Google Git
Sign in
fuchsia / third_party / mdnsresponder / 6d0bc5a2d936ca60f51294c634d4d9ac8ee7393f / . / Clients / PrinterSetupWizard / PrinterSetupWizardSheet.cpp
blob: 07e9ca061763889a06c68794934d87a048233318 [file] [log] [blame]
/* -*- Mode: C; tab-width: 4 -*-
*
* Copyright (c) 1997-2004 Apple Computer, Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "stdafx.h"
#include "PrinterSetupWizardApp.h"
#include "PrinterSetupWizardSheet.h"
#include "CommonServices.h"
#include "DebugServices.h"
#include "WinServices.h"
#include "About.h"
#include <winspool.h>
#include <tcpxcv.h>
#include <string>
#include <shlwapi.h>
// unreachable code
#pragma warning(disable:4702)
#if( !TARGET_OS_WINDOWS_CE )
# include <mswsock.h>
# include <process.h>
#endif
#if defined( UNICODE ) || defined( _UNICODE )
# define GetEnv _wgetenv
#else
# define GetEnv getenv
#endif
static TCHAR*
g_printerDriverFiles[] = // Printer driver files
{
TEXT( "ps5ui.dll" ),
TEXT( "pscript.hlp" ),
TEXT( "pscript.ntf" ),
TEXT( "pscript5.dll" ),
TEXT( "cups6.ini" ),
TEXT( "cupsui6.dll" ),
TEXT( "cupsps6.dll" )
};
// Private Messages
#define WM_SOCKET_EVENT ( WM_USER + 0x100 )
#define WM_PROCESS_EVENT ( WM_USER + 0x101 )
static BOOL
Is64BitWindows()
{
#if defined(_WIN64)
return TRUE; // 64-bit programs run only on Win64
#else
typedef BOOL (WINAPI *LPFN_ISWOW64PROCESS)( HANDLE, PBOOL );
LPFN_ISWOW64PROCESS fnIsWow64Process;
BOOL bIsWow64 = FALSE;
fnIsWow64Process = ( LPFN_ISWOW64PROCESS ) GetProcAddress( GetModuleHandle( TEXT( "kernel32" ) ), "IsWow64Process" );
if ( fnIsWow64Process != NULL )
{
BOOL ok;
ok = fnIsWow64Process( GetCurrentProcess(), &bIsWow64 );
if ( !ok )
{
bIsWow64 = FALSE;
}
}
return bIsWow64;
#endif
}
// CPrinterSetupWizardSheet
CPrinterSetupWizardSheet * CPrinterSetupWizardSheet::m_self;
IMPLEMENT_DYNAMIC(CPrinterSetupWizardSheet, CPropertySheet)
CPrinterSetupWizardSheet::CPrinterSetupWizardSheet(UINT nIDCaption, CWnd* pParentWnd, UINT iSelectPage)
:CPropertySheet(nIDCaption, pParentWnd, iSelectPage),
m_selectedPrinter(NULL),
m_driverThreadExitCode( 0 ),
m_driverThreadFinished( false ),
m_pdlBrowser( NULL ),
m_ippBrowser( NULL ),
m_lprBrowser( NULL ),
m_lastPage( NULL )
{
m_arrow = LoadCursor(0, IDC_ARROW);
m_wait = LoadCursor(0, IDC_APPSTARTING);
m_active = m_arrow;
m_self = this;
Init();
LoadPrinterNames();
}
CPrinterSetupWizardSheet::~CPrinterSetupWizardSheet()
{
Printer * printer;
while ( m_printers.size() > 0 )
{
printer = m_printers.front();
m_printers.pop_front();
delete printer;
}
m_self = NULL;
}
// ------------------------------------------------------
// SetSelectedPrinter
//
// Manages setting a printer as the printer to install. Stops
// any pending resolves.
//
void
CPrinterSetupWizardSheet::SetSelectedPrinter(Printer * printer)
{
check( !printer || ( printer != m_selectedPrinter ) );
m_selectedPrinter = printer;
}
OSStatus
CPrinterSetupWizardSheet::LoadPrinterNames()
{
PBYTE buffer = NULL;
OSStatus err = 0;
//
// rdar://problem/3701926 - Printer can't be installed twice
//
// First thing we want to do is make sure the printer isn't already installed.
// If the printer name is found, we'll try and rename it until we
// find a unique name
//
DWORD dwNeeded = 0, dwNumPrinters = 0;
BOOL ok = EnumPrinters(PRINTER_ENUM_LOCAL, NULL, 4, NULL, 0, &dwNeeded, &dwNumPrinters);
err = translate_errno( ok, errno_compat(), kUnknownErr );
if ((err == ERROR_INSUFFICIENT_BUFFER) && (dwNeeded > 0))
{
try
{
buffer = new unsigned char[dwNeeded];
}
catch (...)
{
buffer = NULL;
}
require_action( buffer, exit, kNoMemoryErr );
ok = EnumPrinters(PRINTER_ENUM_LOCAL, NULL, 4, buffer, dwNeeded, &dwNeeded, &dwNumPrinters);
err = translate_errno( ok, errno_compat(), kUnknownErr );
require_noerr( err, exit );
for (DWORD index = 0; index < dwNumPrinters; index++)
{
PRINTER_INFO_4 * lppi4 = (PRINTER_INFO_4*) (buffer + index * sizeof(PRINTER_INFO_4));
m_printerNames.push_back( lppi4->pPrinterName );
}
}
exit:
if (buffer != NULL)
{
delete [] buffer;
}
return err;
}
// ------------------------------------------------------
// InstallPrinter
//
// Installs a printer with Windows.
//
// Note: this works one of two ways, depending on whether
// there are drivers already installed for this printer.
// If there are, then we can just create a port with XcvData,
// and then call AddPrinter. If not, we use the printui.dll
// to install the printer. Actually installing drivers that
// are not currently installed is painful, and it's much
// easier and less error prone to just let printui.dll do
// the hard work for us.
//
OSStatus
CPrinterSetupWizardSheet::InstallPrinter(Printer * printer)
{
Logger log;
CUPSLibrary cupsLib;
Service * service = NULL;
BOOL ok;
OSStatus err = 0;
service = printer->services.front();
check( service );
if ( printer->isCUPSPrinter && cupsLib.IsInstalled() )
{
err = InstallPrinterCUPS( printer, service, cupsLib );
require_noerr( err, exit );
}
else
{
//
// if the driver isn't installed, then install it
//
if ( !printer->driverInstalled )
{
DWORD dwResult;
HANDLE hThread;
unsigned threadID;
m_driverThreadFinished = false;
//
// create the thread
//
hThread = (HANDLE) _beginthreadex_compat( NULL, 0, InstallDriverThread, printer, 0, &threadID );
err = translate_errno( hThread, (OSStatus) GetLastError(), kUnknownErr );
require_noerr_with_log( log, "_beginthreadex_compat()", err, exit );
//
// go modal
//
while (!m_driverThreadFinished)
{
MSG msg;
GetMessage( &msg, m_hWnd, 0, 0 );
TranslateMessage(&msg);
DispatchMessage(&msg);
}
//
// Wait until child process exits.
//
dwResult = WaitForSingleObject( hThread, INFINITE );
err = translate_errno( dwResult == WAIT_OBJECT_0, errno_compat(), err = kUnknownErr );
require_noerr_with_log( log, "WaitForSingleObject()", err, exit );
//
// check the return value of thread
//
require_noerr_with_log( log, "thread exit code", m_driverThreadExitCode, exit );
//
// now we know that the driver was successfully installed
//
printer->driverInstalled = true;
}
if ( service->type == kPDLServiceType )
{
err = InstallPrinterPort( printer, service, PROTOCOL_RAWTCP_TYPE, log );
require_noerr_with_log( log, "InstallPrinterPort()", err, exit );
err = InstallPrinterPDLAndLPR( printer, service, log );
require_noerr_with_log( log, "InstallPrinterPDLAndLPR()", err, exit );
}
else if ( service->type == kLPRServiceType )
{
err = InstallPrinterPort( printer, service, PROTOCOL_LPR_TYPE, log );
require_noerr_with_log( log, "InstallPrinterPort()", err, exit );
err = InstallPrinterPDLAndLPR( printer, service, log );
require_noerr_with_log( log, "InstallPrinterPDLAndLPR()", err, exit );
}
else if ( service->type == kIPPServiceType )
{
// There's no need to install a printer port for IPP printers, because
// the call to AddPrinter() will do that for us.
err = InstallPrinterIPP( printer, service, log );
require_noerr_with_log( log, "InstallPrinterIPP()", err, exit );
}
else
{
require_action_with_log( log, ( service->type == kPDLServiceType ) || ( service->type == kLPRServiceType ) || ( service->type == kIPPServiceType ), exit, err = kUnknownErr );
}
}
printer->installed = true;
//
// if the user specified a default printer, set it
//
if (printer->deflt)
{
ok = SetDefaultPrinter( printer->actualName );
err = translate_errno( ok, errno_compat(), err = kUnknownErr );
require_noerr_with_log( log, "SetDefaultPrinter()", err, exit );
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::InstallPrinterPort( Printer * printer, Service * service, DWORD protocol, Logger & log )
{
PRINTER_DEFAULTS printerDefaults = { NULL, NULL, SERVER_ACCESS_ADMINISTER };
PORT_DATA_1 portData;
DWORD dwStatus;
DWORD cbInputData = 100;
PBYTE pOutputData = NULL;
DWORD cbOutputNeeded = 0;
HANDLE hXcv = NULL;
Queue * q;
BOOL ok;
OSStatus err;
ZeroMemory(&portData, sizeof(PORT_DATA_1));
require_action_with_log( log, wcslen(printer->portName) < sizeof_array(portData.sztPortName), exit, err = kSizeErr );
wcscpy_s(portData.sztPortName, printer->portName);
q = service->queues.front();
check( q );
ok = OpenPrinter(L",XcvMonitor Standard TCP/IP Port", &hXcv, &printerDefaults);
err = translate_errno( ok, errno_compat(), kUnknownErr );
require_noerr_with_log( log, "OpenPrinter()", err, exit );
//
// BUGBUG: MSDN said this is not required, but my experience shows it is required
//
try
{
pOutputData = new BYTE[cbInputData];
}
catch (...)
{
pOutputData = NULL;
}
require_action_with_log( log, pOutputData, exit, err = kNoMemoryErr );
portData.dwPortNumber = service->portNumber;
portData.dwVersion = 1;
portData.dwDoubleSpool = 1;
portData.dwProtocol = protocol;
portData.cbSize = sizeof PORT_DATA_1;
portData.dwReserved = 0L;
require_action_with_log( log, wcslen(q->name) < sizeof_array(portData.sztQueue), exit, err = kSizeErr );
wcscpy_s(portData.sztQueue, q->name);
require_action_with_log( log, wcslen( service->hostname ) < sizeof_array(portData.sztHostAddress), exit, err = kSizeErr );
wcscpy_s( portData.sztHostAddress, service->hostname );
ok = XcvData(hXcv, L"AddPort", (PBYTE) &portData, sizeof(PORT_DATA_1), pOutputData, cbInputData, &cbOutputNeeded, &dwStatus);
err = translate_errno( ok, errno_compat(), kUnknownErr );
require_noerr_with_log( log, "XcvData()", err, exit );
exit:
if (hXcv != NULL)
{
ClosePrinter(hXcv);
}
if (pOutputData != NULL)
{
delete [] pOutputData;
}
return err;
}
OSStatus
CPrinterSetupWizardSheet::InstallPrinterPDLAndLPR(Printer * printer, Service * service, Logger & log )
{
PRINTER_INFO_2 pInfo;
HANDLE hPrinter = NULL;
Queue * q;
OSStatus err;
check(printer != NULL);
check(printer->installed == false);
q = service->queues.front();
check( q );
//
// add the printer
//
ZeroMemory(&pInfo, sizeof(pInfo));
pInfo.pPrinterName = printer->actualName.GetBuffer();
pInfo.pServerName = NULL;
pInfo.pShareName = NULL;
pInfo.pPortName = printer->portName.GetBuffer();
pInfo.pDriverName = printer->modelName.GetBuffer();
pInfo.pComment = printer->displayModelName.GetBuffer();
pInfo.pLocation = q->location.GetBuffer();
pInfo.pDevMode = NULL;
pInfo.pDevMode = NULL;
pInfo.pSepFile = L"";
pInfo.pPrintProcessor = L"winprint";
pInfo.pDatatype = L"RAW";
pInfo.pParameters = L"";
pInfo.pSecurityDescriptor = NULL;
pInfo.Attributes = PRINTER_ATTRIBUTE_QUEUED;
pInfo.Priority = 0;
pInfo.DefaultPriority = 0;
pInfo.StartTime = 0;
pInfo.UntilTime = 0;
hPrinter = AddPrinter(NULL, 2, (LPBYTE) &pInfo);
err = translate_errno( hPrinter, errno_compat(), kUnknownErr );
require_noerr_with_log( log, "AddPrinter()", err, exit );
exit:
if (hPrinter != NULL)
{
ClosePrinter(hPrinter);
}
return err;
}
OSStatus
CPrinterSetupWizardSheet::InstallPrinterIPP(Printer * printer, Service * service, Logger & log)
{
DEBUG_UNUSED( service );
Queue * q = service->SelectedQueue();
HANDLE hPrinter = NULL;
PRINTER_INFO_2 pInfo;
OSStatus err;
check( q );
//
// add the printer
//
ZeroMemory(&pInfo, sizeof(PRINTER_INFO_2));
pInfo.pPrinterName = printer->actualName.GetBuffer();
pInfo.pPortName = printer->portName.GetBuffer();
pInfo.pDriverName = printer->modelName.GetBuffer();
pInfo.pPrintProcessor = L"winprint";
pInfo.pLocation = q->location.GetBuffer();
pInfo.pComment = printer->displayModelName.GetBuffer();
pInfo.Attributes = PRINTER_ATTRIBUTE_NETWORK | PRINTER_ATTRIBUTE_LOCAL;
hPrinter = AddPrinter(NULL, 2, (LPBYTE)&pInfo);
err = translate_errno( hPrinter, errno_compat(), kUnknownErr );
require_noerr_with_log( log, "AddPrinter()", err, exit );
exit:
if ( hPrinter != NULL )
{
ClosePrinter(hPrinter);
}
return err;
}
OSStatus
CPrinterSetupWizardSheet::InstallPrinterCUPS(Printer * printer, Service * service, CUPSLibrary & cupsLib )
{
OSStatus err = kNoErr;
check( printer );
check( service );
check( cupsLib.IsInstalled() );
err = InstallPrinterCUPS( printer, service, cupsLib, TEXT( "Windows NT x86" ) );
require_noerr( err, exit );
if ( Is64BitWindows() )
{
err = InstallPrinterCUPS( printer, service, cupsLib, TEXT( "Windows x64" ) );
require_noerr( err, exit );
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::InstallPrinterCUPS(Printer * printer, Service * service, CUPSLibrary & cupsLib, TCHAR * env )
{
Queue * q;
CString ppdfile; // PPD file for printer drivers
TCHAR driverdir[1024]; // Directory for driver files
DWORD needed; // Bytes needed
DRIVER_INFO_3 driverinfo; // Driver information
PRINTER_INFO_2 printerinfo; // Printer information
HANDLE printerHandle = NULL; // Handle to printer
CString filename; // Driver filename
CString dependentFiles; // List of dependent files
CString portName; // Port Name
int bytes; // Bytes copied
TCHAR datadir[ MAX_PATH ]; // Driver files location
CFile in; // Input file
CFile out; // Output file
void * http; // Connection to server
char buffer[4096]; // Copy/error buffer
CString platform;
char hostname[ 1024 ];
CString dest;
char destANSI[ 1024 ];
int i;
DWORD num;
OSStatus err = 0;
BOOL ok;
check( printer );
check( service );
check( cupsLib.IsInstalled() );
check( env );
// What do we do here for multiple queues?
q = service->queues.front();
require_action( q != NULL, exit, err = kUnknownErr );
num = GetModuleFileName( NULL, datadir, MAX_PATH );
err = translate_errno( num > 0, GetLastError(), kUnknownErr );
require_noerr( err, exit );
ok = PathRemoveFileSpec( datadir );
require_action( ok, exit, err = kUnknownErr );
ok = GetPrinterDriverDirectory(NULL, env, 1, ( LPBYTE ) driverdir, sizeof( driverdir ), &needed );
err = translate_errno( ok, GetLastError(), kUnknownErr );
require_noerr( err, exit );
platform = env;
platform = platform.Right( 3 );
// Append the supported banner pages to the PPD file...
err = StringObjectToUTF8String( service->hostname, hostname, sizeof( hostname ) );
require_noerr( err, exit );
http = cupsLib.httpConnectEncrypt( hostname, service->portNumber, cupsLib.cupsEncryption() );
err = translate_errno( http != NULL, errno, kUnknownErr );
require_noerr( err, exit );
if ( ( service->portNumber == 443 ) || ( cupsLib.cupsEncryption() >= HTTP_ENCRYPT_REQUIRED ) )
{
// This forces the use the https: URLs below...
cupsLib.cupsSetEncryption( HTTP_ENCRYPT_ALWAYS );
}
// Strip the leading "printers/" or "classes/" from the beginning
// of the name
dest = q->name;
dest.Replace( TEXT( "printers/" ), TEXT( "" ) );
dest.Replace( TEXT( "classes/" ), TEXT( "" ) );
err = StringObjectToUTF8String( dest, destANSI, sizeof( destANSI ) );
require_noerr( err, exit );
// Get the PPD file...
for ( i = 0; i < 10; i++ )
{
char ppdfileANSI[ 1024 ];
if ( cupsLib.cupsAdminCreateWindowsPPD( http, destANSI, ppdfileANSI, sizeof( ppdfileANSI ) ) )
{
err = UTF8StringToStringObject( ppdfileANSI, ppdfile );
require_noerr( err, exit );
break;
}
}
err = translate_errno( i < 10, errno, kUnknownErr );
require_noerr( err, exit );
// Copy the PPD file to the Windows driver directory...
filename.Format( TEXT( "%s/%s.ppd" ), driverdir, dest );
ok = in.Open( ppdfile, CFile::modeRead | CFile::typeBinary );
translate_errno( ok, GetLastError(), kUnknownErr );
require_noerr( err, exit );
ok = out.Open( filename, CFile::modeCreate | CFile::modeWrite | CFile::typeBinary );
translate_errno( ok, GetLastError(), kUnknownErr );
require_noerr( err, exit );
while ( ( bytes = in.Read( buffer, sizeof(buffer) ) ) > 0 )
{
out.Write(buffer, bytes );
}
in.Close();
out.Close();
// Cleanup temp file...
CFile::Remove( ppdfile );
// Copy the driver files to the driver directory...
for ( i = 0; i < ( sizeof( g_printerDriverFiles ) / sizeof( g_printerDriverFiles[0] ) ); i++ )
{
filename.Format( TEXT( "%s/drivers/%s/%s" ), datadir, platform, g_printerDriverFiles[i]);
ok = in.Open(filename, CFile::modeRead | CFile::typeBinary );
err = translate_errno( ok, GetLastError(), kUnknownErr );
require_noerr( err, exit );
filename.Format( TEXT( "%s/%s" ), driverdir, g_printerDriverFiles[i] );
ok = out.Open(filename, CFile::modeCreate | CFile::modeWrite | CFile::typeBinary );
err = translate_errno( ok, errno, kUnknownErr );
while ( ( bytes = in.Read(buffer, sizeof( buffer ) ) ) > 0 )
{
out.Write( buffer, bytes );
}
in.Close();
out.Close();
}
// Do the Windows system calls needed to add the printer driver...
filename.Format( TEXT( "%s.ppd" ), dest);
dependentFiles.Format( TEXT( "pscript5.dll%c" ) TEXT( "%s.ppd%c" ) TEXT( "ps5ui.dll%c" ) TEXT( "pscript.hlp%c" ) TEXT( "pscript.ntf%c" ) TEXT( "cups6.ini%c" ) TEXT( "cupsps6.dll%c" ) TEXT( "cupsui6.dll%c" ), 0, dest, 0, 0, 0, 0, 0, 0, 0);
driverinfo.cVersion = 3;
driverinfo.pName = printer->actualName.GetBuffer();
driverinfo.pEnvironment = env;
driverinfo.pDriverPath = TEXT( "pscript5.dll" );
driverinfo.pDataFile = filename.GetBuffer();
driverinfo.pConfigFile = TEXT( "ps5ui.dll" );
driverinfo.pHelpFile = TEXT( "pscript.hlp" );
driverinfo.pDependentFiles = dependentFiles.GetBuffer();
driverinfo.pMonitorName = NULL;
driverinfo.pDefaultDataType = TEXT( "raw" );
ok = AddPrinterDriverEx(NULL, 3, (LPBYTE) &driverinfo, APD_COPY_ALL_FILES );
err = translate_errno( ok, GetLastError(), kUnknownErr );
require_noerr( err, exit );
// See if the printer has already been added?
if ( OpenPrinter( printer->actualName.GetBuffer(), &printerHandle, NULL ) )
{
// Printer already exists, so we are done now...
goto exit;
}
// Add the printer using the HTTP/IPP port...
portName.Format( TEXT( "%s://%s:%d/printers/%s" ), cupsLib.cupsEncryption() == HTTP_ENCRYPT_ALWAYS ? TEXT( "https" ) : TEXT( "http" ), service->hostname.GetBuffer(), service->portNumber, dest );
memset(&printerinfo, 0, sizeof(printerinfo));
printerinfo.pPrinterName = printer->actualName.GetBuffer();
printerinfo.pPortName = portName.GetBuffer();
printerinfo.pDriverName = printer->actualName.GetBuffer();
printerinfo.Attributes = PRINTER_ATTRIBUTE_NETWORK | PRINTER_ATTRIBUTE_LOCAL;
printerinfo.pComment = q->description.GetBuffer();
printerinfo.pLocation = q->location.GetBuffer();
printerinfo.pPrintProcessor = TEXT( "winprint" );
printerHandle = AddPrinter( NULL, 2, (LPBYTE) &printerinfo );
err = translate_errno( printerHandle, GetLastError(), kUnknownErr );
require_noerr( err, exit );
exit:
if ( printerHandle != NULL )
{
ClosePrinter( printerHandle );
printerHandle = NULL;
}
return err;
}
BEGIN_MESSAGE_MAP(CPrinterSetupWizardSheet, CPropertySheet)
ON_MESSAGE( WM_SOCKET_EVENT, OnSocketEvent )
ON_MESSAGE( WM_PROCESS_EVENT, OnProcessEvent )
ON_WM_SETCURSOR()
ON_WM_TIMER()
END_MESSAGE_MAP()
// ------------------------------------------------------
// OnCommand
//
// Traps when the user hits Finish
//
BOOL CPrinterSetupWizardSheet::OnCommand(WPARAM wParam, LPARAM lParam)
{
//
// Check if this is OK
//
if (wParam == ID_WIZFINISH) // If OK is hit...
{
OnOK();
}
return CPropertySheet::OnCommand(wParam, lParam);
}
// ------------------------------------------------------
// OnInitDialog
//
// Initializes this Dialog object.
//
BOOL CPrinterSetupWizardSheet::OnInitDialog()
{
OSStatus err;
CPropertySheet::OnInitDialog();
err = StartBrowse();
require_noerr( err, exit );
exit:
if ( err )
{
StopBrowse();
if ( err == kDNSServiceErr_Firewall )
{
CString text, caption;
text.LoadString( IDS_FIREWALL );
caption.LoadString( IDS_FIREWALL_CAPTION );
MessageBox(text, caption, MB_OK|MB_ICONEXCLAMATION);
}
else
{
CString text, caption;
text.LoadString( IDS_NO_MDNSRESPONDER_SERVICE_TEXT );
caption.LoadString( IDS_ERROR_CAPTION );
MessageBox(text, caption, MB_OK|MB_ICONEXCLAMATION);
_exit( 0 );
}
}
return TRUE;
}
// ------------------------------------------------------
// OnSetCursor
//
// This is called when Windows wants to know what cursor
// to display. So we tell it.
//
BOOL
CPrinterSetupWizardSheet::OnSetCursor(CWnd * pWnd, UINT nHitTest, UINT message)
{
DEBUG_UNUSED(pWnd);
DEBUG_UNUSED(nHitTest);
DEBUG_UNUSED(message);
SetCursor(m_active);
return TRUE;
}
// ------------------------------------------------------
// OnContextMenu
//
// This is not fully implemented yet.
//
void
CPrinterSetupWizardSheet::OnContextMenu(CWnd * pWnd, CPoint pos)
{
DEBUG_UNUSED(pWnd);
DEBUG_UNUSED(pos);
CAbout dlg;
dlg.DoModal();
}
// ------------------------------------------------------
// OnOK
//
// This is called when the user hits the "Finish" button
//
void
CPrinterSetupWizardSheet::OnOK()
{
CWnd * window;
OSStatus err;
check ( m_selectedPrinter != NULL );
SetWizardButtons( PSWIZB_DISABLEDFINISH );
window = GetDlgItem( IDCANCEL );
if ( window )
{
window->EnableWindow( FALSE );
}
m_pgFourth.StartActivityIndicator();
err = InstallPrinter( m_selectedPrinter );
m_pgFourth.StopActivityIndicator();
if ( err != kNoErr )
{
CString caption;
CString message;
caption.LoadString(IDS_INSTALL_ERROR_CAPTION);
caption.AppendFormat( TEXT( " (%d)" ), err );
message.LoadString(IDS_INSTALL_ERROR_MESSAGE);
MessageBox(message, caption, MB_OK|MB_ICONEXCLAMATION);
}
StopBrowse();
}
// CPrinterSetupWizardSheet message handlers
void CPrinterSetupWizardSheet::Init(void)
{
AddPage(&m_pgSecond);
AddPage(&m_pgThird);
AddPage(&m_pgFourth);
m_psh.dwFlags &= (~PSH_HASHELP);
m_psh.dwFlags |= PSH_WIZARD97|PSH_WATERMARK|PSH_HEADER;
m_psh.pszbmWatermark = MAKEINTRESOURCE(IDB_WATERMARK);
m_psh.pszbmHeader = MAKEINTRESOURCE(IDB_BANNER_ICON);
m_psh.hInstance = GetNonLocalizedResources();
SetWizardMode();
}
LRESULT
CPrinterSetupWizardSheet::OnSocketEvent(WPARAM inWParam, LPARAM inLParam)
{
if (WSAGETSELECTERROR(inLParam) && !(HIWORD(inLParam)))
{
dlog( kDebugLevelError, "OnServiceEvent: window error\n" );
}
else
{
SOCKET sock = (SOCKET) inWParam;
// iterate thru list
ServiceRefList::iterator begin = m_serviceRefList.begin();
ServiceRefList::iterator end = m_serviceRefList.end();
while (begin != end)
{
DNSServiceRef ref = *begin++;
check(ref != NULL);
if ((SOCKET) DNSServiceRefSockFD(ref) == sock)
{
DNSServiceProcessResult(ref);
break;
}
}
}
return ( 0 );
}
LRESULT
CPrinterSetupWizardSheet::OnProcessEvent(WPARAM inWParam, LPARAM inLParam)
{
DEBUG_UNUSED(inLParam);
m_driverThreadExitCode = (DWORD) inWParam;
m_driverThreadFinished = true;
return 0;
}
unsigned WINAPI
CPrinterSetupWizardSheet::InstallDriverThread( LPVOID inParam )
{
Printer * printer = (Printer*) inParam;
DWORD exitCode = 0;
DWORD dwResult;
OSStatus err;
STARTUPINFO si;
PROCESS_INFORMATION pi;
BOOL ok;
check( printer );
check( m_self );
//
// because we're calling endthreadex(), C++ objects won't be cleaned up
// correctly. we'll nest the CString 'command' inside a block so
// that it's destructor will be invoked.
//
{
CString command;
ZeroMemory( &si, sizeof(si) );
si.cb = sizeof(si);
ZeroMemory( &pi, sizeof(pi) );
command.Format(L"rundll32.exe printui.dll,PrintUIEntry /ia /m \"%s\" /f \"%s\"", (LPCTSTR) printer->modelName, (LPCTSTR) printer->infFileName );
ok = CreateProcess(NULL, command.GetBuffer(), NULL, NULL, FALSE, 0, NULL, NULL, &si, &pi);
err = translate_errno( ok, errno_compat(), kUnknownErr );
require_noerr( err, exit );
dwResult = WaitForSingleObject( pi.hProcess, INFINITE );
translate_errno( dwResult == WAIT_OBJECT_0, errno_compat(), err = kUnknownErr );
require_noerr( err, exit );
ok = GetExitCodeProcess( pi.hProcess, &exitCode );
err = translate_errno( ok, errno_compat(), kUnknownErr );
require_noerr( err, exit );
}
exit:
//
// Close process and thread handles.
//
if ( pi.hProcess )
{
CloseHandle( pi.hProcess );
}
if ( pi.hThread )
{
CloseHandle( pi.hThread );
}
//
// alert the main thread
//
m_self->PostMessage( WM_PROCESS_EVENT, err, exitCode );
_endthreadex_compat( 0 );
return 0;
}
void DNSSD_API
CPrinterSetupWizardSheet::OnBrowse(
DNSServiceRef inRef,
DNSServiceFlags inFlags,
uint32_t inInterfaceIndex,
DNSServiceErrorType inErrorCode,
const char * inName,
const char * inType,
const char * inDomain,
void * inContext )
{
DEBUG_UNUSED(inRef);
CPrinterSetupWizardSheet * self;
bool moreComing = (bool) (inFlags & kDNSServiceFlagsMoreComing);
CPropertyPage * active;
Printer * printer = NULL;
Service * service = NULL;
OSStatus err = kNoErr;
require_noerr( inErrorCode, exit );
self = reinterpret_cast <CPrinterSetupWizardSheet*>( inContext );
require_quiet( self, exit );
active = self->GetActivePage();
require_quiet( active, exit );
// Have we seen this printer before?
printer = self->Lookup( inName );
if ( printer )
{
service = printer->LookupService( inType );
}
if ( inFlags & kDNSServiceFlagsAdd )
{
BOOL newPrinter = FALSE;
if ( !printer )
{
printer = self->OnAddPrinter( inInterfaceIndex, inName, inType, inDomain, moreComing );
require_action( printer, exit, err = kUnknownErr );
newPrinter = TRUE;
}
// If we're looking at the browse list on page 2, then we need to call
// CPage2::OnAddPrinter() regardless of whether we've seen the printer
// or not because the moreComing flag might have changed from a previous
// call. If we only call CPage2::OnAddPrinter() when there's a new printer,
// we might not correctly update our UI, so if we've seen the printer before,
// call OnAddPrinter with a NULL parameter.
if ( self->GetActivePage() == &self->m_pgSecond )
{
self->m_pgSecond.OnAddPrinter( newPrinter ? printer : NULL, moreComing );
}
if ( !service )
{
err = self->OnAddService( printer, inInterfaceIndex, inName, inType, inDomain );
require_noerr( err, exit );
}
else
{
service->refs++;
}
}
else if ( printer )
{
check( service );
err = self->OnRemoveService( service );
require_noerr( err, exit );
if ( printer->services.size() == 0 )
{
err = self->OnRemovePrinter( printer, moreComing );
require_noerr( err, exit );
}
}
exit:
return;
}
void DNSSD_API
CPrinterSetupWizardSheet::OnResolve(
DNSServiceRef inRef,
DNSServiceFlags inFlags,
uint32_t inInterfaceIndex,
DNSServiceErrorType inErrorCode,
const char * inFullName,
const char * inHostName,
uint16_t inPort,
uint16_t inTXTSize,
const char * inTXT,
void * inContext )
{
DEBUG_UNUSED(inFullName);
DEBUG_UNUSED(inInterfaceIndex);
DEBUG_UNUSED(inFlags);
DEBUG_UNUSED(inRef);
CPrinterSetupWizardSheet * self;
Service * service;
Queue * q;
int idx;
OSStatus err;
require_noerr( inErrorCode, exit );
service = reinterpret_cast<Service*>( inContext );
require_quiet( service, exit);
check( service->refs != 0 );
self = service->printer->window;
require_quiet( self, exit );
err = self->StopOperation( service->serviceRef );
require_noerr( err, exit );
//
// hold on to the hostname...
//
err = UTF8StringToStringObject( inHostName, service->hostname );
require_noerr( err, exit );
//
// <rdar://problem/3739200> remove the trailing dot on hostname
//
idx = service->hostname.ReverseFind('.');
if ((idx > 1) && ((service->hostname.GetLength() - 1) == idx))
{
service->hostname.Delete(idx, 1);
}
//
// hold on to the port
//
service->portNumber = ntohs(inPort);
if ( service->qtotal == 1 )
{
//
// create a new queue
//
try
{
q = new Queue;
}
catch (...)
{
q = NULL;
}
require_action( q, exit, err = E_OUTOFMEMORY );
//
// parse the text record.
//
err = self->ParseTextRecord( service, q, inTXTSize, inTXT );
require_noerr( err, exit );
service->queues.push_back( q );
//
// we've completely resolved this service
//
self->OnResolveService( service );
}
else
{
//
// if qtotal is more than 1, then we need to get additional
// text records. if not, then this service is considered
// resolved
//
err = DNSServiceQueryRecord(&service->serviceRef, 0, inInterfaceIndex, inFullName, kDNSServiceType_TXT, kDNSServiceClass_IN, OnQuery, (void*) service );
require_noerr( err, exit );
err = self->StartOperation( service->serviceRef );
require_noerr( err, exit );
}
exit:
return;
}
void DNSSD_API
CPrinterSetupWizardSheet::OnQuery(
DNSServiceRef inRef,
DNSServiceFlags inFlags,
uint32_t inInterfaceIndex,
DNSServiceErrorType inErrorCode,
const char * inFullName,
uint16_t inRRType,
uint16_t inRRClass,
uint16_t inRDLen,
const void * inRData,
uint32_t inTTL,
void * inContext)
{
DEBUG_UNUSED( inTTL );
DEBUG_UNUSED( inRRClass );
DEBUG_UNUSED( inRRType );
DEBUG_UNUSED( inFullName );
DEBUG_UNUSED( inInterfaceIndex );
DEBUG_UNUSED( inRef );
Service * service = NULL;
Queue * q;
CPrinterSetupWizardSheet * self;
OSStatus err = kNoErr;
require_noerr( inErrorCode, exit );
service = reinterpret_cast<Service*>( inContext );
require_quiet( service, exit);
self = service->printer->window;
require_quiet( self, exit );
if ( ( inFlags & kDNSServiceFlagsAdd ) && ( inRDLen > 0 ) && ( inRData != NULL ) )
{
const char * inTXT = ( const char * ) inRData;
//
// create a new queue
//
try
{
q = new Queue;
}
catch (...)
{
q = NULL;
}
require_action( q, exit, err = E_OUTOFMEMORY );
err = service->printer->window->ParseTextRecord( service, q, inRDLen, inTXT );
require_noerr( err, exit );
//
// add this queue
//
service->queues.push_back( q );
if ( service->queues.size() == service->qtotal )
{
//
// else if moreComing is not set, then we're going
// to assume that we're done
//
self->StopOperation( service->serviceRef );
//
// sort the queues
//
service->queues.sort( OrderQueueFunc );
//
// we've completely resolved this service
//
self->OnResolveService( service );
}
}
exit:
if ( err && service && ( service->serviceRef != NULL ) )
{
service->printer->window->StopOperation( service->serviceRef );
}
return;
}
Printer*
CPrinterSetupWizardSheet::OnAddPrinter(
uint32_t inInterfaceIndex,
const char * inName,
const char * inType,
const char * inDomain,
bool moreComing)
{
Printer * printer = NULL;
DWORD printerNameCount;
OSStatus err;
DEBUG_UNUSED( inInterfaceIndex );
DEBUG_UNUSED( inType );
DEBUG_UNUSED( inDomain );
DEBUG_UNUSED( moreComing );
try
{
printer = new Printer;
}
catch (...)
{
printer = NULL;
}
require_action( printer, exit, err = E_OUTOFMEMORY );
printer->window = this;
printer->name = inName;
err = UTF8StringToStringObject(inName, printer->displayName);
check_noerr( err );
printer->actualName = printer->displayName;
printer->installed = false;
printer->deflt = false;
printer->resolving = 0;
// Compare this name against printers that are already installed
// to avoid name clashes. Rename as necessary
// to come up with a unique name.
printerNameCount = 2;
for (;;)
{
CPrinterSetupWizardSheet::PrinterNames::iterator it;
// <rdar://problem/4141221> Don't use find to do comparisons because we need to
// do a case insensitive string comparison
for ( it = m_printerNames.begin(); it != m_printerNames.end(); it++ )
{
if ( (*it).CompareNoCase( printer->actualName ) == 0 )
{
break;
}
}
if (it != m_printerNames.end())
{
printer->actualName.Format(L"%s (%d)", printer->displayName, printerNameCount);
}
else
{
break;
}
printerNameCount++;
}
m_printers.push_back( printer );
exit:
return printer;
}
OSStatus
CPrinterSetupWizardSheet::OnAddService(
Printer * printer,
uint32_t inInterfaceIndex,
const char * inName,
const char * inType,
const char * inDomain)
{
Service * service = NULL;
OSStatus err = kNoErr;
DEBUG_UNUSED( inName );
DEBUG_UNUSED( inDomain );
try
{
service = new Service;
}
catch (...)
{
service = NULL;
}
require_action( service, exit, err = E_OUTOFMEMORY );
service->printer = printer;
service->ifi = inInterfaceIndex;
service->type = inType;
service->domain = inDomain;
service->qtotal = 1;
service->refs = 1;
service->serviceRef = NULL;
printer->services.push_back( service );
//
// if the printer is selected, then we'll want to start a
// resolve on this guy
//
if ( printer == m_selectedPrinter )
{
StartResolve( service );
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::OnRemovePrinter( Printer * printer, bool moreComing )
{
CPropertyPage * active = GetActivePage();
OSStatus err = kNoErr;
if ( active == &m_pgSecond )
{
m_pgSecond.OnRemovePrinter( printer, moreComing );
}
m_printers.remove( printer );
if ( m_selectedPrinter == printer )
{
m_selectedPrinter = NULL;
if ( ( active == &m_pgThird ) || ( active == &m_pgFourth ) )
{
CString caption;
CString message;
caption.LoadString( IDS_ERROR_CAPTION );
message.LoadString( IDS_PRINTER_UNAVAILABLE );
MessageBox(message, caption, MB_OK|MB_ICONEXCLAMATION);
SetActivePage( &m_pgSecond );
}
}
delete printer;
return err;
}
OSStatus
CPrinterSetupWizardSheet::OnRemoveService( Service * service )
{
OSStatus err = kNoErr;
if ( service && ( --service->refs == 0 ) )
{
if ( service->serviceRef != NULL )
{
err = StopResolve( service );
require_noerr( err, exit );
}
service->printer->services.remove( service );
delete service;
}
exit:
return err;
}
void
CPrinterSetupWizardSheet::OnResolveService( Service * service )
{
// Make sure that the active page is page 2
require_quiet( GetActivePage() == &m_pgSecond, exit );
if ( !--service->printer->resolving )
{
// sort the services now. we want the service that
// has the highest priority queue to be first in
// the list.
service->printer->services.sort( OrderServiceFunc );
// Now we can hit next
SetWizardButtons( PSWIZB_BACK|PSWIZB_NEXT );
// Reset the cursor
m_active = m_arrow;
// And tell page 2 about it
m_pgSecond.OnResolveService( service );
}
exit:
return;
}
OSStatus
CPrinterSetupWizardSheet::StartBrowse()
{
OSStatus err;
//
// setup the DNS-SD browsing
//
err = DNSServiceBrowse( &m_pdlBrowser, 0, 0, kPDLServiceType, NULL, OnBrowse, this );
require_noerr( err, exit );
err = StartOperation( m_pdlBrowser );
require_noerr( err, exit );
err = DNSServiceBrowse( &m_lprBrowser, 0, 0, kLPRServiceType, NULL, OnBrowse, this );
require_noerr( err, exit );
err = StartOperation( m_lprBrowser );
require_noerr( err, exit );
err = DNSServiceBrowse( &m_ippBrowser, 0, 0, kIPPServiceType, NULL, OnBrowse, this );
require_noerr( err, exit );
err = StartOperation( m_ippBrowser );
require_noerr( err, exit );
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StopBrowse()
{
OSStatus err;
err = StopOperation( m_pdlBrowser );
require_noerr( err, exit );
err = StopOperation( m_lprBrowser );
require_noerr( err, exit );
err = StopOperation( m_ippBrowser );
require_noerr( err, exit );
while ( m_printers.size() > 0 )
{
Printer * printer = m_printers.front();
m_printers.pop_front();
if ( printer->resolving )
{
StopResolve( printer );
}
delete printer;
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StartResolve( Printer * printer )
{
OSStatus err = kNoErr;
Services::iterator it;
check( printer );
for ( it = printer->services.begin(); it != printer->services.end(); it++ )
{
if ( (*it)->serviceRef == NULL )
{
err = StartResolve( *it );
require_noerr( err, exit );
}
}
m_selectedPrinter = printer;
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StartResolve( Service * service )
{
OSStatus err = kNoErr;
check( service->serviceRef == NULL );
//
// clean out any queues that were collected during a previous
// resolve
//
service->EmptyQueues();
//
// now start the new resolve
//
err = DNSServiceResolve( &service->serviceRef, 0, 0, service->printer->name.c_str(), service->type.c_str(), service->domain.c_str(), (DNSServiceResolveReply) OnResolve, service );
require_noerr( err, exit );
err = StartOperation( service->serviceRef );
require_noerr( err, exit );
//
// If we're not currently resolving, then disable the next button
// and set the cursor to hourglass
//
if ( !service->printer->resolving )
{
SetWizardButtons( PSWIZB_BACK );
m_active = m_wait;
SetCursor(m_active);
}
service->printer->resolving++;
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StopResolve(Printer * printer)
{
OSStatus err = kNoErr;
check( printer );
Services::iterator it;
for ( it = printer->services.begin(); it != printer->services.end(); it++ )
{
if ( (*it)->serviceRef )
{
err = StopResolve( *it );
require_noerr( err, exit );
}
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StopResolve( Service * service )
{
OSStatus err;
check( service->serviceRef );
err = StopOperation( service->serviceRef );
require_noerr( err, exit );
service->printer->resolving--;
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StartOperation( DNSServiceRef ref )
{
OSStatus err;
err = WSAAsyncSelect((SOCKET) DNSServiceRefSockFD(ref), m_hWnd, WM_SOCKET_EVENT, FD_READ|FD_CLOSE);
require_noerr( err, exit );
m_serviceRefList.push_back( ref );
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::StopOperation( DNSServiceRef & ref )
{
OSStatus err = kNoErr;
if ( ref )
{
m_serviceRefList.remove( ref );
if ( IsWindow( m_hWnd ) )
{
err = WSAAsyncSelect((SOCKET) DNSServiceRefSockFD( ref ), m_hWnd, 0, 0 );
require_noerr( err, exit );
}
DNSServiceRefDeallocate( ref );
ref = NULL;
}
exit:
return err;
}
OSStatus
CPrinterSetupWizardSheet::ParseTextRecord( Service * service, Queue * q, uint16_t inTXTSize, const char * inTXT )
{
check( service );
check( q );
// <rdar://problem/3946587> Use TXTRecord APIs declared in dns_sd.h
bool qtotalDefined = false;
const void * val;
char buf[256];
uint8_t len;
OSStatus err = kNoErr;
// <rdar://problem/3987680> Default to queue "lp"
q->name = L"lp";
// <rdar://problem/4003710> Default pdl key to be "application/postscript"
q->pdl = L"application/postscript";
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "rp", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->name );
require_noerr( err, exit );
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "pdl", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->pdl );
require_noerr( err, exit );
}
if ( ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "usb_mfg", &len ) ) != NULL ) ||
( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "usb_manufacturer", &len ) ) != NULL ) )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->usb_MFG );
require_noerr( err, exit );
}
if ( ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "usb_mdl", &len ) ) != NULL ) ||
( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "usb_model", &len ) ) != NULL ) )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->usb_MDL );
require_noerr( err, exit );
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "ty", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->description );
require_noerr( err, exit );
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "product", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->product );
require_noerr( err, exit );
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "note", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
err = UTF8StringToStringObject( buf, q->location );
require_noerr( err, exit );
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "qtotal", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
service->qtotal = (unsigned short) atoi( buf );
qtotalDefined = true;
}
if ( ( val = TXTRecordGetValuePtr( inTXTSize, inTXT, "priority", &len ) ) != NULL )
{
// Stringize val ( doesn't have trailing '\0' yet )
memcpy( buf, val, len );
buf[len] = '\0';
q->priority = atoi( buf );
}
// <rdar://problem/4124524> Was this printer discovered via OS X Printer Sharing?
if ( TXTRecordContainsKey( inTXTSize, inTXT, "printer-state" ) || TXTRecordContainsKey( inTXTSize, inTXT, "printer-type" ) )
{
service->printer->isCUPSPrinter = true;
}
exit:
// The following code is to fix a problem with older HP
// printers that don't include "qtotal" in their text
// record. We'll check to see if the q->name is "TEXT"
// and if so, we're going to modify it to be "lp" so
// that we don't use the wrong queue
if ( !err && !qtotalDefined && ( q->name == L"TEXT" ) )
{
q->name = "lp";
}
return err;
}
Printer*
CPrinterSetupWizardSheet::Lookup(const char * inName)
{
check( inName );
Printer * printer = NULL;
Printers::iterator it;
for ( it = m_printers.begin(); it != m_printers.end(); it++ )
{
if ( (*it)->name == inName )
{
printer = *it;
break;
}
}
return printer;
}
bool
CPrinterSetupWizardSheet::OrderServiceFunc( const Service * a, const Service * b )
{
Queue * q1, * q2;
q1 = (a->queues.size() > 0) ? a->queues.front() : NULL;
q2 = (b->queues.size() > 0) ? b->queues.front() : NULL;
if ( !q1 && !q2 )
{
return true;
}
else if ( q1 && !q2 )
{
return true;
}
else if ( !q1 && q2 )
{
return false;
}
else if ( q1->priority < q2->priority )
{
return true;
}
else if ( q1->priority > q2->priority )
{
return false;
}
else if ( ( a->type == kPDLServiceType ) || ( ( a->type == kLPRServiceType ) && ( b->type == kIPPServiceType ) ) )
{
return true;
}
else
{
return false;
}
}
bool
CPrinterSetupWizardSheet::OrderQueueFunc( const Queue * q1, const Queue * q2 )
{
return ( q1->priority <= q2->priority ) ? true : false;
}