/*========================================================================== * * Copyright (C) 1999-2000 Microsoft Corporation. All Rights Reserved. * * File: diagnos.cpp * Content: Utility functions to write out diagnostic files when registry key is set. * * History: * Date By Reason * ==== == ====== * 07/13/00 rodtoll Created (Bug #31468 - Add diagnostic spew to logfile to show what is failing * 08/22/2000 rodtoll Bug #43060 - DPVOICE: Diagnostics data which is dumped to memory / debugger contains garbage * ***************************************************************************/ #include "dxvutilspch.h" #undef DPF_SUBCOMP #define DPF_SUBCOMP DN_SUBCOMP_VOICE #define DPLOG_MAX_STRING 256 FILE *g_hOutputFile = NULL; BOOL g_fDiagnosisEnabled = FALSE; #undef DPF_MODNAME #define DPF_MODNAME "Diagnostics_WriteDeviceInfo" void Diagnostics_WriteDeviceInfo( DWORD dwLevel, const char *szDeviceName, PDSPROPERTY_DIRECTSOUNDDEVICE_DESCRIPTION_A_DATA pData ) { Diagnostics_Write( dwLevel, "%s Device Information:", szDeviceName ); Diagnostics_Write( dwLevel, "Device Name:\n%s", pData->Description ? pData->Description : ""); Diagnostics_Write( dwLevel, "Device ID:" ); Diagnostics_WriteGUID(dwLevel, pData->DeviceId ); switch( pData->Type ) { case DIRECTSOUNDDEVICE_TYPE_EMULATED: Diagnostics_Write( dwLevel, "Device Type:\nEmulated" ); break; case DIRECTSOUNDDEVICE_TYPE_VXD: Diagnostics_Write( dwLevel, "Device Type:\nVXD" ); break; case DIRECTSOUNDDEVICE_TYPE_WDM: Diagnostics_Write( dwLevel, "Device Type:\nWDM" ); break; default: Diagnostics_Write( dwLevel, "Device Type:\n" ); break; } Diagnostics_Write( dwLevel, "Description:\n%s", pData->Description ? pData->Description : "" ); Diagnostics_Write( dwLevel, "Module:\n%s", pData->Module ? pData->Module : "" ); Diagnostics_Write( dwLevel, "WaveID:\n%d", pData->WaveDeviceId ); } #undef DPF_MODNAME #define DPF_MODNAME "Diagnostics_DeviceInfo" HRESULT Diagnostics_DeviceInfo( GUID *pguidPlayback, GUID *pguidCapture ) { if( !g_fDiagnosisEnabled ) return DV_OK; LPKSPROPERTYSET lpksProperty = NULL; HRESULT hr = DV_OK; GUID guidTruePlayback; GUID guidTrueCapture; PDSPROPERTY_DIRECTSOUNDDEVICE_DESCRIPTION_DATA pPlaybackDesc = NULL; PDSPROPERTY_DIRECTSOUNDDEVICE_DESCRIPTION_DATA pCaptureDesc = NULL; hr = DV_MapCaptureDevice( pguidPlayback, &guidTruePlayback ); if( FAILED( hr ) ) { DPFX(DPFPREP, 0, "Error getting true playback device hr=0x%x", hr ); goto DEVICEINFO_EXIT; } hr = DV_MapPlaybackDevice( pguidCapture, &guidTrueCapture ); if( FAILED( hr ) ) { DPFX(DPFPREP, 0, "Error getting true capture device hr=0x%x", hr ); goto DEVICEINFO_EXIT; } hr = DirectSoundPrivateCreate( &lpksProperty ); if( FAILED( hr ) ) { DPFX(DPFPREP, 0, "Error getting interface to get device name hr=0x%x", hr ); goto DEVICEINFO_EXIT; } hr = PrvGetDeviceDescription( lpksProperty, guidTruePlayback, &pPlaybackDesc ); if( FAILED( hr ) ) { DPFX(DPFPREP, 0, "Error getting device description hr=0x%x", hr ); goto DEVICEINFO_EXIT; } Diagnostics_WriteDeviceInfo( DVF_INFOLEVEL, "Playback", pPlaybackDesc ); hr = PrvGetDeviceDescription( lpksProperty, guidTrueCapture, &pCaptureDesc ); if( FAILED( hr ) ) { DPFX(DPFPREP, 0, "Error getting device description hr=0x%x", hr ); goto DEVICEINFO_EXIT; } Diagnostics_WriteDeviceInfo( DVF_INFOLEVEL, "Capture", pPlaybackDesc ); DEVICEINFO_EXIT: if( pPlaybackDesc ) delete pPlaybackDesc; if( pCaptureDesc ) delete pCaptureDesc; if( lpksProperty ) { lpksProperty->Release(); } return hr; } #undef DPF_MODNAME #define DPF_MODNAME "Diagnostics_Begin" HRESULT Diagnostics_Begin( BOOL fEnabled, const char *szFileName ) { // Prevent double-open if( g_fDiagnosisEnabled ) return DV_OK; HRESULT hr = DV_OK; g_fDiagnosisEnabled = fEnabled; if( !fEnabled ) return DV_OK; g_hOutputFile = fopen( szFileName, "w" ); if( !g_hOutputFile ) { hr = DVERR_GENERIC; DPFX(DPFPREP, 0, "Error opening diagnostics file" ); goto BEGIN_ERROR; } return DV_OK; BEGIN_ERROR: Diagnostics_End(); return hr; } #undef DPF_MODNAME #define DPF_MODNAME "Diagnostics_End" void Diagnostics_End() { if( g_fDiagnosisEnabled ) { if( g_hOutputFile ) { fclose( g_hOutputFile ); g_hOutputFile = NULL; } g_fDiagnosisEnabled = FALSE; } } #undef DPF_MODNAME #define DPF_MODNAME "Diagnostics_Write" void Diagnostics_Write( DWORD dwLevel, const char *szFormat, ... ) { char szBuffer[DPLOG_MAX_STRING]; va_list argptr; va_start(argptr, szFormat); if( g_fDiagnosisEnabled ) { vfprintf( g_hOutputFile, szFormat, argptr ); fputs( "\n", g_hOutputFile ); } _vsnprintf( szBuffer, DPLOG_MAX_STRING, szFormat, argptr ); DPFX(DPFPREP, dwLevel, szBuffer ); va_end(argptr); fflush( g_hOutputFile ); } #undef DPF_MODNAME #define DPF_MODNAME "Diagnositcs_WriteWAVEFORMATEX" void Diagnostics_WriteGUID( DWORD dwLevel, GUID &guid ) { Diagnostics_Write( dwLevel, "{%-08.8X-%-04.4X-%-04.4X-%02.2X%02.2X-%02.2X%02.2X%02.2X%02.2X%02.2X%02.2X}", guid.Data1, guid.Data2, guid.Data3, guid.Data4[0], guid.Data4[1], guid.Data4[2], guid.Data4[3], guid.Data4[4], guid.Data4[5], guid.Data4[6], guid.Data4[7] ); } #undef DPF_MODNAME #define DPF_MODNAME "Diagnositcs_WriteWAVEFORMATEX" void Diagnositcs_WriteWAVEFORMATEX( DWORD dwLevel, PWAVEFORMATEX lpwfxFormat ) { Diagnostics_Write( dwLevel, "wFormatTag = %d", lpwfxFormat->wFormatTag ); Diagnostics_Write( dwLevel, "nSamplesPerSec = %d", lpwfxFormat->nSamplesPerSec ); Diagnostics_Write( dwLevel, "nChannels = %d", lpwfxFormat->nChannels ); Diagnostics_Write( dwLevel, "wBitsPerSample = %d", lpwfxFormat->wBitsPerSample ); Diagnostics_Write( dwLevel, "nAvgBytesPerSec = %d", lpwfxFormat->nAvgBytesPerSec ); Diagnostics_Write( dwLevel, "nBlockAlign = %d", lpwfxFormat->nBlockAlign ); Diagnostics_Write( dwLevel, "cbSize = %d", lpwfxFormat->cbSize ); }