WindowsXP-SP1/base/pnp/cfgmgr32/logconf.c
2020-09-30 16:53:49 +02:00

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/*++
Copyright (c) 1995-2001 Microsoft Corporation
Module Name:
logconf.c
Abstract:
This module contains the API routines that operate directly on logical
configurations.
CM_Add_Empty_Log_Conf
CM_Free_Log_Conf
CM_Get_First_Log_Conf
CM_Get_Next_Log_Conf
CM_Free_Log_Conf_Handle
CM_Get_Log_Conf_Priority_Ex
Author:
Paula Tomlinson (paulat) 9-26-1995
Environment:
User mode only.
Revision History:
26-Sept-1995 paulat
Creation and initial implementation.
--*/
//
// includes
//
#include "precomp.h"
#include "cfgi.h"
#include "setupapi.h"
#include "spapip.h"
//
// Private prototypes
//
CONFIGRET
CreateLogConfHandle(
PLOG_CONF plcLogConf,
DEVINST dnDevInst,
ULONG ulLogType,
ULONG ulLogTag
);
BOOL
ValidateLogConfHandle(
PPrivate_Log_Conf_Handle pLogConf
);
CONFIGRET
CM_Add_Empty_Log_Conf_Ex(
OUT PLOG_CONF plcLogConf,
IN DEVINST dnDevInst,
IN PRIORITY Priority,
IN ULONG ulFlags,
IN HMACHINE hMachine
)
/*++
Routine Description:
This routine creates an empty logical configuration. This configuration
has no resource descriptor.
Parameters:
plcLogConf Address of a variable that receives the handle of the logical
configuration.
dnDevNode Handle of a device instance. This handle is typically
retrieved by a call to CM_Locate_DevNode or CM_Create_DevNode.
Priority Specifies the priority of the logical configuration.
ulFlags Supplies flags relating to the logical configuration. Must
be either BASIC_LOG_CONF or FILTERED_LOG_CONF, combined with
either PRIORITY_EQUAL_FIRST or PRIORITY_EQUAL_LAST.
BASIC_LOG_CONF - Specifies the requirements list
FILTERED_LOG_CONF - Specifies the filtered requirements list
PRIORITY_EQUAL_FIRST - Same priority, new one is first
PRIORITY_EQUAL_LAST - Same priority, new one is last
hMachine Machine handle returned from CM_Connect_Machine or NULL.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_DEVNODE,
CR_INVALID_FLAG,
CR_INVALID_POINTER,
CR_OUT_OF_MEMORY,
CR_INVALID_PRIORITY,
CR_INVALID_LOG_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
WCHAR pDeviceID [MAX_DEVICE_ID_LEN];
ULONG ulTag = 0;
ULONG ulLen = MAX_DEVICE_ID_LEN;
PVOID hStringTable = NULL;
handle_t hBinding = NULL;
BOOL Success;
try {
//
// validate parameters
//
if (dnDevInst == 0) {
Status = CR_INVALID_DEVINST;
goto Clean0;
}
if (plcLogConf == NULL) {
Status = CR_INVALID_POINTER;
goto Clean0;
}
if (Priority > MAX_LCPRI) {
Status = CR_INVALID_PRIORITY;
goto Clean0;
}
if (INVALID_FLAGS(ulFlags, LOG_CONF_BITS | PRIORITY_BIT)) {
Status = CR_INVALID_FLAG;
goto Clean0;
}
//
// initialize output parameters
//
*plcLogConf = 0;
//
// setup rpc binding handle and string table handle
//
if (!PnPGetGlobalHandles(hMachine, &hStringTable, &hBinding)) {
Status = CR_FAILURE;
goto Clean0;
}
//
// retreive device instance string that corresponds to dnDevInst
//
Success = pSetupStringTableStringFromIdEx(hStringTable, dnDevInst,pDeviceID,&ulLen);
if (Success == FALSE || INVALID_DEVINST(pDeviceID)) {
Status = CR_INVALID_DEVINST; // "input" devinst doesn't exist
goto Clean0;
}
RpcTryExcept {
//
// call rpc service entry point
//
Status = PNP_AddEmptyLogConf(
hBinding, // rpc binding handle
pDeviceID, // device id string
Priority, // priority for new log conf
&ulTag, // return tag of log conf
ulFlags); // type of log conf to add
}
RpcExcept (I_RpcExceptionFilter(RpcExceptionCode())) {
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_ERRORS,
"PNP_AddEmptyLogConf caused an exception (%d)\n",
RpcExceptionCode()));
Status = MapRpcExceptionToCR(RpcExceptionCode());
}
RpcEndExcept
if (Status == CR_SUCCESS) {
//
// allocate a new log conf handle, fill with log conf info
//
Status = CreateLogConfHandle(plcLogConf, dnDevInst,
ulFlags & LOG_CONF_BITS,
ulTag);
}
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_FAILURE;
}
return Status;
} // CM_Add_Empty_Log_Conf_Ex
CONFIGRET
CM_Free_Log_Conf_Ex(
IN LOG_CONF lcLogConfToBeFreed,
IN ULONG ulFlags,
IN HMACHINE hMachine
)
/*++
Routine Description:
This routine frees a logical configuration and all resource descriptors
associated with it. This API may invalidate the logical configuration
handles returned by the CM_Get_First_Log_Conf and CM_Get_Next_Log_Conf
APIs. To continue enumerating logical configurations, always use the
CM_Get_First_Log_Conf API to start again from the beginning.
Parameters:
lcLogConfToBeFreed Supplies the handle of the logical configuration to
free. This handle must have been previously returned from
a call to CM_Add_Empty_Log_Conf.
ulFlags Must be zero.
hMachine Machine handle returned from CM_Connect_Machine or NULL.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_FLAG,
CR_INVALID_LOG_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
DEVINST dnDevInst;
ULONG ulTag, ulType,ulLen = MAX_DEVICE_ID_LEN;
WCHAR pDeviceID [MAX_DEVICE_ID_LEN];
PVOID hStringTable = NULL;
handle_t hBinding = NULL;
BOOL Success;
try {
//
// validate parameters
//
if (!ValidateLogConfHandle((PPrivate_Log_Conf_Handle)lcLogConfToBeFreed)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
if (INVALID_FLAGS(ulFlags, 0)) {
Status = CR_INVALID_FLAG;
goto Clean0;
}
//
// extract the devnode and log conf info from the log conf handle
//
dnDevInst = ((PPrivate_Log_Conf_Handle)lcLogConfToBeFreed)->LC_DevInst;
ulTag = ((PPrivate_Log_Conf_Handle)lcLogConfToBeFreed)->LC_LogConfTag;
ulType = ((PPrivate_Log_Conf_Handle)lcLogConfToBeFreed)->LC_LogConfType;
//
// setup rpc binding handle and string table handle
//
if (!PnPGetGlobalHandles(hMachine, &hStringTable, &hBinding)) {
Status = CR_FAILURE;
goto Clean0;
}
//
// retreive device instance string that corresponds to dnDevInst
//
Success = pSetupStringTableStringFromIdEx(hStringTable, dnDevInst,pDeviceID,&ulLen);
if (Success == FALSE || INVALID_DEVINST(pDeviceID)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_REGISTRY,
"CM_Free_Log_Conf_Ex: Deleting LogConf (pDeviceID = %s, Type = %d\r\n",
pDeviceID,
ulType));
RpcTryExcept {
//
// call rpc service entry point
//
Status = PNP_FreeLogConf(
hBinding, // rpc binding handle
pDeviceID, // device id string
ulType, // identifies which type of log conf
ulTag, // identifies which actual log conf
ulFlags); // not used
}
RpcExcept (I_RpcExceptionFilter(RpcExceptionCode())) {
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_ERRORS,
"PNP_FreeLogConf caused an exception (%d)\n",
RpcExceptionCode()));
Status = MapRpcExceptionToCR(RpcExceptionCode());
}
RpcEndExcept
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_INVALID_LOG_CONF; // probably a bad log conf got us here
}
return Status;
} // CM_Free_Log_Conf_Ex
CONFIGRET
CM_Get_First_Log_Conf_Ex(
OUT PLOG_CONF plcLogConf, OPTIONAL
IN DEVINST dnDevInst,
IN ULONG ulFlags,
IN HMACHINE hMachine
)
/*++
Routine Description:
This routine returns a handle to the first logical configuration of the
specified type in a device instance. The CM_Add_Empty_Log_Conf and
CM_Free_Log_Conf APIs may invalidate the handle of the logical
configuration returned by this API. To enumerate logical configurations
after adding or freeing a logical configuration, always call this API
again to retrieve a valid handle.
Parameters:
plcLogConf Supplies the address of the variable that receives the handle
of the logical configuration.
dnDevNode Supplies the handle of the device instance for which to
retrieve the logical configuration.
ulFlags Configuration type. Can be one of the following values:
ALLOC_LOG_CONF - Retrieve the allocated configuration.
BASIC_LOG_CONF - Retrieve the requirements list.
BOOT_LOG_CONF - Retrieve the boot configuration.
The following additional configuration type is also defined
for Windows 95:
FILTERED_LOG_CONF - Retrieve the filtered requirements list.
hMachine Machine handle returned from CM_Connect_Machine or NULL.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_DEVNODE,
CR_INVALID_FLAG,
CR_INVALID_POINTER,
CR_NO_MORE_LOF_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
WCHAR pDeviceID [MAX_DEVICE_ID_LEN];
ULONG ulTag = 0,ulLen = MAX_DEVICE_ID_LEN;
PVOID hStringTable = NULL;
handle_t hBinding = NULL;
BOOL Success;
try {
//
// validate parameters
//
if (dnDevInst == 0) {
Status = CR_INVALID_DEVINST;
goto Clean0;
}
if (INVALID_FLAGS(ulFlags, LOG_CONF_BITS)) {
Status = CR_INVALID_FLAG;
goto Clean0;
}
//
// Initialize paramters (plcLogConf is optional)
//
if (plcLogConf != NULL) {
*plcLogConf = 0;
}
//
// setup rpc binding handle and string table handle
//
if (!PnPGetGlobalHandles(hMachine, &hStringTable, &hBinding)) {
Status = CR_FAILURE;
goto Clean0;
}
//
// retreive device instance string that corresponds to dnDevInst
//
Success = pSetupStringTableStringFromIdEx(hStringTable, dnDevInst,pDeviceID,&ulLen);
if (Success == FALSE || INVALID_DEVINST(pDeviceID)) {
Status = CR_INVALID_DEVINST; // "input" devinst doesn't exist
goto Clean0;
}
RpcTryExcept {
//
// call rpc service entry point
//
Status = PNP_GetFirstLogConf(
hBinding, // rpc binding handle
pDeviceID, // device id string
ulFlags, // type of long conf
&ulTag, // return tag of specific log conf
ulFlags); // not used
}
RpcExcept (I_RpcExceptionFilter(RpcExceptionCode())) {
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_ERRORS,
"PNP_GetFirstLogConf caused an exception (%d)\n",
RpcExceptionCode()));
Status = MapRpcExceptionToCR(RpcExceptionCode());
}
RpcEndExcept
if (Status == CR_SUCCESS && plcLogConf != NULL) {
//
// allocate a new log conf handle, fill with log conf info
//
Status = CreateLogConfHandle(plcLogConf, dnDevInst,
ulFlags & LOG_CONF_BITS,
ulTag);
}
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_FAILURE;
}
return Status;
} // CM_Get_First_Log_Conf_Ex
CONFIGRET
CM_Get_Next_Log_Conf_Ex(
OUT PLOG_CONF plcLogConf, OPTIONAL
IN LOG_CONF lcLogConf,
IN ULONG ulFlags,
IN HMACHINE hMachine
)
/*++
Routine Description:
This routine returns a handle to the next logical configuration following
the given configuration. This API returns CR_NO_MORE_LOG_CONF if the given
handle was retrieved using the CM_Get_First_Log_Conf API with either the
ALLOC_LOG_CONF or BOOT_LOG_CONF flag. There is never more than one active
boot logical configuration or currently-allocated logical configuration.
The CM_Add_Empty_Log_Conf and CM_Free_Log_Conf APIs may invalidate the
logical configuration handle returned by this API. To continue enumerating
logical configuration after addding or freeing a logical configuration,
always use the CM_Get_First_Log_Conf API to start again from the beginning.
Parameters:
plcLogConf Supplies the address of the variable that receives the handle
of the next logical configuration.
lcLogConf Supplies the handle of a logical configuration. This handle
must have been previously retrieved using either this API or
the CM_Get_First_Log_Conf API. Logical configurations are in
priority order.
ulFlags Must be zero.
hMachine Machine handle returned from CM_Connect_Machine or NULL.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_FLAG,
CR_INVALID_LOG_CONF,
CR_INVALID_POINTER,
CR_NO_MORE_LOG_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
DEVINST dnDevInst;
WCHAR pDeviceID [MAX_DEVICE_ID_LEN];
ULONG ulType = 0, ulCurrentTag = 0, ulNextTag = 0,ulLen = MAX_DEVICE_ID_LEN;
PVOID hStringTable = NULL;
handle_t hBinding = NULL;
BOOL Success;
try {
//
// validate parameters
//
if (!ValidateLogConfHandle((PPrivate_Log_Conf_Handle)lcLogConf)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
if (INVALID_FLAGS(ulFlags, 0)) {
Status = CR_INVALID_FLAG;
goto Clean0;
}
//
// Initialize paramters (plcLogConf is optional)
//
if (plcLogConf != NULL) {
*plcLogConf = 0;
}
//
// extract devnode and log conf info from the current log conf handle
//
dnDevInst = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_DevInst;
ulType = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_LogConfType;
ulCurrentTag = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_LogConfTag;
//
// setup rpc binding handle and string table handle
//
if (!PnPGetGlobalHandles(hMachine, &hStringTable, &hBinding)) {
Status = CR_FAILURE;
goto Clean0;
}
//
// retreive device instance string that corresponds to dnDevInst
//
Success = pSetupStringTableStringFromIdEx(hStringTable, dnDevInst,pDeviceID,&ulLen);
if (Success == FALSE || INVALID_DEVINST(pDeviceID)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
RpcTryExcept {
//
// call rpc service entry point
//
Status = PNP_GetNextLogConf(
hBinding, // rpc binding handle
pDeviceID, // device id string
ulType, // specifes which type of log conf
ulCurrentTag, // specifies current log conf tag
&ulNextTag, // return tag of next log conf
ulFlags); // not used
}
RpcExcept (I_RpcExceptionFilter(RpcExceptionCode())) {
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_ERRORS,
"PNP_GetNextLogConf caused an exception (%d)\n",
RpcExceptionCode()));
Status = MapRpcExceptionToCR(RpcExceptionCode());
}
RpcEndExcept
if (Status == CR_SUCCESS && plcLogConf != NULL) {
//
// allocate a new log conf handle, fill with log conf info
//
Status = CreateLogConfHandle(plcLogConf, dnDevInst,
ulType, ulNextTag);
}
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_FAILURE;
}
return Status;
} // CM_Get_Next_Log_Conf_Ex
CONFIGRET
CM_Free_Log_Conf_Handle(
IN LOG_CONF lcLogConf
)
/*++
Routine Description:
This routine frees the handle to the specified log conf and frees and
memory associated with that log conf handle.
Parameters:
lcLogConf Supplies the handle of a logical configuration. This handle
must have been previously retrieved using CM_Add_Empty_Log_Conf,
CM_Get_First_Log_Conf or CM_Get_Next_Log_Conf.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_LOG_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
try {
//
// Validate parameters
//
if (!ValidateLogConfHandle((PPrivate_Log_Conf_Handle)lcLogConf)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
//
// It's a valid log conf handle, which is a pointer to memory
// allocated when the log conf was created or retrieved using
// the first/next routines. Free the associated memory.
//
((PPrivate_Log_Conf_Handle)lcLogConf)->LC_Signature = 0;
pSetupFree((PPrivate_Log_Conf_Handle)lcLogConf);
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_FAILURE;
}
return Status;
} // CM_Free_Log_Conf_Handle
CMAPI
CONFIGRET
WINAPI
CM_Get_Log_Conf_Priority_Ex(
IN LOG_CONF lcLogConf,
OUT PPRIORITY pPriority,
IN ULONG ulFlags,
IN HMACHINE hMachine
)
/*++
Routine Description:
This routine returns the priority value of the specified log conf.
Only BASIC, FILTERED and OVERRIDE log confs (requirements lists) have
a priority value associated with them. If a FORCED, BOOT, or ALLOC
config is passed in, then CR_INVALID_LOG_CONF will be returned.
Parameters:
lcLogConf Supplies the handle of a logical configuration. This handle
must have been previously retrieved using either the
CM_Add_Emptry_Log_Conf, CM_Get_First_Log_Conf, or
CM_Get_Next_Log_Conf API.
pPriority Supplies the address of the variable that receives the
priorty (if any) associated with this logical configuration.
ulFlags Must be zero.
hMachine Machine handle returned from CM_Connect_Machine or NULL.
Return Value:
If the function succeeds, the return value is CR_SUCCESS.
If the function fails, the return value is one of the following:
CR_INVALID_FLAG,
CR_INVALID_LOG_CONF,
CR_INVALID_POINTER,
CR_NO_MORE_LOG_CONF.
--*/
{
CONFIGRET Status = CR_SUCCESS;
DEVINST dnDevInst;
WCHAR pDeviceID [MAX_DEVICE_ID_LEN];
ULONG ulType = 0, ulTag = 0,ulLen = MAX_DEVICE_ID_LEN;
PVOID hStringTable = NULL;
handle_t hBinding = NULL;
BOOL Success;
try {
//
// validate parameters
//
if (!ValidateLogConfHandle((PPrivate_Log_Conf_Handle)lcLogConf)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
if (INVALID_FLAGS(ulFlags, 0)) {
Status = CR_INVALID_FLAG;
goto Clean0;
}
if (pPriority == NULL) {
Status = CR_INVALID_POINTER;
goto Clean0;
}
//
// extract devnode and log conf info from the current log conf handle
//
dnDevInst = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_DevInst;
ulType = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_LogConfType;
ulTag = ((PPrivate_Log_Conf_Handle)lcLogConf)->LC_LogConfTag;
//
// only "requirements list" style log confs have priorities and
// are valid in this call.
//
if ((ulType != BASIC_LOG_CONF) &&
(ulType != FILTERED_LOG_CONF) &&
(ulType != OVERRIDE_LOG_CONF)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
//
// setup rpc binding handle and string table handle
//
if (!PnPGetGlobalHandles(hMachine, &hStringTable, &hBinding)) {
Status = CR_FAILURE;
goto Clean0;
}
//
// retreive device instance string that corresponds to dnDevInst
//
Success = pSetupStringTableStringFromIdEx(hStringTable, dnDevInst,pDeviceID,&ulLen);
if (Success == FALSE || INVALID_DEVINST(pDeviceID)) {
Status = CR_INVALID_LOG_CONF;
goto Clean0;
}
RpcTryExcept {
//
// call rpc service entry point
//
Status = PNP_GetLogConfPriority(
hBinding, // rpc binding handle
pDeviceID, // device id string
ulType, // specifes which type of log conf
ulTag, // specifies current log conf tag
pPriority, // return tag of next log conf
ulFlags); // not used
}
RpcExcept (I_RpcExceptionFilter(RpcExceptionCode())) {
KdPrintEx((DPFLTR_PNPMGR_ID,
DBGF_ERRORS,
"PNP_GetLogConfPriority caused an exception (%d)\n",
RpcExceptionCode()));
Status = MapRpcExceptionToCR(RpcExceptionCode());
}
RpcEndExcept
Clean0:
NOTHING;
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = CR_FAILURE;
}
return Status;
} // CM_Free_Log_Conf_Handle
//-------------------------------------------------------------------
// Local Stubs
//-------------------------------------------------------------------
CONFIGRET
CM_Add_Empty_Log_Conf(
OUT PLOG_CONF plcLogConf,
IN DEVINST dnDevInst,
IN PRIORITY Priority,
IN ULONG ulFlags
)
{
return CM_Add_Empty_Log_Conf_Ex(plcLogConf, dnDevInst, Priority,
ulFlags, NULL);
}
CONFIGRET
CM_Free_Log_Conf(
IN LOG_CONF lcLogConfToBeFreed,
IN ULONG ulFlags
)
{
return CM_Free_Log_Conf_Ex(lcLogConfToBeFreed, ulFlags, NULL);
}
CONFIGRET
CM_Get_First_Log_Conf(
OUT PLOG_CONF plcLogConf,
IN DEVINST dnDevInst,
IN ULONG ulFlags
)
{
return CM_Get_First_Log_Conf_Ex(plcLogConf, dnDevInst, ulFlags, NULL);
}
CONFIGRET
CM_Get_Next_Log_Conf(
OUT PLOG_CONF plcLogConf,
IN LOG_CONF lcLogConf,
IN ULONG ulFlags
)
{
return CM_Get_Next_Log_Conf_Ex(plcLogConf, lcLogConf, ulFlags, NULL);
}
CMAPI
CONFIGRET
WINAPI
CM_Get_Log_Conf_Priority(
IN LOG_CONF lcLogConf,
OUT PPRIORITY pPriority,
IN ULONG ulFlags
)
{
return CM_Get_Log_Conf_Priority_Ex(lcLogConf, pPriority, ulFlags, NULL);
}
//-------------------------------------------------------------------
// Local Utility Routines
//-------------------------------------------------------------------
CONFIGRET
CreateLogConfHandle(
PLOG_CONF plcLogConf,
DEVINST dnDevInst,
ULONG ulLogType,
ULONG ulLogTag
)
{
PPrivate_Log_Conf_Handle pLogConfHandle;
//
// allocate memory for the res des handle data
//
pLogConfHandle = (PPrivate_Log_Conf_Handle)pSetupMalloc(
sizeof(Private_Log_Conf_Handle));
if (pLogConfHandle == NULL) {
return CR_OUT_OF_MEMORY;
}
//
// fill in the private res des info and return as handle
//
pLogConfHandle->LC_Signature = CM_PRIVATE_LOGCONF_SIGNATURE;
pLogConfHandle->LC_DevInst = dnDevInst;
pLogConfHandle->LC_LogConfType = ulLogType;
pLogConfHandle->LC_LogConfTag = ulLogTag;
*plcLogConf = (LOG_CONF)pLogConfHandle;
return CR_SUCCESS;
} // CreateLogConfHandle
BOOL
ValidateLogConfHandle(
PPrivate_Log_Conf_Handle pLogConf
)
{
//
// validate parameters
//
if (pLogConf == NULL || pLogConf == 0) {
return FALSE;
}
//
// check for the private log conf signature
//
if (pLogConf->LC_Signature != CM_PRIVATE_LOGCONF_SIGNATURE) {
return FALSE;
}
return TRUE;
} // ValidateLogConfHandle