// Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32test\multimedia\t_camera_api.cpp
//
//
#include <e32test.h>
#include <d32camerasc.h>
#include <e32def.h>
#include <e32def_private.h>
#include "t_camera_display.h"
#include "t_camera_bitmap.h"
#include "d_mmcsc.h"
_LIT(KTstLddFileName,"D_MMCSC.LDD");
_LIT(KCamLddFileName,"ECAMERASC.LDD");
#ifdef __WINSCW__
_LIT(KCamPddFileName,"_TEMPLATE_CAMERASC.PDD");
#else
_LIT(KCamPddFileName,"CAMERASC.PDD");
#endif
_LIT(KCamFreePddExtension,".*");
_LIT(KFrameSize, "%dx%d");
_LIT(KSensor, "d:\\Sensor_");
_LIT(KUnderscore, "_");
_LIT(KBmp, ".bmp");
_LIT(KJpeg, ".jpg");
_LIT(KSpeedTaggedJpeg, ".stj");
LOCAL_D TCameraCapsV02* CameraCaps;
LOCAL_D TInt CapsSize;
LOCAL_D TAny* CapsBufPtr;
RTest Test(_L("T_CAMERA_API"));
const TInt KNumVideoFramesToAllocate=6;
const TInt KNumVideoFramesToCapture=(KNumVideoFramesToAllocate-2);
const TInt KHeapSize=0x4000;
const TInt KUnit0=0;
enum TSecThreadTestId
{
ESecThreadTestOpen,
ESecThreadTestDuplicateHandle,
ESecThreadReuseHandle
};
struct SSecondaryThreadInfo
{
TSecThreadTestId iTestId;
TInt iExpectedRetVal;
TThreadId iThreadId;
TInt iDrvHandle;
TInt iCameraModuleIndex;
};
LOCAL_C TInt secondaryThread(TAny* aTestInfo)
{
RTest stest(_L("Secondary test camera thread"));
stest.Title();
stest.Start(_L("Check which test to perform"));
SSecondaryThreadInfo sti =*((SSecondaryThreadInfo*)aTestInfo);
TInt r;
switch(sti.iTestId)
{
case ESecThreadTestOpen:
{
stest.Next(_L("Open channel test"));
RDevCameraSc cam;
r=cam.Open(sti.iCameraModuleIndex);
stest(r==sti.iExpectedRetVal);
cam.Close();
break;
}
case ESecThreadTestDuplicateHandle:
{
stest.Next(_L("Duplicate channel handle test"));
// Get a reference to the main thread - which created the handle
RThread thread;
r=thread.Open(sti.iThreadId);
stest(r==KErrNone);
// Duplicate the driver handle passed from the other thread - for this thread
RDevCameraSc cam;
cam.SetHandle(sti.iDrvHandle);
r=cam.Duplicate(thread);
stest(r==sti.iExpectedRetVal);
cam.Close();
thread.Close();
break;
}
case ESecThreadReuseHandle:
{
stest.Next(_L("Re-use channel test"));
RDevCameraSc* camPtr=(RDevCameraSc*)sti.iDrvHandle;
TCameraConfigV02Buf camConfBuf;
camPtr->GetCamConfig(ECamCaptureModeImage, camConfBuf); // This should cause a panic.
break;
}
default:
break;
}
stest.End();
return(KErrNone);
}
/** Test for defect DEF135950. */
LOCAL_C void DoCamDynamicSettingsTests(RDevCameraSc& aCam, RTest& aTest)
{
aTest.Next(_L("DYNAMIC SETTINGS TESTS"));
aTest.Next(_L("Get the Caps size. Should be non-zero"));
TInt capsSize = aCam.CapsSize();
aTest(capsSize>0);
aTest.Next(_L("Get the Capabilities (driver owned copy)."));
TPtrC8 driverCopy = aCam.Caps();
aTest(driverCopy.Ptr() != NULL);
aTest(driverCopy.Length()>0);
aTest.Next(_L("Test failure (buffer too small)."));
TAny* capsBufPtr = User::Alloc(capsSize-1);
aTest(capsBufPtr != NULL);
TPtr8 smallBuf((TUint8*) capsBufPtr, capsSize-1, capsSize-1);
aTest(KErrArgument==aCam.Caps(smallBuf));
User::Free(capsBufPtr);
aTest.Next(_L("Get the Capabilities (client owned copy)."));
capsBufPtr = User::Alloc(capsSize);
aTest(capsBufPtr != NULL);
TPtr8 clientCopy((TUint8*) capsBufPtr, capsSize, capsSize);
aTest(KErrNone==aCam.Caps(clientCopy));
aTest(clientCopy.Ptr() != NULL);
aTest(clientCopy.Length()>0);
aTest.Next(_L("Obtain the range for Dynamic Settings from both copies (should be the same)."));
TDynamicRange &driverRangeBrightness = ((TCameraCapsV02*)(driverCopy.Ptr()))->iDynamicRange[ECamAttributeBrightness];
TDynamicRange &clientRangeBrightness = ((TCameraCapsV02*)(clientCopy.Ptr()))->iDynamicRange[ECamAttributeBrightness];
aTest(driverRangeBrightness.iMin == 0);
aTest(driverRangeBrightness.iMax == 6);
aTest(driverRangeBrightness.iMin == clientRangeBrightness.iMin);
aTest(driverRangeBrightness.iMax == clientRangeBrightness.iMax);
TDynamicRange &driverRangeContrast = ((TCameraCapsV02*)(driverCopy.Ptr()))->iDynamicRange[ECamAttributeContrast];
TDynamicRange &clientRangeContrast = ((TCameraCapsV02*)(clientCopy.Ptr()))->iDynamicRange[ECamAttributeContrast];
aTest(driverRangeContrast.iMin == 0);
aTest(driverRangeContrast.iMax == 6);
aTest(driverRangeContrast.iMin == clientRangeContrast.iMin);
aTest(driverRangeContrast.iMax == clientRangeContrast.iMax);
TDynamicRange &driverRangeColorEffect = ((TCameraCapsV02*)(driverCopy.Ptr()))->iDynamicRange[ECamAttributeColorEffect];
TDynamicRange &clientRangeColorEffect = ((TCameraCapsV02*)(clientCopy.Ptr()))->iDynamicRange[ECamAttributeColorEffect];
aTest(driverRangeColorEffect.iMin == 0);
aTest(driverRangeColorEffect.iMax == 7); // TBC::OV3640 set to 7, template driver set to 0x0040 (enum)
aTest(driverRangeColorEffect.iMin == clientRangeColorEffect.iMin);
aTest(driverRangeColorEffect.iMax == clientRangeColorEffect.iMax);
aTest.Next(_L("Test for invalid Min range."));
aTest(aCam.SetDynamicAttribute(ECamAttributeBrightness, driverRangeBrightness.iMin-1)==KErrArgument);
aTest(aCam.SetDynamicAttribute(ECamAttributeContrast, driverRangeContrast.iMin-1)==KErrArgument);
aTest(aCam.SetDynamicAttribute(ECamAttributeColorEffect, driverRangeColorEffect.iMin-1)==KErrArgument);
aTest.Next(_L("Test for invalid Max range."));
aTest(aCam.SetDynamicAttribute(ECamAttributeBrightness, driverRangeBrightness.iMax+1)==KErrArgument);
aTest(aCam.SetDynamicAttribute(ECamAttributeContrast, driverRangeContrast.iMax+1)==KErrArgument);
aTest(aCam.SetDynamicAttribute(ECamAttributeColorEffect, driverRangeColorEffect.iMax+1)==KErrArgument);
aTest.Next(_L("Test all valid settings as reported by range - Brightness"));
for (TUint i=driverRangeBrightness.iMin; i <= driverRangeBrightness.iMax; ++i)
{
aTest(aCam.SetDynamicAttribute(ECamAttributeBrightness, i)==KErrNone);
}
aTest.Next(_L("Test all valid settings as reported by range - Contrast"));
for (TUint j=driverRangeContrast.iMin; j <= driverRangeContrast.iMax; ++j)
{
aTest(aCam.SetDynamicAttribute(ECamAttributeContrast, j)==KErrNone);
}
aTest.Next(_L("Test all valid settings as reported by range - ColorEffect"));
for (TUint k=driverRangeColorEffect.iMin; k <= driverRangeColorEffect.iMax; ++k)
{
aTest(aCam.SetDynamicAttribute(ECamAttributeColorEffect, k)==KErrNone);
}
User::Free(capsBufPtr);
}
/** Test for defect DEF135949. */
LOCAL_C void DoCamBufferOffsetTests(RDevCameraSc& aCam, RTest& aTest, const SDevCamPixelFormat& aPixelFormat, const SDevCamFrameSize& aFrameSize, TUint aFrameRate)
{
TInt r;
aTest.Next(_L("BUFFER ID OFFSET TESTS"));
aTest.Printf(_L("PixelFormat = %d, FrameSize = %d x %d\n"),aPixelFormat.iPixelFormat,aFrameSize.iWidth,aFrameSize.iHeight);
// Configure Image Capture
aTest.Next(_L("Get the camera config of Image mode"));
TCameraConfigV02Buf camConfBuf;
aCam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
TCameraConfigV02 &camConf=camConfBuf();
camConf.iFrameSize=aFrameSize;
camConf.iPixelFormat=aPixelFormat;
camConf.iFrameRate=aFrameRate;
// Set the Image configuration.
aTest.Next(_L("Set the Get the camera config of Image mode"));
r=aCam.SetCamConfig(ECamCaptureModeImage,camConfBuf);
aTest(r==KErrNone);
aCam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
PrintCamConf(camConf,aTest);
// Create an Image chunk handle.
aTest.Next(_L("Create the Image chunk"));
RChunk imgChunkImage;
TInt numBuffers=KNumVideoFramesToAllocate;
r=aCam.SetBufConfigChunkCreate(ECamCaptureModeImage,numBuffers,imgChunkImage);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the Image buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBuf(bufferConfig);
aCam.GetBufferConfig(ECamCaptureModeImage, bufferConfigBuf);
PrintBufferConf(bufferConfig,aTest);
// Configure Video Capture
aTest.Next(_L("Get the camera config of Video mode"));
aCam.GetCamConfig(ECamCaptureModeVideo, camConfBuf);
camConf=camConfBuf();
camConf.iFrameSize=aFrameSize;
camConf.iPixelFormat=aPixelFormat;
camConf.iFrameRate=aFrameRate;
// Set the video configuration.
aTest.Next(_L("Set the Get the camera config of Video mode"));
r=aCam.SetCamConfig(ECamCaptureModeVideo,camConfBuf);
aTest(r==KErrNone);
aCam.GetCamConfig(ECamCaptureModeVideo, camConfBuf);
PrintCamConf(camConf,aTest);
// Create an Video chunk handle.
aTest.Next(_L("Create the Video chunk"));
RChunk chunkVideo;
numBuffers=KNumVideoFramesToAllocate;
r=aCam.SetBufConfigChunkCreate(ECamCaptureModeVideo,numBuffers,chunkVideo);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the Video buffer config"));
aCam.GetBufferConfig(ECamCaptureModeVideo, bufferConfigBuf);
PrintBufferConf(bufferConfig,aTest);
// Test that stop still returns an error.
r=aCam.Stop();
aTest(r==KErrGeneral);
// Set the current capture mode to image
aTest.Next(_L("Set the camera in Image mode and capture a buffer, then requesting the buffer offset."));
r=aCam.SetCaptureMode(ECamCaptureModeImage);
aTest(r==KErrNone);
// Start the camera
r=aCam.Start();
aTest(r==KErrNone);
aTest.Next(_L("Issue a capture request"));
TRequestStatus rs1;
aCam.NotifyNewImage(rs1);
User::WaitForRequest(rs1);
TInt retId=rs1.Int();
TInt retOffset=-1;
aTest(retId>=0);
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer offset: %d(%xH)\r\n"),retId,retOffset);
aTest(retOffset>=0);
// Change capture mode
aTest.Next(_L("Set the capture mode to Video."));
r=aCam.SetCaptureMode(ECamCaptureModeVideo);
aTest(r==KErrNone);
aTest.Next(_L("Request again the offset for the buffer in Image mode."));
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer offset: %d(%xH)\r\n"),retId,retOffset);
aTest(retOffset>=0);
// Stop the camera.
r=aCam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Close the chunk"));
r=aCam.ChunkClose(ECamCaptureModeImage);
aTest(r==KErrNone);
r=aCam.ChunkClose(ECamCaptureModeVideo);
aTest(r==KErrNone);
}
LOCAL_C void DoCamOpenCapTests(RTest& aTest,TInt aCameraSensorIndex)
{
TInt r;
// Open the camera driver to obtain the basic capabilities for use throughout the tests and
// then close it again so that it may be confirmed that opening multiple times is ok
aTest.Next(_L("CHANNEL OPEN AND CAPABILITIES TESTS"));
RDevCameraSc cam;
aTest.Next(_L("Open a channel on the camera driver"));
r=cam.Open(aCameraSensorIndex);
aTest(r==KErrNone);
// Make sure that the driver can handle attempts to start it before it has been configured
aTest.Next(_L("Try to start/stop camera before its configured"));
r=cam.Start();
aTest(r==KErrNotReady);
r=cam.Stop();
aTest(r==KErrGeneral);
aTest.Next(_L("Read the capabilities structure size of this device"));
CapsSize=cam.CapsSize();
aTest.Next(_L("Read and display the capabilities of this device"));
CapsBufPtr = User::Alloc(CapsSize);
TPtr8 capsPtr( (TUint8*)CapsBufPtr, CapsSize, CapsSize );
r=cam.Caps(capsPtr);
aTest(r==KErrNone);
CameraCaps = (TCameraCapsV02*) capsPtr.Ptr();
PrintCamModes(CameraCaps,aTest);
TAny* frameSizeCapsBuf;
SDevCamPixelFormat* pixelFormat;
TBuf<80> buf;
SDevCamFrameSize* frameSize;
TPtr8 frameSizeCapsPtr(0,0,0);
TUint fsCount, pfCount, theCount = 0;
/* IMAGE */
/* Use pixel formats from 0 to CapsBuf->iNumImagePixelFormats */
buf.Zero();
buf.Append(KCaptureModeImage);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
pixelFormat = (SDevCamPixelFormat*) (CameraCaps + 1);
for (pfCount = theCount; pfCount < CameraCaps->iNumImagePixelFormats; pfCount++)
{
buf.Zero();
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
aTest.Printf(buf);
frameSizeCapsBuf = User::Alloc(pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
new (&frameSizeCapsPtr) TPtr8((TUint8*)frameSizeCapsBuf, pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize), pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
r=cam.FrameSizeCaps(ECamCaptureModeImage, pixelFormat->iPixelFormat, frameSizeCapsPtr);
aTest(r==KErrNone);
frameSize = (SDevCamFrameSize*) frameSizeCapsPtr.Ptr();
for (fsCount = 0; fsCount < pixelFormat->iNumFrameSizes; fsCount++)
{
aTest.Printf(_L("%dx%d "),frameSize->iWidth,frameSize->iHeight);
frameSize++;
}
aTest.Printf(_L("\n"));
User::Free(frameSizeCapsBuf);
pixelFormat++;
}
/* VIDEO */
buf.Zero();
buf.Append(KCaptureModeVideo);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
pixelFormat = (SDevCamPixelFormat*) (CameraCaps + 1);
pixelFormat += CameraCaps->iNumImagePixelFormats;
theCount = CameraCaps->iNumImagePixelFormats + CameraCaps->iNumVideoPixelFormats;
for (pfCount = CameraCaps->iNumImagePixelFormats; pfCount < theCount; pfCount++)
{
buf.Zero();
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
aTest.Printf(buf);
frameSizeCapsBuf = User::Alloc(pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
new (&frameSizeCapsPtr) TPtr8((TUint8*)frameSizeCapsBuf, pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize), pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
r=cam.FrameSizeCaps(ECamCaptureModeVideo, pixelFormat->iPixelFormat, frameSizeCapsPtr);
aTest(r==KErrNone);
frameSize = (SDevCamFrameSize*) frameSizeCapsPtr.Ptr();
for (fsCount = 0; fsCount < pixelFormat->iNumFrameSizes; fsCount++)
{
aTest.Printf(_L("%dx%d "),frameSize->iWidth,frameSize->iHeight);
frameSize++;
}
aTest.Printf(_L("\n"));
User::Free(frameSizeCapsBuf);
pixelFormat++;
}
/* VIEW FINDER */
buf.Zero();
buf.Append(KCaptureModeViewFinder);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
pixelFormat = (SDevCamPixelFormat*) (CameraCaps + 1);
pixelFormat += (CameraCaps->iNumImagePixelFormats + CameraCaps->iNumVideoPixelFormats);
theCount = CameraCaps->iNumImagePixelFormats + CameraCaps->iNumVideoPixelFormats + CameraCaps->iNumViewFinderPixelFormats;
for (pfCount = CameraCaps->iNumImagePixelFormats + CameraCaps->iNumVideoPixelFormats; pfCount < theCount; pfCount++)
{
buf.Zero();
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
aTest.Printf(buf);
frameSizeCapsBuf = User::Alloc(pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
new (&frameSizeCapsPtr) TPtr8((TUint8*)frameSizeCapsBuf, pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize), pixelFormat->iNumFrameSizes*sizeof(SDevCamFrameSize));
r=cam.FrameSizeCaps(ECamCaptureModeViewFinder, pixelFormat->iPixelFormat, frameSizeCapsPtr);
aTest(r==KErrNone);
frameSize = (SDevCamFrameSize*) frameSizeCapsPtr.Ptr();
for (fsCount = 0; fsCount < pixelFormat->iNumFrameSizes; fsCount++)
{
aTest.Printf(_L("%dx%d "),frameSize->iWidth,frameSize->iHeight);
frameSize++;
}
aTest.Printf(_L("\n"));
User::Free(frameSizeCapsBuf);
pixelFormat++;
}
aTest.Next(_L("Try opening the same unit a second time."));
RDevCameraSc cam2;
r=cam2.Open(aCameraSensorIndex);
aTest(r==KErrInUse);
aTest.Next(_L("Open a channel from the 2nd thread without closing the 1st"));
RThread thread;
TRequestStatus stat;
SSecondaryThreadInfo sti;
// Setup the 2nd thread to open a channel on the same unit
sti.iTestId=ESecThreadTestOpen;
sti.iExpectedRetVal=KErrInUse;
sti.iCameraModuleIndex=aCameraSensorIndex;
r=thread.Create(_L("Thread"),secondaryThread,KDefaultStackSize,KHeapSize,KHeapSize,&sti);
Test(r==KErrNone);
thread.Logon(stat);
thread.Resume();
User::WaitForRequest(stat);
Test(stat.Int()==KErrNone);
Test(thread.ExitType()==EExitKill);
thread.Close();
User::After(10000); // Wait 10ms
aTest.Next(_L("Open a channel from the 2nd thread having closed the 1st"));
cam.Close(); // Close the 1st channel
sti.iTestId=ESecThreadTestOpen;
sti.iExpectedRetVal=KErrNone;
r=thread.Create(_L("Thread02"),secondaryThread,KDefaultStackSize,KHeapSize,KHeapSize,&sti);
Test(r==KErrNone);
thread.Logon(stat);
thread.Resume();
User::WaitForRequest(stat);
Test(stat.Int()==KErrNone);
Test(thread.ExitType()==EExitKill);
thread.Close();
User::After(10000); // Wait 10ms
aTest.Next(_L("Re-open channel and duplicate it from 2nd thread"));
r=cam.Open(aCameraSensorIndex); // Re-open the channel
aTest(r==KErrNone);
sti.iTestId=ESecThreadTestDuplicateHandle;
sti.iExpectedRetVal=KErrAccessDenied;
sti.iThreadId=RThread().Id(); // Get the ID of this thread
sti.iDrvHandle=cam.Handle(); // Pass the channel handle
r=thread.Create(_L("Thread03"),secondaryThread,KDefaultStackSize,KHeapSize,KHeapSize,&sti); // Create secondary thread
Test(r==KErrNone);
thread.Logon(stat);
thread.Resume();
User::WaitForRequest(stat);
Test(stat.Int()==KErrNone);
Test(thread.ExitType()==EExitKill);
thread.Close();
User::After(10000); // Wait 10ms
aTest.Next(_L("Re-use the same channel from 2nd thread"));
sti.iTestId=ESecThreadReuseHandle;
sti.iDrvHandle=(TInt)&cam; // Pass a pointer to the channel
r=thread.Create(_L("Thread04"),secondaryThread,KDefaultStackSize,KHeapSize,KHeapSize,&sti); // Create secondary thread
Test(r==KErrNone);
thread.Logon(stat);
thread.Resume();
User::WaitForRequest(stat);
TExitCategoryName exitCategoryName = thread.ExitCategory();
Test.Printf(_L("Thread exit info: Cat:%S, Reason:%x, Type:%d\r\n"),&exitCategoryName,thread.ExitReason(),thread.ExitType());
Test(thread.ExitType()==EExitPanic); // Secondary thread is expected to panic
Test(stat.Int()==KErrNone);
thread.Close();
User::After(10000); // Wait 10ms
cam.Close();
}
LOCAL_C void DoCamConfigTests(RDevCameraSc& aCam, RTest& aTest, TDevCamCaptureMode aCaptureMode, const SDevCamPixelFormat& aPixelFormat, const SDevCamFrameSize& aFrameSize)
{
TInt r;
aTest.Next(_L("GETTING & SETTING CONFIG TESTS"));
aTest.Printf(_L("CaptureMode = %d, PixelFormat = %x, FrameSize = %d x %d\n"),aCaptureMode,aPixelFormat.iPixelFormat,aFrameSize.iWidth,aFrameSize.iHeight);
aTest.Next(_L("Read and display the default camera config for requested capture mode"));
TCameraConfigV02Buf camConfBuf;
aCam.GetCamConfig(aCaptureMode, camConfBuf);
TCameraConfigV02 &camConf=camConfBuf();
PrintCamConf(camConf,aTest);
aTest.Next(_L("Read and display the default buffer config for requested capture mode"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBuf(bufferConfig);
aCam.GetBufferConfig(aCaptureMode, bufferConfigBuf);
PrintBufferConf(bufferConfig,aTest);
aTest.Next(_L("Setup the config - creating a chunk"));
camConf.iFrameSize=aFrameSize;
camConf.iPixelFormat=aPixelFormat;
camConf.iFrameRate=aFrameSize.iMaxFrameRate;
r=aCam.SetCamConfig(aCaptureMode, camConfBuf);
aTest(r==KErrNone);
RChunk chunk;
r=aCam.SetBufConfigChunkCreate(aCaptureMode, KNumVideoFramesToAllocate, chunk);
aTest(r==KErrNone);
aCam.GetCamConfig(aCaptureMode, camConfBuf);
PrintCamConf(camConf,aTest);
aTest.Next(_L("Read and display the resulting buffer config"));
aCam.GetBufferConfig(aCaptureMode, bufferConfigBuf);
PrintBufferConf(bufferConfig,aTest);
aTest.Next(_L("Close the chunk created"));
chunk.Close();
aTest.Next(_L("Open a channel on the test driver"));
RMmCreateSc tstDrv;
r=tstDrv.Open(); // Opening the channel results in the creation of a shared chunk.
aTest(r==KErrNone);
aTest.Next(_L("Get a handle on its shared chunk"));
r=tstDrv.GetChunkHandle(chunk); // Get a handle on the shared chunk created by the test driver
aTest(r==KErrNone);
aTest.Next(_L("Read and display the buffer config"));
TMmSharedChunkBufConfig bufferConfigTest;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufTest(bufferConfigTest);
// Get info on the buffers within the shared chunk
aTest.Next(_L("Get info. on the shared chunk"));
r=tstDrv.GetBufInfo(bufferConfigBufTest);
aTest(r==KErrNone);
PrintBufferConf(bufferConfigTest,aTest);
aTest.Next(_L("Setup the config - supplying a chunk"));
r=aCam.SetBufConfigChunkOpen(aCaptureMode, bufferConfigBufTest, chunk);
aTest(r==KErrNone);
aCam.GetCamConfig(aCaptureMode, camConfBuf);
PrintCamConf(camConf,aTest);
aCam.GetBufferConfig(aCaptureMode, bufferConfigBufTest);
PrintBufferConf(bufferConfigTest,aTest);
aTest.Next(_L("Close the chunk driver and the 2nd chunk"));
tstDrv.Close();
chunk.Close();
}
LOCAL_C void DoCamVideoCaptureTests(RDevCameraSc& aCam, RTest& aTest, TDevCamCaptureMode aCaptureMode, const SDevCamPixelFormat& aPixelFormat, const SDevCamFrameSize& aFrameSize, TUint aFrameRate)
{
TInt r;
aTest.Next(_L("VIDEO CAPTURE TESTS"));
aTest.Printf(_L("CaptureMode = %d, PixelFormat = %x, FrameSize = %d x %d\n"),aCaptureMode,aPixelFormat.iPixelFormat,aFrameSize.iWidth,aFrameSize.iHeight);
// Configure Video or Viewfinder Capture
TCameraConfigV02Buf camConfBuf;
aCam.GetCamConfig(aCaptureMode, camConfBuf);
TCameraConfigV02 &camConf=camConfBuf();
camConf.iFrameSize=aFrameSize;
camConf.iPixelFormat=aPixelFormat;
camConf.iFrameRate=aFrameRate;
// Set the camera configuration.
r=aCam.SetCamConfig(aCaptureMode,camConfBuf);
aTest(r==KErrNone);
aCam.GetCamConfig(aCaptureMode, camConfBuf);
PrintCamConf(camConf,aTest);
// Create a chunk handle and trigger the buffer creation.
aTest.Next(_L("Setup the config - creating a chunk"));
RChunk chunkVideo;
TInt numBuffers=KNumVideoFramesToAllocate;
r=aCam.SetBufConfigChunkCreate(aCaptureMode,numBuffers,chunkVideo);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the resulting buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufVideo(bufferConfig);
aCam.GetBufferConfig(aCaptureMode, bufferConfigBufVideo);
PrintBufferConf(bufferConfig,aTest);
// Request and print the camera and buffer configurations for all three capture modes
aTest.Next(_L("Read and display the camera configs"));
aCam.GetCamConfig(ECamCaptureModeVideo, camConfBuf);
PrintCamConf(camConf,aTest);
aCam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
PrintCamConf(camConf,aTest);
aCam.GetCamConfig(ECamCaptureModeViewFinder, camConfBuf);
PrintCamConf(camConf,aTest);
// Create and configure a display handler
TCamDisplayHandler dispHand;
r=dispHand.Init();
aTest(r==KErrNone);
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
r=dispHand.SetConfig(aFrameSize,aPixelFormat);
aTest(r==KErrNone);
}
// Test that stop still returns an error.
r=aCam.Stop();
aTest(r==KErrGeneral);
// Set the current capture mode
r=aCam.SetCaptureMode(aCaptureMode);
aTest(r==KErrNone);
aTest.Next(_L("Start the camera in video mode"));
r=aCam.Start();
aTest(r==KErrNone);
aTest.Next(_L("Issue capture requests"));
aTest.Printf(_L("Request %d frames\r\n"),KNumVideoFramesToCapture);
// Issue new image requests immediately. We'll have to wait while the
// camera captures the images.
TRequestStatus rs[KNumVideoFramesToCapture];
TInt i;
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
aTest.Printf(_L("Requesting new image... %d\n"), i);
aCam.NotifyNewImage(rs[i]);
aTest.Printf(_L("Requested new image... %d\n"), i);
}
TInt retId=-1;
TInt retOffset=-1;
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
aTest.Printf(_L("Waiting for... %d\n"), i);
User::WaitForRequest(rs[i]);
retId=rs[i].Int();
aTest(retId>=0);
aTest.Printf(_L("Getting buffer offset for... %d\n"), i);
aCam.BufferIdToOffset(aCaptureMode,retId,retOffset);
aTest.Printf(_L("Buffer%d(id:%d) offset: %d(%xH)\r\n"),i,retId,retOffset,retOffset);
aTest(retOffset>=0);
}
TUint8* imgBase;
// Display each image received for 333ms
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
retId=rs[i].Int();
aTest(retId>=0);
aCam.BufferIdToOffset(aCaptureMode,retId,retOffset);
aTest(retOffset>=0);
imgBase=chunkVideo.Base()+retOffset;
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
User::After(333000); // 0.33sec
}
}
aTest.Next(_L("Free the buffers"));
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
aTest.Printf(_L("Releasing %d(i:%d) "),rs[i].Int(), i);
r=aCam.ReleaseBuffer(rs[i].Int());
aTest.Printf(_L("buffer(%d), r=%d\n"),rs[i].Int(),r);
aTest(r==KErrNone);
}
aTest.Next(_L("Issue more capture requests"));
// Wait a bit more so camera has images ready as soon as we issue the requests
User::After(500000); // 0.5sec
aTest.Printf(_L("Request %d frames\r\n"),KNumVideoFramesToCapture);
for (i=0 ; i<KNumVideoFramesToCapture; i++)
aCam.NotifyNewImage(rs[i]);
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
User::WaitForRequest(rs[i]);
retId=rs[i].Int();
aTest(retId>=0);
aCam.BufferIdToOffset(aCaptureMode,retId,retOffset);
aTest.Printf(_L("Buffer%d(id:%d) offset: %d(%xH)\r\n"),i,retId,retOffset,retOffset);
aTest(retOffset>=0);
}
aTest.Next(_L("Stop the camera."));
r=aCam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Start it again."));
r=aCam.Start();
aTest(r==KErrNone);
aTest.Next(_L("Continuously display for 10 secs"));
RTimer tim;
tim.CreateLocal();
TRequestStatus timStatus;
const TUint KTimeOut=10000000; // 10 seconds
tim.After(timStatus,KTimeOut);
aTest(timStatus==KRequestPending);
aCam.NotifyNewImage(rs[0]);
aCam.NotifyNewImage(rs[1]);
FOREVER
{
User::WaitForAnyRequest();
if (timStatus!=KRequestPending)
{
aCam.NotifyNewImageCancel();
User::WaitForRequest(rs[0]);
User::WaitForRequest(rs[1]);
break;
}
else if (rs[0]!=KRequestPending)
{
retId=rs[0].Int();
aTest(retId>=0);
aCam.BufferIdToOffset(aCaptureMode,retId,retOffset);
aTest(retOffset>=0);
imgBase=chunkVideo.Base()+retOffset;
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
}
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
aCam.NotifyNewImage(rs[0]);
}
else if (rs[1]!=KRequestPending)
{
retId=rs[1].Int();
aTest(retId>=0);
aCam.BufferIdToOffset(aCaptureMode,retId,retOffset);
aTest(retOffset>=0);
imgBase=chunkVideo.Base()+retOffset;
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
}
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
aCam.NotifyNewImage(rs[1]);
}
else
aTest(0);
}
tim.Close();
aTest.Next(_L("Stop the camera."));
r=aCam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Close the chunk"));
r=aCam.ChunkClose(aCaptureMode);
}
LOCAL_C void DoCamImageCaptureTests(RDevCameraSc& aCam, RTest& aTest, TInt aCameraSensorIndex, const SDevCamPixelFormat& aPixelFormat, const SDevCamFrameSize& aFrameSize, TUint aFrameRate)
{
TInt r;
aTest.Next(_L("IMAGE CAPTURE TESTS"));
aTest.Printf(_L("PixelFormat = %d, FrameSize = %d x %d\n"),aPixelFormat.iPixelFormat,aFrameSize.iWidth,aFrameSize.iHeight);
// Configure Image Capture
TCameraConfigV02Buf camConfBuf;
aCam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
TCameraConfigV02 &camConf=camConfBuf();
camConf.iFrameSize=aFrameSize;
camConf.iPixelFormat=aPixelFormat;
camConf.iFrameRate=aFrameRate;
// Set the camera configuration.
r=aCam.SetCamConfig(ECamCaptureModeImage,camConfBuf);
aTest(r==KErrNone);
aCam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
PrintCamConf(camConf,aTest);
// Create a chunk handle and trigger the buffer creation.
aTest.Next(_L("Setup the config - creating a chunk"));
RChunk chunkImage;
TInt numBuffers=KNumVideoFramesToAllocate;
r=aCam.SetBufConfigChunkCreate(ECamCaptureModeImage,numBuffers,chunkImage);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the resulting buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufImage(bufferConfig);
aCam.GetBufferConfig(ECamCaptureModeImage, bufferConfigBufImage);
PrintBufferConf(bufferConfig,aTest);
// Create and configure a display handler
TCamDisplayHandler dispHand;
r=dispHand.Init();
aTest(r==KErrNone);
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
r=dispHand.SetConfig(aFrameSize,aPixelFormat);
aTest(r==KErrNone);
}
// Test that stop still returns an error.
r=aCam.Stop();
aTest(r==KErrGeneral);
// Set the current capture mode
r=aCam.SetCaptureMode(ECamCaptureModeImage);
aTest(r==KErrNone);
aTest.Next(_L("Start the camera in image capture mode"));
r=aCam.Start();
aTest(r==KErrNone);
aTest.Next(_L("Issue a capture request"));
TRequestStatus rs1;
aCam.NotifyNewImage(rs1);
User::WaitForRequest(rs1);
TInt retId=rs1.Int();
TInt retOffset=-1;
aTest(retId>=0);
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer offset: %d(%xH)\r\n"),retId,retOffset);
aTest(retOffset>=0);
TUint8* imgBase;
imgBase=chunkImage.Base()+retOffset;
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
// Display the image received for 1s
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
User::After(1000000); // 1 sec
}
// Save the to do MMC card with a filename to indicate its size. If no MMC card is present
// then we will just display a warning rather than fail as this is an optional manual step
TBuf<100> fileName(KSensor);
fileName.AppendNum(aCameraSensorIndex);
fileName.Append(KUnderscore);
fileName.AppendFormat(KFrameSize, aFrameSize.iWidth, aFrameSize.iHeight);
fileName.Append(KUnderscore);
AppendPixelFormat(fileName, aPixelFormat.iPixelFormat);
TBool wrote = ETrue;
RBitmap bitmap;
if ((aPixelFormat.iPixelFormat == EUidPixelFormatJPEG) || (aPixelFormat.iPixelFormat == EUidPixelFormatSpeedTaggedJPEG))
{
fileName.Append((aPixelFormat.iPixelFormat == EUidPixelFormatJPEG) ? KJpeg : KSpeedTaggedJpeg);
r=bitmap.WriteBuffer(fileName, imgBase, (aFrameSize.iWidth * aFrameSize.iHeight * aPixelFormat.iPixelWidthInBytes));
}
else if ((aPixelFormat.iPixelFormat == EUidPixelFormatYUV_422Interleaved) || (aPixelFormat.iPixelFormat == EUidPixelFormatRGB_565))
{
fileName.Append(KBmp);
r=bitmap.WriteBMP(fileName, imgBase, aPixelFormat, aFrameSize.iWidth, aFrameSize.iHeight);
}
else
{
wrote = EFalse;
}
if (wrote)
{
if (r==KErrNone)
{
aTest.Printf(_L("Wrote image to %S\n"),&fileName);
}
else
{
aTest.Printf(_L("Warning: Unable to write %S (error = %d)\r\n"),&fileName,r);
}
}
aTest.Next(_L("Free the buffer"));
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
aTest.Next(_L("Issue two consecutive capture requests"));
TRequestStatus rs2;
aCam.NotifyNewImage(rs1);
aCam.NotifyNewImage(rs2);
User::WaitForRequest(rs1);
retId=rs1.Int();
aTest(retId>=0);
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer0 offset: %d(%xH)\r\n"),retOffset,retOffset);
aTest(retOffset>=0);
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
// Display the image received for 1s
imgBase=chunkImage.Base()+retOffset;
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
User::After(1000000); // 1 sec
}
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
User::WaitForRequest(rs2);
retId=rs2.Int();
aTest(retId>=0);
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer1 offset: %d(%xH)\r\n"),retOffset,retOffset);
aTest(retOffset>=0);
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
// Display the image received for 1s
imgBase=chunkImage.Base()+retOffset;
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
User::After(1000000); // 1 sec
}
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
aTest.Next(_L("Issue four more separate capture requests"));
for (TInt i=0 ; i<4 ; i++)
{
aCam.NotifyNewImage(rs1);
User::WaitForRequest(rs1);
retId=rs1.Int();
aTest(retId>=0);
aCam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer%d offset: %d(%xH)\r\n"),i,retOffset,retOffset);
aTest(retOffset>=0);
if (aPixelFormat.iPixelFormat!=EUidPixelFormatJPEG && aPixelFormat.iPixelFormat!=EUidPixelFormatSpeedTaggedJPEG)
{
// Display the image received for 1s
imgBase=chunkImage.Base()+retOffset;
r=dispHand.Process(imgBase);
#ifdef __WINSCW__
aTest(r==KErrNotSupported);
#else
aTest(r==KErrNone);
#endif
User::After(1000000); // 1 sec
}
}
r=aCam.ReleaseBuffer(retId);
aTest(r==KErrNone);
aTest.Next(_L("Stop the camera."));
r=aCam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Close the chunk"));
r=aCam.ChunkClose(ECamCaptureModeImage);
aTest(r==KErrNone);
}
LOCAL_C void DoCamCancelTests(RTest& aTest, TInt aCameraSensorIndex)
{
TInt bufferSize, r;
SDevCamFrameSize* frameSizes;
TCameraConfigV02Buf camConfBuf;
aTest.Next(_L("CAPTURE CANCEL TESTS"));
RDevCameraSc cam;
aTest.Next(_L("Open a channel on the camera driver"));
r=cam.Open(aCameraSensorIndex);
aTest(r==KErrNone);
TInt numBuffers=KNumVideoFramesToAllocate;
SDevCamPixelFormat* pixelFormat = (SDevCamPixelFormat*) (CameraCaps + 1);
// Test Image Capture, if supported
if (CameraCaps->iNumImagePixelFormats)
{
// If iNumImagePixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
frameSizes = new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes != NULL);
bufferSize = (sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeImage, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
cam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
camConfBuf().iFrameSize=frameSizes[0];
camConfBuf().iPixelFormat=*pixelFormat;
camConfBuf().iFrameRate=frameSizes[0].iMaxFrameRate;
// Set the camera configuration.
r=cam.SetCamConfig(ECamCaptureModeImage, camConfBuf);
aTest(r==KErrNone);
cam.GetCamConfig(ECamCaptureModeImage, camConfBuf);
PrintCamConf(camConfBuf(), aTest);
// Create a chunk handle and trigger the buffer creation.
RChunk chunkImage;
aTest.Next(_L("Setup the config - creating a chunk for image capture"));
r=cam.SetBufConfigChunkCreate(ECamCaptureModeImage,numBuffers,chunkImage);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the resulting buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufImage(bufferConfig);
cam.GetBufferConfig(ECamCaptureModeImage, bufferConfigBufImage);
PrintBufferConf(bufferConfig,aTest);
// Set the current capture mode
r=cam.SetCaptureMode(ECamCaptureModeImage);
aTest(r==KErrNone);
aTest.Next(_L("Start the camera in image capture mode."));
r=cam.Start();
aTest(r==KErrNone);
TRequestStatus rs[KNumVideoFramesToCapture];
TInt retId, retOffset;
aTest.Next(_L("Issue a request and then cancel it"));
cam.NotifyNewImage(rs[0]);
cam.NotifyNewImageCancel();
User::WaitForRequest(rs[0]);
retId=rs[0].Int();
aTest(retId==KErrCancel || retId>=0);
if (retId>=0)
{
cam.BufferIdToOffset(ECamCaptureModeImage,retId,retOffset);
aTest.Printf(_L("Buffer%d : %d\r\n"),retId,retOffset);
aTest(retOffset>=0);
cam.ReleaseBuffer(retId);
}
aTest.Next(_L("Stop the camera."));
r=cam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Close the Image chunk"));
chunkImage.Close();
delete [] frameSizes;
}
// Skip past the image pixel formats
pixelFormat += CameraCaps->iNumImagePixelFormats;
// Test Video Capture, if supported
if (CameraCaps->iNumVideoPixelFormats)
{
// If iNumVideoPixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
frameSizes = new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes != NULL);
bufferSize = (sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeImage, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
cam.GetCamConfig(ECamCaptureModeVideo, camConfBuf);
camConfBuf().iFrameSize=frameSizes[0];
camConfBuf().iPixelFormat=*pixelFormat;
camConfBuf().iFrameRate=frameSizes[0].iMaxFrameRate;
// Set the camera configuration.
r=cam.SetCamConfig(ECamCaptureModeVideo, camConfBuf);
aTest(r==KErrNone);
cam.GetCamConfig(ECamCaptureModeVideo, camConfBuf);
PrintCamConf(camConfBuf(), aTest);
// Create a chunk handle and trigger the buffer creation.
RChunk chunkVideo;
aTest.Next(_L("Setup the config - creating a chunk for video capture"));
r=cam.SetBufConfigChunkCreate(ECamCaptureModeVideo,numBuffers,chunkVideo);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the resulting buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufVideo(bufferConfig);
cam.GetBufferConfig(ECamCaptureModeVideo, bufferConfigBufVideo);
PrintBufferConf(bufferConfig,aTest);
// Set the current capture mode
r=cam.SetCaptureMode(ECamCaptureModeVideo);
aTest(r==KErrNone);
aTest.Next(_L("Start the camera in video mode"));
r=cam.Start();
aTest(r==KErrNone);
aTest.Next(_L("Issue capture requests and globally cancel them all"));
aTest.Printf(_L("Request %d frames\r\n"),KNumVideoFramesToCapture);
TRequestStatus rs[KNumVideoFramesToCapture];
TInt i;
for (i=0 ; i<KNumVideoFramesToCapture; i++)
cam.NotifyNewImage(rs[i]);
cam.NotifyNewImageCancel();
TInt retOffset = -2;
TInt retId = -2;
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
User::WaitForRequest(rs[i]);
retId=rs[i].Int();
aTest(retId==KErrCancel || retId>=0);
if (retId>=0)
{
cam.BufferIdToOffset(ECamCaptureModeVideo,retId,retOffset);
aTest.Printf(_L("Buffer%d : %d\r\n"),retId,retOffset);
aTest(retOffset>=0);
cam.ReleaseBuffer(retId);
}
}
aTest.Next(_L("Issue capture requests and individually cancel them all"));
aTest.Printf(_L("Request %d frames\r\n"),KNumVideoFramesToCapture);
for (i=0 ; i<KNumVideoFramesToCapture; i++)
cam.NotifyNewImage(rs[i]);
for (i=0 ; i<KNumVideoFramesToCapture; i++)
cam.NotifyNewImageCancel(rs[i]);
for (i=0 ; i<KNumVideoFramesToCapture; i++)
{
User::WaitForRequest(rs[i]);
retId=rs[i].Int();
aTest(retId==KErrCancel || retId>=0);
if (retId>=0)
{
cam.BufferIdToOffset(ECamCaptureModeVideo,retId,retOffset);
aTest.Printf(_L("Buffer%d : %d\r\n"),retId,retOffset);
aTest(retOffset>=0);
cam.ReleaseBuffer(retId);
}
}
aTest.Next(_L("Stop the camera."));
r=cam.Stop();
aTest(r==KErrNone);
aTest.Next(_L("Close the Video chunk"));
chunkVideo.Close();
delete [] frameSizes;
}
// Skip past the video pixel formats
pixelFormat += CameraCaps->iNumVideoPixelFormats;
// Test Viewfinder Capture, if supported
if (CameraCaps->iNumViewFinderPixelFormats)
{
// If iNumViewFinderPixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
frameSizes = new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes != NULL);
bufferSize = (sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeViewFinder, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
cam.GetCamConfig(ECamCaptureModeViewFinder, camConfBuf);
camConfBuf().iFrameSize=frameSizes[0];
camConfBuf().iPixelFormat=*pixelFormat;
camConfBuf().iFrameRate=frameSizes[0].iMaxFrameRate;
// Set the camera configuration.
r=cam.SetCamConfig(ECamCaptureModeViewFinder, camConfBuf);
aTest(r==KErrNone);
cam.GetCamConfig(ECamCaptureModeViewFinder, camConfBuf);
PrintCamConf(camConfBuf(), aTest);
// Create a chunk handle and trigger the buffer creation.
RChunk chunkViewFinder;
aTest.Next(_L("Setup the config - creating a chunk for viewfinder capture"));
r=cam.SetBufConfigChunkCreate(ECamCaptureModeViewFinder,numBuffers,chunkViewFinder);
aTest(r==KErrNone);
aTest.Next(_L("Read and display the resulting buffer config"));
TMmSharedChunkBufConfig bufferConfig;
TPckg<TMmSharedChunkBufConfig> bufferConfigBufViewFinder(bufferConfig);
cam.GetBufferConfig(ECamCaptureModeViewFinder, bufferConfigBufViewFinder);
PrintBufferConf(bufferConfig,aTest);
aTest.Next(_L("Close the Viewfinder chunk"));
chunkViewFinder.Close();
delete [] frameSizes;
}
aTest.Next(_L("Close the drivers"));
cam.Close();
}
void CameraTests(TInt aCameraSensorIndex)
{
TUint index, size;
Test.Printf(_L("Testing unit number: %d\r\n"),aCameraSensorIndex);
// Perform some basic opening and multithreaded tests. We don't want just in time debugging during
// these tests
TBool justInTime=User::JustInTime();
User::SetJustInTime(EFalse);
DoCamOpenCapTests(Test,aCameraSensorIndex);
User::SetJustInTime(justInTime);
// Test request handling
DoCamCancelTests(Test, aCameraSensorIndex);
// Re-open the camera driver for use below and to ensure that it can deal with being re-opened (it
// has already been opened and closed by DoCamOpenCapTests())
RDevCameraSc cam;
Test.Next(_L("Open a channel on the camera driver"));
TInt r=cam.Open(aCameraSensorIndex);
Test(r==KErrNone);
// Test Dynamic Settings, e.g. Brightness, Contrast, etc.
DoCamDynamicSettingsTests(cam, Test);
// Go through all supported image, video and viewfinder pixel formats and perform configuration
// and capture tests on them all, for all supported frame sizes and frame rates
TInt bufferSize;
SDevCamFrameSize* frameSizes;
TBool imageConfigTestsDone=EFalse, videoConfigTestsDone=EFalse, viewFinderConfigTestsDone=EFalse;
SDevCamPixelFormat* pixelFormat = (SDevCamPixelFormat*) (CameraCaps + 1);
for (index = 0; index < CameraCaps->iNumImagePixelFormats; ++index)
{
// If iNumImagePixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
Test.Printf(_L("Image pixel format %x, number of frame sizes = %d\n"), pixelFormat->iPixelFormat, pixelFormat->iNumFrameSizes);
frameSizes=new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes!=NULL);
bufferSize=(sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeImage, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
// Test camera configuration for image capture. This is only done once for the sake of
// test expediency
if (!imageConfigTestsDone)
{
imageConfigTestsDone = ETrue;
DoCamConfigTests(cam, Test, ECamCaptureModeImage, *pixelFormat, frameSizes[0]);
}
// Test image capture mode
for (size = 0; size < pixelFormat->iNumFrameSizes; ++size)
{
DoCamImageCaptureTests(cam, Test, aCameraSensorIndex, *pixelFormat, frameSizes[size], frameSizes[size].iMaxFrameRate);
}
// Test buffer offset
for (size = 0; size < pixelFormat->iNumFrameSizes; ++size)
{
DoCamBufferOffsetTests(cam, Test, *pixelFormat, frameSizes[size], frameSizes[size].iMaxFrameRate);
}
delete [] frameSizes;
++pixelFormat;
}
for (index = 0; index < CameraCaps->iNumVideoPixelFormats; ++index)
{
// If iNumVideoPixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
Test.Printf(_L("Video pixel format %x, number of frame sizes = %d\n"), pixelFormat->iPixelFormat, pixelFormat->iNumFrameSizes);
frameSizes=new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes!=NULL);
bufferSize=(sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeVideo, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
// Test camera configuration for video capture. This is only done once for the sake of
// test expediency
if (!videoConfigTestsDone)
{
videoConfigTestsDone=ETrue;
DoCamConfigTests(cam, Test, ECamCaptureModeVideo, *pixelFormat, frameSizes[0]);
}
// Test video capture mode
for (size = 0; size < pixelFormat->iNumFrameSizes; ++size)
{
DoCamVideoCaptureTests(cam, Test, ECamCaptureModeVideo, *pixelFormat,frameSizes[size], frameSizes[size].iMaxFrameRate);
}
delete [] frameSizes;
++pixelFormat;
}
for (index = 0; index < CameraCaps->iNumViewFinderPixelFormats; ++index)
{
// If iNumViewFinderPixelFormats is > 0 then the matching iNumFrameSizes should also be > 0
Test(pixelFormat->iNumFrameSizes > 0);
Test.Printf(_L("Viewfinder pixel format %x, number of frame sizes = %d\n"), pixelFormat->iPixelFormat, pixelFormat->iNumFrameSizes);
frameSizes=new SDevCamFrameSize[pixelFormat->iNumFrameSizes];
Test(frameSizes!=NULL);
bufferSize=(sizeof(SDevCamFrameSize) * pixelFormat->iNumFrameSizes);
TPtr8 frameSizesBuf((TUint8*) frameSizes, bufferSize, bufferSize);
r = cam.FrameSizeCaps(ECamCaptureModeViewFinder, pixelFormat->iPixelFormat, frameSizesBuf);
Test(r == KErrNone);
// Test camera configuration for view finder capture. This is only done once for the sake of
// test expediency
if (!viewFinderConfigTestsDone)
{
viewFinderConfigTestsDone=ETrue;
DoCamConfigTests(cam, Test, ECamCaptureModeViewFinder, *pixelFormat, frameSizes[0]);
}
// Test view finder capture mode
for (size = 0; size < pixelFormat->iNumFrameSizes; ++size)
{
DoCamVideoCaptureTests(cam, Test, ECamCaptureModeViewFinder, *pixelFormat, frameSizes[size], frameSizes[size].iMaxFrameRate);
}
delete [] frameSizes;
++pixelFormat;
}
cam.Close();
// And free the global capabilities buffer that was allocated in DoCamOpenCapTests()
User::Free(CapsBufPtr);
}
GLDEF_C TInt E32Main()
{
__UHEAP_MARK;
Test.Title();
Test.Start(_L("Camera module API test"));
Test.Next(_L("Loading CAMERA PDD"));
TInt r=User::LoadPhysicalDevice(KCamPddFileName);
Test.Printf(_L("Returned %d\r\n"),r);
if (r==KErrNotFound)
{
Test.Printf(_L("Shared chunk camera driver not supported - test skipped\r\n"));
Test.End();
Test.Close();
__UHEAP_MARKEND;
return(KErrNone);
}
Test(r==KErrNone || r==KErrAlreadyExists);
Test.Next(_L("Loading CAMERA LDD"));
r=User::LoadLogicalDevice(KCamLddFileName);
Test.Printf(_L("Returned %d\r\n"),r);
Test(r==KErrNone || r==KErrAlreadyExists);
Test.Next(_L("Loading D_MMCSC LDD"));
r=User::LoadLogicalDevice(KTstLddFileName);
Test.Printf(_L("Returned %d\r\n"),r);
Test(r==KErrNone||r==KErrAlreadyExists);
__KHEAP_MARK;
if (User::CommandLineLength()>0)
{
TBuf<0x100> cmd;
TInt moduleIndex = KUnit0;
User::CommandLine(cmd);
Test(cmd.Length()>0);
if (cmd[0]>='0' && cmd[0]<='9')
moduleIndex=(TInt)(cmd[0]-'0');
CameraTests(moduleIndex);
}
else // If no command line arguments are passed we perform tests on the module 0 and 1
{
CameraTests(0);
}
__KHEAP_MARKEND;
// Free the PDDs and LDDs
Test.Next(_L("Freeing ECAMERASC LDD"));
r=User::FreeLogicalDevice(KDevCameraScName);
Test(r==KErrNone);
Test.Next(_L("Freeing CAMERASC PDD"));
TFindPhysicalDevice fDr;
TFullName drivName;
TName searchName;
searchName.Append(KDevCameraScName);
searchName.Append(KCamFreePddExtension);
fDr.Find(searchName);
r=fDr.Next(drivName);
Test(r==KErrNone);
r=User::FreePhysicalDevice(drivName);
Test(r==KErrNone);
Test.Next(_L("Freeing D_MMCSC LDD"));
r=User::FreeLogicalDevice(KDevMmCScName);
Test(r==KErrNone);
Test.End();
Test.Close();
__UHEAP_MARKEND;
return(KErrNone);
}