ENUM_STRUCTA LicenseInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLicenseEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrLicenseEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLicenseAddW(
LLS_HANDLE Handle,
DWORD Level,
PLLS_LICENSE_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
RPC_STATUS rpcstat;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLicenseAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
#if 0
//
// Check that client is an administrator
//
rpcstat = RpcImpersonateClient(0);
if (rpcstat != RPC_S_OK)
{
return STATUS_ACCESS_DENIED;
}
if (!IsAdmin())
{
RpcRevertToSelf();
return STATUS_ACCESS_DENIED;
}
RpcRevertToSelf();
#endif
if ( 0 == Level )
{
if ( ( NULL == BufPtr )
|| ( NULL == BufPtr->LicenseInfo0.Product )
|| ( NULL == BufPtr->LicenseInfo0.Admin )
|| ( NULL == BufPtr->LicenseInfo0.Comment ) )
{
Status = STATUS_INVALID_PARAMETER;
}
else
{
Status = LicenseAdd( BufPtr->LicenseInfo0.Product,
TEXT("Microsoft"),
BufPtr->LicenseInfo0.Quantity,
0,
BufPtr->LicenseInfo0.Admin,
BufPtr->LicenseInfo0.Comment,
0,
LLS_LICENSE_MODE_ALLOW_PER_SEAT,
0,
TEXT("None"),
0,
NULL );
}
}
else if ( 1 == Level )
{
if ( ( NULL == BufPtr )
|| ( NULL == BufPtr->LicenseInfo1.Product )
|| ( NULL == BufPtr->LicenseInfo1.Admin )
|| ( NULL == BufPtr->LicenseInfo1.Comment )
|| ( 0 == BufPtr->LicenseInfo1.Quantity )
|| ( 0 == ( BufPtr->LicenseInfo1.AllowedModes
& ( LLS_LICENSE_MODE_ALLOW_PER_SERVER
| LLS_LICENSE_MODE_ALLOW_PER_SEAT ) ) ) )
{
Status = STATUS_INVALID_PARAMETER;
}
else
{
// check to see if this certificate is already maxed out in the enterprise
BOOL bIsMaster = TRUE;
BOOL bMayInstall = TRUE;
HINSTANCE hDll = NULL;
PLLS_CONNECT_ENTERPRISE_W pLlsConnectEnterpriseW = NULL;
PLLS_CLOSE pLlsClose = NULL;
PLLS_CAPABILITY_IS_SUPPORTED pLlsCapabilityIsSupported = NULL;
PLLS_CERTIFICATE_CLAIM_ADD_CHECK_W pLlsCertificateClaimAddCheckW = NULL;
PLLS_CERTIFICATE_CLAIM_ADD_W pLlsCertificateClaimAddW = NULL;
PLLS_FREE_MEMORY pLlsFreeMemory = NULL;
LLS_HANDLE hEnterpriseLls = NULL;
TCHAR szComputerName[ 1 + MAX_COMPUTERNAME_LENGTH ];
szComputerName[0] = 0;
ConfigInfoUpdate(NULL);
RtlEnterCriticalSection( &ConfigInfoLock );
bIsMaster = ConfigInfo.IsMaster;
if (ConfigInfo.ComputerName != NULL)
lstrcpy( szComputerName, ConfigInfo.ComputerName );
RtlLeaveCriticalSection( &ConfigInfoLock );
if( !bIsMaster && ( 0 != BufPtr->LicenseInfo1.CertificateID ) )
{
// ask enterprise server if we can install this certfificate
hDll = LoadLibraryA( "LLSRPC.DLL" );
if ( NULL == hDll )
{
// LLSRPC.DLL should be available!
ASSERT( FALSE );
}
else
{
pLlsConnectEnterpriseW = (PLLS_CONNECT_ENTERPRISE_W ) GetProcAddress( hDll, "LlsConnectEnterpriseW" );
pLlsClose = (PLLS_CLOSE ) GetProcAddress( hDll, "LlsClose" );
pLlsCapabilityIsSupported = (PLLS_CAPABILITY_IS_SUPPORTED ) GetProcAddress( hDll, "LlsCapabilityIsSupported" );
pLlsCertificateClaimAddCheckW = (PLLS_CERTIFICATE_CLAIM_ADD_CHECK_W ) GetProcAddress( hDll, "LlsCertificateClaimAddCheckW" );
pLlsCertificateClaimAddW = (PLLS_CERTIFICATE_CLAIM_ADD_W ) GetProcAddress( hDll, "LlsCertificateClaimAddW" );
pLlsFreeMemory = (PLLS_FREE_MEMORY ) GetProcAddress( hDll, "LlsFreeMemory" );
if ( ( NULL == pLlsConnectEnterpriseW )
|| ( NULL == pLlsClose )
|| ( NULL == pLlsCapabilityIsSupported )
|| ( NULL == pLlsCertificateClaimAddCheckW )
|| ( NULL == pLlsCertificateClaimAddW )
|| ( NULL == pLlsFreeMemory ) )
{
// All of these functions should be exported!
ASSERT( FALSE );
}
else
{
PLLS_CONNECT_INFO_0 pConnectInfo;
Status = (*pLlsConnectEnterpriseW)( NULL, &hEnterpriseLls, 0, (LPBYTE *)&pConnectInfo );
if ( STATUS_SUCCESS == Status )
{
(*pLlsFreeMemory)( pConnectInfo );
if ( (*pLlsCapabilityIsSupported)( hEnterpriseLls, LLS_CAPABILITY_SECURE_CERTIFICATES ) )
{
Status = (*pLlsCertificateClaimAddCheckW)( hEnterpriseLls, Level, (LPBYTE) BufPtr, &bMayInstall );
if ( STATUS_SUCCESS != Status )
{
bMayInstall = TRUE;
}
}
}
}
}
}
if ( !bMayInstall )
{
// denied!
Status = STATUS_ALREADY_COMMITTED;
}
else
{
// approved! (or an error occurred trying to get approval...)
Status = LicenseAdd( BufPtr->LicenseInfo1.Product,
BufPtr->LicenseInfo1.Vendor,
BufPtr->LicenseInfo1.Quantity,
BufPtr->LicenseInfo1.MaxQuantity,
BufPtr->LicenseInfo1.Admin,
BufPtr->LicenseInfo1.Comment,
0,
BufPtr->LicenseInfo1.AllowedModes,
BufPtr->LicenseInfo1.CertificateID,
BufPtr->LicenseInfo1.Source,
BufPtr->LicenseInfo1.ExpirationDate,
BufPtr->LicenseInfo1.Secrets );
if ( ( STATUS_SUCCESS == Status )
&& ( NULL != hEnterpriseLls )
&& ( (*pLlsCapabilityIsSupported)( hEnterpriseLls, LLS_CAPABILITY_SECURE_CERTIFICATES ) ) )
{
// certificate successfully installed on this machine; register it
(*pLlsCertificateClaimAddW)( hEnterpriseLls, szComputerName, Level, (LPBYTE) BufPtr );
}
}
if ( NULL != hEnterpriseLls )
{
(*pLlsClose)( hEnterpriseLls );
}
if ( NULL != hDll )
{
FreeLibrary( hDll );
}
}
}
else
{
Status = STATUS_INVALID_LEVEL;
}
if ( STATUS_SUCCESS == Status )
{
Status = LicenseListSave();
}
return Status;
} // LlsrLicenseAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLicenseAddA(
LLS_HANDLE Handle,
DWORD Level,
PLLS_LICENSE_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLicenseAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrLicenseAddA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductEnumW(
LLS_HANDLE Handle,
PLLS_PRODUCT_ENUM_STRUCTW pProductInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to scan list so get read access.
//
RtlAcquireResourceShared(&MasterServiceListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == pProductInfo))
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pProductInfo->Level;
if (Level == 0)
{
if (NULL == pProductInfo->LlsProductInfo.Level0)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_PRODUCT_INFO_0W);
}
else if (Level == 1)
{
if (NULL == pProductInfo->LlsProductInfo.Level1)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_PRODUCT_INFO_1W);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ((i < MasterServiceListSize) && (BufSize < pPrefMaxLen)) {
BufSize += RecSize;
EntriesRead++;
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= RecSize;
EntriesRead--;
}
if (i < MasterServiceListSize)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
TotalEntries += (MasterServiceListSize - i);
//
// Reset Enum to correct place.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrProductEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
while ((j < EntriesRead) && (i < MasterServiceListSize)) {
if (Level == 0)
((PLLS_PRODUCT_INFO_0) BufPtr)[j].Product = MasterServiceList[i]->Name;
else {
((PLLS_PRODUCT_INFO_1) BufPtr)[j].Product = MasterServiceList[i]->Name;
((PLLS_PRODUCT_INFO_1) BufPtr)[j].Purchased = MasterServiceList[i]->Licenses;
((PLLS_PRODUCT_INFO_1) BufPtr)[j].InUse = MasterServiceList[i]->LicensesUsed;
((PLLS_PRODUCT_INFO_1) BufPtr)[j].ConcurrentTotal = MasterServiceList[i]->MaxSessionCount;
((PLLS_PRODUCT_INFO_1) BufPtr)[j].HighMark = MasterServiceList[i]->HighMark;
}
i++; j++;
}
LlsrProductEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
if (Level == 0) {
pProductInfo->LlsProductInfo.Level0->EntriesRead = EntriesRead;
pProductInfo->LlsProductInfo.Level0->Buffer = (PLLS_PRODUCT_INFO_0W) BufPtr;
} else {
pProductInfo->LlsProductInfo.Level1->EntriesRead = EntriesRead;
pProductInfo->LlsProductInfo.Level1->Buffer = (PLLS_PRODUCT_INFO_1W) BufPtr;
}
return Status;
} // LlsrProductEnumW
void LlsrProductEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&MasterServiceListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductEnumA(
LLS_HANDLE Handle,
PLLS_PRODUCT_ENUM_STRUCTA ProductInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrProductEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductAddW(
LLS_HANDLE Handle,
LPWSTR ProductFamily,
LPWSTR Product,
LPWSTR lpVersion
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
PMASTER_SERVICE_RECORD Service;
DWORD Version;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((ProductFamily == NULL) || (Product == NULL) || (lpVersion == NULL))
return STATUS_INVALID_PARAMETER;
Version = VersionToDWORD(lpVersion);
RtlAcquireResourceExclusive(&MasterServiceListLock,TRUE);
Service = MasterServiceListAdd(ProductFamily, Product, Version);
RtlReleaseResource(&MasterServiceListLock);
if (Service == NULL)
return STATUS_NO_MEMORY;
return STATUS_SUCCESS;
} // LlsrProductAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductAddA(
LLS_HANDLE Handle,
IN LPSTR ProductFamily,
IN LPSTR Product,
IN LPSTR Version
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrProductAddA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductUserEnumW(
LLS_HANDLE Handle,
LPWSTR Product,
PLLS_PRODUCT_USER_ENUM_STRUCTW pProductUserInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
PUSER_RECORD UserRec = NULL;
PVOID RestartKey = NULL, RestartKeySave = NULL;
PSVC_RECORD pService;
DWORD Flags;
ULONG j, AccessCount;
DWORD LastAccess;
PCLIENT_CONTEXT_TYPE pClient;
PVOID *pTableTmp;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductUserEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceShared(&UserListLock, TRUE);
if ((Product == NULL) || (NULL == pTotalEntries))
return STATUS_INVALID_PARAMETER;
*pTotalEntries = 0;
//
// Reset Enum to correct place.
//
if (pResumeHandle != NULL)
{
if (NULL == Handle)
return STATUS_INVALID_PARAMETER;
pClient = (PCLIENT_CONTEXT_TYPE) Handle;
if (0 != memcmp(pClient->Signature,LLS_SIG,LLS_SIG_SIZE))
{
return STATUS_INVALID_PARAMETER;
}
if (*pResumeHandle != 0)
{
if ((NULL == pClient->ProductUserEnumWRestartTable)
|| (*pResumeHandle >= pClient->ProductUserEnumWRestartTableSize))
{
return STATUS_INVALID_PARAMETER;
}
RestartKey = RestartKeySave = pClient->ProductUserEnumWRestartTable[(*pResumeHandle)-1];
}
}
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pProductUserInfo->Level;
if (Level == 0)
{
if (NULL == pProductUserInfo->LlsProductUserInfo.Level0)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_PRODUCT_USER_INFO_0);
}
else if (Level == 1)
{
if (NULL == pProductUserInfo->LlsProductUserInfo.Level1)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_PRODUCT_USER_INFO_1);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
if (lstrcmpi(Product, BackOfficeStr))
while ((UserRec != NULL) && (BufSize < pPrefMaxLen)) {
if ( !(UserRec->Flags & LLS_FLAG_DELETED) ) {
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
pService = SvcListFind( Product, UserRec->Services, UserRec->ServiceTableSize );
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
if (pService != NULL) {
BufSize += RecSize;
EntriesRead++;
}
}
// Get next record
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
else
while ((UserRec != NULL) && (BufSize < pPrefMaxLen)) {
if (UserRec->Mapping != NULL)
Flags = UserRec->Mapping->Flags;
else
Flags = UserRec->Flags;
if (!(UserRec->Flags & LLS_FLAG_DELETED))
if (Flags & LLS_FLAG_SUITE_USE) {
BufSize += RecSize;
EntriesRead++;
}
// Get next record
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= RecSize;
EntriesRead--;
}
if (UserRec != NULL)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
while (UserRec != NULL) {
TotalEntries++;
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
//
// Reset Enum to correct place.
//
RestartKey = RestartKeySave;
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrProductUserEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
if (lstrcmpi(Product, BackOfficeStr))
while ((i < EntriesRead) && (UserRec != NULL)) {
if (!(UserRec->Flags & LLS_FLAG_DELETED)) {
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
pService = SvcListFind( Product, UserRec->Services, UserRec->ServiceTableSize );
if (pService != NULL) {
if (Level == 0)
((PLLS_PRODUCT_USER_INFO_0) BufPtr)[i].User = (LPTSTR) UserRec->UserID;
else {
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].User = (LPTSTR) UserRec->UserID;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].Flags = pService->Flags;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].LastUsed = pService->LastAccess;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].UsageCount = pService->AccessCount;
}
i++;
}
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
}
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
else
while ((i < EntriesRead) && (UserRec != NULL)) {
if (!(UserRec->Flags & LLS_FLAG_DELETED)) {
if (UserRec->Mapping != NULL)
Flags = UserRec->Mapping->Flags;
else
Flags = UserRec->Flags;
if (!(UserRec->Flags & LLS_FLAG_DELETED))
if (Flags & LLS_FLAG_SUITE_USE) {
AccessCount = 0;
LastAccess = 0;
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
for (j = 0; j < UserRec->ServiceTableSize; j++) {
if (UserRec->Services[j].LastAccess > LastAccess)
LastAccess = UserRec->Services[j].LastAccess;
if (UserRec->Services[j].AccessCount > AccessCount)
AccessCount = UserRec->Services[j].AccessCount;
}
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
if (Level == 0)
((PLLS_PRODUCT_USER_INFO_0) BufPtr)[i].User = (LPTSTR) UserRec->UserID;
else {
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].User = (LPTSTR) UserRec->UserID;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].Flags = UserRec->Flags;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].LastUsed = LastAccess;
((PLLS_PRODUCT_USER_INFO_1) BufPtr)[i].UsageCount = AccessCount;
}
i++;
}
}
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
LlsrProductUserEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, RestartKey);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
{
if (NULL == pClient->ProductUserEnumWRestartTable)
{
pTableTmp = (PVOID *) LocalAlloc(LPTR,sizeof(PVOID));
} else
{
pTableTmp = (PVOID *) LocalReAlloc(pClient->ProductUserEnumWRestartTable,sizeof(PVOID) * (pClient->ProductUserEnumWRestartTableSize + 1),LHND);
}
if (NULL == pTableTmp)
{
if (BufPtr != NULL)
{
MIDL_user_free(BufPtr);
}
return STATUS_NO_MEMORY;
} else {
pClient->ProductUserEnumWRestartTable = pTableTmp;
}
pClient->ProductUserEnumWRestartTable[pClient->ProductUserEnumWRestartTableSize++] = RestartKey;
*pResumeHandle = pClient->ProductUserEnumWRestartTableSize;
}
pProductUserInfo->LlsProductUserInfo.Level0->EntriesRead = EntriesRead;
pProductUserInfo->LlsProductUserInfo.Level0->Buffer = (PLLS_PRODUCT_USER_INFO_0W) BufPtr;
return Status;
} // LlsrProductUserEnumW
void LlsrProductUserEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&UserListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductUserEnumA(
LLS_HANDLE Handle,
LPSTR Product,
PLLS_PRODUCT_USER_ENUM_STRUCTA ProductUserInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductUserEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrProductUserEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductServerEnumW(
LLS_HANDLE Handle,
LPTSTR Product,
PLLS_SERVER_PRODUCT_ENUM_STRUCTW pProductServerInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j;
ULONG RestartKey = 0;
PSERVER_SERVICE_RECORD pSvc;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductServerEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceShared(&ServerListLock, TRUE);
if ((Product == NULL) || (NULL == pTotalEntries) || (NULL == pProductServerInfo))
return STATUS_INVALID_PARAMETER;
*pTotalEntries = 0;
//
// Reset Enum to correct place.
//
RestartKey = (ULONG) (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pProductServerInfo->Level;
if (Level == 0)
{
if (pProductServerInfo->LlsServerProductInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_SERVER_PRODUCT_INFO_0);
}
else if (Level == 1)
{
if (pProductServerInfo->LlsServerProductInfo.Level1 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_SERVER_PRODUCT_INFO_1);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
RtlAcquireResourceShared(&MasterServiceListLock,TRUE); // required for ServerServiceListFind
for (i = RestartKey; i < ServerListSize; i++) {
pSvc = ServerServiceListFind( Product, ServerList[i]->ServiceTableSize, ServerList[i]->Services );
if (pSvc != NULL) {
BufSize += RecSize;
EntriesRead++;
}
}
RtlReleaseResource(&MasterServiceListLock);
TotalEntries = EntriesRead;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrProductServerEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
j = 0;
RtlAcquireResourceShared(&MasterServiceListLock,TRUE); // required for ServerServiceListFind
for (i = RestartKey; i < ServerListSize; i++) {
pSvc = ServerServiceListFind( Product, ServerList[i]->ServiceTableSize, ServerList[i]->Services );
if (pSvc != NULL) {
if (Level == 0)
((PLLS_SERVER_PRODUCT_INFO_0) BufPtr)[j].Name = ServerList[i]->Name;
else {
((PLLS_SERVER_PRODUCT_INFO_1) BufPtr)[j].Name = ServerList[i]->Name;
((PLLS_SERVER_PRODUCT_INFO_1) BufPtr)[j].Flags = pSvc->Flags;
((PLLS_SERVER_PRODUCT_INFO_1) BufPtr)[j].MaxUses = pSvc->MaxSessionCount;
((PLLS_SERVER_PRODUCT_INFO_1) BufPtr)[j].MaxSetUses = pSvc->MaxSetSessionCount;
((PLLS_SERVER_PRODUCT_INFO_1) BufPtr)[j].HighMark = pSvc->HighMark;
}
j++;
}
}
RtlReleaseResource(&MasterServiceListLock);
LlsrProductServerEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, RestartKey);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) RestartKey;
pProductServerInfo->LlsServerProductInfo.Level0->EntriesRead = EntriesRead;
pProductServerInfo->LlsServerProductInfo.Level0->Buffer = (PLLS_SERVER_PRODUCT_INFO_0W) BufPtr;
return Status;
} // LlsrProductServerEnumW
void LlsrProductServerEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&ServerListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductServerEnumA(
LLS_HANDLE Handle,
LPSTR Product,
PLLS_SERVER_PRODUCT_ENUM_STRUCTA ProductServerInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductServerEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrProductServerEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductLicenseEnumW(
LLS_HANDLE Handle,
LPWSTR Product,
PLLS_PRODUCT_LICENSE_ENUM_STRUCTW pProductLicenseInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
DWORD RecordSize;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductLicenseEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to scan list so get read access.
//
RtlAcquireResourceShared(&LicenseListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == pProductLicenseInfo))
{
return STATUS_INVALID_PARAMETER;
}
Level = pProductLicenseInfo->Level;
*pTotalEntries = 0;
if ( 0 == Level )
{
if (NULL == pProductLicenseInfo->LlsProductLicenseInfo.Level0)
{
return STATUS_INVALID_PARAMETER;
}
RecordSize = sizeof( LLS_PRODUCT_LICENSE_INFO_0W );
}
else if ( 1 == Level )
{
if (NULL == pProductLicenseInfo->LlsProductLicenseInfo.Level1)
{
return STATUS_INVALID_PARAMETER;
}
RecordSize = sizeof( LLS_PRODUCT_LICENSE_INFO_1W );
}
else
{
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ( ( i < PurchaseListSize ) && ( BufSize < pPrefMaxLen ) )
{
// level 0 enums return only per seat licenses for backwards compatibility
if ( ( ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT )
&& !lstrcmpi( PurchaseList[i].Service->ServiceName, Product ) )
|| ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SERVER )
&& !lstrcmpi( PurchaseList[i].PerServerService->ServiceName, Product ) ) )
&& ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) ) )
{
BufSize += RecordSize;
EntriesRead++;
}
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen)
{
BufSize -= RecordSize;
EntriesRead--;
}
//
// Now walk to the end of the list to see how many more records are still
// available.
//
while ( i < PurchaseListSize )
{
if ( ( ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT )
&& !lstrcmpi( PurchaseList[i].Service->ServiceName, Product ) )
|| ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SERVER )
&& !lstrcmpi( PurchaseList[i].PerServerService->ServiceName, Product ) ) )
&& ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) ) )
{
TotalEntries++;
}
i++;
}
if (TotalEntries > EntriesRead)
Status = STATUS_MORE_ENTRIES;
//
// Reset Enum to correct place.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrLicenseEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
while ((j < EntriesRead) && (i < PurchaseListSize))
{
if ( ( ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT )
&& !lstrcmpi( PurchaseList[i].Service->ServiceName, Product ) )
|| ( ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SERVER )
&& !lstrcmpi( PurchaseList[i].PerServerService->ServiceName, Product ) ) )
&& ( ( Level > 0 )
|| ( PurchaseList[i].AllowedModes & LLS_LICENSE_MODE_ALLOW_PER_SEAT ) ) )
{
if ( 0 == Level )
{
((PLLS_PRODUCT_LICENSE_INFO_0W) BufPtr)[j].Quantity = PurchaseList[i].NumberLicenses;
((PLLS_PRODUCT_LICENSE_INFO_0W) BufPtr)[j].Date = PurchaseList[i].Date;
((PLLS_PRODUCT_LICENSE_INFO_0W) BufPtr)[j].Admin = PurchaseList[i].Admin;
((PLLS_PRODUCT_LICENSE_INFO_0W) BufPtr)[j].Comment = PurchaseList[i].Comment;
}
else
{
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Quantity = PurchaseList[i].NumberLicenses;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].MaxQuantity = PurchaseList[i].MaxQuantity;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Date = PurchaseList[i].Date;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Admin = PurchaseList[i].Admin;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Comment = PurchaseList[i].Comment;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].AllowedModes = PurchaseList[i].AllowedModes;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].CertificateID = PurchaseList[i].CertificateID;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Source = PurchaseList[i].Source;
((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].ExpirationDate = PurchaseList[i].ExpirationDate;
memcpy( ((PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr)[j].Secrets, PurchaseList[i].Secrets, LLS_NUM_SECRETS * sizeof( *PurchaseList[i].Secrets ) );
}
j++;
}
i++;
}
LlsrLicenseEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
if ( 0 == Level )
{
pProductLicenseInfo->LlsProductLicenseInfo.Level0->EntriesRead = EntriesRead;
pProductLicenseInfo->LlsProductLicenseInfo.Level0->Buffer = (PLLS_PRODUCT_LICENSE_INFO_0W) BufPtr;
}
else
{
pProductLicenseInfo->LlsProductLicenseInfo.Level1->EntriesRead = EntriesRead;
pProductLicenseInfo->LlsProductLicenseInfo.Level1->Buffer = (PLLS_PRODUCT_LICENSE_INFO_1W) BufPtr;
}
return Status;
} // LlsrProductLicenseEnumW
void LlsrProductLicenseEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&LicenseListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductLicenseEnumA(
LLS_HANDLE Handle,
LPSTR Product,
PLLS_PRODUCT_LICENSE_ENUM_STRUCTA ProductLicenseInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductLicenseEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrProductLicenseEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserEnumW(
LLS_HANDLE Handle,
PLLS_USER_ENUM_STRUCTW pUserInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
pPrefMaxLen - Supplies the number of bytes of information to return
in the buffer. If this value is MAXULONG, all available information
will be returned.
pTotalEntries - Returns the total number of entries available. This value
is only valid if the return code is STATUS_SUCCESS or STATUS_MORE_ENTRIES.
pResumeHandle - Supplies a handle to resume the enumeration from where it
left off the last time through. Returns the resume handle if return
code is STATUS_MORE_ENTRIES.
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j;
PUSER_RECORD UserRec = NULL;
PVOID RestartKey = NULL,RestartKeySave = NULL;
ULONG StrSize;
LPTSTR ProductString = NULL;
PCLIENT_CONTEXT_TYPE pClient;
PVOID *pTableTmp;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need AddEnum lock, but just shared UserListLock (as we just read
// the data).
//
RtlAcquireResourceShared(&UserListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == pUserInfo))
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
//
// Reset Enum to correct place.
//
if (pResumeHandle != NULL)
{
pClient = (PCLIENT_CONTEXT_TYPE) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_SIG,LLS_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (*pResumeHandle != 0)
{
if ((NULL == pClient->UserEnumWRestartTable)
|| (*pResumeHandle > pClient->UserEnumWRestartTableSize))
{
return STATUS_INVALID_PARAMETER;
}
RestartKey = RestartKeySave = pClient->UserEnumWRestartTable[(*pResumeHandle)-1];
}
}
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pUserInfo->Level;
if (Level == 0)
{
if (NULL == pUserInfo->LlsUserInfo.Level0)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_USER_INFO_0);
}
else if (Level == 1)
{
if (NULL == pUserInfo->LlsUserInfo.Level1)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_USER_INFO_1);
}
else if (Level == 2)
{
if (NULL == pUserInfo->LlsUserInfo.Level2)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_USER_INFO_2);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
while ((UserRec != NULL) && (BufSize < pPrefMaxLen)) {
if (!(UserRec->Flags & LLS_FLAG_DELETED)) {
BufSize += RecSize;
EntriesRead++;
}
// Get next record
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= RecSize;
EntriesRead--;
}
if (UserRec != NULL)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
while (UserRec != NULL) {
TotalEntries++;
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
//
// Reset Enum to correct place.
//
RestartKey = RestartKeySave;
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrUserEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
while ((i < EntriesRead) && (UserRec != NULL)) {
if (!(UserRec->Flags & LLS_FLAG_DELETED)) {
if (Level == 0)
((PLLS_USER_INFO_0) BufPtr)[i].Name = (LPTSTR) UserRec->UserID;
else if (Level == 1) {
((PLLS_USER_INFO_1) BufPtr)[i].Name = (LPTSTR) UserRec->UserID;
if (UserRec->Mapping != NULL)
((PLLS_USER_INFO_1) BufPtr)[i].Group = UserRec->Mapping->Name;
else
((PLLS_USER_INFO_1) BufPtr)[i].Group = NULL;
((PLLS_USER_INFO_1) BufPtr)[i].Licensed = UserRec->LicensedProducts;
((PLLS_USER_INFO_1) BufPtr)[i].UnLicensed = UserRec->ServiceTableSize - UserRec->LicensedProducts;
((PLLS_USER_INFO_1) BufPtr)[i].Flags = UserRec->Flags;
} else {
((PLLS_USER_INFO_2) BufPtr)[i].Name = (LPTSTR) UserRec->UserID;
if (UserRec->Mapping != NULL)
((PLLS_USER_INFO_2) BufPtr)[i].Group = UserRec->Mapping->Name;
else
((PLLS_USER_INFO_2) BufPtr)[i].Group = NULL;
((PLLS_USER_INFO_2) BufPtr)[i].Licensed = UserRec->LicensedProducts;
((PLLS_USER_INFO_2) BufPtr)[i].UnLicensed = UserRec->ServiceTableSize - UserRec->LicensedProducts;
((PLLS_USER_INFO_2) BufPtr)[i].Flags = UserRec->Flags;
//
// Walk product table and build up product string
//
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
StrSize = 0;
for (j = 0; j < UserRec->ServiceTableSize; j++)
StrSize += ((lstrlen(UserRec->Services[j].Service->Name) + 2) * sizeof(TCHAR));
if (StrSize != 0) {
ProductString = MIDL_user_allocate(StrSize);
if (ProductString != NULL) {
lstrcpy(ProductString, TEXT(""));
for (j = 0; j < UserRec->ServiceTableSize; j++) {
if (j != 0)
lstrcat(ProductString, TEXT(", "));
lstrcat(ProductString, UserRec->Services[j].Service->Name);
}
((PLLS_USER_INFO_2) BufPtr)[i].Products = ProductString;
}
}
if ((StrSize == 0) || (ProductString == NULL)) {
ProductString = MIDL_user_allocate(2 * sizeof(TCHAR));
if (ProductString != NULL) {
lstrcpy(ProductString, TEXT(""));
((PLLS_USER_INFO_2) BufPtr)[i].Products = ProductString;
}
}
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
}
i++;
}
UserRec = (PUSER_RECORD) LLSEnumerateGenericTableWithoutSplaying(&UserList, (VOID **) &RestartKey);
}
LlsrUserEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, RestartKey);
#endif
*pTotalEntries = TotalEntries;
if (NULL != pResumeHandle)
{
if (NULL == pClient->UserEnumWRestartTable)
{
pTableTmp = (PVOID *) LocalAlloc(LPTR,sizeof(PVOID));
} else
{
pTableTmp = (PVOID *) LocalReAlloc(pClient->UserEnumWRestartTable,sizeof(PVOID) * (pClient->UserEnumWRestartTableSize + 1),LHND);
}
if (NULL == pTableTmp)
{
if (BufPtr != NULL)
{
MIDL_user_free(BufPtr);
}
return STATUS_NO_MEMORY;
} else
{
pClient->UserEnumWRestartTable = pTableTmp;
}
pClient->UserEnumWRestartTable[pClient->UserEnumWRestartTableSize++] = RestartKey;
*pResumeHandle = pClient->UserEnumWRestartTableSize;
}
pUserInfo->LlsUserInfo.Level0->EntriesRead = EntriesRead;
pUserInfo->LlsUserInfo.Level0->Buffer = (PLLS_USER_INFO_0W) BufPtr;
return Status;
} // LlsrUserEnumW
void LlsrUserEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&UserListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserEnumA(
LLS_HANDLE Handle,
PLLS_USER_ENUM_STRUCTA UserInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrUserEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserInfoGetW(
LLS_HANDLE Handle,
LPWSTR User,
DWORD Level,
PLLS_USER_INFOW *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
PUSER_RECORD UserRec = NULL;
PLLS_USER_INFOW pUser = NULL;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserInfoGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceExclusive(&UserListLock, TRUE);
if ((User == NULL) || (BufPtr == NULL))
return STATUS_INVALID_PARAMETER;
*BufPtr = NULL;
if (Level != 1)
return STATUS_INVALID_LEVEL;
UserRec = UserListFind(User);
if (UserRec != NULL) {
pUser = MIDL_user_allocate(sizeof(LLS_USER_INFOW));
if (pUser != NULL) {
pUser->UserInfo1.Name = (LPTSTR) UserRec->UserID;
if (UserRec->Mapping != NULL) {
pUser->UserInfo1.Mapping = UserRec->Mapping->Name;
pUser->UserInfo1.Licensed = UserRec->Mapping->Licenses;
pUser->UserInfo1.UnLicensed = 0;
} else {
pUser->UserInfo1.Mapping = NULL;
pUser->UserInfo1.Licensed = 1;
pUser->UserInfo1.UnLicensed = 0;
}
pUser->UserInfo1.Flags = UserRec->Flags;
}
}
if (UserRec == NULL)
return STATUS_OBJECT_NAME_NOT_FOUND;
if (pUser == NULL)
return STATUS_NO_MEMORY;
*BufPtr = (PLLS_USER_INFOW) pUser;
return STATUS_SUCCESS;
} // LlsrUserInfoGetW
void LlsrUserInfoGetW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&UserListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserInfoGetA(
LLS_HANDLE Handle,
LPSTR User,
DWORD Level,
PLLS_USER_INFOA *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserInfoGetA\n"));
#endif
if (NULL == BufPtr)
{
return STATUS_INVALID_PARAMETER;
}
*BufPtr = NULL;
return STATUS_NOT_SUPPORTED;
} // LlsrUserInfoGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserInfoSetW(
LLS_HANDLE Handle,
LPWSTR User,
DWORD Level,
PLLS_USER_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
PUSER_RECORD UserRec = NULL;
PLLS_USER_INFO_1 pUser;
PMAPPING_RECORD pMap;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserInfoSetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (Level != 1)
return STATUS_INVALID_LEVEL;
if ((User == NULL) || (BufPtr == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&UserListLock, TRUE);
UserRec = UserListFind(User);
if (UserRec != NULL) {
pUser = (PLLS_USER_INFO_1) BufPtr;
//
// If in a mapping can't change SUITE_USE, since it is based on the
// License Group
//
if (UserRec->Mapping != NULL) {
RtlReleaseResource(&UserListLock);
return STATUS_MEMBER_IN_GROUP;
}
//
// Reset SUITE_USE and turn off SUITE_AUTO
//
pUser->Flags &= LLS_FLAG_SUITE_USE;
UserRec->Flags &= ~LLS_FLAG_SUITE_USE;
UserRec->Flags |= pUser->Flags;
UserRec->Flags &= ~LLS_FLAG_SUITE_AUTO;
//
// Run though and clean up all old licenses
//
UserLicenseListFree( UserRec );
//
// Now assign new ones
//
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
SvcListLicenseUpdate( UserRec );
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
}
RtlReleaseResource(&UserListLock);
if (UserRec == NULL)
Status = STATUS_OBJECT_NAME_NOT_FOUND;
else
Status = LLSDataSave();
return Status;
} // LlsrUserInfoSetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserInfoSetA(
LLS_HANDLE Handle,
LPSTR User,
DWORD Level,
PLLS_USER_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserInfoSetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrUserInfoSetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserDeleteW(
LLS_HANDLE Handle,
LPTSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
PUSER_RECORD UserRec = NULL;
PLLS_USER_INFO_1 pUser;
PMAPPING_RECORD pMap;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
if (User != NULL)
dprintf(TEXT("LLS TRACE: LlsUserDeleteW: %s\n"), User);
else
dprintf(TEXT("LLS TRACE: LlsUserDeleteW: <NULL>\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (User == NULL)
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&UserListLock, TRUE);
UserRec = UserListFind(User);
if (UserRec != NULL) {
UserRec->Flags |= LLS_FLAG_DELETED;
UsersDeleted = TRUE;
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
SvcListLicenseFree(UserRec);
UserLicenseListFree(UserRec);
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
if (UserRec->Services != NULL)
LocalFree(UserRec->Services);
UserRec->Services = NULL;
UserRec->ServiceTableSize = 0;
}
RtlReleaseResource(&UserListLock);
if (UserRec == NULL)
Status = STATUS_OBJECT_NAME_NOT_FOUND;
else
Status = LLSDataSave();
return Status;
} // LlsrUserDeleteW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserDeleteA(
LLS_HANDLE Handle,
LPSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserDeleteA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrUserDeleteA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserProductEnumW(
LLS_HANDLE Handle,
LPWSTR pUser,
PLLS_USER_PRODUCT_ENUM_STRUCTW pUserProductInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
PUSER_RECORD UserRec = NULL;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserProductEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to find the user-rec
//
RtlAcquireResourceExclusive(&UserListLock, TRUE);
if ((NULL == pTotalEntries) || (pUser == NULL) || (NULL == pUserProductInfo))
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pUserProductInfo->Level;
if (Level == 0)
{
if (pUserProductInfo->LlsUserProductInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_USER_PRODUCT_INFO_0);
}
else if (Level == 1)
{
if (pUserProductInfo->LlsUserProductInfo.Level1 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_USER_PRODUCT_INFO_1);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Reset Enum to correct place.
//
UserRec = UserListFind(pUser);
if (UserRec == NULL) {
Status = STATUS_OBJECT_NAME_NOT_FOUND;
goto LlsrUserProductEnumWExit;
}
i = (ULONG) (pResumeHandle != NULL) ? *pResumeHandle : 0;
RtlEnterCriticalSection(&UserRec->ServiceTableLock);
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
while ((i < UserRec->ServiceTableSize) && (BufSize < pPrefMaxLen)) {
BufSize += RecSize;
EntriesRead++;
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= RecSize;
EntriesRead--;
}
if (i < UserRec->ServiceTableSize)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
TotalEntries += (UserRec->ServiceTableSize - i);
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
goto LlsrUserProductEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
j = 0;
i = (ULONG) (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ((j < EntriesRead) && (i < UserRec->ServiceTableSize)) {
if (Level == 0)
((PLLS_USER_PRODUCT_INFO_0) BufPtr)[j].Product = UserRec->Services[i].Service->Name;
else {
((PLLS_USER_PRODUCT_INFO_1) BufPtr)[j].Product = UserRec->Services[i].Service->Name;
((PLLS_USER_PRODUCT_INFO_1) BufPtr)[j].Flags = UserRec->Services[i].Flags;
((PLLS_USER_PRODUCT_INFO_1) BufPtr)[j].LastUsed = UserRec->Services[i].LastAccess;
((PLLS_USER_PRODUCT_INFO_1) BufPtr)[j].UsageCount = UserRec->Services[i].AccessCount;
}
i++; j++;
}
RtlLeaveCriticalSection(&UserRec->ServiceTableLock);
LlsrUserProductEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
pUserProductInfo->LlsUserProductInfo.Level0->EntriesRead = EntriesRead;
pUserProductInfo->LlsUserProductInfo.Level0->Buffer = (PLLS_USER_PRODUCT_INFO_0W) BufPtr;
return Status;
} // LlsrUserProductEnumW
void LlsrUserProductEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&UserListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserProductEnumA(
LLS_HANDLE Handle,
LPSTR User,
PLLS_USER_PRODUCT_ENUM_STRUCTA UserProductInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserProductEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrUserProductEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserProductDeleteW(
LLS_HANDLE Handle,
LPWSTR User,
LPWSTR Product
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserProductDeleteW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((User == NULL) || (Product == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&UserListLock, TRUE);
Status = SvcListDelete(User, Product);
RtlReleaseResource(&UserListLock);
if ( STATUS_SUCCESS == Status )
{
// save modified data
Status = LLSDataSave();
}
return Status;
} // LlsrUserProductDeleteW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrUserProductDeleteA(
LLS_HANDLE Handle,
LPSTR User,
LPSTR Product
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsUserProductDeleteA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrUserProductDeleteA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingEnumW(
LLS_HANDLE Handle,
PLLS_MAPPING_ENUM_STRUCTW pMappingInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DWORD Level;
ULONG RecSize;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to scan list so get read access.
//
RtlAcquireResourceShared(&MappingListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == pMappingInfo))
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
//
// Get size of each record based on info level. Only 0 and 1 supported.
//
Level = pMappingInfo->Level;
if (Level == 0)
{
if (pMappingInfo->LlsMappingInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_MAPPING_INFO_0W);
}
else if (Level == 1)
{
if (pMappingInfo->LlsMappingInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
RecSize = sizeof(LLS_MAPPING_INFO_1W);
}
else {
return STATUS_INVALID_LEVEL;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ((i < MappingListSize) && (BufSize < pPrefMaxLen)) {
BufSize += RecSize;
EntriesRead++;
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= RecSize;
EntriesRead--;
}
if (i < MappingListSize)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
TotalEntries += (MappingListSize - i);
//
// Reset Enum to correct place.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrMappingEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
j = 0;
while ((j < EntriesRead) && (i < MappingListSize)) {
if (Level == 0)
((PLLS_GROUP_INFO_0) BufPtr)[j].Name = MappingList[i]->Name;
else {
((PLLS_GROUP_INFO_1) BufPtr)[j].Name = MappingList[i]->Name;
((PLLS_GROUP_INFO_1) BufPtr)[j].Comment = MappingList[i]->Comment;
((PLLS_GROUP_INFO_1) BufPtr)[j].Licenses = MappingList[i]->Licenses;
}
i++; j++;
}
LlsrMappingEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
if (Level == 0) {
pMappingInfo->LlsMappingInfo.Level0->EntriesRead = EntriesRead;
pMappingInfo->LlsMappingInfo.Level0->Buffer = (PLLS_MAPPING_INFO_0W) BufPtr;
} else {
pMappingInfo->LlsMappingInfo.Level1->EntriesRead = EntriesRead;
pMappingInfo->LlsMappingInfo.Level1->Buffer = (PLLS_MAPPING_INFO_1W) BufPtr;
}
return Status;
} // LlsrMappingEnumW
void LlsrMappingEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&MappingListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingEnumA(
LLS_HANDLE Handle,
PLLS_MAPPING_ENUM_STRUCTA MappingInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrMappingEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingInfoGetW(
LLS_HANDLE Handle,
LPWSTR Mapping,
DWORD Level,
PLLS_MAPPING_INFOW *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
PMAPPING_RECORD pMapping = NULL;
PLLS_GROUP_INFO_1 pMap = NULL;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingInfoGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceShared(&MappingListLock, TRUE);
if ((Mapping == NULL) || (BufPtr == NULL))
return STATUS_INVALID_PARAMETER;
*BufPtr = NULL;
if (Level != 1)
return STATUS_INVALID_LEVEL;
pMapping = MappingListFind(Mapping);
if (pMapping != NULL) {
pMap = MIDL_user_allocate(sizeof(LLS_GROUP_INFO_1));
if (pMap != NULL) {
pMap->Name = pMapping->Name;
pMap->Comment = pMapping->Comment;
pMap->Licenses = pMapping->Licenses;
}
}
if (pMapping == NULL)
return STATUS_OBJECT_NAME_NOT_FOUND;
if (pMap == NULL)
return STATUS_NO_MEMORY;
*BufPtr = (PLLS_MAPPING_INFOW) pMap;
return STATUS_SUCCESS;
} // LlsrMappingInfoGetW
void LlsrMappingInfoGetW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&MappingListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingInfoGetA(
LLS_HANDLE Handle,
LPSTR Mapping,
DWORD Level,
PLLS_MAPPING_INFOA *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingInfoGetA\n"));
#endif
if (NULL == BufPtr)
{
return STATUS_INVALID_PARAMETER;
}
*BufPtr = NULL;
return STATUS_NOT_SUPPORTED;
} // LlsrMappingInfoGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingInfoSetW(
LLS_HANDLE Handle,
LPWSTR Mapping,
DWORD Level,
PLLS_MAPPING_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
PMAPPING_RECORD pMapping = NULL;
PLLS_GROUP_INFO_1 pMap;
LPTSTR NewComment;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingInfoSetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (Level != 1)
return STATUS_INVALID_LEVEL;
if ((Mapping == NULL) || (BufPtr == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&UserListLock, TRUE);
RtlAcquireResourceExclusive(&MappingListLock, TRUE);
pMapping = MappingListFind(Mapping);
if (pMapping != NULL) {
pMap = (PLLS_GROUP_INFO_1) BufPtr;
//
// Check if comment has changed
//
if (pMap->Comment != NULL)
if (lstrcmp(pMap->Comment, pMapping->Comment)) {
NewComment = (LPTSTR) LocalAlloc(LPTR, (lstrlen(pMap->Comment) + 1) * sizeof(TCHAR));
if (NewComment != NULL) {
LocalFree(pMapping->Comment);
pMapping->Comment = NewComment;
lstrcpy(pMapping->Comment, pMap->Comment);
}
}
if ( pMapping->Licenses != pMap->Licenses )
{
MappingLicenseListFree( pMapping );
pMapping->Licenses = pMap->Licenses;
MappingLicenseUpdate( pMapping, TRUE );
}
}
RtlReleaseResource(&MappingListLock);
RtlReleaseResource(&UserListLock);
if (pMapping == NULL)
Status = STATUS_OBJECT_NAME_NOT_FOUND;
else
Status = MappingListSave();
return Status;
} // LlsrMappingInfoSetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingInfoSetA(
LLS_HANDLE Handle,
LPSTR Mapping,
DWORD Level,
PLLS_MAPPING_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingInfoSetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrMappingInfoSetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserEnumW(
LLS_HANDLE Handle,
LPWSTR Mapping,
PLLS_USER_ENUM_STRUCTW pMappingUserInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PMAPPING_RECORD pMapping;
DWORD Level;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// Need to scan list so get read access.
//
RtlAcquireResourceShared(&MappingListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == pMappingUserInfo))
{
return STATUS_INVALID_PARAMETER;
}
Level = pMappingUserInfo->Level;
*pTotalEntries = 0;
if (Level != 0)
return STATUS_INVALID_LEVEL;
if (pMappingUserInfo->LlsUserInfo.Level0 == NULL)
return STATUS_INVALID_PARAMETER;
pMapping = MappingListFind(Mapping);
if (pMapping == NULL) {
Status = STATUS_OBJECT_NAME_NOT_FOUND;
goto LlsrMappingUserEnumWExit;
}
//
// Calculate how many records will fit into PrefMaxLen buffer. This is
// the record size * # records + space for the string data. If MAX_ULONG
// is passed in then we return all records.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ((i < pMapping->NumMembers) && (BufSize < pPrefMaxLen)) {
BufSize += sizeof(LLS_USER_INFO_0);
EntriesRead++;
i++;
}
TotalEntries = EntriesRead;
//
// If we overflowed the buffer then back up one record.
//
if (BufSize > pPrefMaxLen) {
BufSize -= sizeof(LLS_USER_INFO_0);
EntriesRead--;
}
if (i < pMapping->NumMembers)
Status = STATUS_MORE_ENTRIES;
//
// Now walk to the end of the list to see how many more records are still
// available.
//
TotalEntries += (pMapping->NumMembers - i);
//
// Reset Enum to correct place.
//
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
//
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
//
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL) {
Status = STATUS_NO_MEMORY;
goto LlsrMappingUserEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
//
// Buffers are all setup, so loop through records and copy the data.
//
while ((j < EntriesRead) && (i < pMapping->NumMembers)) {
((PLLS_USER_INFO_0) BufPtr)[j].Name = pMapping->Members[i];
i++; j++;
}
LlsrMappingUserEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
pMappingUserInfo->LlsUserInfo.Level0->EntriesRead = EntriesRead;
pMappingUserInfo->LlsUserInfo.Level0->Buffer = (PLLS_USER_INFO_0W) BufPtr;
return Status;
} // LlsrMappingUserEnumW
void LlsrMappingUserEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&MappingListLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserEnumA(
LLS_HANDLE Handle,
LPSTR Mapping,
PLLS_USER_ENUM_STRUCTA MappingUserInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrMappingUserEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserAddW(
LLS_HANDLE Handle,
LPWSTR Mapping,
LPWSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PUSER_RECORD pUserRec;
PMAPPING_RECORD pMap;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((Mapping == NULL) || (User == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&UserListLock, TRUE);
RtlAcquireResourceExclusive(&MappingListLock, TRUE);
pMap = MappingUserListAdd( Mapping, User );
if (pMap == NULL)
Status = STATUS_OBJECT_NAME_NOT_FOUND;
else {
pUserRec = UserListFind(User);
if (pUserRec != NULL)
UserMappingAdd(pMap, pUserRec);
}
RtlReleaseResource(&MappingListLock);
RtlReleaseResource(&UserListLock);
if (Status == STATUS_SUCCESS)
{
Status = MappingListSave();
if (Status == STATUS_SUCCESS)
Status = LLSDataSave();
}
return Status;
} // LlsrMappingUserAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserAddA(
LLS_HANDLE Handle,
LPSTR Mapping,
LPSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrMappingUserAddA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserDeleteW(
LLS_HANDLE Handle,
LPWSTR Mapping,
LPWSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
PUSER_RECORD pUser;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserDeleteW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((Mapping == NULL) || (User == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&MappingListLock, TRUE);
Status = MappingUserListDelete(Mapping, User);
RtlReleaseResource(&MappingListLock);
RtlAcquireResourceExclusive(&UserListLock, TRUE);
pUser = UserListFind( User );
RtlReleaseResource(&UserListLock);
if (pUser != NULL) {
//
// if auto switch to BackOffice then turn BackOffice off
//
if (pUser->Flags & LLS_FLAG_SUITE_AUTO)
pUser->Flags &= ~ LLS_FLAG_SUITE_USE;
//
// Free up any licenses used by the user
//
RtlEnterCriticalSection(&pUser->ServiceTableLock);
SvcListLicenseFree( pUser );
pUser->Mapping = NULL;
//
// And claim any needed new-ones
//
SvcListLicenseUpdate( pUser );
RtlLeaveCriticalSection(&pUser->ServiceTableLock);
}
if (Status == STATUS_SUCCESS)
{
Status = MappingListSave();
if (Status == STATUS_SUCCESS)
Status = LLSDataSave();
}
return Status;
} // LlsrMappingUserDeleteW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingUserDeleteA(
LLS_HANDLE Handle,
LPSTR Mapping,
LPSTR User
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingUserDeleteA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrMappingUserDeleteA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingAddW(
LLS_HANDLE Handle,
DWORD Level,
PLLS_MAPPING_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PMAPPING_RECORD pMap;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (Level != 1)
return STATUS_INVALID_LEVEL;
if ((BufPtr == NULL) ||
(BufPtr->MappingInfo1.Name == NULL) ||
(BufPtr->MappingInfo1.Comment == NULL))
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&MappingListLock, TRUE);
pMap = MappingListAdd(BufPtr->MappingInfo1.Name,
BufPtr->MappingInfo1.Comment,
BufPtr->MappingInfo1.Licenses,
&Status);
RtlReleaseResource(&MappingListLock);
if (pMap == NULL)
{
if (STATUS_SUCCESS == Status)
Status = STATUS_NO_MEMORY;
}
if (Status == STATUS_SUCCESS)
Status = MappingListSave();
return Status;
} // LlsrMappingAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingAddA(
LLS_HANDLE Handle,
DWORD Level,
PLLS_MAPPING_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrMappingAddA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingDeleteW(
LLS_HANDLE Handle,
LPWSTR Mapping
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingDeleteW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (Mapping == NULL)
return STATUS_INVALID_PARAMETER;
RtlAcquireResourceExclusive(&MappingListLock, TRUE);
Status = MappingListDelete(Mapping);
RtlReleaseResource(&MappingListLock);
if (Status == STATUS_SUCCESS)
Status = MappingListSave();
return Status;
} // LlsrMappingDeleteW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrMappingDeleteA(
LLS_HANDLE Handle,
LPSTR Mapping
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsMappingDeleteA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrMappingDeleteA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServerEnumW(
LLS_HANDLE Handle,
LPWSTR Server,
PLLS_SERVER_ENUM_STRUCTW pServerProductInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServerEnumW\n"));
#endif
if (NULL == pTotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrServerEnumW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServerEnumA(
LLS_HANDLE Handle,
LPSTR Server,
PLLS_SERVER_ENUM_STRUCTA pServerProductInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServerEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrServerEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServerProductEnumW(
LLS_HANDLE Handle,
LPWSTR Server,
PLLS_SERVER_PRODUCT_ENUM_STRUCTW pServerProductInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServerProductEnumW\n"));
#endif
if (NULL == pTotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrServerProductEnumW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServerProductEnumA(
LLS_HANDLE Handle,
LPSTR Server,
PLLS_SERVER_PRODUCT_ENUM_STRUCTA pServerProductInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServerProductEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrServerProductEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductEnumW(
LLS_HANDLE Handle,
PLLS_SERVER_PRODUCT_ENUM_STRUCTW pServerProductInfo,
DWORD pPrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductEnumW\n"));
#endif
if (NULL == pTotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductEnumW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductEnumA(
LLS_HANDLE Handle,
PLLS_SERVER_PRODUCT_ENUM_STRUCTA pServerProductInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductInfoGetW(
LLS_HANDLE Handle,
LPWSTR Product,
DWORD Level,
PLLS_SERVER_PRODUCT_INFOW *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductInfoGetW\n"));
#endif
if (NULL == BufPtr)
{
return STATUS_INVALID_PARAMETER;
}
*BufPtr = NULL;
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductInfoGetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductInfoGetA(
LLS_HANDLE Handle,
LPSTR Product,
DWORD Level,
PLLS_SERVER_PRODUCT_INFOA *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductInfoGetA\n"));
#endif
if (NULL == BufPtr)
{
return STATUS_INVALID_PARAMETER;
}
*BufPtr = NULL;
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductInfoGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductInfoSetW(
LLS_HANDLE Handle,
LPWSTR Product,
DWORD Level,
PLLS_SERVER_PRODUCT_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductInfoSetW\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductInfoSetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrLocalProductInfoSetA(
LLS_HANDLE Handle,
LPSTR Product,
DWORD Level,
PLLS_SERVER_PRODUCT_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalProductInfoSetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrLocalProductInfoSetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServiceInfoGetW(
LLS_HANDLE Handle,
DWORD Level,
PLLS_SERVICE_INFOW *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
PLLS_SERVICE_INFO_0 pInfo;
FILETIME ftTimeStartedLocal;
LARGE_INTEGER llTimeStartedLocal;
LARGE_INTEGER llTimeStartedSystem;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServiceInfoGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
// make sure the config info is up-to-date
ConfigInfoUpdate(NULL);
RtlEnterCriticalSection(&ConfigInfoLock);
if (BufPtr == NULL)
return STATUS_INVALID_PARAMETER;
*BufPtr = NULL;
if (Level != 0)
return STATUS_INVALID_LEVEL;
pInfo = (PLLS_SERVICE_INFO_0) MIDL_user_allocate(sizeof(LLS_SERVICE_INFO_0));
if (pInfo == NULL)
return STATUS_NO_MEMORY;
pInfo->Version = ConfigInfo.Version;
pInfo->Mode = LLS_MODE_ENTERPRISE_SERVER;
pInfo->ReplicateTo = ConfigInfo.ReplicateTo;
pInfo->EnterpriseServer = ConfigInfo.EnterpriseServer;
pInfo->ReplicationType = ConfigInfo.ReplicationType;
pInfo->ReplicationTime = ConfigInfo.ReplicationTime;
pInfo->LastReplicated = ConfigInfo.LastReplicatedSeconds;
pInfo->UseEnterprise = ConfigInfo.UseEnterprise;
SystemTimeToFileTime( &ConfigInfo.Started, &ftTimeStartedLocal );
// convert time started (a local SYSTEMTIME) to a system time DWORD in seconds since 1980
llTimeStartedLocal.u.LowPart = ftTimeStartedLocal.dwLowDateTime;
llTimeStartedLocal.u.HighPart = ftTimeStartedLocal.dwHighDateTime;
RtlLocalTimeToSystemTime( &llTimeStartedLocal, &llTimeStartedSystem );
RtlTimeToSecondsSince1980( &llTimeStartedSystem, &pInfo->TimeStarted );
*BufPtr = (PLLS_SERVICE_INFOW) pInfo;
return STATUS_SUCCESS;
} // LlsrServiceInfoGetW
void LlsrServiceInfoGetW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlLeaveCriticalSection(&ConfigInfoLock);
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServiceInfoGetA(
LLS_HANDLE Handle,
DWORD Level,
PLLS_SERVICE_INFOA *BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServiceInfoGetA\n"));
#endif
if (BufPtr == NULL)
return STATUS_INVALID_PARAMETER;
*BufPtr = NULL;
return STATUS_NOT_SUPPORTED;
} // LlsrServiceInfoGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServiceInfoSetW(
LLS_HANDLE Handle,
DWORD Level,
PLLS_SERVICE_INFOW BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServiceInfoSetW\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrServiceInfoSetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrServiceInfoSetA(
LLS_HANDLE Handle,
DWORD Level,
PLLS_SERVICE_INFOA BufPtr
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsServiceInfoSetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrServiceInfoSetA
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// Replication Functions
/////////////////////////////////////////////////////////////////////////
VOID __RPC_USER LLS_REPL_HANDLE_rundown(
LLS_REPL_HANDLE Handle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
LLS_REPL_HANDLE xHandle;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LLS_REPL_HANDLE_rundown\n"));
#endif
if (Handle == NULL)
return;
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
pClient = (REPL_CONTEXT_TYPE *) Handle;
if (pClient != NULL)
if (pClient->Active) {
xHandle = Handle;
LlsrReplClose(&xHandle);
}
} // LLS_REPL_HANDLE_rundown
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrReplConnect(
PLLS_REPL_HANDLE Handle,
LPTSTR Name
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplConnect: %s\n"), Name);
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == Handle)
{
return STATUS_INVALID_PARAMETER;
}
*Handle = NULL;
pClient = (REPL_CONTEXT_TYPE *) midl_user_allocate(sizeof(REPL_CONTEXT_TYPE));
if (pClient == NULL)
{
return STATUS_NO_MEMORY;
}
memcpy(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE);
if (Name != NULL)
lstrcpyn(pClient->Name, Name,MAX_COMPUTERNAME_LENGTH+1);
else
lstrcpy(pClient->Name, TEXT(""));
pClient->Active = TRUE;
pClient->Replicated = FALSE;
pClient->ServicesSent = FALSE;
pClient->ServiceTableSize = 0;
pClient->Services = NULL;
pClient->ServersSent = FALSE;
pClient->ServerTableSize = 0;
pClient->Servers = NULL;
pClient->ServerServicesSent = FALSE;
pClient->ServerServiceTableSize = 0;
pClient->ServerServices = NULL;
pClient->UsersSent = FALSE;
pClient->UserLevel = 0;
pClient->UserTableSize = 0;
pClient->Users = NULL;
pClient->CertDbSent = FALSE;
pClient->CertDbProductStringSize = 0;
pClient->CertDbProductStrings = NULL;
pClient->CertDbNumHeaders = 0;
pClient->CertDbHeaders = NULL;
pClient->CertDbNumClaims = 0;
pClient->CertDbClaims = NULL;
pClient->ProductSecuritySent = FALSE;
pClient->ProductSecurityStringSize = 0;
pClient->ProductSecurityStrings = NULL;
*Handle = pClient;
return STATUS_SUCCESS;
} // LlsrReplConnect
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrReplClose(
LLS_REPL_HANDLE *pHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
BOOL Replicated = TRUE;
LLS_REPL_HANDLE Handle = NULL;
REPL_CONTEXT_TYPE *pClient;
PSERVER_RECORD Server;
ULONG i;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplClose\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == pHandle)
{
return STATUS_INVALID_PARAMETER;
}
Handle = *pHandle;
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
pClient->Active = FALSE;
//
// Check to see if we have all the information from the client - if we do
// then munge this information into our internal tables.
//
if (pClient->ServersSent && pClient->UsersSent && pClient->ServicesSent && pClient->ServerServicesSent) {
#if DBG
if (TraceFlags & TRACE_RPC)
dprintf(TEXT("LLS Replication - Munging Data\n"));
#endif
UnpackAll (
pClient->ServiceTableSize,
pClient->Services,
pClient->ServerTableSize,
pClient->Servers,
pClient->ServerServiceTableSize,
pClient->ServerServices,
pClient->UserLevel,
pClient->UserTableSize,
pClient->Users
);
if ( pClient->CertDbSent )
{
CertDbUnpack(
pClient->CertDbProductStringSize,
pClient->CertDbProductStrings,
pClient->CertDbNumHeaders,
pClient->CertDbHeaders,
pClient->CertDbNumClaims,
pClient->CertDbClaims,
TRUE );
}
if ( pClient->ProductSecuritySent )
{
ProductSecurityUnpack(
pClient->ProductSecurityStringSize,
pClient->ProductSecurityStrings );
}
} else
Replicated = FALSE;
//////////////////////////////////////////////////////////////////
//
// Replication Finished - clean up the context data.
//
#if DBG
if (TraceFlags & TRACE_RPC)
dprintf(TEXT("LLS Replication - Munging Finished\n"));
#endif
if (pClient->Servers != NULL) {
for (i = 0; i < pClient->ServerTableSize; i++)
MIDL_user_free(pClient->Servers[i].Name);
MIDL_user_free(pClient->Servers);
}
if (pClient->Services != NULL) {
for (i = 0; i < pClient->ServiceTableSize; i++) {
MIDL_user_free(pClient->Services[i].Name);
MIDL_user_free(pClient->Services[i].FamilyName);
}
MIDL_user_free(pClient->Services);
}
if (pClient->ServerServices != NULL)
MIDL_user_free(pClient->ServerServices);
if (pClient->Users != NULL) {
for (i = 0; i < pClient->UserTableSize; i++)
{
if ( 0 == pClient->UserLevel )
{
MIDL_user_free( ((PREPL_USER_RECORD_0) (pClient->Users))[i].Name );
}
else
{
ASSERT( 1 == pClient->UserLevel );
MIDL_user_free( ((PREPL_USER_RECORD_1) (pClient->Users))[i].Name );
}
}
MIDL_user_free(pClient->Users);
}
if (pClient->CertDbProductStrings != NULL)
{
MIDL_user_free(pClient->CertDbProductStrings);
}
if (pClient->CertDbHeaders != NULL)
{
MIDL_user_free(pClient->CertDbHeaders);
}
if (pClient->CertDbClaims != NULL)
{
MIDL_user_free(pClient->CertDbClaims);
}
if (pClient->ProductSecurityStrings != NULL)
{
MIDL_user_free(pClient->ProductSecurityStrings);
}
if (pClient->Replicated) {
if (Replicated) {
RtlAcquireResourceShared(&ServerListLock, TRUE);
Server = ServerListFind(pClient->Name);
RtlReleaseResource(&ServerListLock);
ASSERT(Server != NULL);
if (Server != NULL)
Server->LastReplicated = pClient->ReplicationStart;
}
RtlEnterCriticalSection(&ConfigInfoLock);
i = --ConfigInfo.NumReplicating;
RtlLeaveCriticalSection(&ConfigInfoLock);
if ( !i )
{
// no one's replicating; save all our data files
SaveAll();
}
}
MIDL_user_free(pClient);
//
// Let RPC know were done with it.
//
*pHandle = NULL;
return STATUS_SUCCESS;
} // LlsrReplClose
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationRequestW(
LLS_HANDLE Handle,
DWORD Version,
PREPL_REQUEST pRequest
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
TCHAR ComputerName[MAX_COMPUTERNAME_LENGTH + 1];
REPL_CONTEXT_TYPE *pClient;
PSERVER_RECORD Server;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC | TRACE_REPLICATION))
dprintf(TEXT("LLS TRACE: LlsReplicationRequestW: %s\n"), ((PCLIENT_CONTEXT_TYPE) Handle)->Name);
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (Version != REPL_VERSION) {
return STATUS_INVALID_LEVEL;
}
if (pRequest == NULL)
return STATUS_INVALID_PARAMETER;
ComputerName[0] = 0;
pRequest->EnterpriseServer[0] = 0;
//
// Check Enterprise server date from client to see if we need to update
// ours. Also, send back new one for the client.
//
RtlEnterCriticalSection(&ConfigInfoLock);
if (ConfigInfo.ComputerName != NULL)
lstrcpy(ComputerName, ConfigInfo.ComputerName);
#ifdef DISABLED_FOR_NT5
if (ConfigInfo.EnterpriseServerDate < pRequest->EnterpriseServerDate) {
if (lstrlen(pRequest->EnterpriseServer) != 0) {
lstrcpy(ConfigInfo.EnterpriseServer, pRequest->EnterpriseServer);
ConfigInfo.EnterpriseServerDate = pRequest->EnterpriseServerDate;
}
}
#endif // DISABLED_FOR_NT5
if (ConfigInfo.EnterpriseServer != NULL)
lstrcpy(pRequest->EnterpriseServer, ConfigInfo.EnterpriseServer);
pRequest->EnterpriseServerDate = ConfigInfo.EnterpriseServerDate;
//
// Increment Repl Count
//
ConfigInfo.NumReplicating++;
RtlLeaveCriticalSection(&ConfigInfoLock);
//
// Find this server in our server list (add it if not there)
//
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
pClient->Replicated = TRUE;
RtlAcquireResourceExclusive(&ServerListLock, TRUE);
Server = ServerListAdd(pClient->Name, ComputerName);
RtlReleaseResource(&ServerListLock);
if (Server == NULL) {
return STATUS_NO_MEMORY;
}
pClient->ReplicationStart = pRequest->CurrentTime;
pRequest->LastReplicated = Server->LastReplicated;
return STATUS_SUCCESS;
} // LlsrReplicationRequestW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationServerAddW(
LLS_HANDLE Handle,
ULONG NumRecords,
PREPL_SERVER_RECORD Servers
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplicationServerAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->ServersSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->ServersSent = TRUE;
pClient->ServerTableSize = NumRecords;
pClient->Servers = Servers;
return STATUS_SUCCESS;
} // LlsrReplicationServerAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationServerServiceAddW(
LLS_HANDLE Handle,
ULONG NumRecords,
PREPL_SERVER_SERVICE_RECORD ServerServices
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplicationServerServiceAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->ServerServicesSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->ServerServicesSent = TRUE;
pClient->ServerServiceTableSize = NumRecords;
pClient->ServerServices = ServerServices;
return STATUS_SUCCESS;
} // LlsrReplicationServerServiceAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationServiceAddW(
LLS_HANDLE Handle,
ULONG NumRecords,
PREPL_SERVICE_RECORD Services
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplicationServiceAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->ServicesSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->ServicesSent = TRUE;
pClient->ServiceTableSize = NumRecords;
pClient->Services = Services;
return STATUS_SUCCESS;
} // LlsrReplicationServiceAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationUserAddW(
LLS_HANDLE Handle,
ULONG NumRecords,
PREPL_USER_RECORD_0 Users
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
REPL_CONTEXT_TYPE *pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsReplicationUserAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->UsersSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->UsersSent = TRUE;
pClient->UserLevel = 0;
pClient->UserTableSize = NumRecords;
pClient->Users = Users;
return STATUS_SUCCESS;
} // LlsrReplicationUserAddW
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// Licensing Functions
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrLicenseRequestW(
PLICENSE_HANDLE pLicenseHandle,
LPWSTR ProductID,
ULONG VersionIndex,
BOOLEAN IsAdmin,
ULONG DataType,
ULONG DataSize,
PBYTE Data
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
NTSTATUS Status;
ULONG Handle = 0xFFFFFFFFL;
#if DBG
if ( TraceFlags & (TRACE_FUNCTION_TRACE) )
dprintf(TEXT("LLS TRACE: LlsrLicenseRequestW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((NULL == pLicenseHandle) || (NULL == ProductID) || (NULL == Data))
{
return STATUS_INVALID_PARAMETER;
}
Status = DispatchRequestLicense(DataType, Data, ProductID, VersionIndex, IsAdmin, &Handle);
// Can't allow Handle value of zero
*pLicenseHandle = (LICENSE_HANDLE) ULongToPtr(Handle+1);
return Status;
} // LlsrLicenseRequestW
NTSTATUS
LlsrLicenseFree(
PLICENSE_HANDLE pLicenseHandle
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DBG
if ( TraceFlags & (TRACE_FUNCTION_TRACE) )
dprintf(TEXT("LLS TRACE: LlsrLicenseFree\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == pLicenseHandle)
return STATUS_INVALID_PARAMETER;
DispatchFreeLicense(PtrToUlong(*pLicenseHandle) - 1);
*pLicenseHandle = NULL;
return STATUS_SUCCESS;
} // LlsrLicenseFree
void __RPC_USER LICENSE_HANDLE_rundown(
LICENSE_HANDLE LicenseHandle
)
/*++
Routine Description: Called by RPC when client quits without calling
LlsrLicenseFree (i.e. when it crashes)
Arguments: LicenseHandle - Handle given to client
Return Value: none
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LICENSE_HANDLE_rundown\n"));
#endif
if (LicenseHandle != NULL)
{
DispatchFreeLicense(PtrToUlong(LicenseHandle) - 1);
}
}
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
#if DBG
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// Debugging API's
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgTableDump(
DWORD Table
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
//
// FreeHandle is actually TableID
//
switch(Table) {
case SERVICE_TABLE_NUM:
ServiceListDebugDump();
break;
case USER_TABLE_NUM:
UserListDebugDump();
break;
case SID_TABLE_NUM:
SidListDebugDump();
break;
case LICENSE_TABLE_NUM:
LicenseListDebugDump();
break;
case ADD_CACHE_TABLE_NUM:
AddCacheDebugDump();
break;
case MASTER_SERVICE_TABLE_NUM:
MasterServiceListDebugDump();
break;
case SERVICE_FAMILY_TABLE_NUM:
MasterServiceRootDebugDump();
break;
case MAPPING_TABLE_NUM:
MappingListDebugDump();
break;
case SERVER_TABLE_NUM:
ServerListDebugDump();
break;
case SECURE_PRODUCT_TABLE_NUM:
ProductSecurityListDebugDump();
break;
case CERTIFICATE_TABLE_NUM:
CertDbDebugDump();
break;
}
return STATUS_SUCCESS;
} // LlsrDbgTableDump
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgTableInfoDump(
DWORD Table,
LPTSTR Item
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == Item)
{
return STATUS_INVALID_PARAMETER;
}
switch(Table) {
case SERVICE_TABLE_NUM:
ServiceListDebugInfoDump((PVOID) Item);
break;
case USER_TABLE_NUM:
UserListDebugInfoDump((PVOID) Item);
break;
// case SID_TABLE_NUM:
// SidListDebugInfoDump((PVOID) Item);
// break;
// case LICENSE_TABLE_NUM:
// LicenseListInfoDebugDump((PVOID) Item);
// break;
// case ADD_CACHE_TABLE_NUM:
// AddCacheDebugDump((PVOID) Item);
// break;
case MASTER_SERVICE_TABLE_NUM:
MasterServiceListDebugInfoDump((PVOID) Item);
break;
case SERVICE_FAMILY_TABLE_NUM:
MasterServiceRootDebugInfoDump((PVOID) Item);
break;
case MAPPING_TABLE_NUM:
MappingListDebugInfoDump((PVOID) Item);
break;
case SERVER_TABLE_NUM:
ServerListDebugInfoDump((PVOID) Item);
break;
}
return STATUS_SUCCESS;
} // LlsrDbgTableInfoDump
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgTableFlush(
DWORD Table
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
return STATUS_SUCCESS;
} // LlsrDbgTableFlush
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgTraceSet(
DWORD Flags
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
TraceFlags = Flags;
return STATUS_SUCCESS;
} // LlsrDbgTraceSet
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgConfigDump(
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
ConfigInfoDebugDump();
return STATUS_SUCCESS;
} // LlsrDbgConfigDump
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgReplicationForce(
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
NtSetEvent( ReplicationEvent, NULL );
return STATUS_SUCCESS;
} // LlsrDbgReplicationForce
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgReplicationDeny(
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
return STATUS_SUCCESS;
} // LlsrDbgReplicationDeny
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgRegistryUpdateForce(
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
ServiceListResynch();
return STATUS_SUCCESS;
} // LlsrDbgRegistryUpdateForce
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrDbgDatabaseFlush(
)
/*++
Routine Description:
Arguments:
Return Value:
--*/
{
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
LLSDataSave();
return STATUS_SUCCESS;
} // LlsrDbgDatabaseFlush
#endif // #if DBG
/////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////
// Extended RPC
NTSTATUS LlsrProductSecurityGetA(
LLS_HANDLE Handle,
LPSTR Product,
LPBOOL pIsSecure
)
/*++
Routine Description:
Retrieve the "security" of a product. A product is deemed secure iff
it requires a secure certificate. In such a case, licenses for the
product may not be entered via the Honesty ("enter the number of
licenses you purchased") method.
NOTE: Not yet implemented. Use LlsrProductSecurityGetW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPSTR)
The name of the product ("DisplayName") for which to receive the
security.
pIsSecure (LPBOOL)
On return, and if successful, indicates whether the product is
secure.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrProductSecurityGetA\n"));
#endif
if (NULL == pIsSecure)
{
return STATUS_INVALID_PARAMETER;
}
*pIsSecure = FALSE;
return STATUS_NOT_SUPPORTED;
} // LlsrProductSecurityGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductSecurityGetW(
LLS_HANDLE Handle,
LPWSTR DisplayName,
LPBOOL pIsSecure
)
/*++
Routine Description:
Retrieve the "security" of a product. A product is deemed secure iff
it requires a secure certificate. In such a case, licenses for the
product may not be entered via the Honesty ("enter the number of
licenses you purchased") method.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPWSTR)
The name of the product ("DisplayName") for which to receive the
security.
pIsSecure (LPBOOL)
On return, and if successful, indicates whether the product is
secure.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
DWORD i;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrProductSecurityGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == pIsSecure)
{
return STATUS_INVALID_PARAMETER;
}
RtlAcquireResourceShared( &LocalServiceListLock, TRUE );
*pIsSecure = ServiceIsSecure( DisplayName );
RtlReleaseResource( &LocalServiceListLock );
return STATUS_SUCCESS;
} // LlsrProductSecurityGetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductSecuritySetA(
LLS_HANDLE Handle,
LPSTR Product
)
/*++
Routine Description:
Flags the given product as secure. A product is deemed secure iff
it requires a secure certificate. In such a case, licenses for the
product may not be entered via the Honesty ("enter the number of
licenses you purchased") method.
This designation is not reversible and is propagated up the
replication tree.
NOTE: Not yet implemented. Use LlsrProductSecuritySetW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPSTR)
The name of the product ("DisplayName") for which to activate
security.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrProductSecuritySetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrProductSecuritySetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS LlsrProductSecuritySetW(
LLS_HANDLE Handle,
LPWSTR DisplayName
)
/*++
Routine Description:
Flags the given product as secure. A product is deemed secure iff
it requires a secure certificate. In such a case, licenses for the
product may not be entered via the Honesty ("enter the number of
licenses you purchased") method.
This designation is not reversible and is propagated up the
replication tree.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPWSTR)
The name of the product ("DisplayName") for which to activate
security.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
NTSTATUS nt;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrProductSecuritySetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == DisplayName)
{
return STATUS_INVALID_PARAMETER;
}
nt = ServiceSecuritySet( DisplayName );
return nt;
} // LlsrProductSecuritySetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrProductLicensesGetA(
LLS_HANDLE Handle,
LPSTR DisplayName,
DWORD Mode,
LPDWORD pQuantity )
/*++
Routine Description:
Returns the number of licenses installed for use in the given mode.
NOTE: Not yet implemented. Use LlsrProductLicensesGetW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPSTR)
The name of the product for which to tally licenses.
Mode (DWORD)
Mode for which to tally licenses.
pQuantity (LPDWORD)
On return (and if successful), holds the total number of licenses
for use by the given product in the given license mode.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductLicensesGetA\n"));
#endif
if (NULL == pQuantity)
{
return STATUS_INVALID_PARAMETER;
}
*pQuantity = 0;
return STATUS_NOT_SUPPORTED;
} // LlsProductLicensesGetA
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrProductLicensesGetW(
LLS_HANDLE Handle,
LPWSTR DisplayName,
DWORD Mode,
LPDWORD pQuantity )
/*++
Routine Description:
Returns the number of licenses installed for use in the given mode.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
Product (LPWSTR)
The name of the product for which to tally licenses.
Mode (DWORD)
Mode for which to tally licenses.
pQuantity (LPDWORD)
On return (and if successful), holds the total number of licenses
for use by the given product in the given license mode.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsProductLicensesGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == pQuantity)
{
return STATUS_INVALID_PARAMETER;
}
*pQuantity = 0;
if ( !Mode || ServiceIsSecure( DisplayName ) )
{
// get limit from purchase list
*pQuantity = ProductLicensesGet( DisplayName, Mode );
}
else
{
DWORD i;
LocalServiceListUpdate();
LocalServerServiceListUpdate();
ServiceListResynch();
RtlAcquireResourceShared( &LocalServiceListLock, TRUE );
// get limit from concurrent limit setting from the registry
for ( i=0; i < LocalServiceListSize; i++ )
{
if ( !lstrcmpi( LocalServiceList[i]->DisplayName, DisplayName ) )
{
// get concurrent limit straight from the registry, not from LocalServiceList!
// (if the mode is set to per seat, the per server licenses in the
// LocalServiceList will always be 0!)
TCHAR szKeyName[ 512 ];
HKEY hKeyService;
DWORD dwSize;
DWORD dwType;
wsprintf( szKeyName, TEXT("System\\CurrentControlSet\\Services\\LicenseInfo\\%s"), LocalServiceList[i]->Name );
// if error encountered, return STATUS_SUCCESS with *pQuantity = 0
if ( STATUS_SUCCESS == RegOpenKeyEx( HKEY_LOCAL_MACHINE, szKeyName, 0, KEY_READ, &hKeyService ) )
{
dwSize = sizeof( *pQuantity );
RegQueryValueEx( hKeyService, TEXT("ConcurrentLimit"), NULL, &dwType, (LPBYTE) pQuantity, &dwSize );
RegCloseKey( hKeyService );
}
break;
}
}
RtlReleaseResource( &LocalServiceListLock );
}
return STATUS_SUCCESS;
} // LlsProductLicensesGetW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimEnumA(
LLS_HANDLE Handle,
DWORD LicenseLevel,
PLLS_LICENSE_INFOA LicensePtr,
PLLS_CERTIFICATE_CLAIM_ENUM_STRUCTA TargetInfo )
/*++
Routine Description:
Enumerates the servers on which a given secure certificate is installed.
This function is normally invoked when an attempt to add licenses from
a certificate is denied.
NOTE: Not yet implemented. Use LlsrCertificateClaimEnumW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOA)
Describes a license for which the certificate targets are requested.
TargetInfo (PLLS_CERTIFICATE_CLAIM_ENUM_STRUCTA)
Container in which to return the target information.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimEnumA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrCertificateClaimEnumA
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimEnumW(
LLS_HANDLE Handle,
DWORD LicenseLevel,
PLLS_LICENSE_INFOW LicensePtr,
PLLS_CERTIFICATE_CLAIM_ENUM_STRUCTW TargetInfo )
/*++
Routine Description:
Enumerates the servers on which a given secure certificate is installed.
This function is normally invoked when an attempt to add licenses from
a certificate is denied.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOW)
Describes a license for which the certificate targets are requested.
TargetInfo (PLLS_CERTIFICATE_CLAIM_ENUM_STRUCTA)
Container in which to return the target information.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
NTSTATUS nt;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceShared( &CertDbHeaderListLock, TRUE );
if ((NULL == TargetInfo) || (NULL == LicensePtr))
{
return STATUS_INVALID_PARAMETER;
}
if ( ( 1 != LicenseLevel ) || ( 0 != TargetInfo->Level ) )
{
return STATUS_INVALID_LEVEL;
}
if (TargetInfo->LlsCertificateClaimInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
nt = CertDbClaimsGet( (PLLS_LICENSE_INFO_1) &LicensePtr->LicenseInfo1,
&TargetInfo->LlsCertificateClaimInfo.Level0->EntriesRead,
(PLLS_CERTIFICATE_CLAIM_INFO_0 *) &TargetInfo->LlsCertificateClaimInfo.Level0->Buffer );
if ( STATUS_SUCCESS != nt )
{
TargetInfo->LlsCertificateClaimInfo.Level0->EntriesRead = 0;
TargetInfo->LlsCertificateClaimInfo.Level0->Buffer = NULL;
}
return nt;
} // LlsrCertificateClaimEnumW
void LlsrCertificateClaimEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource( &CertDbHeaderListLock );
}
}
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimAddCheckA(
LLS_HANDLE Handle,
DWORD LicenseLevel,
PLLS_LICENSE_INFOA LicensePtr,
LPBOOL pbMayInstall )
/*++
Routine Description:
Verify that no more licenses from a given certificate are installed in
a licensing enterprise than are allowed by the certificate.
NOTE: Not yet implemented. Use LlsrCertificateClaimAddCheckW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOA)
Describes a license for which permission is requested.
pbMayInstall (LPBOOL)
On return (and if successful), indicates whether the certificate
may be legally installed.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimAddCheckA\n"));
#endif
if (NULL == pbMayInstall)
{
return STATUS_INVALID_PARAMETER;
}
*pbMayInstall = FALSE;
return STATUS_NOT_SUPPORTED;
} // LlsrCertificateClaimAddCheckA
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimAddCheckW(
LLS_HANDLE Handle,
DWORD LicenseLevel,
PLLS_LICENSE_INFOW LicensePtr,
LPBOOL pbMayInstall )
/*++
Routine Description:
Verify that no more licenses from a given certificate are installed in
a licensing enterprise than are allowed by the certificate.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOW)
Describes a license for which permission is requested.
pbMayInstall (LPBOOL)
On return (and if successful), indicates whether the certificate
may be legally installed.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
NTSTATUS nt;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimAddCheckW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ((NULL == pbMayInstall) || (NULL == LicensePtr))
{
return STATUS_INVALID_PARAMETER;
}
*pbMayInstall = FALSE;
if ( 1 != LicenseLevel )
{
return STATUS_INVALID_LEVEL;
}
*pbMayInstall = CertDbClaimApprove( (PLLS_LICENSE_INFO_1) &LicensePtr->LicenseInfo1 );
nt = STATUS_SUCCESS;
return nt;
} // LlsrCertificateClaimAddCheckW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimAddA(
LLS_HANDLE Handle,
LPSTR ServerName,
DWORD LicenseLevel,
PLLS_LICENSE_INFOA LicensePtr )
/*++
Routine Description:
Declare a number of licenses from a given certificate as being installed
on the target machine.
NOTE: Not yet implemented. Use LlsCertificateClaimAddW().
Arguments:
Handle (LLS_HANDLE)
An open LLS handle.
ServerName (LPWSTR)
Name of the server on which the licenses are installed.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOA)
Describes the installed license.
Return Value:
STATUS_NOT_SUPPORTED.
--*/
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
} // LlsrCertificateClaimAddA
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrCertificateClaimAddW(
LLS_HANDLE Handle,
LPWSTR ServerName,
DWORD LicenseLevel,
PLLS_LICENSE_INFOW LicensePtr )
/*++
Routine Description:
Declare a number of licenses from a given certificate as being installed
on the target machine.
Arguments:
Handle (LLS_HANDLE)
An open LLS handle to the target license server.
ServerName (LPWSTR)
Name of the server on which the licenses are installed.
LicenseLevel (DWORD)
The level of the license structure pointed to by pLicenseInfo.
LicensePtr (PLLS_LICENSE_INFOW)
Describes the installed license.
Return Value:
STATUS_SUCCESS or NTSTATUS error code.
--*/
{
NTSTATUS nt;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrCertificateClaimAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( 1 != LicenseLevel )
{
return STATUS_INVALID_LEVEL;
}
if (NULL == LicensePtr)
{
return STATUS_INVALID_PARAMETER;
}
nt = CertDbClaimEnter( ServerName, (PLLS_LICENSE_INFO_1) &LicensePtr->LicenseInfo1, FALSE, 0 );
if ( STATUS_SUCCESS == nt )
{
nt = CertDbSave();
}
return nt;
} // LlsrCertificateClaimAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationCertDbAddW(
LLS_REPL_HANDLE Handle,
DWORD Level,
REPL_CERTIFICATES Certificates )
/*++
Routine Description:
Called as an optional part of replication, this function receives
the contents of the remote certificate database.
Arguments:
Handle (LLS_REPL_HANDLE)
An open replication handle.
Level (DWORD)
Level of replicated certificate information.
Certificates (REPL_CERTIFICATES)
Replicated certificate information.
Return Value:
STATUS_SUCCESS or STATUS_INVALID_LEVEL.
--*/
{
NTSTATUS nt;
REPL_CONTEXT_TYPE * pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrReplicationCertDbAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( ( 0 != Level )
|| ( ( NULL != Certificates )
&& ( ( 0 != Certificates->Level0.ClaimLevel )
|| ( 0 != Certificates->Level0.HeaderLevel ) ) ) )
{
nt = STATUS_INVALID_LEVEL;
}
else
{
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->CertDbSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->CertDbSent = TRUE;
if ( NULL != Certificates )
{
pClient->CertDbProductStringSize = Certificates->Level0.StringSize;
pClient->CertDbProductStrings = Certificates->Level0.Strings;
pClient->CertDbNumHeaders = Certificates->Level0.HeaderContainer.Level0.NumHeaders;
pClient->CertDbHeaders = Certificates->Level0.HeaderContainer.Level0.Headers;
pClient->CertDbNumClaims = Certificates->Level0.ClaimContainer.Level0.NumClaims;
pClient->CertDbClaims = Certificates->Level0.ClaimContainer.Level0.Claims;
// free container only
MIDL_user_free( Certificates );
}
nt = STATUS_SUCCESS;
}
return nt;
} // LlsrReplicationCertDbAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationProductSecurityAddW(
LLS_REPL_HANDLE Handle,
DWORD Level,
REPL_SECURE_PRODUCTS SecureProducts )
/*++
Routine Description:
Called as an optional part of replication, this function receives
the list of products which require secure certificates.
Arguments:
Handle (LLS_REPL_HANDLE)
An open replication handle.
Level (DWORD)
Level of replicated secure product information.
SecureProducts (REPL_SECURE_PRODUCTS)
Replicated secure product information.
Return Value:
STATUS_SUCCESS or STATUS_INVALID_LEVEL.
--*/
{
NTSTATUS nt;
REPL_CONTEXT_TYPE * pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrReplicationProductSecurityAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( 0 != Level )
{
nt = STATUS_INVALID_LEVEL;
}
else
{
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->ProductSecuritySent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->ProductSecuritySent = TRUE;
if ( NULL != SecureProducts )
{
pClient->ProductSecurityStringSize = SecureProducts->Level0.StringSize;
pClient->ProductSecurityStrings = SecureProducts->Level0.Strings;
}
nt = STATUS_SUCCESS;
}
return nt;
} // LlsrReplicationProductSecurityAddW
/////////////////////////////////////////////////////////////////////////
NTSTATUS
LlsrReplicationUserAddExW(
LLS_REPL_HANDLE Handle,
DWORD Level,
REPL_USERS Users )
/*++
Routine Description:
Replacement for LlsrReplicationUserAddW(). (This function, unlike its
counterpart, supports structure levels.) This function replicates the
user list.
Arguments:
Handle (LLS_REPL_HANDLE)
An open replication handle.
Level (DWORD)
Level of replicated user information.
Users (REPL_USERS)
Replicated user information.
Return Value:
STATUS_SUCCESS or STATUS_INVALID_LEVEL.
--*/
{
NTSTATUS nt;
REPL_CONTEXT_TYPE * pClient;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrReplicationUserAddExW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( ( 0 != Level ) && ( 1 != Level ) )
{
nt = STATUS_INVALID_LEVEL;
}
else
{
pClient = (REPL_CONTEXT_TYPE *) Handle;
if ((NULL == pClient) || (0 != memcmp(pClient->Signature,LLS_REPL_SIG,LLS_REPL_SIG_SIZE)))
{
return STATUS_INVALID_PARAMETER;
}
if (pClient->UsersSent)
{
// don't accept more than one Add
return HRESULT_FROM_WIN32(ERROR_ALREADY_INITIALIZED);
}
pClient->UsersSent = TRUE;
pClient->UserLevel = Level;
if ( NULL != Users )
{
if ( 0 == Level )
{
pClient->UserTableSize = Users->Level0.NumUsers;
pClient->Users = Users->Level0.Users;
}
else
{
pClient->UserTableSize = Users->Level1.NumUsers;
pClient->Users = Users->Level1.Users;
}
// free container only
MIDL_user_free( Users );
}
nt = STATUS_SUCCESS;
}
return nt;
} // LlsrReplicationUserAddExW
NTSTATUS
LlsrCapabilityGet(
LLS_HANDLE Handle,
DWORD cbCapabilities,
LPBYTE pbCapabilities )
{
static DWORD adwCapabilitiesSupported[] =
{
LLS_CAPABILITY_SECURE_CERTIFICATES,
LLS_CAPABILITY_REPLICATE_CERT_DB,
LLS_CAPABILITY_REPLICATE_PRODUCT_SECURITY,
LLS_CAPABILITY_REPLICATE_USERS_EX,
LLS_CAPABILITY_SERVICE_INFO_GETW,
LLS_CAPABILITY_LOCAL_SERVICE_API,
(DWORD) -1L
};
DWORD i;
DWORD dwCapByte;
DWORD dwCapBit;
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if (NULL == pbCapabilities)
{
return STATUS_INVALID_PARAMETER;
}
ZeroMemory( pbCapabilities, cbCapabilities );
for ( i=0; (DWORD) -1L != adwCapabilitiesSupported[ i ]; i++ )
{
dwCapByte = adwCapabilitiesSupported[ i ] / 8;
dwCapBit = adwCapabilitiesSupported[ i ] - 8 * dwCapByte;
if ( dwCapByte < cbCapabilities )
{
pbCapabilities[ dwCapByte ] |= ( 1 << dwCapBit );
}
}
return STATUS_SUCCESS;
}
NTSTATUS
LlsrLocalServiceEnumW(
LLS_HANDLE Handle,
PLLS_LOCAL_SERVICE_ENUM_STRUCTW LocalServiceInfo,
DWORD PrefMaxLen,
LPDWORD pTotalEntries,
LPDWORD pResumeHandle )
{
NTSTATUS Status = STATUS_SUCCESS;
PVOID BufPtr = NULL;
ULONG BufSize = 0;
ULONG EntriesRead = 0;
ULONG TotalEntries = 0;
ULONG i = 0;
ULONG j = 0;
const DWORD RecordSize = sizeof( LLS_LOCAL_SERVICE_INFO_0W );
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrLocalServiceEnumW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
// Need to scan list so get read access.
RtlAcquireResourceShared(&LocalServiceListLock, TRUE);
if ((NULL == pTotalEntries) || (NULL == LocalServiceInfo))
{
return STATUS_INVALID_PARAMETER;
}
*pTotalEntries = 0;
if ( 0 != LocalServiceInfo->Level )
{
return STATUS_INVALID_LEVEL;
}
if (LocalServiceInfo->LlsLocalServiceInfo.Level0 == NULL)
{
return STATUS_INVALID_PARAMETER;
}
// Calculate how many records will fit into PrefMaxLen buffer.
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
while ( ( i < LocalServiceListSize ) && ( BufSize < PrefMaxLen ) )
{
BufSize += RecordSize;
EntriesRead++;
i++;
}
TotalEntries = EntriesRead;
// If we overflowed the buffer then back up one record.
if (BufSize > PrefMaxLen)
{
BufSize -= RecordSize;
EntriesRead--;
}
// Now walk to the end of the list to see how many more records are still
// available.
TotalEntries += LocalServiceListSize - i;
if (TotalEntries > EntriesRead)
Status = STATUS_MORE_ENTRIES;
// Reset Enum to correct place.
i = (pResumeHandle != NULL) ? *pResumeHandle : 0;
// We now know how many records will fit into the buffer, so allocate space
// and fix up pointers so we can copy the information.
BufPtr = MIDL_user_allocate(BufSize);
if (BufPtr == NULL)
{
Status = STATUS_NO_MEMORY;
goto LlsrLocalServiceEnumWExit;
}
RtlZeroMemory((PVOID) BufPtr, BufSize);
// Buffers are all setup, so loop through records and copy the data.
while ((j < EntriesRead) && (i < LocalServiceListSize))
{
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].KeyName = LocalServiceList[i]->Name;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].DisplayName = LocalServiceList[i]->DisplayName;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].FamilyDisplayName = LocalServiceList[i]->FamilyDisplayName;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].Mode = LocalServiceList[i]->Mode;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].FlipAllow = LocalServiceList[i]->FlipAllow;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].ConcurrentLimit = LocalServiceList[i]->ConcurrentLimit;
((PLLS_LOCAL_SERVICE_INFO_0W) BufPtr)[j].HighMark = LocalServiceList[i]->HighMark;
j++;
i++;
}
LlsrLocalServiceEnumWExit:
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT(" TotalEntries: %lu EntriesRead: %lu ResumeHandle: 0x%lX\n"), TotalEntries, EntriesRead, i);
#endif
*pTotalEntries = TotalEntries;
if (pResumeHandle != NULL)
*pResumeHandle = (ULONG) i;
LocalServiceInfo->LlsLocalServiceInfo.Level0->EntriesRead = EntriesRead;
LocalServiceInfo->LlsLocalServiceInfo.Level0->Buffer = (PLLS_LOCAL_SERVICE_INFO_0W) BufPtr;
return Status;
}
void LlsrLocalServiceEnumW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&LocalServiceListLock);
}
}
NTSTATUS
LlsrLocalServiceEnumA(
LLS_HANDLE Handle,
PLLS_LOCAL_SERVICE_ENUM_STRUCTA LocalServiceInfo,
DWORD PrefMaxLen,
LPDWORD TotalEntries,
LPDWORD ResumeHandle )
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalServiceEnumA\n"));
#endif
if (NULL == TotalEntries)
{
return STATUS_INVALID_PARAMETER;
}
*TotalEntries = 0;
return STATUS_NOT_SUPPORTED;
}
NTSTATUS
LlsrLocalServiceAddW(
LLS_HANDLE Handle,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOW LocalServiceInfo )
{
NTSTATUS Status;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrLocalServiceAddW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( 0 != Level )
{
Status = STATUS_INVALID_LEVEL;
}
else if ( ( NULL == LocalServiceInfo)
|| ( NULL == LocalServiceInfo->LocalServiceInfo0.KeyName )
|| ( NULL == LocalServiceInfo->LocalServiceInfo0.DisplayName )
|| ( NULL == LocalServiceInfo->LocalServiceInfo0.FamilyDisplayName ) )
{
Status = STATUS_INVALID_PARAMETER;
}
else
{
LONG lError;
HKEY hKeyLicenseInfo;
HKEY hKeyService;
DWORD dwDisposition;
lError = RegOpenKeyEx( HKEY_LOCAL_MACHINE, REG_KEY_LICENSE, 0, KEY_WRITE, &hKeyLicenseInfo );
if ( ERROR_SUCCESS == lError )
{
// create key
lError = RegCreateKeyEx( hKeyLicenseInfo, LocalServiceInfo->LocalServiceInfo0.KeyName, 0, NULL, 0, KEY_WRITE, NULL, &hKeyService, &dwDisposition );
if ( ERROR_SUCCESS == lError )
{
// set DisplayName
lError = RegSetValueEx( hKeyService,
REG_VALUE_NAME,
0,
REG_SZ,
(LPBYTE) LocalServiceInfo->LocalServiceInfo0.DisplayName,
( sizeof( *LocalServiceInfo->LocalServiceInfo0.DisplayName )
* ( 1 + lstrlen( LocalServiceInfo->LocalServiceInfo0.DisplayName ) ) ) );
if ( ERROR_SUCCESS == lError )
{
// set FamilyDisplayName
lError = RegSetValueEx( hKeyService,
REG_VALUE_FAMILY,
0,
REG_SZ,
(LPBYTE) LocalServiceInfo->LocalServiceInfo0.FamilyDisplayName,
( sizeof( *LocalServiceInfo->LocalServiceInfo0.FamilyDisplayName )
* ( 1 + lstrlen( LocalServiceInfo->LocalServiceInfo0.FamilyDisplayName ) ) ) );
}
RegCloseKey( hKeyService );
}
RegCloseKey( hKeyLicenseInfo );
}
switch ( lError )
{
case ERROR_SUCCESS:
Status = STATUS_SUCCESS;
break;
case ERROR_FILE_NOT_FOUND:
case ERROR_PATH_NOT_FOUND:
Status = STATUS_OBJECT_NAME_NOT_FOUND;
break;
default:
Status = STATUS_UNSUCCESSFUL;
break;
}
if ( STATUS_SUCCESS == Status )
{
// set remaining items and update LocalServiceList
Status = LlsrLocalServiceInfoSetW( Handle, LocalServiceInfo->LocalServiceInfo0.KeyName, Level, LocalServiceInfo );
}
}
return Status;
}
NTSTATUS
LlsrLocalServiceAddA(
LLS_HANDLE Handle,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOA LocalServiceInfo )
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalServiceAddA\n"));
#endif
return STATUS_NOT_SUPPORTED;
}
NTSTATUS
LlsrLocalServiceInfoSetW(
LLS_HANDLE Handle,
LPWSTR KeyName,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOW LocalServiceInfo )
{
NTSTATUS Status;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalServiceInfoSetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
if ( 0 != Level )
{
Status = STATUS_INVALID_LEVEL;
}
else if (( NULL == KeyName ) || ( NULL == LocalServiceInfo ))
{
Status = STATUS_INVALID_PARAMETER;
}
else
{
LONG lError;
HKEY hKeyLicenseInfo;
HKEY hKeyService;
lError = RegOpenKeyEx( HKEY_LOCAL_MACHINE, REG_KEY_LICENSE, 0, KEY_WRITE, &hKeyLicenseInfo );
if ( ERROR_SUCCESS == lError )
{
lError = RegOpenKeyEx( hKeyLicenseInfo, KeyName, 0, KEY_WRITE, &hKeyService );
if ( ERROR_SUCCESS == lError )
{
// set Mode
lError = RegSetValueEx( hKeyService, REG_VALUE_MODE, 0, REG_DWORD, (LPBYTE) &LocalServiceInfo->LocalServiceInfo0.Mode, sizeof( LocalServiceInfo->LocalServiceInfo0.Mode ) );
if ( ERROR_SUCCESS == lError )
{
// set FlipAllow
lError = RegSetValueEx( hKeyService, REG_VALUE_FLIP, 0, REG_DWORD, (LPBYTE) &LocalServiceInfo->LocalServiceInfo0.FlipAllow, sizeof( LocalServiceInfo->LocalServiceInfo0.FlipAllow ) );
if ( ERROR_SUCCESS == lError )
{
// set ConcurrentLimit
lError = RegSetValueEx( hKeyService, REG_VALUE_LIMIT, 0, REG_DWORD, (LPBYTE) &LocalServiceInfo->LocalServiceInfo0.ConcurrentLimit, sizeof( LocalServiceInfo->LocalServiceInfo0.ConcurrentLimit ) );
}
}
RegCloseKey( hKeyService );
}
RegCloseKey( hKeyLicenseInfo );
}
switch ( lError )
{
case ERROR_SUCCESS:
Status = STATUS_SUCCESS;
break;
case ERROR_FILE_NOT_FOUND:
case ERROR_PATH_NOT_FOUND:
Status = STATUS_OBJECT_NAME_NOT_FOUND;
break;
default:
Status = STATUS_UNSUCCESSFUL;
break;
}
if ( STATUS_SUCCESS == Status )
{
LocalServiceListUpdate();
LocalServerServiceListUpdate();
ServiceListResynch();
}
}
return Status;
}
NTSTATUS
LlsrLocalServiceInfoSetA(
LLS_HANDLE Handle,
LPSTR KeyName,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOA LocalServiceInfo )
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalServiceInfoSetA\n"));
#endif
return STATUS_NOT_SUPPORTED;
}
NTSTATUS
LlsrLocalServiceInfoGetW(
LLS_HANDLE Handle,
LPWSTR KeyName,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOW * pLocalServiceInfo )
{
NTSTATUS Status;
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsrLocalServiceInfoGetW\n"));
#endif
#if DELAY_INITIALIZATION
EnsureInitialized();
#endif
RtlAcquireResourceShared(&LocalServiceListLock, TRUE);
if (NULL == pLocalServiceInfo)
{
return STATUS_INVALID_PARAMETER;
}
*pLocalServiceInfo = NULL;
if ( 0 != Level )
{
Status = STATUS_INVALID_LEVEL;
}
else if ( NULL == KeyName )
{
Status = STATUS_INVALID_PARAMETER;
}
else
{
PLOCAL_SERVICE_RECORD pRecord;
pRecord = LocalServiceListFind( KeyName );
if ( NULL == pRecord )
{
Status = STATUS_OBJECT_NAME_NOT_FOUND;
}
else
{
*pLocalServiceInfo = MIDL_user_allocate( sizeof( **pLocalServiceInfo ) );
if ( NULL == *pLocalServiceInfo )
{
Status = STATUS_NO_MEMORY;
}
else
{
(*pLocalServiceInfo)->LocalServiceInfo0.KeyName = pRecord->Name;
(*pLocalServiceInfo)->LocalServiceInfo0.DisplayName = pRecord->DisplayName;
(*pLocalServiceInfo)->LocalServiceInfo0.FamilyDisplayName = pRecord->FamilyDisplayName;
(*pLocalServiceInfo)->LocalServiceInfo0.Mode = pRecord->Mode;
(*pLocalServiceInfo)->LocalServiceInfo0.FlipAllow = pRecord->FlipAllow;
(*pLocalServiceInfo)->LocalServiceInfo0.ConcurrentLimit = pRecord->ConcurrentLimit;
(*pLocalServiceInfo)->LocalServiceInfo0.HighMark = pRecord->HighMark;
Status = STATUS_SUCCESS;
}
}
}
return Status;
}
void LlsrLocalServiceInfoGetW_notify_flag(
boolean fNotify
)
{
if (fNotify)
{
RtlReleaseResource(&LocalServiceListLock);
}
}
NTSTATUS
LlsrLocalServiceInfoGetA(
LLS_HANDLE Handle,
LPSTR KeyName,
DWORD Level,
PLLS_LOCAL_SERVICE_INFOA * pLocalServiceInfo )
{
#if DBG
if (TraceFlags & (TRACE_FUNCTION_TRACE | TRACE_RPC))
dprintf(TEXT("LLS TRACE: LlsLocalServiceInfoGetA\n"));
#endif
if (NULL == pLocalServiceInfo)
{
return STATUS_INVALID_PARAMETER;
}
*pLocalServiceInfo = NULL;
return STATUS_NOT_SUPPORTED;
}
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