windows-nt/Source/XPSP1/NT/net/winnet/userdir.cxx
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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
userdir.cxx
Abstract:
This file contains the API entry points for the following functions:
WNetGetUserW
WNetGetDirectoryTypeW
WNetDirectoryNotifyW
WNetGetHomeDirectoryW
Author:
Dan Lafferty (danl) 17-Oct-1991
Environment:
User Mode - Win32
Revision History:
05-May-1999 jschwart
Make provider addition/removal dynamic
12-Jul-1995 anirudhs
Add WNetGetHomeDirectory.
17-Jun-1994 danl
WNetGetDirectoryTypeW: Cache the drive letter and provider index
to make file manager faster.
27-May-1994 danl
WNetGetDirectoryTypeW & WNetDirectoryNotifyW: If no provider
claims the connection in question, then we try all providers.
The actual rule is that we need to pass it to the lanman
provider anyway (so it can check for a share). But to play
completely fair, we'll pass it to everyone.
28-Aug-1992 danl
When GetUsername returns the name, it didn't handle the case where
the buffer was too small. (This may have been a bug in GetUserName).
Now this code copies it into a temp buffer (MAX_PATH) and determines
the size.
03-Aug-1992 danl
WNetGetUser now calls GetUsername when the device name parameter
is NULL.
17-Oct-1991 danl
Created
--*/
//
// INCLUDES
//
#include "precomp.hxx"
#include <tstring.h> // STRCPY
//
// DEFINES
//
DWORD
WNetGetUserW (
IN LPCWSTR lpName,
OUT LPWSTR lpUserName,
IN OUT LPDWORD lpBufferSize
)
/*++
Routine Description:
Returns the user name that is associated with making a particular
connection. If no connection is specified, the current username
for the process is returned.
Arguments:
lpName - This is a pointer to a device name string. If NULL, the
username for the current user of this process is returned.
lpUserName - This is a pointer to the buffer that will receive the
username string.
lpBufferSize - This is the size (in characters) of the buffer that
will receive the username.
Return Value:
Note:
--*/
{
DWORD status = WN_SUCCESS;
DWORD indexArray[DEFAULT_MAX_PROVIDERS];
LPDWORD index = indexArray;
DWORD numProviders;
DWORD statusFlag = 0; // used to indicate major error types
BOOL fcnSupported = FALSE; // Is fcn supported by a provider?
DWORD i;
WCHAR pDriveLetter[4];
UINT uDriveType;
DWORD providerIndex; // ignored
//
// If the device or network name is NULL then we
// will return the name of the current user.
//
__try
{
if (IS_EMPTY_STRING(lpName)) {
//
// GetUserName modifies *lpBufferSize on success -- we don't
//
DWORD dwTempSize = *lpBufferSize;
lpName = NULL;
if (!GetUserName(lpUserName, &dwTempSize))
{
status = GetLastError();
MPR_LOG(ERROR,"WNetGetUserW: GetUserName Failed %d\n",status);
if (status == ERROR_INSUFFICIENT_BUFFER)
{
*lpBufferSize = dwTempSize;
status = WN_MORE_DATA;
}
}
}
else {
//
// As long as we're already in a try-except block,
// try setting up the check to see if lpName is
// a local drive.
//
pDriveLetter[0] = lpName[0];
pDriveLetter[1] = lpName[1];
}
}
__except(EXCEPTION_EXECUTE_HANDLER) {
status = GetExceptionCode();
if (status != EXCEPTION_ACCESS_VIOLATION) {
MPR_LOG(ERROR,"WNetGetUser:Unexpected Exception 0x%lx\n",status);
}
status = WN_BAD_POINTER;
}
if (lpName == NULL || status != WN_SUCCESS) {
goto CleanExit;
}
pDriveLetter[2] = L'\\';
pDriveLetter[3] = L'\0';
uDriveType = GetDriveType(pDriveLetter);
//
// Eliminate all cases of drives that aren't connected to
// a network resource. Note that network provider names
// and UNC shares return DRIVE_NO_ROOT_DIR, so we need to
// make sure it's a valid drive name in that case.
//
if (uDriveType == DRIVE_REMOVABLE ||
uDriveType == DRIVE_FIXED ||
uDriveType == DRIVE_CDROM ||
uDriveType == DRIVE_RAMDISK ||
(uDriveType == DRIVE_NO_ROOT_DIR && pDriveLetter[1] == L':'))
{
status = WN_NOT_CONNECTED;
goto CleanExit;
}
{
MprCheckProviders();
CProviderSharedLock PLock;
//
// If the device or network name is the name of a network
// provider, then we will return the name of the current user.
// Only a Level 1 init is needed for MprGetProviderIndex
//
if (!(GlobalInitLevel & FIRST_LEVEL)) {
status = MprLevel1Init();
if (status != WN_SUCCESS) {
return(status);
}
}
if (MprGetProviderIndex(lpName, &providerIndex))
{
lpName = NULL;
if (!GetUserName(lpUserName, lpBufferSize))
{
status = GetLastError();
MPR_LOG(ERROR,"WNetGetUserW: GetUserName Failed %d\n",status);
if (status == ERROR_INSUFFICIENT_BUFFER)
{
status = WN_MORE_DATA;
}
}
}
if (lpName == NULL || status != WN_SUCCESS) {
goto CleanExit;
}
//
// Find the list of providers to call for this request.
// If there are no active providers, MprFindCallOrder returns
// WN_NO_NETWORK.
//
INIT_IF_NECESSARY(NETWORK_LEVEL,status);
status = MprFindCallOrder(
NULL,
&index,
&numProviders,
NETWORK_TYPE);
if (status != WN_SUCCESS) {
goto CleanExit;
}
//
// if none of them are started, return error
//
if (!MprNetIsAvailable())
{
status = WN_NO_NETWORK;
goto CleanExit;
}
//
// Loop through the list of providers until one answers the request,
// or the list is exhausted.
//
for (i=0; i<numProviders; i++) {
//
// Call the appropriate providers API entry point
//
LPPROVIDER provider = &GlobalProviderInfo[ index[i] ];
if (provider->GetUser != NULL) {
fcnSupported = TRUE;
__try {
status = provider->GetUser(
(LPWSTR) lpName,
lpUserName,
lpBufferSize);
}
__except(EXCEPTION_EXECUTE_HANDLER) {
status = GetExceptionCode();
if (status != EXCEPTION_ACCESS_VIOLATION) {
MPR_LOG(ERROR,"WNetGetUser:Unexpected Exception 0x%lx\n",status);
}
status = WN_BAD_POINTER;
}
//
// WN_CONNECTED_OTHER_PASSWORD_DEFAULT will be returned when user X mapped a
// drive as user Y and the credentials for user Y were stored in CredMan when
// the connection was made. Since the username is correctly filled in with
// user Y in this case, simply massage the return code to success.
//
if (status == WN_CONNECTED_OTHER_PASSWORD_DEFAULT)
{
status = WN_SUCCESS;
}
if (status == WN_NO_NETWORK) {
statusFlag |= NO_NET;
}
else if ((status == WN_NOT_CONNECTED) ||
(status == WN_BAD_LOCALNAME)){
statusFlag |= BAD_NAME;
}
else {
//
// If it wasn't one of those errors, then the provider
// must have accepted responsibility for the request.
// so we exit and process the results. Note that the
// statusFlag is cleared because we want to ignore other
// error information that we gathered up until now.
//
statusFlag = 0;
break;
}
}
}
}
if (fcnSupported == FALSE) {
//
// No providers in the list support the API function. Therefore,
// we assume that no networks are installed.
//
status = WN_NOT_SUPPORTED;
}
//
// Handle special errors.
//
if (statusFlag == (NO_NET | BAD_NAME)) {
//
// Check to see if there was a mix of special errors that occured.
// If so, pass back the combined error message. Otherwise, let the
// last error returned get passed back.
//
status = WN_NO_NET_OR_BAD_PATH;
}
CleanExit:
//
// If memory was allocated by MprFindCallOrder, free it.
//
if (index != indexArray) {
LocalFree(index);
}
if (status != WN_SUCCESS){
SetLastError(status);
}
return(status);
}
DWORD
WNetGetDirectoryTypeW (
IN LPTSTR lpName,
OUT LPINT lpType,
IN BOOL bFlushCache
)
/*++
Routine Description:
Arguments:
Return Value:
Note:
--*/
{
DWORD status = WN_SUCCESS;
LPDWORD index;
DWORD indexArray[DEFAULT_MAX_PROVIDERS];
DWORD numProviders = 0;
DWORD providerIndex;
DWORD statusFlag = 0; // used to indicate major error types
WCHAR lpDriveName[4];
UINT uDriveType;
index = indexArray;
//
// Probe the drive letter portion of the lpName.
//
__try {
lpDriveName[0] = lpName[0];
lpDriveName[1] = lpName[1];
}
__except(EXCEPTION_EXECUTE_HANDLER) {
status = GetExceptionCode();
if (status != EXCEPTION_ACCESS_VIOLATION) {
MPR_LOG(ERROR,"WNetGetDirectoryType:Unexpected Exception 0x%lx\n",status);
}
status = WN_BAD_POINTER;
}
if (status != WN_SUCCESS) {
return(status);
}
lpDriveName[2] = L'\\';
lpDriveName[3] = L'\0';
uDriveType = GetDriveType(lpDriveName);
if (uDriveType == DRIVE_REMOVABLE ||
uDriveType == DRIVE_FIXED ||
uDriveType == DRIVE_CDROM ||
uDriveType == DRIVE_RAMDISK)
{
*lpType = 0; // 0 means a non-network drive
return WN_SUCCESS;
}
MprCheckProviders();
CProviderSharedLock PLock;
INIT_IF_NECESSARY(NETWORK_LEVEL,status);
//
// Find the Provider Index associated with the drive letter in
// the pathname (lpszName).
// NOTE: This function handles exceptions.
//
status = MprFindProviderForPath(lpName, &providerIndex);
if (status != WN_SUCCESS) {
MPR_LOG1(ERROR,"WNetGetDirectoryType: Couldn't find provider for this "
"path. Error = %d\n",status);
//
// Find the list of providers to call for this request.
// Since no provider claimed this path, then
// we need to at least try the lanman provider.
// Actually we'll give them all a chance.
//
status = MprFindCallOrder(
NULL,
&index,
&numProviders,
NETWORK_TYPE);
if (status != WN_SUCCESS) {
return(status);
}
}
else {
numProviders = 1;
index[0] = providerIndex;
}
//
// Loop through the list of providers until one answers the request,
// or the list is exhausted.
//
BOOL fcnSupported = FALSE; // Is fcn supported by a provider?
for (DWORD i=0; i<numProviders; i++) {
//
// Call the appropriate provider's API entry point
//
LPPROVIDER provider = &GlobalProviderInfo[ index[i] ];
if (provider->GetDirectoryType != NULL) {
fcnSupported = TRUE;
__try {
status = provider->GetDirectoryType(
lpName,
lpType,
bFlushCache) ;
}
__except(EXCEPTION_EXECUTE_HANDLER) {
status = GetExceptionCode();
if (status != EXCEPTION_ACCESS_VIOLATION) {
MPR_LOG(ERROR,"WNetGetDirectoryType:Unexpected Exception 0x%lx\n",status);
}
status = WN_BAD_POINTER;
}
if (status == WN_NO_NETWORK) {
statusFlag |= NO_NET;
}
else if ((status == WN_NOT_CONNECTED) ||
(status == WN_BAD_LOCALNAME)){
statusFlag |= BAD_NAME;
}
else {
//
// If it wasn't one of those errors, then the provider
// must have accepted responsibility for the request.
// so we exit and process the results. Note that the
// statusFlag is cleared because we want to ignore other
// error information that we gathered up until now.
//
statusFlag = 0;
break;
}
}
}
if (fcnSupported == FALSE) {
//
// No providers in the list support the API function. Therefore,
// we assume that no networks are installed.
//
status = WN_NOT_SUPPORTED;
}
//
// If memory was allocated by MprFindCallOrder, free it.
//
if (index != indexArray) {
LocalFree(index);
}
//
// Handle special errors.
//
if (statusFlag == (NO_NET | BAD_NAME)) {
//
// Check to see if there was a mix of special errors that occured.
// If so, pass back the combined error message. Otherwise, let the
// last error returned get passed back.
//
status = WN_NO_NET_OR_BAD_PATH;
}
if (status != WN_SUCCESS){
SetLastError(status);
}
return(status);
}
DWORD
WNetDirectoryNotifyW (
IN HWND hwnd,
IN LPTSTR lpDir,
IN DWORD dwOper
)
/*++
Routine Description:
Arguments:
Return Value:
Note:
--*/
{
DWORD providerIndex;
DWORD status;
LPDWORD index;
DWORD indexArray[DEFAULT_MAX_PROVIDERS];
DWORD numProviders;
LPPROVIDER provider;
DWORD statusFlag = 0; // used to indicate major error types
BOOL fcnSupported = FALSE; // Is fcn supported by a provider?
DWORD i;
MprCheckProviders();
CProviderSharedLock PLock;
INIT_IF_NECESSARY(NETWORK_LEVEL,status);
index = indexArray;
//
// Find the Provider Index associated with the drive letter in
// the pathname (lpszName).
// NOTE: This function handles exceptions.
//
status = MprFindProviderForPath(lpDir, &providerIndex);
if (status != WN_SUCCESS) {
MPR_LOG1(TRACE,"WNetDirectoryNotify: Couldn't find provider for this "
"path. Error = %d\n",status);
//
// Find the list of providers to call for this request.
// Since no provider claimed this path, then
// we need to at least try the lanman provider.
// Actually we'll give them all a chance.
//
status = MprFindCallOrder(
NULL,
&index,
&numProviders,
NETWORK_TYPE);
if (status != WN_SUCCESS) {
MPR_LOG(ERROR,"WNetDirectoryNotifyW: FindCallOrder Failed\n",0);
return(status);
}
}
else {
numProviders = 1;
index[0] = providerIndex;
}
//
// Loop through the list of providers until one answers the request,
// or the list is exhausted.
//
for (i=0; i<numProviders; i++) {
//
// Call the appropriate provider's API entry point
//
provider = GlobalProviderInfo + index[i];
if (provider->DirectoryNotify != NULL) {
fcnSupported = TRUE;
__try {
status = provider->DirectoryNotify(
hwnd,
lpDir,
dwOper);
}
__except(EXCEPTION_EXECUTE_HANDLER) {
status = GetExceptionCode();
if (status != EXCEPTION_ACCESS_VIOLATION) {
MPR_LOG(ERROR,"WNetDirectoryNotify:Unexpected Exception 0x%lx\n",status);
}
status = WN_BAD_POINTER;
}
if (status == WN_NO_NETWORK) {
statusFlag |= NO_NET;
}
else if ((status == WN_NOT_CONNECTED) ||
(status == WN_BAD_LOCALNAME)){
statusFlag |= BAD_NAME;
}
else {
//
// If it wasn't one of those errors, then the provider
// must have accepted responsibility for the request.
// so we exit and process the results. Note that the
// statusFlag is cleared because we want to ignore other
// error information that we gathered up until now.
//
statusFlag = 0;
break;
}
}
}
if (fcnSupported == FALSE) {
//
// No providers in the list support the API function. Therefore,
// we assume that no networks are installed.
//
status = WN_NOT_SUPPORTED;
}
//
// If memory was allocated by MprFindCallOrder, free it.
//
if (index != indexArray) {
LocalFree(index);
}
//
// Handle special errors.
//
if (statusFlag == (NO_NET | BAD_NAME)) {
//
// Check to see if there was a mix of special errors that occured.
// If so, pass back the combined error message. Otherwise, let the
// last error returned get passed back.
//
status = WN_NO_NET_OR_BAD_PATH;
}
//
// Handle normal errors passed back from the provider
//
if (status != WN_SUCCESS){
MPR_LOG(TRACE,"WNetDirectoryNotifyW: Call Failed %d\n",status);
SetLastError(status);
}
return(status);
}
DWORD
WNetGetHomeDirectoryW (
IN LPCWSTR lpProviderName,
OUT LPWSTR lpDirectory,
IN OUT LPDWORD lpBufferSize
)
/*++
Routine Description:
Returns the user's home directory.
Arguments:
lpProviderName - Specifies the name of the network provider for which the
home directory is retrieved. This parameter exists for Win95 compati-
bility, and is ignored.
lpDirectory - Buffer in which to return the directory path. This will be
in either UNC or drive-relative form.
lpBufferSize - Specifies the size of the lpDirectory buffer, in characters.
If the call fails because the buffer is not big enough, this will be
set to the required buffer size.
Return Value:
WN_SUCCESS - successful
WN_MORE_DATA - buffer not large enough
WN_NOT_SUPPORTED - user doesn't have a home directory
Note:
This is an unpublished function, so it doesn't catch exceptions.
The path is obtained from environment variables and equals
%HOMESHARE%%HOMEPATH% if the %HOMESHARE% variable is set, else
%HOMEDIR%%HOMEPATH% .
--*/
{
//
// If HOMESHARE is set, use it in preference to HOMEDRIVE
//
LPWSTR ExpandString = L"%HOMEDRIVE%%HOMEPATH%";
if (GetEnvironmentVariable(L"HOMESHARE", NULL, 0))
{
ExpandString = L"%HOMESHARE%%HOMEPATH%";
}
//
// Expand the environment variables into the buffer
//
DWORD cchReturned = ExpandEnvironmentStrings(
ExpandString,
lpDirectory,
*lpBufferSize
);
if (cchReturned == 0)
{
// ExpandEnvironmentStrings failed
return GetLastError();
}
if (cchReturned > *lpBufferSize)
{
// Buffer too small; cchReturned is the required size
*lpBufferSize = cchReturned;
return WN_MORE_DATA;
}
//
// Fail if HOMEDRIVE or HOMEPATH is not set - detected by the result
// string beginning with %HOMEDRIVE% or ending with %HOMEPATH%
//
if (wcsncmp(lpDirectory, L"%HOMEPATH%", sizeof("%HOMEPATH%") - 1) == 0 ||
(cchReturned > sizeof("%HOMEPATH%") &&
wcscmp(&lpDirectory[cchReturned-sizeof("%HOMEPATH%")], L"%HOMEPATH%") == 0))
{
return WN_NOT_SUPPORTED;
}
return WN_SUCCESS;
}