Source code of Windows XP (NT5)
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/*++
Copyright (c) Microsoft Corporation. All rights reserved.
Module Name:
devcon.cpp
Abstract:
Device Console
command-line interface for managing devices
@@BEGIN_DDKSPLIT
Author:
Jamie Hunter (JamieHun) Nov-30-2000
Revision History:
@@END_DDKSPLIT
--*/
#include "devcon.h"
int cmdHelp(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
HELP command
allow HELP or HELP <command>
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine (ignored)
argc/argv - remaining parameters
Return Value:
EXIT_xxxx
--*/
{
DWORD helptext = 0;
int dispIndex;
LPCTSTR cmd = NULL;
BOOL unknown = FALSE;
if(argc) {
//
// user passed in a command for help on... long help
//
for(dispIndex = 0;DispatchTable[dispIndex].cmd;dispIndex++) {
if(lstrcmpi(argv[0],DispatchTable[dispIndex].cmd)==0) {
cmd = DispatchTable[dispIndex].cmd;
helptext = DispatchTable[dispIndex].longHelp;
break;
}
}
if(!cmd) {
unknown = TRUE;
}
}
if(helptext) {
//
// long help
//
FormatToStream(stdout,helptext,BaseName,cmd);
} else {
//
// help help
//
FormatToStream(stdout,unknown ? MSG_HELP_OTHER : MSG_HELP_LONG,BaseName);
//
// enumerate through each command and display short help for each
//
for(dispIndex = 0;DispatchTable[dispIndex].cmd;dispIndex++) {
if(DispatchTable[dispIndex].shortHelp) {
FormatToStream(stdout,DispatchTable[dispIndex].shortHelp,DispatchTable[dispIndex].cmd);
}
}
}
return EXIT_OK;
}
int cmdClasses(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
CLASSES command
lists classes on (optionally) specified machine
format as <name>: <destination>
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - ignored
Return Value:
EXIT_xxxx
--*/
{
DWORD reqGuids = 128;
DWORD numGuids;
LPGUID guids = NULL;
DWORD index;
int failcode = EXIT_FAIL;
guids = new GUID[reqGuids];
if(!guids) {
goto final;
}
if(!SetupDiBuildClassInfoListEx(0,guids,reqGuids,&numGuids,Machine,NULL)) {
do {
if(GetLastError() != ERROR_INSUFFICIENT_BUFFER) {
goto final;
}
delete [] guids;
reqGuids = numGuids;
guids = new GUID[reqGuids];
if(!guids) {
goto final;
}
} while(!SetupDiBuildClassInfoListEx(0,guids,reqGuids,&numGuids,Machine,NULL));
}
FormatToStream(stdout,Machine?MSG_CLASSES_HEADER:MSG_CLASSES_HEADER_LOCAL,numGuids,Machine);
for(index=0;index<numGuids;index++) {
TCHAR className[MAX_CLASS_NAME_LEN];
TCHAR classDesc[LINE_LEN];
if(!SetupDiClassNameFromGuidEx(&guids[index],className,MAX_CLASS_NAME_LEN,NULL,Machine,NULL)) {
lstrcpyn(className,TEXT("?"),MAX_CLASS_NAME_LEN);
}
if(!SetupDiGetClassDescriptionEx(&guids[index],classDesc,LINE_LEN,NULL,Machine,NULL)) {
lstrcpyn(classDesc,className,LINE_LEN);
}
_tprintf(TEXT("%-20s: %s\n"),className,classDesc);
}
failcode = EXIT_OK;
final:
delete [] guids;
return failcode;
}
int cmdListClass(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
LISTCLASS <name>....
lists all devices for each specified class
there can be more than one physical class for a class name (shouldn't be
though) in such cases, list each class
if machine given, list devices for that machine
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - list of class names
Return Value:
EXIT_xxxx
--*/
{
BOOL classListed = FALSE;
BOOL devListed = FALSE;
DWORD reqGuids = 16;
int argIndex;
int failcode = EXIT_FAIL;
LPGUID guids = NULL;
HDEVINFO devs = INVALID_HANDLE_VALUE;
if(!argc) {
return EXIT_USAGE;
}
guids = new GUID[reqGuids];
if(!guids) {
goto final;
}
for(argIndex = 0;argIndex<argc;argIndex++) {
DWORD numGuids;
DWORD index;
if(!(argv[argIndex] && argv[argIndex][0])) {
continue;
}
//
// there could be one to many name to GUID mapping
//
while(!SetupDiClassGuidsFromNameEx(argv[argIndex],guids,reqGuids,&numGuids,Machine,NULL)) {
if(GetLastError() != ERROR_INSUFFICIENT_BUFFER) {
goto final;
}
delete [] guids;
reqGuids = numGuids;
guids = new GUID[reqGuids];
if(!guids) {
goto final;
}
}
if(numGuids == 0) {
FormatToStream(stdout,Machine?MSG_LISTCLASS_NOCLASS:MSG_LISTCLASS_NOCLASS_LOCAL,argv[argIndex],Machine);
continue;
}
for(index = 0;index<numGuids;index++) {
TCHAR className[MAX_CLASS_NAME_LEN];
TCHAR classDesc[LINE_LEN];
DWORD devCount = 0;
SP_DEVINFO_DATA devInfo;
DWORD devIndex;
devs = SetupDiGetClassDevsEx(&guids[index],NULL,NULL,DIGCF_PRESENT,NULL,Machine,NULL);
if(devs != INVALID_HANDLE_VALUE) {
//
// count number of devices
//
devInfo.cbSize = sizeof(devInfo);
while(SetupDiEnumDeviceInfo(devs,devCount,&devInfo)) {
devCount++;
}
}
if(!SetupDiClassNameFromGuidEx(&guids[index],className,MAX_CLASS_NAME_LEN,NULL,Machine,NULL)) {
lstrcpyn(className,TEXT("?"),MAX_CLASS_NAME_LEN);
}
if(!SetupDiGetClassDescriptionEx(&guids[index],classDesc,LINE_LEN,NULL,Machine,NULL)) {
lstrcpyn(classDesc,className,LINE_LEN);
}
//
// how many devices?
//
if (!devCount) {
FormatToStream(stdout,Machine?MSG_LISTCLASS_HEADER_NONE:MSG_LISTCLASS_HEADER_NONE_LOCAL,className,classDesc,Machine);
} else {
FormatToStream(stdout,Machine?MSG_LISTCLASS_HEADER:MSG_LISTCLASS_HEADER_LOCAL,devCount,className,classDesc,Machine);
for(devIndex=0;SetupDiEnumDeviceInfo(devs,devIndex,&devInfo);devIndex++) {
DumpDevice(devs,&devInfo);
}
}
if(devs != INVALID_HANDLE_VALUE) {
SetupDiDestroyDeviceInfoList(devs);
devs = INVALID_HANDLE_VALUE;
}
}
}
failcode = 0;
final:
delete [] guids;
if(devs != INVALID_HANDLE_VALUE) {
SetupDiDestroyDeviceInfoList(devs);
}
return failcode;
}
typedef struct {
DWORD count;
DWORD control;
BOOL reboot;
LPCTSTR strSuccess;
LPCTSTR strReboot;
LPCTSTR strFail;
}
GenericContext;
#define FIND_DEVICE 0x00000001 // display device
#define FIND_STATUS 0x00000002 // display status of device
#define FIND_RESOURCES 0x00000004 // display resources of device
#define FIND_DRIVERFILES 0x00000008 // display drivers used by device
#define FIND_HWIDS 0x00000010 // display hw/compat id's used by device
#define FIND_DRIVERNODES 0x00000020 // display driver nodes for a device.
#define FIND_CLASS 0x00000040 // display device's setup class
#define FIND_STACK 0x00000080 // display device's driver-stack
int FindCallback(HDEVINFO Devs,PSP_DEVINFO_DATA DevInfo,DWORD Index,LPVOID Context)
/*++
Routine Description:
Callback for use by Find/FindAll
just simply display the device
Arguments:
Devs )_ uniquely identify the device
DevInfo )
Index - index of device
Context - GenericContext
Return Value:
EXIT_xxxx
--*/
{
GenericContext *pFindContext = (GenericContext*)Context;
if(!pFindContext->control) {
DumpDevice(Devs,DevInfo);
pFindContext->count++;
return EXIT_OK;
}
if(!DumpDeviceWithInfo(Devs,DevInfo,NULL)) {
return EXIT_OK;
}
if(pFindContext->control&FIND_DEVICE) {
DumpDeviceDescr(Devs,DevInfo);
}
if(pFindContext->control&FIND_CLASS) {
DumpDeviceClass(Devs,DevInfo);
}
if(pFindContext->control&FIND_STATUS) {
DumpDeviceStatus(Devs,DevInfo);
}
if(pFindContext->control&FIND_RESOURCES) {
DumpDeviceResources(Devs,DevInfo);
}
if(pFindContext->control&FIND_DRIVERFILES) {
DumpDeviceDriverFiles(Devs,DevInfo);
}
if(pFindContext->control&FIND_STACK) {
DumpDeviceStack(Devs,DevInfo);
}
if(pFindContext->control&FIND_HWIDS) {
DumpDeviceHwIds(Devs,DevInfo);
}
if (pFindContext->control&FIND_DRIVERNODES) {
DumpDeviceDriverNodes(Devs,DevInfo);
}
pFindContext->count++;
return EXIT_OK;
}
int cmdFind(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
FIND <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = 0;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdFindAll(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
FINDALL <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump to stdout
like find, but also show not-present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = 0;
failcode = EnumerateDevices(BaseName,Machine,0,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdStatus(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
STATUS <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump status to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_STATUS;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdResources(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
RESOURCES <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump resources to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_RESOURCES;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdDriverFiles(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
STATUS <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump driver files to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers (FIND_DRIVERFILES)
//
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_DRIVERFILES;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdDriverNodes(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
STATUS <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump drivernodes to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers (FIND_DRIVERNODES)
//
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_DRIVERNODES;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdHwIds(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
HWIDS <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump hw/compat id's to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_HWIDS;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int cmdStack(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
STACK <id> ...
use EnumerateDevices to do hardwareID matching
for each match, dump device class and stack to stdout
note that we only enumerate present devices
Arguments:
BaseName - name of executable
Machine - if non-NULL, remote machine
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
int failcode;
if(!argc) {
return EXIT_USAGE;
}
context.count = 0;
context.control = FIND_DEVICE | FIND_CLASS | FIND_STACK;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,FindCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,Machine?MSG_FIND_TAIL_NONE:MSG_FIND_TAIL_NONE_LOCAL,Machine);
} else {
FormatToStream(stdout,Machine?MSG_FIND_TAIL:MSG_FIND_TAIL_LOCAL,context.count,Machine);
}
}
return failcode;
}
int ControlCallback(HDEVINFO Devs,PSP_DEVINFO_DATA DevInfo,DWORD Index,LPVOID Context)
/*++
Routine Description:
Callback for use by Enable/Disable/Restart
Invokes DIF_PROPERTYCHANGE with correct parameters
uses SetupDiCallClassInstaller so cannot be done for remote devices
Don't use CM_xxx API's, they bypass class/co-installers and this is bad.
In Enable case, we try global first, and if still disabled, enable local
Arguments:
Devs )_ uniquely identify the device
DevInfo )
Index - index of device
Context - GenericContext
Return Value:
EXIT_xxxx
--*/
{
SP_PROPCHANGE_PARAMS pcp;
GenericContext *pControlContext = (GenericContext*)Context;
SP_DEVINSTALL_PARAMS devParams;
switch(pControlContext->control) {
case DICS_ENABLE:
//
// enable both on global and config-specific profile
// do global first and see if that succeeded in enabling the device
// (global enable doesn't mark reboot required if device is still
// disabled on current config whereas vice-versa isn't true)
//
pcp.ClassInstallHeader.cbSize = sizeof(SP_CLASSINSTALL_HEADER);
pcp.ClassInstallHeader.InstallFunction = DIF_PROPERTYCHANGE;
pcp.StateChange = pControlContext->control;
pcp.Scope = DICS_FLAG_GLOBAL;
pcp.HwProfile = 0;
//
// don't worry if this fails, we'll get an error when we try config-
// specific.
if(SetupDiSetClassInstallParams(Devs,DevInfo,&pcp.ClassInstallHeader,sizeof(pcp))) {
SetupDiCallClassInstaller(DIF_PROPERTYCHANGE,Devs,DevInfo);
}
//
// now enable on config-specific
//
pcp.ClassInstallHeader.cbSize = sizeof(SP_CLASSINSTALL_HEADER);
pcp.ClassInstallHeader.InstallFunction = DIF_PROPERTYCHANGE;
pcp.StateChange = pControlContext->control;
pcp.Scope = DICS_FLAG_CONFIGSPECIFIC;
pcp.HwProfile = 0;
break;
default:
//
// operate on config-specific profile
//
pcp.ClassInstallHeader.cbSize = sizeof(SP_CLASSINSTALL_HEADER);
pcp.ClassInstallHeader.InstallFunction = DIF_PROPERTYCHANGE;
pcp.StateChange = pControlContext->control;
pcp.Scope = DICS_FLAG_CONFIGSPECIFIC;
pcp.HwProfile = 0;
break;
}
if(!SetupDiSetClassInstallParams(Devs,DevInfo,&pcp.ClassInstallHeader,sizeof(pcp)) ||
!SetupDiCallClassInstaller(DIF_PROPERTYCHANGE,Devs,DevInfo)) {
//
// failed to invoke DIF_PROPERTYCHANGE
//
DumpDeviceWithInfo(Devs,DevInfo,pControlContext->strFail);
} else {
//
// see if device needs reboot
//
devParams.cbSize = sizeof(devParams);
if(SetupDiGetDeviceInstallParams(Devs,DevInfo,&devParams) && (devParams.Flags & (DI_NEEDRESTART|DI_NEEDREBOOT))) {
DumpDeviceWithInfo(Devs,DevInfo,pControlContext->strReboot);
pControlContext->reboot = TRUE;
} else {
//
// appears to have succeeded
//
DumpDeviceWithInfo(Devs,DevInfo,pControlContext->strSuccess);
}
pControlContext->count++;
}
return EXIT_OK;
}
int cmdEnable(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
ENABLE <id> ...
use EnumerateDevices to do hardwareID matching
for each match, attempt to enable global, and if needed, config specific
Arguments:
BaseName - name of executable
Machine - must be NULL (local machine only)
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx (EXIT_REBOOT if reboot is required)
--*/
{
GenericContext context;
TCHAR strEnable[80];
TCHAR strReboot[80];
TCHAR strFail[80];
int failcode = EXIT_FAIL;
if(!argc) {
//
// arguments required
//
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers
//
return EXIT_USAGE;
}
if(!LoadString(NULL,IDS_ENABLED,strEnable,ARRAYSIZE(strEnable))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_ENABLED_REBOOT,strReboot,ARRAYSIZE(strReboot))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_ENABLE_FAILED,strFail,ARRAYSIZE(strFail))) {
return EXIT_FAIL;
}
context.control = DICS_ENABLE; // DICS_PROPCHANGE DICS_ENABLE DICS_DISABLE
context.reboot = FALSE;
context.count = 0;
context.strReboot = strReboot;
context.strSuccess = strEnable;
context.strFail = strFail;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,ControlCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,MSG_ENABLE_TAIL_NONE);
} else if(!context.reboot) {
FormatToStream(stdout,MSG_ENABLE_TAIL,context.count);
} else {
FormatToStream(stdout,MSG_ENABLE_TAIL_REBOOT,context.count);
failcode = EXIT_REBOOT;
}
}
return failcode;
}
int cmdDisable(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
DISABLE <id> ...
use EnumerateDevices to do hardwareID matching
for each match, attempt to disable global
Arguments:
BaseName - name of executable
Machine - must be NULL (local machine only)
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx (EXIT_REBOOT if reboot is required)
--*/
{
GenericContext context;
TCHAR strDisable[80];
TCHAR strReboot[80];
TCHAR strFail[80];
int failcode = EXIT_FAIL;
if(!argc) {
//
// arguments required
//
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers
//
return EXIT_USAGE;
}
if(!LoadString(NULL,IDS_DISABLED,strDisable,ARRAYSIZE(strDisable))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_DISABLED_REBOOT,strReboot,ARRAYSIZE(strReboot))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_DISABLE_FAILED,strFail,ARRAYSIZE(strFail))) {
return EXIT_FAIL;
}
context.control = DICS_DISABLE; // DICS_PROPCHANGE DICS_ENABLE DICS_DISABLE
context.reboot = FALSE;
context.count = 0;
context.strReboot = strReboot;
context.strSuccess = strDisable;
context.strFail = strFail;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,ControlCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,MSG_DISABLE_TAIL_NONE);
} else if(!context.reboot) {
FormatToStream(stdout,MSG_DISABLE_TAIL,context.count);
} else {
FormatToStream(stdout,MSG_DISABLE_TAIL_REBOOT,context.count);
failcode = EXIT_REBOOT;
}
}
return failcode;
}
int cmdRestart(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
RESTART <id> ...
use EnumerateDevices to do hardwareID matching
for each match, attempt to restart by issueing a PROPCHANGE
Arguments:
BaseName - name of executable
Machine - must be NULL (local machine only)
argc/argv - remaining parameters - passed into EnumerateDevices
Return Value:
EXIT_xxxx (EXIT_REBOOT if reboot is required)
--*/
{
GenericContext context;
TCHAR strRestarted[80];
TCHAR strReboot[80];
TCHAR strFail[80];
int failcode = EXIT_FAIL;
if(!argc) {
//
// arguments required
//
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers
//
return EXIT_USAGE;
}
if(!LoadString(NULL,IDS_RESTARTED,strRestarted,ARRAYSIZE(strRestarted))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_REQUIRES_REBOOT,strReboot,ARRAYSIZE(strReboot))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_RESTART_FAILED,strFail,ARRAYSIZE(strFail))) {
return EXIT_FAIL;
}
context.control = DICS_PROPCHANGE;
context.reboot = FALSE;
context.count = 0;
context.strReboot = strReboot;
context.strSuccess = strRestarted;
context.strFail = strFail;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,ControlCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,MSG_RESTART_TAIL_NONE);
} else if(!context.reboot) {
FormatToStream(stdout,MSG_RESTART_TAIL,context.count);
} else {
FormatToStream(stdout,MSG_RESTART_TAIL_REBOOT,context.count);
failcode = EXIT_REBOOT;
}
}
return failcode;
}
int cmdReboot(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
REBOOT
reboot local machine
Arguments:
BaseName - name of executable
Machine - must be NULL (local machine only)
argc/argv - remaining parameters - ignored
Return Value:
EXIT_xxxx
--*/
{
if(Machine) {
//
// must be local machine
//
return EXIT_USAGE;
}
FormatToStream(stdout,MSG_REBOOT);
return Reboot() ? EXIT_OK : EXIT_FAIL;
}
int cmdUpdate(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
UPDATE
update driver for existing device(s)
Arguments:
BaseName - name of executable
Machine - machine name, must be NULL
argc/argv - remaining parameters
Return Value:
EXIT_xxxx
--*/
{
HMODULE newdevMod = NULL;
int failcode = EXIT_FAIL;
UpdateDriverForPlugAndPlayDevicesProto UpdateFn;
BOOL reboot = FALSE;
LPCTSTR hwid = NULL;
LPCTSTR inf = NULL;
DWORD flags = 0;
TCHAR InfPath[MAX_PATH];
if(Machine) {
//
// must be local machine
//
return EXIT_USAGE;
}
if(argc<2) {
//
// at least HWID required
//
return EXIT_USAGE;
}
inf = argv[0];
if(!inf[0]) {
return EXIT_USAGE;
}
hwid = argv[1];
if(!hwid[0]) {
return EXIT_USAGE;
}
//
// Inf must be a full pathname
//
if(GetFullPathName(inf,MAX_PATH,InfPath,NULL) >= MAX_PATH) {
//
// inf pathname too long
//
return EXIT_FAIL;
}
inf = InfPath;
flags |= INSTALLFLAG_FORCE;
//
// make use of UpdateDriverForPlugAndPlayDevices
//
newdevMod = LoadLibrary(TEXT("newdev.dll"));
if(!newdevMod) {
goto final;
}
UpdateFn = (UpdateDriverForPlugAndPlayDevicesProto)GetProcAddress(newdevMod,UPDATEDRIVERFORPLUGANDPLAYDEVICES);
if(!UpdateFn)
{
goto final;
}
FormatToStream(stdout,inf ? MSG_UPDATE_INF : MSG_UPDATE,hwid,inf);
if(!UpdateFn(NULL,hwid,inf,flags,&reboot)) {
goto final;
}
failcode = reboot ? EXIT_REBOOT : EXIT_OK;
final:
if(newdevMod) {
FreeLibrary(newdevMod);
}
return EXIT_OK;
}
int cmdInstall(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
INSTALL
install a device manually
Arguments:
BaseName - name of executable
Machine - machine name, must be NULL
argc/argv - remaining parameters
Return Value:
EXIT_xxxx
--*/
{
HDEVINFO DeviceInfoSet = INVALID_HANDLE_VALUE;
SP_DEVINFO_DATA DeviceInfoData;
GUID ClassGUID;
TCHAR ClassName[MAX_CLASS_NAME_LEN];
TCHAR hwIdList[LINE_LEN+4];
TCHAR InfPath[MAX_PATH];
DWORD err;
int failcode = EXIT_FAIL;
BOOL reboot = FALSE;
LPCTSTR hwid = NULL;
LPCTSTR inf = NULL;
DWORD flags = 0;
DWORD len;
if(Machine) {
//
// must be local machine
//
return EXIT_USAGE;
}
if(argc<2) {
//
// at least HWID required
//
return EXIT_USAGE;
}
inf = argv[0];
if(!inf[0]) {
return EXIT_USAGE;
}
hwid = argv[1];
if(!hwid[0]) {
return EXIT_USAGE;
}
//
// Inf must be a full pathname
//
if(GetFullPathName(inf,MAX_PATH,InfPath,NULL) >= MAX_PATH) {
//
// inf pathname too long
//
return EXIT_FAIL;
}
//
// List of hardware ID's must be double zero-terminated
//
ZeroMemory(hwIdList,sizeof(hwIdList));
lstrcpyn(hwIdList,hwid,LINE_LEN);
//
// Use the INF File to extract the Class GUID.
//
if (!SetupDiGetINFClass(InfPath,&ClassGUID,ClassName,sizeof(ClassName),0))
{
goto final;
}
//
// Create the container for the to-be-created Device Information Element.
//
DeviceInfoSet = SetupDiCreateDeviceInfoList(&ClassGUID,0);
if(DeviceInfoSet == INVALID_HANDLE_VALUE)
{
goto final;
}
//
// Now create the element.
// Use the Class GUID and Name from the INF file.
//
DeviceInfoData.cbSize = sizeof(SP_DEVINFO_DATA);
if (!SetupDiCreateDeviceInfo(DeviceInfoSet,
ClassName,
&ClassGUID,
NULL,
0,
DICD_GENERATE_ID,
&DeviceInfoData))
{
goto final;
}
//
// Add the HardwareID to the Device's HardwareID property.
//
if(!SetupDiSetDeviceRegistryProperty(DeviceInfoSet,
&DeviceInfoData,
SPDRP_HARDWAREID,
(LPBYTE)hwIdList,
(lstrlen(hwIdList)+1+1)*sizeof(TCHAR)))
{
goto final;
}
//
// Transform the registry element into an actual devnode
// in the PnP HW tree.
//
if (!SetupDiCallClassInstaller(DIF_REGISTERDEVICE,
DeviceInfoSet,
&DeviceInfoData))
{
goto final;
}
//
// update the driver for the device we just created
//
failcode = cmdUpdate(BaseName,Machine,argc,argv);
final:
if (DeviceInfoSet != INVALID_HANDLE_VALUE) {
SetupDiDestroyDeviceInfoList(DeviceInfoSet);
}
return failcode;
}
int RemoveCallback(HDEVINFO Devs,PSP_DEVINFO_DATA DevInfo,DWORD Index,LPVOID Context)
/*++
Routine Description:
Callback for use by Remove
Invokes DIF_REMOVE
uses SetupDiCallClassInstaller so cannot be done for remote devices
Don't use CM_xxx API's, they bypass class/co-installers and this is bad.
Arguments:
Devs )_ uniquely identify the device
DevInfo )
Index - index of device
Context - GenericContext
Return Value:
EXIT_xxxx
--*/
{
SP_REMOVEDEVICE_PARAMS rmdParams;
GenericContext *pControlContext = (GenericContext*)Context;
SP_DEVINSTALL_PARAMS devParams;
LPCTSTR action = NULL;
//
// need hardware ID before trying to remove, as we wont have it after
//
TCHAR devID[MAX_DEVICE_ID_LEN];
LPTSTR desc;
BOOL b = TRUE;
SP_DEVINFO_LIST_DETAIL_DATA devInfoListDetail;
devInfoListDetail.cbSize = sizeof(devInfoListDetail);
if((!SetupDiGetDeviceInfoListDetail(Devs,&devInfoListDetail)) ||
(CM_Get_Device_ID_Ex(DevInfo->DevInst,devID,MAX_DEVICE_ID_LEN,0,devInfoListDetail.RemoteMachineHandle)!=CR_SUCCESS)) {
//
// skip this
//
return NO_ERROR;
}
rmdParams.ClassInstallHeader.cbSize = sizeof(SP_CLASSINSTALL_HEADER);
rmdParams.ClassInstallHeader.InstallFunction = DIF_REMOVE;
rmdParams.Scope = DI_REMOVEDEVICE_GLOBAL;
rmdParams.HwProfile = 0;
if(!SetupDiSetClassInstallParams(Devs,DevInfo,&rmdParams.ClassInstallHeader,sizeof(rmdParams)) ||
!SetupDiCallClassInstaller(DIF_REMOVE,Devs,DevInfo)) {
//
// failed to invoke DIF_REMOVE
//
action = pControlContext->strFail;
} else {
//
// see if device needs reboot
//
devParams.cbSize = sizeof(devParams);
if(SetupDiGetDeviceInstallParams(Devs,DevInfo,&devParams) && (devParams.Flags & (DI_NEEDRESTART|DI_NEEDREBOOT))) {
//
// reboot required
//
action = pControlContext->strReboot;
pControlContext->reboot = TRUE;
} else {
//
// appears to have succeeded
//
action = pControlContext->strSuccess;
}
pControlContext->count++;
}
_tprintf(TEXT("%-60s: %s\n"),devID,action);
return EXIT_OK;
}
int cmdRemove(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
REMOVE
remove devices
Arguments:
BaseName - name of executable
Machine - machine name, must be NULL
argc/argv - remaining parameters
Return Value:
EXIT_xxxx
--*/
{
GenericContext context;
TCHAR strRemove[80];
TCHAR strReboot[80];
TCHAR strFail[80];
int failcode = EXIT_FAIL;
if(!argc) {
//
// arguments required
//
return EXIT_USAGE;
}
if(Machine) {
//
// must be local machine as we need to involve class/co installers
//
return EXIT_USAGE;
}
if(!LoadString(NULL,IDS_REMOVED,strRemove,ARRAYSIZE(strRemove))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_REMOVED_REBOOT,strReboot,ARRAYSIZE(strReboot))) {
return EXIT_FAIL;
}
if(!LoadString(NULL,IDS_REMOVE_FAILED,strFail,ARRAYSIZE(strFail))) {
return EXIT_FAIL;
}
context.reboot = FALSE;
context.count = 0;
context.strReboot = strReboot;
context.strSuccess = strRemove;
context.strFail = strFail;
failcode = EnumerateDevices(BaseName,Machine,DIGCF_PRESENT,argc,argv,RemoveCallback,&context);
if(failcode == EXIT_OK) {
if(!context.count) {
FormatToStream(stdout,MSG_REMOVE_TAIL_NONE);
} else if(!context.reboot) {
FormatToStream(stdout,MSG_REMOVE_TAIL,context.count);
} else {
FormatToStream(stdout,MSG_REMOVE_TAIL_REBOOT,context.count);
failcode = EXIT_REBOOT;
}
}
return failcode;
}
int cmdRescan(LPCTSTR BaseName,LPCTSTR Machine,int argc,TCHAR* argv[])
/*++
Routine Description:
RESCAN
rescan for new devices
Arguments:
BaseName - name of executable
Machine - machine name, must be NULL
argc/argv - remaining parameters
Return Value:
EXIT_xxxx
--*/
{
//
// reenumerate from the root of the devnode tree
// totally CM based
//
int failcode = EXIT_FAIL;
HMACHINE machineHandle = NULL;
DEVINST devRoot;
if(Machine) {
if(CM_Connect_Machine(Machine,&machineHandle) != CR_SUCCESS) {
return failcode;
}
}
if(CM_Locate_DevNode_Ex(&devRoot,NULL,CM_LOCATE_DEVNODE_NORMAL,machineHandle) != CR_SUCCESS) {
goto final;
}
FormatToStream(stdout,Machine ? MSG_RESCAN : MSG_RESCAN_LOCAL);
if(CM_Reenumerate_DevNode_Ex(devRoot, 0, machineHandle) != CR_SUCCESS) {
goto final;
}
failcode = EXIT_OK;
final:
if(machineHandle) {
CM_Disconnect_Machine(machineHandle);
}
return failcode;
}
DispatchEntry DispatchTable[] = {
{ TEXT("classes"), cmdClasses, MSG_CLASSES_SHORT, MSG_CLASSES_LONG },
{ TEXT("disable"), cmdDisable, MSG_DISABLE_SHORT, MSG_DISABLE_LONG },
{ TEXT("driverfiles"), cmdDriverFiles, MSG_DRIVERFILES_SHORT, MSG_DRIVERFILES_LONG },
{ TEXT("drivernodes"), cmdDriverNodes, MSG_DRIVERNODES_SHORT, MSG_DRIVERNODES_LONG },
{ TEXT("enable"), cmdEnable, MSG_ENABLE_SHORT, MSG_ENABLE_LONG },
{ TEXT("find"), cmdFind, MSG_FIND_SHORT, MSG_FIND_LONG },
{ TEXT("findall"), cmdFindAll, MSG_FINDALL_SHORT, MSG_FINDALL_LONG },
{ TEXT("help"), cmdHelp, MSG_HELP_SHORT, 0 },
{ TEXT("hwids"), cmdHwIds, MSG_HWIDS_SHORT, MSG_HWIDS_LONG },
{ TEXT("install"), cmdInstall, MSG_INSTALL_SHORT, MSG_INSTALL_LONG },
{ TEXT("listclass"), cmdListClass, MSG_LISTCLASS_SHORT, MSG_LISTCLASS_LONG },
{ TEXT("reboot"), cmdReboot, MSG_REBOOT_SHORT, MSG_REBOOT_LONG },
{ TEXT("remove"), cmdRemove, MSG_REMOVE_SHORT, MSG_REMOVE_LONG },
{ TEXT("rescan"), cmdRescan, MSG_RESCAN_SHORT, MSG_RESCAN_LONG },
{ TEXT("resources"), cmdResources, MSG_RESOURCES_SHORT, MSG_RESOURCES_LONG },
{ TEXT("restart"), cmdRestart, MSG_RESTART_SHORT, MSG_RESTART_LONG },
{ TEXT("stack"), cmdStack, MSG_STACK_SHORT, MSG_STACK_LONG },
{ TEXT("status"), cmdStatus, MSG_STATUS_SHORT, MSG_STATUS_LONG },
{ TEXT("update"), cmdUpdate, MSG_UPDATE_SHORT, MSG_UPDATE_LONG },
{ TEXT("?"), cmdHelp, 0, 0 },
{ NULL,NULL }
};