WindowsXP-SP1/com/rpc/runtime/mtrt/dcecmisc.cxx
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/*++
Copyright (C) Microsoft Corporation, 1991 - 1999
Module Name:
dcecmisc.cxx
Abstract:
This module contains the code implementing miscellaneous DCE RPC
runtime APIs. In particular, this includes the following APIs:
RpcIfInqId, RpcNetworkIsProtseqValid, RpcMgmtInqComTimeout,
RpcMgmtSetComTimeout, RpcMgmtSetCancelTimeout, and DceErrorInqText.
Author:
Michael Montague (mikemon) 11-Nov-1991
Revision History:
--*/
#include <precomp.hxx>
#if !defined(_M_IA64)
unsigned long RecvWindow = 0;
unsigned long SendWindow = 0;
#endif
RPC_STATUS RPC_ENTRY
RpcIfInqId (
IN RPC_IF_HANDLE RpcIfHandle,
OUT RPC_IF_ID PAPI * RpcIfId
)
/*++
Routine Description:
The routine is used by an application to obtain the interface
identification part of an interface specification. This is a really
simple API since the RpcIfHandle points to the interface information,
so all we have got to do is cast RpcIfHandle and copy some stuff.
Arguments:
RpcIfHandle - Supplies a handle to the interface specification.
RpcIfId - Returns the interface identification part of the interface
specification.
Return Value:
RPC_S_OK - The operation completed successfully.
--*/
{
RPC_CLIENT_INTERFACE PAPI * RpcInterfaceInformation;
InitializeIfNecessary();
RpcInterfaceInformation = (RPC_CLIENT_INTERFACE PAPI *) RpcIfHandle;
RpcpMemoryCopy(&(RpcIfId->Uuid),
&(RpcInterfaceInformation->InterfaceId.SyntaxGUID),sizeof(UUID));
RpcIfId->VersMajor =
RpcInterfaceInformation->InterfaceId.SyntaxVersion.MajorVersion;
RpcIfId->VersMinor =
RpcInterfaceInformation->InterfaceId.SyntaxVersion.MinorVersion;
return(RPC_S_OK);
}
RPC_STATUS RPC_ENTRY
RpcNetworkIsProtseqValid (
IN unsigned short PAPI * Protseq
)
/*++
Routine Description:
An application program will use this API to determine if an rpc
protocol sequence is supported by the current system.
Arguments:
Protseq - Supplies an rpc protocol sequence to be check to see if
it is supported.
Return Value:
RPC_S_OK - The specified rpc protocol sequence is support.
RPC_S_PROTSEQ_NOT_SUPPORTED - The specified rpc protocol sequence
is not supported (but it appears to be valid).
RPC_S_INVALID_RPC_PROTSEQ - The specified rpc protocol sequence is
invalid.
--*/
{
InitializeIfNecessary();
return(IsRpcProtocolSequenceSupported(Protseq));
}
RPC_STATUS RPC_ENTRY
RpcMgmtInqComTimeout (
IN RPC_BINDING_HANDLE Binding,
OUT unsigned int PAPI * Timeout
)
/*++
Routine Description:
This routine is used to obtain the communications timeout from a
binding handle.
Arguments:
Binding - Supplies a binding handle from which to inquire the
communication timeout.
Timeout - Returns the communications timeout in the binding handle.
Return Value:
RPC_S_OK - The operation completed successfully.
RPC_S_INVALID_BINDING - The specified binding is not a client side
binding handle.
--*/
{
BINDING_HANDLE * BindingHandle;
InitializeIfNecessary();
BindingHandle = (BINDING_HANDLE *) Binding;
if (BindingHandle->InvalidHandle(BINDING_HANDLE_TYPE))
return(RPC_S_INVALID_BINDING);
*Timeout = BindingHandle->InqComTimeout();
return(RPC_S_OK);
}
RPC_STATUS RPC_ENTRY
RpcMgmtSetComTimeout (
IN RPC_BINDING_HANDLE Binding,
IN unsigned int Timeout
)
/*++
Routine Description:
An application will use this routine to set the communications
timeout for a binding handle. The timeout value specifies the
relative amount of time that should be spent to establish a binding
to the server before giving up.
Arguments:
Binding - Supplies the binding handle for which the communications
timeout value will be set.
Timeout - Supplies the communications timeout value to set in the
binding handle.
Return Value:
RPC_S_OK - The operation completed successfully.
RPC_S_INVALID_BINDING - The specified binding is not a client side
binding handle.
RPC_S_INVALID_TIMEOUT - The specified timeout value is invalid.
--*/
{
BINDING_HANDLE * BindingHandle;
InitializeIfNecessary();
BindingHandle = (BINDING_HANDLE *) Binding;
if (BindingHandle->InvalidHandle(BINDING_HANDLE_TYPE))
return(RPC_S_INVALID_BINDING);
return(BindingHandle->SetComTimeout(Timeout));
}
RPC_STATUS RPC_ENTRY
I_RpcIfInqTransferSyntaxes (
IN RPC_IF_HANDLE RpcIfHandle,
OUT RPC_TRANSFER_SYNTAX PAPI * TransferSyntaxes,
IN unsigned int TransferSyntaxSize,
OUT unsigned int PAPI * TransferSyntaxCount
)
/*++
Routine Description:
This routine will be used to obtain the transfer syntaxes support
by an interface. A description of the interface is supplied via
the interface handle.
Arguments:
RpcIfHandle - Supplies a reference to the interface from which we
want to inquire the transfer syntaxes.
TransferSyntaxes - Returns a copy of the transfer syntaxes support
by the interface.
TransferSyntaxSize - Supplies the number of RPC_TRANSFER_SYNTAX records
which can fit in the transfer syntaxes buffer.
TransferSyntaxCount - Returns the number of transfer syntaxes supported
by the interface. This value will always be returned, whether or
not an error occurs.
Return Value:
RPC_S_OK - We copied the transfer syntaxes into the buffer successfully.
RPC_S_BUFFER_TOO_SMALL - The supplies transfer syntaxes buffer is too
small; the transfer syntax count parameter will return the minimum
size required.
--*/
{
RPC_CLIENT_INTERFACE PAPI * RpcInterfaceInformation;
*TransferSyntaxCount = 1;
if (TransferSyntaxSize < 1)
return(RPC_S_BUFFER_TOO_SMALL);
RpcInterfaceInformation = (RPC_CLIENT_INTERFACE PAPI *) RpcIfHandle;
RpcpMemoryCopy(&(TransferSyntaxes->Uuid),
&(RpcInterfaceInformation->TransferSyntax.SyntaxGUID),
sizeof(UUID));
TransferSyntaxes->VersMajor =
RpcInterfaceInformation->TransferSyntax.SyntaxVersion.MajorVersion;
TransferSyntaxes->VersMinor =
RpcInterfaceInformation->TransferSyntax.SyntaxVersion.MinorVersion;
return(RPC_S_OK);
}
RPC_STATUS RPC_ENTRY
RpcMgmtEnableIdleCleanup (
void
)
/*++
Routine Description:
An application will use this routine to enable cleanup of idle resources.
For the connection oriented protocol module, a connection must be idle
for five minutes before it is cleaned up.
Return Value:
RPC_S_OK - Cleanup of idle resources has been enabled.
RPC_S_OUT_OF_THREADS - Insufficient threads are available to be able
to perform this operation.
RPC_S_OUT_OF_RESOURCES - Insufficient resources are available to be
able to perform this operation.
RPC_S_OUT_OF_MEMORY - Insufficient memory is available to be able to
perform this operation.
--*/
{
InitializeIfNecessary();
return(EnableIdleConnectionCleanup());
}
RPC_STATUS RPC_ENTRY
DceErrorInqTextA (
IN RPC_STATUS RpcStatus,
OUT unsigned char __RPC_FAR * ErrorText
)
/*++
Routine Description:
The supplied status code is converted into a text message if possible.
Arguments:
RpcStatus - Supplies the status code to convert.
ErrorText - Returns a character string containing the text message
for the status code.
Return Value:
RPC_S_OK - The supplied status codes has successfully been converted
into a text message.
RPC_S_INVALID_ARG - The supplied value is not a valid status code.
--*/
{
if ( FormatMessageA(FORMAT_MESSAGE_IGNORE_INSERTS
| FORMAT_MESSAGE_FROM_SYSTEM, 0, RpcStatus, 0, (char *)ErrorText,
DCE_C_ERROR_STRING_LEN, 0) == 0 )
{
if ( FormatMessageA( FORMAT_MESSAGE_IGNORE_INSERTS |
FORMAT_MESSAGE_FROM_SYSTEM, 0, RPC_S_NOT_RPC_ERROR,
0, (char *)ErrorText, DCE_C_ERROR_STRING_LEN, 0 ) == 0 )
{
*ErrorText = '\0';
return(RPC_S_INVALID_ARG);
}
}
return(RPC_S_OK);
}
RPC_STATUS RPC_ENTRY
DceErrorInqTextW (
IN RPC_STATUS RpcStatus,
OUT unsigned short __RPC_FAR * ErrorText
)
/*++
Routine Description:
The supplied status code is converted into a text message if possible.
Arguments:
RpcStatus - Supplies the status code to convert.
ErrorText - Returns a character string containing the text message
for the status code.
Return Value:
RPC_S_OK - The supplied status codes has successfully been converted
into a text message.
RPC_S_INVALID_ARG - The supplied value is not a valid status code.
--*/
{
if ( FormatMessageW(FORMAT_MESSAGE_IGNORE_INSERTS
| FORMAT_MESSAGE_FROM_SYSTEM, 0, RpcStatus, 0, ErrorText,
DCE_C_ERROR_STRING_LEN * sizeof(RPC_CHAR), 0) == 0 )
{
if ( FormatMessageW( FORMAT_MESSAGE_IGNORE_INSERTS |
FORMAT_MESSAGE_FROM_SYSTEM, 0, RPC_S_NOT_RPC_ERROR, 0,
ErrorText, DCE_C_ERROR_STRING_LEN * sizeof(RPC_CHAR),0 ) == 0 )
{
*ErrorText = 0;
return(RPC_S_INVALID_ARG);
}
}
return(RPC_S_OK);
}
#if !defined(_M_IA64)
RPC_STATUS RPC_ENTRY
I_RpcConnectionInqSockBuffSize(
OUT unsigned long __RPC_FAR * RecvBuffSize,
OUT unsigned long __RPC_FAR * SendBuffSize
)
{
RequestGlobalMutex();
*RecvBuffSize = RecvWindow;
*SendBuffSize = SendWindow;
ClearGlobalMutex();
return (RPC_S_OK);
}
RPC_STATUS RPC_ENTRY
I_RpcConnectionSetSockBuffSize(
IN unsigned long RecvBuffSize,
IN unsigned long SendBuffSize
)
{
if (RecvBuffSize > 0xFFFF)
{
RecvBuffSize = 0xFFFF;
}
if (SendBuffSize > 0xFFFF)
{
SendBuffSize = 0xFFFF;
}
RequestGlobalMutex();
RecvWindow = RecvBuffSize;
SendWindow = SendBuffSize;
ClearGlobalMutex();
return (RPC_S_OK);
}
void RPC_ENTRY
I_RpcConnectionInqSockBuffSize2(
OUT unsigned long __RPC_FAR * RecvWindowSize
)
{
*RecvWindowSize = RecvWindow;
}
#endif