Source code of Windows XP (NT5)
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/*++
Copyright (C) 1996-2001 Microsoft Corporation
Module Name:
Abstract:
History:
--*/
#include "precomp.h"
#include <assert.h>
#include <wbemcli.h>
#include <wbemutil.h>
#include <arrtempl.h>
#include "rpcrecv.h"
#include "rpcmsg.h"
#include "rpchdr.h"
#include "rpcctx.h"
extern HRESULT RpcResToWmiRes( RPC_STATUS stat, HRESULT hrDefault );
IWmiMessageSendReceive* g_pRcv = NULL;
PSECURITY_DESCRIPTOR g_pSD = NULL;
RPC_STATUS RPC_ENTRY RpcAuthCallback( RPC_IF_HANDLE Interface, void *Context )
{
RPC_STATUS stat;
_DBG_ASSERT( g_pSD != NULL );
stat = RpcImpersonateClient( Context );
if ( stat == RPC_S_OK )
{
HANDLE hToken;
if( OpenThreadToken( GetCurrentThread(), TOKEN_QUERY, TRUE, &hToken ) )
{
GENERIC_MAPPING map;
ZeroMemory( &map, sizeof(GENERIC_MAPPING) );
PRIVILEGE_SET ps;
DWORD dwPrivLength = sizeof(ps);
BOOL bStatus;
DWORD dwGranted;
if ( ::AccessCheck( g_pSD,
hToken,
1,
&map,
&ps,
&dwPrivLength,
&dwGranted,
&bStatus ) )
{
stat = bStatus ? RPC_S_OK : RPC_S_ACCESS_DENIED;
}
else
{
stat = RPC_S_ACCESS_DENIED;
}
CloseHandle( hToken );
}
else
{
stat = RPC_S_ACCESS_DENIED;
}
RpcRevertToSelf();
}
return stat;
}
long RcvrSendReceive( RPC_BINDING_HANDLE hClient,
PBYTE pData,
ULONG cData,
PBYTE pAuxData,
ULONG cAuxData )
{
HRESULT hr;
ENTER_API_CALL
CBuffer HdrStrm( pAuxData, cAuxData, FALSE );
CMsgRpcHdr Hdr;
hr = Hdr.Unpersist( HdrStrm );
if ( FAILED(hr) )
{
return hr;
}
PBYTE pUserAuxData = HdrStrm.GetRawData() + HdrStrm.GetIndex();
CMsgRpcRcvrCtx Ctx( &Hdr, hClient );
hr = g_pRcv->SendReceive( pData,
cData,
pUserAuxData,
Hdr.GetAuxDataLength(),
0,
&Ctx );
EXIT_API_CALL
return hr;
}
HRESULT CreateAuthOnlySecurityDescriptor( PSECURITY_DESCRIPTOR* ppSD )
{
HRESULT hr;
//
// obtain the sid from the process token to use for owner and
// group fields of SD.
//
HANDLE hProcessToken;
if ( !OpenProcessToken( GetCurrentProcess(), TOKEN_QUERY, &hProcessToken ))
{
return HRESULT_FROM_WIN32( GetLastError() );
}
CCloseMe cm( hProcessToken );
DWORD dwSize;
GetTokenInformation( hProcessToken, TokenOwner, NULL, 0, &dwSize );
if ( GetLastError() != ERROR_MORE_DATA &&
GetLastError() != ERROR_INSUFFICIENT_BUFFER )
{
return HRESULT_FROM_WIN32( GetLastError() );
}
TOKEN_OWNER* pOwner = (TOKEN_OWNER*) new BYTE[dwSize];
if ( pOwner == NULL )
{
return WBEM_E_OUT_OF_MEMORY;
}
CVectorDeleteMe<BYTE> vdm( (BYTE*)pOwner );
if ( !GetTokenInformation( hProcessToken,
TokenOwner,
(BYTE*)pOwner,
dwSize,
&dwSize ) )
{
return HRESULT_FROM_WIN32( GetLastError() );
}
//
// create a DACL that allows only authenticated users access.
//
SID AuthenticatedUsers;
SID_IDENTIFIER_AUTHORITY idAuth = SECURITY_NT_AUTHORITY;
InitializeSid( &AuthenticatedUsers, &idAuth, 1 );
PDWORD pdwSubAuth = GetSidSubAuthority( &AuthenticatedUsers, 0 );
*pdwSubAuth = SECURITY_AUTHENTICATED_USER_RID;
_DBG_ASSERT( IsValidSid( &AuthenticatedUsers ) );
dwSize = sizeof(ACL) + sizeof(ACCESS_ALLOWED_ACE) - 4 +
GetLengthSid(&AuthenticatedUsers);
PACL pAuthOnlyAcl = (PACL) new BYTE[dwSize];
if ( pAuthOnlyAcl == NULL )
{
return WBEM_E_OUT_OF_MEMORY;
}
CVectorDeleteMe<BYTE> vdm2( (BYTE*)pAuthOnlyAcl );
InitializeAcl( pAuthOnlyAcl, dwSize, ACL_REVISION );
AddAccessAllowedAce( pAuthOnlyAcl, ACL_REVISION, 1, &AuthenticatedUsers );
//
// create and initialize SD
//
SECURITY_DESCRIPTOR AuthOnlySD;
InitializeSecurityDescriptor( &AuthOnlySD, SECURITY_DESCRIPTOR_REVISION );
SetSecurityDescriptorOwner( &AuthOnlySD, pOwner->Owner, TRUE );
SetSecurityDescriptorGroup( &AuthOnlySD, pOwner->Owner, TRUE );
SetSecurityDescriptorDacl( &AuthOnlySD, TRUE, pAuthOnlyAcl, FALSE );
dwSize = 0;
MakeSelfRelativeSD( &AuthOnlySD, NULL, &dwSize );
if ( GetLastError() != ERROR_MORE_DATA &&
GetLastError() != ERROR_INSUFFICIENT_BUFFER )
{
return HRESULT_FROM_WIN32( GetLastError() );
}
*ppSD = new BYTE[dwSize];
if ( *ppSD == NULL )
{
return WBEM_E_OUT_OF_MEMORY;
}
if ( !MakeSelfRelativeSD( &AuthOnlySD, *ppSD, &dwSize ) )
{
delete [] *ppSD;
*ppSD = NULL;
return HRESULT_FROM_WIN32( GetLastError() );
}
return WBEM_S_NO_ERROR;
}
//
// for now only one rpc receiver can be registered for the process. later
// make the global state be the instance state for CMsgRpcReceiver.
//
STDMETHODIMP CMsgRpcReceiver::Open( LPCWSTR wszBinding,
DWORD dwFlags,
WMIMSG_RCVR_AUTH_INFOP pAuthInfo,
IWmiMessageSendReceive* pRcv )
{
HRESULT hr;
RPC_STATUS stat;
hr = Close();
if ( FAILED(hr) )
{
return hr;
}
//
// first parse the binding string.
//
LPWSTR wszProtSeq, wszEndpoint;
stat = RpcStringBindingParse( (LPWSTR)wszBinding,
NULL,
&wszProtSeq,
NULL,
&wszEndpoint,
NULL );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
//
// init the protocol sequence
//
if ( *wszEndpoint == '\0' )
{
stat = RpcServerUseProtseq( wszProtSeq,
RPC_C_PROTSEQ_MAX_REQS_DEFAULT,
NULL );
if ( stat == RPC_S_OK )
{
RPC_BINDING_VECTOR* pBindingVector;
stat = RpcServerInqBindings( &pBindingVector );
if ( stat == RPC_S_OK )
{
stat = RpcEpRegisterNoReplace(
RcvrIWmiMessageRemoteSendReceive_v1_0_s_ifspec,
pBindingVector,
NULL,
NULL );
RpcBindingVectorFree( &pBindingVector );
}
}
}
else
{
stat = RpcServerUseProtseqEp( wszProtSeq,
RPC_C_PROTSEQ_MAX_REQS_DEFAULT,
wszEndpoint,
NULL );
}
RpcStringFree( &wszProtSeq );
RpcStringFree( &wszEndpoint );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
//
// enable negotiate authentication service ( negotiates between NTLM
// and kerberos )
//
if ( pAuthInfo != NULL )
{
for( int i=0; i < pAuthInfo->cwszPrincipal; i++ )
{
stat = RpcServerRegisterAuthInfo(
(LPWSTR)pAuthInfo->awszPrincipal[i],
RPC_C_AUTHN_GSS_NEGOTIATE,
NULL,
NULL );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
}
}
else
{
LPWSTR wszPrincipal;
stat = RpcServerInqDefaultPrincName( RPC_C_AUTHN_GSS_NEGOTIATE,
&wszPrincipal );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
stat = RpcServerRegisterAuthInfo( wszPrincipal,
RPC_C_AUTHN_GSS_NEGOTIATE,
NULL,
NULL );
RpcStringFree( &wszPrincipal );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
}
RPC_IF_CALLBACK_FN* pAuthCallback = NULL;
if ( dwFlags & WMIMSG_FLAG_RCVR_SECURE_ONLY )
{
PSECURITY_DESCRIPTOR pAuthOnlySD;
hr = CreateAuthOnlySecurityDescriptor( &pAuthOnlySD );
if ( FAILED(hr) )
{
return hr;
}
_DBG_ASSERT( g_pSD == NULL );
g_pSD = pAuthOnlySD;
pAuthCallback = RpcAuthCallback;
}
//
// register the interface
//
DWORD dwRpcFlags = RPC_IF_AUTOLISTEN;
stat = RpcServerRegisterIfEx(
RcvrIWmiMessageRemoteSendReceive_v1_0_s_ifspec,
NULL,
NULL,
dwRpcFlags,
RPC_C_LISTEN_MAX_CALLS_DEFAULT,
pAuthCallback );
if ( stat != RPC_S_OK )
{
return RpcResToWmiRes( stat, S_OK );
}
_DBG_ASSERT( g_pRcv == NULL );
pRcv->AddRef();
g_pRcv = pRcv;
return WBEM_S_NO_ERROR;
}
STDMETHODIMP CMsgRpcReceiver::Close()
{
RPC_STATUS stat;
stat = RpcServerUnregisterIf(
RcvrIWmiMessageRemoteSendReceive_v1_0_s_ifspec,
NULL,
0 );
RPC_BINDING_VECTOR* pBindingVector;
stat = RpcServerInqBindings( &pBindingVector );
if ( stat == RPC_S_OK )
{
stat = RpcEpUnregister(
RcvrIWmiMessageRemoteSendReceive_v1_0_s_ifspec,
pBindingVector,
NULL );
RpcBindingVectorFree( &pBindingVector );
}
if ( g_pRcv != NULL )
{
g_pRcv->Release();
g_pRcv = NULL;
}
if ( g_pSD != NULL )
{
delete [] g_pSD;
g_pSD = NULL;
}
return WBEM_S_NO_ERROR;
}