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windows-nt-4.0/private/ntos/dll/csrinit.c

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/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
dllinit.c
Abstract:
This module contains the initialization code for the Client-Server (CS)
Client DLL.
Author:
Steve Wood (stevewo) 8-Oct-1990
Environment:
User Mode only
Revision History:
--*/
#include "csrdll.h"
#include "ldrp.h"
BOOLEAN
CsrDllInitialize(
IN PVOID DllHandle,
IN ULONG Reason,
IN PCONTEXT Context OPTIONAL
)
/*++
Routine Description:
This function is the DLL initialization routine for the Client DLL
This function gets control when the application links to this DLL
are snapped.
Arguments:
Context - Supplies an optional context buffer that will be restore
after all DLL initialization has been completed. If this
parameter is NULL then this is a dynamic snap of this module.
Otherwise this is a static snap prior to the user process
gaining control.
Return Value:
Status value.
--*/
{
Context;
if (Reason != DLL_PROCESS_ATTACH) {
return( TRUE );
}
//
// Remember our DLL handle in a global variable.
//
CsrDllHandle = DllHandle;
return( TRUE );
}
NTSTATUS
CsrOneTimeInitialize( VOID )
{
NTSTATUS Status;
//
// Save away system information in a global variable
//
Status = NtQuerySystemInformation( SystemBasicInformation,
&CsrNtSysInfo,
sizeof( CsrNtSysInfo ),
NULL
);
if (!NT_SUCCESS( Status )) {
return( Status );
}
//
// Use the process heap for memory allocation.
//
CsrHeap = RtlProcessHeap();
CsrInitOnceDone = TRUE;
return( STATUS_SUCCESS );
}
NTSTATUS
CsrClientConnectToServer(
IN PWSTR ObjectDirectory,
IN ULONG ServerDllIndex,
IN PCSR_CALLBACK_INFO CallbackInformation OPTIONAL,
IN PVOID ConnectionInformation,
IN OUT PULONG ConnectionInformationLength OPTIONAL,
OUT PBOOLEAN CalledFromServer OPTIONAL
)
/*++
Routine Description:
This function is called by the client side DLL to connect with its
server side DLL.
Arguments:
ObjectDirectory - Points to a null terminate string that is the same
as the value of the ObjectDirectory= argument passed to the CSRSS
program.
ServerDllIndex - Index of the server DLL that is being connected to.
It should match one of the ServerDll= arguments passed to the CSRSS
program.
CallbackInformation - An optional pointer to a structure that contains
a pointer to the client callback function dispatch table.
ConnectionInformation - An optional pointer to uninterpreted data.
This data is intended for clients to pass package, version and
protocol identification information to the server to allow the
server to determine if it can satisify the client before
accepting the connection. Upon return to the client, the
ConnectionInformation data block contains any information passed
back from the server DLL by its call to the
CsrCompleteConnection call. The output data overwrites the
input data.
ConnectionInformationLength - Pointer to the length of the
ConnectionInformation data block. The output value is the
length of the data stored in the ConnectionInformation data
block by the server's call to the NtCompleteConnectPort
service. This parameter is OPTIONAL only if the
ConnectionInformation parameter is NULL, otherwise it is
required.
CalledFromServer - On output, TRUE if the dll has been called from
a server process.
Return Value:
Status value.
--*/
{
NTSTATUS Status;
CSR_API_MSG m;
PCSR_CLIENTCONNECT_MSG a = &m.u.ClientConnect;
PCSR_CAPTURE_HEADER CaptureBuffer;
HANDLE CsrServerModuleHandle;
STRING ProcedureName;
ANSI_STRING DllName;
UNICODE_STRING DllName_U;
PIMAGE_NT_HEADERS NtHeaders;
if (ARGUMENT_PRESENT( ConnectionInformation ) &&
(!ARGUMENT_PRESENT( ConnectionInformationLength ) ||
*ConnectionInformationLength == 0
)
) {
return( STATUS_INVALID_PARAMETER );
}
if (!CsrInitOnceDone) {
Status = CsrOneTimeInitialize();
if (!NT_SUCCESS( Status )) {
return( Status );
}
}
if (ARGUMENT_PRESENT( CallbackInformation )) {
CsrLoadedClientDll[ ServerDllIndex ] = RtlAllocateHeap( CsrHeap, MAKE_TAG( CSR_TAG ), sizeof(CSR_CALLBACK_INFO) );
CsrLoadedClientDll[ ServerDllIndex ]->ApiNumberBase =
CallbackInformation->ApiNumberBase;
CsrLoadedClientDll[ ServerDllIndex ]->MaxApiNumber =
CallbackInformation->MaxApiNumber;
CsrLoadedClientDll[ ServerDllIndex ]->CallbackDispatchTable =
CallbackInformation->CallbackDispatchTable;
}
//
// if we are being called by a server process, skip lpc port initialization
// and call to server connect routine and just initialize heap. the
// dll initialization routine will do any necessary initialization. this
// stuff only needs to be done for the first connect.
//
if ( CsrServerProcess == TRUE ) {
*CalledFromServer = CsrServerProcess;
return STATUS_SUCCESS;
}
//
// If the image is an NT Native image, we are running in the
// context of the server.
//
NtHeaders = RtlImageNtHeader(NtCurrentPeb()->ImageBaseAddress);
CsrServerProcess =
(NtHeaders->OptionalHeader.Subsystem == IMAGE_SUBSYSTEM_NATIVE) ? TRUE : FALSE;
if ( CsrServerProcess ) {
extern PVOID NtDllBase;
RtlInitAnsiString( &DllName, "csrsrv" );
Status = RtlAnsiStringToUnicodeString(&DllName_U, &DllName, TRUE);
ASSERT(NT_SUCCESS(Status));
LdrDisableThreadCalloutsForDll(NtDllBase);
Status = LdrGetDllHandle(
UNICODE_NULL,
NULL,
&DllName_U,
(PVOID *)&CsrServerModuleHandle
);
RtlFreeUnicodeString(&DllName_U);
CsrServerProcess = TRUE;
RtlInitString(&ProcedureName,"CsrCallServerFromServer");
Status = LdrGetProcedureAddress(
CsrServerModuleHandle,
&ProcedureName,
0L,
(PVOID *)&CsrServerApiRoutine
);
ASSERT(NT_SUCCESS(Status));
RtlInitString(&ProcedureName, "CsrLocateThreadInProcess");
Status = LdrGetProcedureAddress(
CsrServerModuleHandle,
&ProcedureName,
0L,
(PVOID *)&CsrpLocateThreadInProcess
);
ASSERT(NT_SUCCESS(Status));
ASSERT (CsrPortHeap==NULL);
CsrPortHeap = RtlProcessHeap();
CsrPortBaseTag = RtlCreateTagHeap( CsrPortHeap,
0,
L"CSRPORT!",
L"CAPTURE\0"
);
if (ARGUMENT_PRESENT(CalledFromServer)) {
*CalledFromServer = CsrServerProcess;
}
return STATUS_SUCCESS;
}
if ( ARGUMENT_PRESENT(ConnectionInformation) ) {
CsrServerProcess = FALSE;
if (CsrPortHandle == NULL) {
Status = CsrpConnectToServer( ObjectDirectory );
if (!NT_SUCCESS( Status )) {
return( Status );
}
}
a->ServerDllIndex = ServerDllIndex;
a->ConnectionInformationLength = *ConnectionInformationLength;
if (ARGUMENT_PRESENT( ConnectionInformation )) {
CaptureBuffer = CsrAllocateCaptureBuffer( 1,
0,
a->ConnectionInformationLength
);
if (CaptureBuffer == NULL) {
return( STATUS_NO_MEMORY );
}
CsrAllocateMessagePointer( CaptureBuffer,
a->ConnectionInformationLength,
(PVOID *)&a->ConnectionInformation
);
RtlMoveMemory( a->ConnectionInformation,
ConnectionInformation,
a->ConnectionInformationLength
);
*ConnectionInformationLength = a->ConnectionInformationLength;
}
else {
CaptureBuffer = NULL;
}
Status = CsrClientCallServer( &m,
CaptureBuffer,
CSR_MAKE_API_NUMBER( CSRSRV_SERVERDLL_INDEX,
CsrpClientConnect
),
sizeof( *a )
);
if (CaptureBuffer != NULL) {
if (ARGUMENT_PRESENT( ConnectionInformation )) {
RtlMoveMemory( ConnectionInformation,
a->ConnectionInformation,
*ConnectionInformationLength
);
}
CsrFreeCaptureBuffer( CaptureBuffer );
}
}
else {
Status = STATUS_SUCCESS;
}
if (ARGUMENT_PRESENT(CalledFromServer)) {
*CalledFromServer = CsrServerProcess;
}
return( Status );
}
BOOLEAN
xProtectHandle(
HANDLE hObject
)
{
NTSTATUS Status;
OBJECT_HANDLE_FLAG_INFORMATION HandleInfo;
Status = NtQueryObject( hObject,
ObjectHandleFlagInformation,
&HandleInfo,
sizeof( HandleInfo ),
NULL
);
if (NT_SUCCESS( Status )) {
HandleInfo.ProtectFromClose = TRUE;
Status = NtSetInformationObject( hObject,
ObjectHandleFlagInformation,
&HandleInfo,
sizeof( HandleInfo )
);
if (NT_SUCCESS( Status )) {
return TRUE;
}
}
return FALSE;
}
NTSTATUS
CsrpConnectToServer(
IN PWSTR ObjectDirectory
)
{
NTSTATUS Status;
REMOTE_PORT_VIEW ServerView;
ULONG MaxMessageLength;
ULONG ConnectionInformationLength;
CSR_API_CONNECTINFO ConnectionInformation;
SECURITY_QUALITY_OF_SERVICE DynamicQos;
HANDLE PortSection;
PORT_VIEW ClientView;
ULONG n;
LARGE_INTEGER SectionSize;
//
// Create the port name string by combining the passed in object directory
// name with the port name.
//
n = ((wcslen( ObjectDirectory ) + 1) * sizeof( WCHAR )) +
sizeof( CSR_API_PORT_NAME );
CsrPortName.Length = 0;
CsrPortName.MaximumLength = (USHORT)n;
CsrPortName.Buffer = RtlAllocateHeap( CsrHeap, MAKE_TAG( CSR_TAG ), n );
if (CsrPortName.Buffer == NULL) {
return( STATUS_NO_MEMORY );
}
RtlAppendUnicodeToString( &CsrPortName, ObjectDirectory );
RtlAppendUnicodeToString( &CsrPortName, L"\\" );
RtlAppendUnicodeToString( &CsrPortName, CSR_API_PORT_NAME );
//
// Set up the security quality of service parameters to use over the
// port. Use the most efficient (least overhead) - which is dynamic
// rather than static tracking.
//
DynamicQos.ImpersonationLevel = SecurityImpersonation;
DynamicQos.ContextTrackingMode = SECURITY_DYNAMIC_TRACKING;
DynamicQos.EffectiveOnly = TRUE;
//
// Create a section to contain the Port Memory. Port Memory is private
// memory that is shared between the client and server processes.
// This allows data that is too large to fit into an API request message
// to be passed to the server.
//
SectionSize.LowPart = CSR_PORT_MEMORY_SIZE;
SectionSize.HighPart = 0;
Status = NtCreateSection( &PortSection,
SECTION_ALL_ACCESS,
NULL,
&SectionSize,
PAGE_READWRITE,
SEC_RESERVE,
NULL
);
if (!NT_SUCCESS( Status )) {
return( Status );
}
//
// Connect to the server. This includes a description of the Port Memory
// section so that the LPC connection logic can make the section visible
// to both the client and server processes. Also pass information the
// server needs in the connection information structure.
//
ClientView.Length = sizeof( ClientView );
ClientView.SectionHandle = PortSection;
ClientView.SectionOffset = 0;
ClientView.ViewSize = SectionSize.LowPart;
ClientView.ViewBase = 0;
ClientView.ViewRemoteBase = 0;
ServerView.Length = sizeof( ServerView );
ServerView.ViewSize = 0;
ServerView.ViewBase = 0;
ConnectionInformationLength = sizeof( ConnectionInformation );
ConnectionInformation.ExpectedVersion = CSR_VERSION;
Status = NtConnectPort( &CsrPortHandle,
&CsrPortName,
&DynamicQos,
&ClientView,
&ServerView,
(PULONG)&MaxMessageLength,
(PVOID)&ConnectionInformation,
(PULONG)&ConnectionInformationLength
);
NtClose( PortSection );
if (!NT_SUCCESS( Status )) {
IF_DEBUG {
DbgPrint( "CSRDLL: Unable to connect to %wZ Server - Status == %X\n",
&CsrPortName,
Status
);
}
return( Status );
}
xProtectHandle(CsrPortHandle);
NtCurrentPeb()->ReadOnlySharedMemoryBase = ConnectionInformation.SharedSectionBase;
NtCurrentPeb()->ReadOnlySharedMemoryHeap = ConnectionInformation.SharedSectionHeap;
NtCurrentPeb()->ReadOnlyStaticServerData = (PVOID *)ConnectionInformation.SharedStaticServerData;
#if DBG
CsrDebug = ConnectionInformation.DebugFlags;
#endif
CsrObjectDirectory = ConnectionInformation.ObjectDirectory;
CsrPortMemoryRemoteDelta = (ULONG)ClientView.ViewRemoteBase -
(ULONG)ClientView.ViewBase;
IF_CSR_DEBUG( LPC ) {
DbgPrint( "CSRDLL: ClientView: Base=%lX RemoteBase=%lX Delta: %lX Size=%lX\n",
(ULONG)ClientView.ViewBase,
(ULONG)ClientView.ViewRemoteBase,
CsrPortMemoryRemoteDelta,
(ULONG)ClientView.ViewSize
);
}
//
// Create a sparse heap in the share memory section. Initially
// commit just one page.
//
CsrPortHeap = RtlCreateHeap( HEAP_CLASS_8, // Flags
ClientView.ViewBase, // HeapBase
ClientView.ViewSize, // ReserveSize
CsrNtSysInfo.PageSize, // CommitSize
0, // Reserved
0 // GrowthThreshold
);
if (CsrPortHeap == NULL) {
NtClose( CsrPortHandle );
CsrPortHandle = NULL;
return( STATUS_NO_MEMORY );
}
CsrPortBaseTag = RtlCreateTagHeap( CsrPortHeap,
0,
L"CSRPORT!",
L"!CSRPORT\0"
L"CAPTURE\0"
);
return( STATUS_SUCCESS );
}
ULONG
CsrNullApiCall(
IN LONG CountArguments,
IN PCHAR *Arguments OPTIONAL
)
/*++
Routine Description:
This function is present to test the overhead associated with
communicating with the OS/2 Subsystem.
Arguments:
CountArguments - Number of string arguments to pass to the server
via Port Memory.
Arguments - Optional pointer to an array of ASCIZ string pointers.
Return Value:
Random 32-bit number
--*/
{
CSR_API_MSG m;
PCSR_NULLAPICALL_MSG a = &m.u.NullApiCall;
PCSR_CAPTURE_HEADER CaptureBuffer;
ULONG Size;
LONG i;
a->CountArguments = CountArguments;
if (CountArguments > 0) {
Size = CountArguments * sizeof( PCHAR );
for (i=0; i<CountArguments; i++) {
Size += (strlen( Arguments[ i ] ) + 1) & ~3;
}
CaptureBuffer = CsrAllocateCaptureBuffer( 1,
CountArguments,
Size
);
CsrAllocateMessagePointer( CaptureBuffer,
CountArguments * sizeof( PCHAR ),
(PVOID *)&a->Arguments
);
for (i=0; i<CountArguments; i++) {
Size = strlen( Arguments[ i ] ) + 1;
CsrAllocateCapturePointer( CaptureBuffer,
Size,
(PVOID *)&a->Arguments[ i ]
);
RtlMoveMemory( a->Arguments[ i ], Arguments[ i ], Size );
}
}
else {
CaptureBuffer = NULL;
CountArguments = -CountArguments;
ASSERT(sizeof(ULONG) == sizeof(PVOID));
for (i=0; i<CountArguments; i++) {
a->FastArguments[ i ] = (ULONG)Arguments[ i ];
}
}
CsrClientCallServer( &m,
CaptureBuffer,
CSR_MAKE_API_NUMBER( CSRSRV_SERVERDLL_INDEX,
CsrpNullApiCall
),
sizeof( *a )
);
if (CaptureBuffer != NULL) {
CsrFreeCaptureBuffer( CaptureBuffer );
}
return( (NTSTATUS) m.ReturnValue );
}