/*
* Copyright (C) 2016 The Android Open Source Project
*
* 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.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "DngValidateCamera"
#include <log/log.h>
#include <jni.h>
#include <string>
#include <sstream>
#include <iostream>
/**
* Use DNG SDK to validate captured DNG file.
*
* This code is largely based on the dng_validate.cpp implementation included
* with the DNG SDK. The portions of this file that are from the DNG SDK are
* covered by the the DNG SDK license in /external/dng_sdk/LICENSE
*/
#include "dng_color_space.h"
#include "dng_date_time.h"
#include "dng_exceptions.h"
#include "dng_file_stream.h"
#include "dng_globals.h"
#include "dng_host.h"
#include "dng_ifd.h"
#include "dng_image_writer.h"
#include "dng_info.h"
#include "dng_linearization_info.h"
#include "dng_mosaic_info.h"
#include "dng_negative.h"
#include "dng_preview.h"
#include "dng_render.h"
#include "dng_simple_image.h"
#include "dng_tag_codes.h"
#include "dng_tag_types.h"
#include "dng_tag_values.h"
// Version of DNG validate referenced for this implementation
#define kDNGValidateVersion "1.4"
static bool gFourColorBayer = false;
static int32 gMosaicPlane = -1;
static uint32 gPreferredSize = 0;
static uint32 gMinimumSize = 0;
static uint32 gMaximumSize = 0;
static uint32 gProxyDNGSize = 0;
static const dng_color_space *gFinalSpace = &dng_space_sRGB::Get();
static uint32 gFinalPixelType = ttByte;
static dng_string gDumpStage1;
static dng_string gDumpStage2;
static dng_string gDumpStage3;
static dng_string gDumpTIF;
static dng_string gDumpDNG;
/**
* Validate DNG file in provided buffer.
*
* Returns dng_error_none (0) on success, otherwise one of the
* dng_error_code enum values is returned.
*
* Warnings and errors found during validation are printed to stderr
*/
static dng_error_code dng_validate(const void* data, uint32_t count) {
ALOGI("Validating DNG buffer");
try {
dng_stream stream(data, count);
dng_host host;
host.SetPreferredSize(gPreferredSize);
host.SetMinimumSize(gMinimumSize);
host.SetMaximumSize(gMaximumSize);
host.ValidateSizes();
if (host.MinimumSize()) {
host.SetForPreview(true);
gDumpDNG.Clear();
}
if (gDumpDNG.NotEmpty()) {
host.SetSaveDNGVersion(dngVersion_SaveDefault);
host.SetSaveLinearDNG(false);
host.SetKeepOriginalFile(false);
}
// Read into the negative.
AutoPtr<dng_negative> negative;
{
dng_info info;
info.Parse(host, stream);
info.PostParse(host);
if (!info.IsValidDNG()) {
return dng_error_bad_format;
}
negative.Reset(host.Make_dng_negative());
negative->Parse(host, stream, info);
negative->PostParse(host, stream, info);
{
dng_timer timer("Raw image read time");
negative->ReadStage1Image(host, stream, info);
}
if (info.fMaskIndex != -1) {
dng_timer timer("Transparency mask read time");
negative->ReadTransparencyMask(host, stream, info);
}
negative->ValidateRawImageDigest(host);
}
// Option to write stage 1 image.
if (gDumpStage1.NotEmpty()) {
dng_file_stream stream2 (gDumpStage1.Get(), true);
const dng_image &stage1 = *negative->Stage1Image();
dng_image_writer writer;
writer.WriteTIFF(host,
stream2,
stage1,
stage1.Planes() >= 3 ? piRGB
: piBlackIsZero);
gDumpStage1.Clear();
}
// Metadata.
negative->SynchronizeMetadata();
// Four color Bayer option.
if (gFourColorBayer) {
negative->SetFourColorBayer();
}
// Build stage 2 image.
{
dng_timer timer("Linearization time");
negative->BuildStage2Image(host);
}
if (gDumpStage2.NotEmpty()) {
dng_file_stream stream2(gDumpStage2.Get(), true);
const dng_image &stage2 = *negative->Stage2Image();
dng_image_writer writer;
writer.WriteTIFF (host,
stream2,
stage2,
stage2.Planes() >= 3 ? piRGB
: piBlackIsZero);
gDumpStage2.Clear();
}
// Build stage 3 image.
{
dng_timer timer("Interpolate time");
negative->BuildStage3Image(host,
gMosaicPlane);
}
// Convert to proxy, if requested.
if (gProxyDNGSize) {
dng_timer timer("ConvertToProxy time");
dng_image_writer writer;
negative->ConvertToProxy(host,
writer,
gProxyDNGSize);
}
// Flatten transparency, if required.
if (negative->NeedFlattenTransparency(host)) {
dng_timer timer("FlattenTransparency time");
negative->FlattenTransparency(host);
}
if (gDumpStage3.NotEmpty()) {
dng_file_stream stream2(gDumpStage3.Get(), true);
const dng_image &stage3 = *negative->Stage3Image();
dng_image_writer writer;
writer.WriteTIFF (host,
stream2,
stage3,
stage3.Planes () >= 3 ? piRGB
: piBlackIsZero);
gDumpStage3.Clear();
}
// Output DNG file if requested.
if (gDumpDNG.NotEmpty()) {
// Build the preview list.
dng_preview_list previewList;
dng_date_time_info dateTimeInfo;
CurrentDateTimeAndZone(dateTimeInfo);
for (uint32 previewIndex = 0; previewIndex < 2; previewIndex++) {
// Skip preview if writing a compresssed main image to save space
// in this example code.
if (negative->RawJPEGImage() != NULL && previewIndex > 0) {
break;
}
// Report timing.
dng_timer timer(previewIndex == 0 ? "Build thumbnail time"
: "Build preview time");
// Render a preview sized image.
AutoPtr<dng_image> previewImage;
{
dng_render render (host, *negative);
render.SetFinalSpace (negative->IsMonochrome() ?
dng_space_GrayGamma22::Get() : dng_space_sRGB::Get());
render.SetFinalPixelType (ttByte);
render.SetMaximumSize (previewIndex == 0 ? 256 : 1024);
previewImage.Reset (render.Render());
}
// Don't write the preview if it is same size as thumbnail.
if (previewIndex > 0 &&
Max_uint32(previewImage->Bounds().W(),
previewImage->Bounds().H()) <= 256) {
break;
}
// If we have compressed JPEG data, create a compressed thumbnail. Otherwise
// save a uncompressed thumbnail.
bool useCompressedPreview = (negative->RawJPEGImage() != NULL) ||
(previewIndex > 0);
AutoPtr<dng_preview> preview (useCompressedPreview ?
(dng_preview *) new dng_jpeg_preview :
(dng_preview *) new dng_image_preview);
// Setup up preview info.
preview->fInfo.fApplicationName.Set("dng_validate");
preview->fInfo.fApplicationVersion.Set(kDNGValidateVersion);
preview->fInfo.fSettingsName.Set("Default");
preview->fInfo.fColorSpace = previewImage->Planes() == 1 ?
previewColorSpace_GrayGamma22 :
previewColorSpace_sRGB;
preview->fInfo.fDateTime = dateTimeInfo.Encode_ISO_8601();
if (!useCompressedPreview) {
dng_image_preview *imagePreview = static_cast<dng_image_preview *>(preview.Get());
imagePreview->fImage.Reset(previewImage.Release());
} else {
dng_jpeg_preview *jpegPreview = static_cast<dng_jpeg_preview *>(preview.Get());
int32 quality = (previewIndex == 0 ? 8 : 5);
dng_image_writer writer;
writer.EncodeJPEGPreview (host,
*previewImage,
*jpegPreview,
quality);
}
previewList.Append (preview);
}
// Write DNG file.
dng_file_stream stream2(gDumpDNG.Get(), true);
{
dng_timer timer("Write DNG time");
dng_image_writer writer;
writer.WriteDNG(host,
stream2,
*negative.Get(),
&previewList,
dngVersion_Current,
false);
}
gDumpDNG.Clear();
}
// Output TIF file if requested.
if (gDumpTIF.NotEmpty()) {
// Render final image.
dng_render render(host, *negative);
render.SetFinalSpace(*gFinalSpace );
render.SetFinalPixelType(gFinalPixelType);
if (host.MinimumSize()) {
dng_point stage3Size = negative->Stage3Image()->Size();
render.SetMaximumSize (Max_uint32(stage3Size.v,
stage3Size.h));
}
AutoPtr<dng_image> finalImage;
{
dng_timer timer("Render time");
finalImage.Reset(render.Render());
}
finalImage->Rotate(negative->Orientation());
// Now that Camera Raw supports non-raw formats, we should
// not keep any Camera Raw settings in the XMP around when
// writing rendered files.
#if qDNGUseXMP
if (negative->GetXMP()) {
negative->GetXMP()->RemoveProperties(XMP_NS_CRS);
negative->GetXMP()->RemoveProperties(XMP_NS_CRSS);
}
#endif
// Write TIF file.
dng_file_stream stream2(gDumpTIF.Get(), true);
{
dng_timer timer("Write TIFF time");
dng_image_writer writer;
writer.WriteTIFF(host,
stream2,
*finalImage.Get(),
finalImage->Planes() >= 3 ? piRGB
: piBlackIsZero,
ccUncompressed,
negative.Get(),
&render.FinalSpace());
}
gDumpTIF.Clear();
}
} catch (const dng_exception &except) {
return except.ErrorCode();
} catch (...) {
return dng_error_unknown;
}
ALOGI("DNG validation complete");
return dng_error_none;
}
extern "C" jboolean
Java_android_hardware_camera2_cts_DngCreatorTest_validateDngNative(
JNIEnv* env, jclass /*clazz*/, jbyteArray dngBuffer) {
jbyte* buffer = env->GetByteArrayElements(dngBuffer, NULL);
jsize bufferCount = env->GetArrayLength(dngBuffer);
if (buffer == nullptr) {
ALOGE("Unable to map DNG buffer to native");
return JNI_FALSE;
}
// DNG parsing warnings/errors fprintfs are spread throughout the DNG SDK,
// guarded by the qDNGValidate define flag. To avoid modifying the SDK,
// redirect stderr to a pipe to capture output locally.
int pipeFds[2];
int err;
err = pipe(pipeFds);
if (err != 0) {
ALOGE("Error redirecting dng_validate output: %d", errno);
env->ReleaseByteArrayElements(dngBuffer, buffer, 0);
return JNI_FALSE;
}
int stderrFd = dup(fileno(stderr));
dup2(pipeFds[1], fileno(stderr));
close(pipeFds[1]);
// Actually run the validation
dng_error_code dng_err = dng_validate(buffer, bufferCount);
env->ReleaseByteArrayElements(dngBuffer, buffer, 0);
// Restore stderr and read out pipe
dup2(stderrFd, fileno(stderr));
std::stringstream errorStream;
const size_t BUF_SIZE = 256;
char readBuf[BUF_SIZE];
ssize_t count = 0;
while((count = read(pipeFds[0], readBuf, BUF_SIZE)) > 0) {
errorStream.write(readBuf, count);
}
if (count < 0) {
ALOGE("Error reading from dng_validate output pipe: %d", errno);
return JNI_FALSE;
}
close(pipeFds[1]);
std::string line;
int lineCount = 0;
ALOGI("Output from DNG validation:");
// dng_validate doesn't actually propagate all errors/warnings to the
// return error code, so look for an error pattern in output to detect
// problems. Also make sure the output is long enough since some non-error
// content should always be printed.
while(std::getline(errorStream, line, '\n')) {
lineCount++;
if ( (line.size() > 3) &&
(line[0] == line[1]) &&
(line[1] == line[2]) &&
(line[2] == '*') ) {
// Found a warning or error, so need to fail the test
if (dng_err == dng_error_none) {
dng_err = dng_error_bad_format;
}
ALOGE("**|%s", line.c_str());
} else {
ALOGI(" |%s", line.c_str());
}
}
// If no output is produced, assume something went wrong
if (lineCount < 3) {
ALOGE("Validation output less than expected!");
dng_err = dng_error_unknown;
}
if (dng_err != dng_error_none) {
ALOGE("DNG validation failed!");
}
return (dng_err == dng_error_none) ? JNI_TRUE : JNI_FALSE;
}