Source code of Windows XP (NT5)
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1997.
//
// File: N C R A S . C P P
//
// Contents: Common code for RAS connections.
//
// Notes:
//
// Author: shaunco 20 Oct 1997
//
//----------------------------------------------------------------------------
#include "pch.h"
#pragma hdrstop
#include "ncnetcon.h"
#include "ncras.h"
#include "ncstring.h"
#include <raserror.h>
#include "mprapi.h"
//+---------------------------------------------------------------------------
//
// Function: RciFree
//
// Purpose: Frees the memory associated with a RASCON_INFO strucutre.
//
// Arguments:
// pRasConInfo [in] Pointer to RASCON_INFO structure to free.
//
// Returns: nothing
//
// Author: shaunco 21 Sep 1997
//
// Notes: CoTaskMemAlloc/CoTaskMemFree are used as the allocator/
// deallocator because this structure is marshalled by COM.
//
VOID
RciFree (
RASCON_INFO* pRasConInfo)
{
Assert (pRasConInfo);
CoTaskMemFree (pRasConInfo->pszwPbkFile);
CoTaskMemFree (pRasConInfo->pszwEntryName);
ZeroMemory (pRasConInfo, sizeof (*pRasConInfo));
}
//+---------------------------------------------------------------------------
//
// Function: FExistActiveRasConnections
//
// Purpose: Returns TRUE if there is at least one active RAS connection.
// Both incoming and outgoing connections are checked.
//
// Arguments:
// (none)
//
// Returns: TRUE if at least one incoming or outgoing RAS connection
// in progress. FALSE if not.
//
// Author: shaunco 8 Jul 1998
//
// Notes:
//
BOOL
FExistActiveRasConnections ()
{
BOOL fExist = FALSE;
RASCONN RasConn;
DWORD dwErr;
DWORD cbBuf;
DWORD cConnections;
ZeroMemory (&RasConn, sizeof(RasConn));
RasConn.dwSize = sizeof(RasConn);
cbBuf = sizeof(RasConn);
cConnections = 0;
dwErr = RasEnumConnections (&RasConn, &cbBuf, &cConnections);
if ((ERROR_SUCCESS == dwErr) || (ERROR_BUFFER_TOO_SMALL == dwErr))
{
fExist = (cbBuf > 0) || (cConnections > 0);
}
// If no outgoing connections active, check on incoming ones.
//
if (!fExist)
{
MPR_SERVER_HANDLE hMprServer;
LPBYTE lpbBuf = NULL;
DWORD dwEntriesRead = 0;
DWORD dwTotalEntries = 0;
ZeroMemory (&hMprServer, sizeof(hMprServer));
//get a handle to the local router ie. name = NULL
dwErr = MprAdminServerConnect( NULL, &hMprServer );
if (ERROR_SUCCESS == dwErr)
{
//retrieve a pointer to buffer containing all
//incoming connections (ie dwPrefMaxLen = -1) and
//the their count ( ie. dwTotalEntries )
dwErr = MprAdminConnectionEnum( hMprServer,
0,
&lpbBuf,
(DWORD)-1,
&dwEntriesRead,
&dwTotalEntries,
NULL );
if (ERROR_SUCCESS == dwErr)
{
fExist = (dwTotalEntries > 0);
}
// close the handle to the router
MprAdminServerDisconnect( hMprServer );
}
}
return fExist;
}
//+---------------------------------------------------------------------------
//
// Function: HrRciGetRasConnectionInfo
//
// Purpose: QI an INetConnection pointer for INetRasConnection and make
// a call to GetRasConnectionInfo on it.
//
// Arguments:
// pCon [in] The connection to QI and call.
// pRasConInfo [out] The returned information.
//
// Returns: S_OK or an error code.
//
// Author: shaunco 15 Nov 1997
//
// Notes:
//
HRESULT
HrRciGetRasConnectionInfo (
INetConnection* pCon,
RASCON_INFO* pRasConInfo)
{
INetRasConnection* pRasCon;
HRESULT hr = HrQIAndSetProxyBlanket(pCon, &pRasCon);
if (S_OK == hr)
{
// Make the call to get the info and release the interface.
//
hr = pRasCon->GetRasConnectionInfo (pRasConInfo);
ReleaseObj (pRasCon);
}
TraceError ("HrRciGetRasConnectionInfo", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasEnumAllActiveConnections
//
// Purpose: Enumerate and return all active RAS connections.
//
// Arguments:
// paRasConn [out] Pointer to returned allocation of RASCONN structures.
// pcRasConn [out] Pointer to count of RASCONN structures returned.
//
// Returns: S_OK or an error code.
//
// Author: shaunco 23 Sep 1997
//
// Notes: The returned buffer must be freed using free.
//
HRESULT
HrRasEnumAllActiveConnections (
RASCONN** paRasConn,
DWORD* pcRasConn)
{
// Allocate room for two active connections initially. We'll update
// this guess after we successfully allocate and find out how much was
// really needed. Saving it across calls will keep us from allocating
// too much or too little.
//
static DWORD cbBufGuess = 2 * sizeof (RASCONN);
DWORD cbBuf = cbBufGuess;
BOOL fRetry = TRUE;
// Initialize the output parameters.
//
*paRasConn = NULL;
*pcRasConn = NULL;
// Allocate cbBuf bytes.
//
allocate:
HRESULT hr = E_OUTOFMEMORY;
RASCONN* aRasConn = reinterpret_cast<RASCONN*>(MemAlloc (cbBuf));
if (aRasConn)
{
aRasConn->dwSize = sizeof (RASCONN);
DWORD cRasConn;
DWORD dwErr = RasEnumConnections (aRasConn, &cbBuf, &cRasConn);
hr = HRESULT_FROM_WIN32 (dwErr);
if (SUCCEEDED(hr))
{
// Update our guess for next time to be one more than we got back
// this time.
//
cbBufGuess = cbBuf + sizeof (RASCONN);
if (cRasConn)
{
*paRasConn = aRasConn;
*pcRasConn = cRasConn;
}
else
{
MemFree (aRasConn);
}
}
else
{
MemFree (aRasConn);
if (ERROR_BUFFER_TOO_SMALL == dwErr)
{
TraceTag (ttidWanCon, "Perf: Guessed buffer size incorrectly "
"calling RasEnumConnections.\n"
" Guessed %d, needed %d.", cbBufGuess, cbBuf);
// In case RAS makes more calls by the time we get back
// to enumerate with the bigger buffer, add room for a few
// more.
//
cbBuf += 2 * sizeof (RASCONN);
// Protect from an infinte loop by only retrying once.
//
if (fRetry)
{
fRetry = FALSE;
goto allocate;
}
}
}
}
TraceError ("HrRasEnumAllActiveConnections", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasEnumAllActiveServerConnections
//
// Purpose: Enumerate and return all active RAS server connections.
//
// Arguments:
// paRasSrvConn [out] Pointer to returned allocation of RASSRVCONN
// structures.
// pcRasSrvConn [out] Pointer to count of RASSRVCONN structures
// returned.
//
// Returns: S_OK or an error code.
//
// Author: shaunco 12 Nov 1997
//
// Notes: The returned buffer must be freed using free.
//
HRESULT
HrRasEnumAllActiveServerConnections (
RASSRVCONN** paRasSrvConn,
DWORD* pcRasSrvConn)
{
// Allocate room for two active connections initially. We'll update
// this guess after we successfully allocate and find out how much was
// really needed. Saving it across calls will keep us from allocating
// too much or too little.
//
static DWORD cbBufGuess = 2 * sizeof (RASSRVCONN);
DWORD cbBuf = cbBufGuess;
BOOL fRetry = TRUE;
// Initialize the output parameters.
//
*paRasSrvConn = NULL;
*pcRasSrvConn = NULL;
// Allocate cbBuf bytes.
//
allocate:
HRESULT hr = E_OUTOFMEMORY;
RASSRVCONN* aRasSrvConn = reinterpret_cast<RASSRVCONN*>(MemAlloc (cbBuf));
if (aRasSrvConn)
{
aRasSrvConn->dwSize = sizeof (RASSRVCONN);
DWORD cRasSrvConn;
DWORD dwErr = RasSrvEnumConnections (aRasSrvConn, &cbBuf, &cRasSrvConn);
hr = HRESULT_FROM_WIN32 (dwErr);
if (SUCCEEDED(hr))
{
// Update our guess for next time to be one more than we got back
// this time.
//
cbBufGuess = cbBuf + sizeof (RASSRVCONN);
if (cRasSrvConn)
{
*paRasSrvConn = aRasSrvConn;
*pcRasSrvConn = cRasSrvConn;
}
else
{
MemFree (aRasSrvConn);
}
}
else
{
MemFree (aRasSrvConn);
if (ERROR_BUFFER_TOO_SMALL == dwErr)
{
TraceTag (ttidWanCon, "Perf: Guessed buffer size incorrectly "
"calling RasSrvEnumConnections.\n"
" Guessed %d, needed %d.", cbBufGuess, cbBuf);
// In case RAS makes more calls by the time we get back
// to enumerate with the bigger buffer, add room for a few
// more.
//
cbBuf += 2 * sizeof (RASSRVCONN);
// Protect from an infinte loop by only retrying once.
//
if (fRetry)
{
fRetry = FALSE;
goto allocate;
}
}
}
}
TraceError ("HrRasEnumAllActiveServerConnections", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasEnumAllEntriesWithDetails
//
// Purpose: Enumerate and return all RAS entries in a phone book.
//
// Arguments:
// pszPhonebook [in] Phonebook file to use.
// paRasEntryDetails [out] Pointer to returned allocation of
// RASENUMENTRYDETAILS structures.
// pcRasEntryDetails [out] Pointer to count of RASENUMENTRYDETAILS
// structures returned.
//
// Returns: S_OK, S_FALSE if no entries, or an error code.
//
// Author: shaunco 2 Oct 1997
//
// Notes: The returned buffer must be freed using free.
//
HRESULT
HrRasEnumAllEntriesWithDetails (
PCWSTR pszPhonebook,
RASENUMENTRYDETAILS** paRasEntryDetails,
DWORD* pcRasEntryDetails)
{
// Allocate room for five entry names initially. We'll update
// this guess after we successfully allocate and find out how much was
// really needed. Saving it across calls will keep us from allocating
// too much or too little.
//
static DWORD cbBufGuess = 5 * sizeof (RASENUMENTRYDETAILS);
DWORD cbBuf = cbBufGuess;
BOOL fRetry = TRUE;
// Initialize the output parameters.
//
*paRasEntryDetails = NULL;
*pcRasEntryDetails = 0;
// Allocate cbBuf bytes.
//
allocate:
HRESULT hr = E_OUTOFMEMORY;
RASENUMENTRYDETAILS* aRasEntryDetails =
reinterpret_cast<RASENUMENTRYDETAILS*>(MemAlloc (cbBuf));
if (aRasEntryDetails)
{
ZeroMemory(aRasEntryDetails, cbBuf);
aRasEntryDetails->dwSize = sizeof (RASENUMENTRYDETAILS);
DWORD cRasEntryDetails;
DWORD dwErr = DwEnumEntryDetails (
pszPhonebook,
aRasEntryDetails,
&cbBuf, &cRasEntryDetails);
hr = HRESULT_FROM_WIN32 (dwErr);
if (SUCCEEDED(hr))
{
// Update our guess for next time to be one more than we got back
// this time.
//
cbBufGuess = cbBuf + sizeof (RASENUMENTRYDETAILS);
if (cRasEntryDetails)
{
*paRasEntryDetails = aRasEntryDetails;
*pcRasEntryDetails = cRasEntryDetails;
}
else
{
MemFree (aRasEntryDetails);
hr = S_FALSE;
}
}
else
{
MemFree (aRasEntryDetails);
if (ERROR_BUFFER_TOO_SMALL == dwErr)
{
TraceTag (ttidWanCon, "Perf: Guessed buffer size incorrectly "
"calling DwEnumEntryDetails.\n"
" Guessed %d, needed %d.", cbBufGuess, cbBuf);
// Protect from an infinte loop by only retrying once.
//
if (fRetry)
{
fRetry = FALSE;
goto allocate;
}
}
}
}
TraceError ("HrRasEnumAllEntriesWithDetails", (S_FALSE == hr) ? S_OK : hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrFindRasConnFromGuidId
//
// Purpose: Searches for the active RAS connection that corresponds to
// the phone book entry given by a GUID.
//
// Arguments:
// pguid [in] Pointer to the GUID which identifies the entry.
// phRasConn [out] The returned handle to the RAS connection if it
// was found. NULL otherwise.
// pRasConn [out] Optional pointer to returned RASCONN structure
// if found.
//
// Returns: S_OK if found, S_FALSE if not, or an error code.
//
// Author: shaunco 29 Sep 1997
//
// Notes:
//
HRESULT
HrFindRasConnFromGuidId (
IN const GUID* pguid,
OUT HRASCONN* phRasConn,
OUT RASCONN* pRasConn OPTIONAL)
{
Assert (pguid);
Assert (phRasConn);
HRESULT hr;
RASCONN* aRasConn;
DWORD cRasConn;
// Initialize the output parameter.
//
*phRasConn = NULL;
hr = HrRasEnumAllActiveConnections (&aRasConn, &cRasConn);
if (S_OK == hr)
{
hr = S_FALSE;
for (DWORD i = 0; i < cRasConn; i++)
{
if (*pguid == aRasConn[i].guidEntry)
{
*phRasConn = aRasConn[i].hrasconn;
if (pRasConn)
{
CopyMemory (pRasConn, &aRasConn[i], sizeof(RASCONN));
}
hr = S_OK;
break;
}
}
MemFree (aRasConn);
}
TraceHr (ttidError, FAL, hr, S_FALSE == hr, "HrFindRasConnFromGuidId");
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasGetEntryProperties
//
// Purpose: Wrapper around RasGetEntryProperties that returns an HRESULT
// and allocates the necessary memory automatically.
//
// Arguments:
// pszPhonebook [in]
// pszEntry [in]
// ppRasEntry [out]
//
// Returns: S_OK or an error code.
//
// Author: shaunco 6 Oct 1997
//
// Notes: The output parameters should be freed using free.
//
HRESULT
HrRasGetEntryProperties (
PCWSTR pszPhonebook,
PCWSTR pszEntry,
RASENTRY** ppRasEntry,
DWORD* pcbRasEntry)
{
// Init the output parameter if provided.
//
if (pcbRasEntry)
{
*pcbRasEntry = 0;
}
// Allocate room for RASENTRY structure plus 256 bytes initially.
// We'll update this guess after we successfully allocate and find out
// how much was really needed. Saving it across calls will keep us
// from allocating too much or too little.
//
static DWORD cbBufGuess = sizeof (RASENTRY) + 256;
DWORD cbBuf = cbBufGuess;
BOOL fRetry = TRUE;
// Initialize the output parameters.
//
*ppRasEntry = NULL;
if (pcbRasEntry)
{
*pcbRasEntry = 0;
}
// Allocate cbBuf bytes.
//
allocate:
HRESULT hr = E_OUTOFMEMORY;
RASENTRY* pRasEntry = reinterpret_cast<RASENTRY*>(MemAlloc (cbBuf));
if (pRasEntry)
{
pRasEntry->dwSize = sizeof (RASENTRY);
DWORD dwErr = RasGetEntryProperties (pszPhonebook, pszEntry,
pRasEntry, &cbBuf, NULL, NULL);
hr = HRESULT_FROM_WIN32 (dwErr);
if (SUCCEEDED(hr))
{
// Update our guess for next time to be a bit more than we
// got back this time.
//
cbBufGuess = cbBuf + 256;
*ppRasEntry = pRasEntry;
if (pcbRasEntry)
{
*pcbRasEntry = cbBuf;
}
}
else
{
MemFree (pRasEntry);
if (ERROR_BUFFER_TOO_SMALL == dwErr)
{
TraceTag (ttidWanCon, "Perf: Guessed buffer size incorrectly "
"calling RasGetEntryProperties.\n"
" Guessed %d, needed %d.", cbBufGuess, cbBuf);
// Protect from an infinte loop by only retrying once.
//
if (fRetry)
{
fRetry = FALSE;
goto allocate;
}
}
}
}
TraceError ("HrRasGetEntryProperties", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasGetSubEntryProperties
//
// Purpose: Wrapper around RasGetSubEntryProperties that returns an HRESULT
// and allocates the necessary memory automatically.
//
// Arguments:
// pszPhonebook [in]
// pszEntry [in]
// dwSubEntry [in]
// ppRasSubEntry [out]
//
// Returns: S_OK or an error code.
//
// Author: CWill 02/10/98
//
// Notes: The output parameters should be freed using free.
//
HRESULT
HrRasGetSubEntryProperties (
PCWSTR pszPhonebook,
PCWSTR pszEntry,
DWORD dwSubEntry,
RASSUBENTRY** ppRasSubEntry)
{
// Allocate room for RASSUBENTRY structure plus 256 bytes initially.
// We'll update this guess after we successfully allocate and find out
// how much was really needed. Saving it across calls will keep us
// from allocating too much or too little.
//
static DWORD cbBufGuess = sizeof (RASSUBENTRY) + 256;
DWORD cbBuf = cbBufGuess;
BOOL fRetry = TRUE;
// Initialize the output parameters.
//
*ppRasSubEntry = NULL;
// Allocate cbBuf bytes.
//
allocate:
HRESULT hr = E_OUTOFMEMORY;
RASSUBENTRY* pRasSubEntry = reinterpret_cast<RASSUBENTRY*>(MemAlloc (cbBuf));
if (pRasSubEntry)
{
pRasSubEntry->dwSize = sizeof (RASSUBENTRY);
DWORD dwErr = RasGetSubEntryProperties (pszPhonebook, pszEntry,
dwSubEntry, pRasSubEntry, &cbBuf, NULL, NULL);
hr = HRESULT_FROM_WIN32 (dwErr);
if (SUCCEEDED(hr))
{
// Update our guess for next time to be a bit more than we
// got back this time.
//
cbBufGuess = cbBuf + 256;
*ppRasSubEntry = pRasSubEntry;
}
else
{
MemFree (pRasSubEntry);
if (ERROR_BUFFER_TOO_SMALL == dwErr)
{
TraceTag (ttidWanCon, "Perf: Guessed buffer size incorrectly "
"calling RasGetSubEntryProperties.\n"
" Guessed %d, needed %d.", cbBufGuess, cbBuf);
// Protect from an infinte loop by only retrying once.
//
if (fRetry)
{
fRetry = FALSE;
goto allocate;
}
}
}
}
TraceError ("HrRasGetSubEntryProperties", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasGetNetconStatusFromRasConnectStatus
//
// Purpose: Returns a NETCON_STATUS value given a handle to a RAS
// connection by calling RasGetConnectStatus and mapping.
//
// Arguments:
// hRasConn [in] Handle to the RAS connection. (See Win32 RAS APIs.)
// pStatus [out] Pointer to where the NETCON_STATUS is returned.
//
// Returns: S_OK or an error code in the FACILITY_WIN32 facility.
//
// Author: shaunco 6 May 1998
//
// Notes:
//
HRESULT
HrRasGetNetconStatusFromRasConnectStatus (
HRASCONN hRasConn,
NETCON_STATUS* pStatus)
{
Assert (pStatus);
// Initialize the output parameter.
//
*pStatus = NCS_DISCONNECTED;
// Get its status and map it to our status.
//
RASCONNSTATUS RasConnStatus;
ZeroMemory (&RasConnStatus, sizeof(RasConnStatus));
RasConnStatus.dwSize = sizeof(RASCONNSTATUS);
DWORD dwErr = RasGetConnectStatus (hRasConn, &RasConnStatus);
HRESULT hr = HRESULT_FROM_WIN32 (dwErr);
TraceHr (ttidError, FAL, hr,
(HRESULT_FROM_WIN32(ERROR_INVALID_HANDLE) == hr),
"RasGetConnectStatus");
if (S_OK == hr)
{
if (RasConnStatus.rasconnstate & RASCS_DONE)
{
if (RASCS_Disconnected != RasConnStatus.rasconnstate)
{
*pStatus = NCS_CONNECTED;
}
}
else
{
*pStatus = NCS_CONNECTING;
}
}
TraceHr (ttidError, FAL, hr,
(HRESULT_FROM_WIN32(ERROR_INVALID_HANDLE) == hr),
"HrRasGetNetconStatusFromRasConnectStatus");
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasHangupUntilDisconnected
//
// Purpose: Call RasHangup until the connection is disconnected.
// Ras reference-counts RasDial/RasHangup, so this is called
// when the connection needs to be dropped no matter what.
// (For example, the behavior of disconnect from the shell
// is to drop the connection regardless of who dialed it.)
//
// Arguments:
// hRasConn [in] The connection to disconnect.
//
// Returns: S_OK or an error code.
//
// Author: shaunco 29 May 1999
//
HRESULT
HrRasHangupUntilDisconnected (
IN HRASCONN hRasConn)
{
HRESULT hr = E_UNEXPECTED;
BOOL fDisconnectAgain;
do
{
fDisconnectAgain = FALSE;
// Hang up.
//
DWORD dwErr = RasHangUp (hRasConn);
hr = HRESULT_FROM_WIN32 (dwErr);
TraceError ("RasHangUp", hr);
if (SUCCEEDED(hr))
{
// Since the connection may be ref-counted, see if
// it's still connected and, if it is, go back and
// disconnect again.
//
HRESULT hrT;
NETCON_STATUS Status;
hrT = HrRasGetNetconStatusFromRasConnectStatus (
hRasConn,
&Status);
if ((S_OK == hrT) && (NCS_CONNECTED == Status))
{
fDisconnectAgain = TRUE;
TraceTag (ttidWanCon, "need to disconnect again...");
}
}
} while (fDisconnectAgain);
TraceHr (ttidError, FAL, hr, FALSE, "HrRasHangupUntilDisconnected");
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasNetConToSharedConnection
//
// Purpose: Converts an 'INetConnection' to the format expected
// by the RAS sharing API routines.
//
// Arguments:
// pCon [in]
// prcs [out]
//
// Returns: S_OK or an error code.
//
// Author: AboladeG 05/14/98
//
// Notes:
//
HRESULT
HrNetConToSharedConnection (
INetConnection* pCon,
LPRASSHARECONN prsc)
{
HRESULT hr;
NETCON_PROPERTIES* pProps;
hr = pCon->GetProperties(&pProps);
if (SUCCEEDED(hr))
{
if (pProps->MediaType == NCM_LAN)
{
RasGuidToSharedConnection(&pProps->guidId, prsc);
}
else
{
INetRasConnection* pnrc;
hr = HrQIAndSetProxyBlanket(pCon, &pnrc);
if (SUCCEEDED(hr))
{
RASCON_INFO rci;
hr = pnrc->GetRasConnectionInfo (&rci);
if (SUCCEEDED(hr))
{
RasEntryToSharedConnection (
rci.pszwPbkFile, rci.pszwEntryName, prsc );
RciFree (&rci);
}
ReleaseObj (pnrc);
}
}
FreeNetconProperties(pProps);
}
TraceError ("HrRasNetConToSharedConnection", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasIsSharedConnection
//
// Purpose: Wrapper around RasIsSharedConnection that returns an HRESULT.
//
// Arguments:
// prsc [in]
// pfShared [out]
//
// Returns: S_OK or an error code.
//
// Author: AboladeG 05/04/98
//
// Notes:
//
HRESULT
HrRasIsSharedConnection (
LPRASSHARECONN prsc,
BOOL* pfShared)
{
*pfShared = FALSE;
DWORD dwErr = RasIsSharedConnection (prsc, pfShared);
HRESULT hr = HRESULT_FROM_WIN32 (dwErr);
TraceError ("HrRasIsSharedConnection", hr);
return hr;
}
#if 0
//+---------------------------------------------------------------------------
//
// Function: HrRasQueryLanConnTable
//
// Purpose: Wrapper around RasQueryLanConnTable that returns an HRESULT.
//
// Arguments:
// prsc [in]
// ppLanTable [out,optional]
// pdwLanCount [out]
//
// Returns: S_OK or an error code.
//
// Author: AboladeG 05/14/98
//
// Notes:
//
HRESULT
HrRasQueryLanConnTable (
LPRASSHARECONN prsc,
NETCON_PROPERTIES** ppLanTable,
LPDWORD pdwLanCount)
{
DWORD dwErr = RasQueryLanConnTable (prsc, (LPVOID*)ppLanTable, pdwLanCount);
HRESULT hr = HRESULT_FROM_WIN32 (dwErr);
TraceError ("HrRasQueryLanConnTable", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasShareConnection
//
// Purpose: Wrapper around RasShareConnection that returns an HRESULT.
//
// Arguments:
// prsc [in]
// pPrivateLanGuid [in,optional]
//
// Returns: S_OK or an error code.
//
// Author: AboladeG 05/14/98
//
// Notes:
//
HRESULT
HrRasShareConnection (
LPRASSHARECONN prsc,
GUID* pPrivateLanGuid)
{
DWORD dwErr = RasShareConnection (prsc, pPrivateLanGuid);
HRESULT hr = HRESULT_FROM_WIN32 (dwErr);
TraceError ("HrRasShareConnection", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Function: HrRasUnshareConnection
//
// Purpose: Wrapper around HrRasUnshareConnection that returns an HRESULT.
//
// Arguments:
// pfWasShared [out]
//
// Returns: S_OK or an error code.
//
// Author: AboladeG 05/14/98
//
// Notes:
//
HRESULT
HrRasUnshareConnection (
PBOOL pfWasShared)
{
HRESULT hr;
DWORD dwErr = RasUnshareConnection (pfWasShared);
hr = HRESULT_FROM_WIN32 (dwErr);
TraceError ("HrRasUnshareConnection", hr);
return hr;
}
#endif
//+---------------------------------------------------------------------------
//
// Function: NcRasMsgBoxWithErrorText
//
// Purpose: Displays a message box using a RAS or Win32 error code,
// resource strings and replaceable parameters.
// The output text is a combination of the user's format
// string (with parameter's replaced) and the Win32 error
// text as returned from FormatMessage. These two strings
// are combined using the IDS_TEXT_WITH_WIN32_ERROR resource.
//
// Arguments:
// dwError [in] RAS/Win32 error code
// hinst [in] Module instance where string resources live.
// hwnd [in] parent window handle
// unIdCaption [in] resource id of caption string
// unIdCombineFormat [in] resource id of format string to combine
// error text with unIdFormat text.
// unIdFormat [in] resource id of text string (with %1, %2, etc.)
// unStyle [in] standard message box styles
// ... [in] replaceable parameters (optional)
// (these must be PCWSTRs as that is all
// FormatMessage handles.)
//
// Returns: the return value of MessageBox()
//
// Author: aboladeg 15 May 1997
//
// Notes: FormatMessage is used to do the parameter substitution.
//
// Revision: based on NcMsgBoxWithWin32ErrorText by shaunco.
//
NOTHROW
int
WINAPIV
NcRasMsgBoxWithErrorText (
DWORD dwError,
HINSTANCE hinst,
HWND hwnd,
UINT unIdCaption,
UINT unIdCombineFormat,
UINT unIdFormat,
UINT unStyle,
...)
{
// Get the user's text with parameter's replaced.
//
PCWSTR pszFormat = SzLoadString (hinst, unIdFormat);
PWSTR pszText;
va_list val;
va_start (val, unStyle);
FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_STRING,
pszFormat, 0, 0, (PWSTR)&pszText, 0, &val);
va_end(val);
// Get the error text for the Win32 error.
//
PWSTR pszError = NULL;
if (dwError < RASBASE || dwError > RASBASEEND)
{
FormatMessage (
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM,
NULL, dwError, MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL),
(PWSTR)&pszError, 0, NULL);
}
else
{
pszError = (PWSTR)LocalAlloc (0, (256 + 1) * sizeof(WCHAR));
if (pszError)
{
RasGetErrorString(dwError, pszError, 256);
}
}
// Combine the user's text with the error text using IDS_TEXT_WITH_WIN32_ERROR.
//
PCWSTR pszTextWithErrorFmt = SzLoadString (hinst, unIdCombineFormat);
PWSTR pszTextWithError;
DwFormatStringWithLocalAlloc (pszTextWithErrorFmt, &pszTextWithError,
pszText, pszError);
PCWSTR pszCaption = SzLoadString (hinst, unIdCaption);
int nRet = MessageBox(hwnd, pszTextWithError, pszCaption, unStyle);
LocalFree (pszTextWithError);
LocalFree (pszError);
LocalFree (pszText);
return nRet;
}
//+---------------------------------------------------------------------------
//
// Function: RasSrvTypeFromRasDeviceType
//
// Purpose: Converts from RASDEVICETYPE into an accepted incoming type
//
// Arguments:
// rdt [in] the RasDeviceType
//
// Returns: RASSRVUI_Xxx type
//
// Author: ckotze 19 Apr 2001
//
// Notes:
//
DWORD RasSrvTypeFromRasDeviceType(RASDEVICETYPE rdt)
{
DWORD dwType = RASSRVUI_MODEM;
TraceTag (ttidWanCon, "rdt:0x%08x, dwType:0x%08x",
rdt,
dwType);
switch (LOWORD(rdt))
{
case RDT_PPPoE:
dwType = RASSRVUI_MODEM;
break;
case RDT_Modem:
case RDT_X25:
dwType = RASSRVUI_MODEM;
break;
case RDT_Isdn:
dwType = RASSRVUI_MODEM;
break;
case RDT_Serial:
case RDT_FrameRelay:
case RDT_Atm:
case RDT_Sonet:
case RDT_Sw56:
dwType = RASSRVUI_MODEM;
break;
case RDT_Tunnel_Pptp:
case RDT_Tunnel_L2tp:
dwType = RASSRVUI_VPN;
break;
case RDT_Irda:
case RDT_Parallel:
dwType = RASSRVUI_DCC;
break;
case RDT_Other:
default:
dwType = RASSRVUI_MODEM;
}
if (rdt & RDT_Tunnel)
{
dwType = RASSRVUI_VPN;
}
else if (rdt & (RDT_Direct | RDT_Null_Modem))
{
dwType = RASSRVUI_DCC;
}
return dwType;
}