/* * Copyright 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 "ExifInterface_JNI" #include "android_media_Utils.h" #include "android/graphics/CreateJavaOutputStreamAdaptor.h" #include "src/piex_types.h" #include "src/piex.h" #include <jni.h> #include <JNIHelp.h> #include <androidfw/Asset.h> #include <android_runtime/AndroidRuntime.h> #include <android/graphics/Utils.h> #include <nativehelper/ScopedLocalRef.h> #include <utils/Log.h> #include <utils/String8.h> #include <utils/KeyedVector.h> // ---------------------------------------------------------------------------- using namespace android; static const char kJpegSignatureChars[] = {(char)0xff, (char)0xd8, (char)0xff}; static const int kJpegSignatureSize = 3; #define FIND_CLASS(var, className) \ var = env->FindClass(className); \ LOG_FATAL_IF(! var, "Unable to find class " className); #define GET_METHOD_ID(var, clazz, fieldName, fieldDescriptor) \ var = env->GetMethodID(clazz, fieldName, fieldDescriptor); \ LOG_FATAL_IF(! var, "Unable to find method " fieldName); struct HashMapFields { jmethodID init; jmethodID put; }; struct fields_t { HashMapFields hashMap; jclass hashMapClassId; }; static fields_t gFields; static jobject KeyedVectorToHashMap(JNIEnv *env, KeyedVector<String8, String8> const &map) { jclass clazz = gFields.hashMapClassId; jobject hashMap = env->NewObject(clazz, gFields.hashMap.init); for (size_t i = 0; i < map.size(); ++i) { jstring jkey = env->NewStringUTF(map.keyAt(i).string()); jstring jvalue = env->NewStringUTF(map.valueAt(i).string()); env->CallObjectMethod(hashMap, gFields.hashMap.put, jkey, jvalue); env->DeleteLocalRef(jkey); env->DeleteLocalRef(jvalue); } return hashMap; } extern "C" { // -------------------------- ExifInterface methods --------------------------- static void ExifInterface_initRaw(JNIEnv *env) { jclass clazz; FIND_CLASS(clazz, "java/util/HashMap"); gFields.hashMapClassId = static_cast<jclass>(env->NewGlobalRef(clazz)); GET_METHOD_ID(gFields.hashMap.init, clazz, "<init>", "()V"); GET_METHOD_ID(gFields.hashMap.put, clazz, "put", "(Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;"); } static bool is_asset_stream(const SkStream& stream) { return stream.hasLength() && stream.hasPosition(); } static jobject ExifInterface_getThumbnailFromAsset( JNIEnv* env, jclass /* clazz */, jlong jasset, jint jthumbnailOffset, jint jthumbnailLength) { Asset* asset = reinterpret_cast<Asset*>(jasset); std::unique_ptr<AssetStreamAdaptor> stream(new AssetStreamAdaptor(asset)); std::unique_ptr<jbyte[]> thumbnailData(new jbyte[(int)jthumbnailLength]); if (thumbnailData.get() == NULL) { ALOGI("No memory to get thumbnail"); return NULL; } // Do not know the current offset. So rewind it. stream->rewind(); // Read thumbnail. stream->skip((int)jthumbnailOffset); stream->read((void*)thumbnailData.get(), (int)jthumbnailLength); // Copy to the byte array. jbyteArray byteArray = env->NewByteArray(jthumbnailLength); env->SetByteArrayRegion(byteArray, 0, jthumbnailLength, thumbnailData.get()); return byteArray; } static jobject getRawAttributes(JNIEnv* env, SkStream* stream, bool returnThumbnail) { std::unique_ptr<SkStream> streamDeleter(stream); std::unique_ptr<::piex::StreamInterface> piexStream; if (is_asset_stream(*stream)) { piexStream.reset(new AssetStream(streamDeleter.release())); } else { piexStream.reset(new BufferedStream(streamDeleter.release())); } piex::PreviewImageData image_data; if (!GetExifFromRawImage(piexStream.get(), String8("[piex stream]"), image_data)) { ALOGI("Raw image not detected"); return NULL; } KeyedVector<String8, String8> map; if (image_data.thumbnail.length > 0 && image_data.thumbnail.format == ::piex::Image::kJpegCompressed) { map.add(String8("HasThumbnail"), String8("true")); map.add(String8("ThumbnailOffset"), String8::format("%d", image_data.thumbnail.offset)); map.add(String8("ThumbnailLength"), String8::format("%d", image_data.thumbnail.length)); } else { map.add(String8("HasThumbnail"), String8("false")); } map.add( String8("Orientation"), String8::format("%u", image_data.exif_orientation)); map.add( String8("ImageWidth"), String8::format("%u", image_data.full_width)); map.add( String8("ImageLength"), String8::format("%u", image_data.full_height)); // Current PIEX does not have LightSource information while JPEG version of // EXIFInterface always declares the light source field. For the // compatibility, it provides the default value of the light source field. map.add(String8("LightSource"), String8("0")); if (!image_data.maker.empty()) { map.add(String8("Make"), String8(image_data.maker.c_str())); } if (!image_data.model.empty()) { map.add(String8("Model"), String8(image_data.model.c_str())); } if (!image_data.date_time.empty()) { map.add(String8("DateTime"), String8(image_data.date_time.c_str())); } if (image_data.iso) { map.add( String8("ISOSpeedRatings"), String8::format("%u", image_data.iso)); } if (image_data.exposure_time.numerator != 0 && image_data.exposure_time.denominator != 0) { double exposureTime = (double)image_data.exposure_time.numerator / image_data.exposure_time.denominator; const char* format; if (exposureTime < 0.01) { format = "%6.4f"; } else { format = "%5.3f"; } map.add(String8("ExposureTime"), String8::format(format, exposureTime)); } if (image_data.fnumber.numerator != 0 && image_data.fnumber.denominator != 0) { double fnumber = (double)image_data.fnumber.numerator / image_data.fnumber.denominator; map.add(String8("FNumber"), String8::format("%5.3f", fnumber)); } if (image_data.focal_length.numerator != 0 && image_data.focal_length.denominator != 0) { map.add( String8("FocalLength"), String8::format( "%u/%u", image_data.focal_length.numerator, image_data.focal_length.denominator)); } if (image_data.gps.is_valid) { if (image_data.gps.latitude[0].denominator != 0 && image_data.gps.latitude[1].denominator != 0 && image_data.gps.latitude[2].denominator != 0) { map.add( String8("GPSLatitude"), String8::format( "%u/%u,%u/%u,%u/%u", image_data.gps.latitude[0].numerator, image_data.gps.latitude[0].denominator, image_data.gps.latitude[1].numerator, image_data.gps.latitude[1].denominator, image_data.gps.latitude[2].numerator, image_data.gps.latitude[2].denominator)); } if (image_data.gps.latitude_ref) { char str[2]; str[0] = image_data.gps.latitude_ref; str[1] = 0; map.add(String8("GPSLatitudeRef"), String8(str)); } if (image_data.gps.longitude[0].denominator != 0 && image_data.gps.longitude[1].denominator != 0 && image_data.gps.longitude[2].denominator != 0) { map.add( String8("GPSLongitude"), String8::format( "%u/%u,%u/%u,%u/%u", image_data.gps.longitude[0].numerator, image_data.gps.longitude[0].denominator, image_data.gps.longitude[1].numerator, image_data.gps.longitude[1].denominator, image_data.gps.longitude[2].numerator, image_data.gps.longitude[2].denominator)); } if (image_data.gps.longitude_ref) { char str[2]; str[0] = image_data.gps.longitude_ref; str[1] = 0; map.add(String8("GPSLongitudeRef"), String8(str)); } if (image_data.gps.altitude.denominator != 0) { map.add( String8("GPSAltitude"), String8::format("%u/%u", image_data.gps.altitude.numerator, image_data.gps.altitude.denominator)); map.add( String8("GPSAltitudeRef"), String8(image_data.gps.altitude_ref ? "1" : "0")); } if (image_data.gps.time_stamp[0].denominator != 0 && image_data.gps.time_stamp[1].denominator != 0 && image_data.gps.time_stamp[2].denominator != 0) { map.add( String8("GPSTimeStamp"), String8::format( "%02u:%02u:%02u", image_data.gps.time_stamp[0].numerator / image_data.gps.time_stamp[0].denominator, image_data.gps.time_stamp[1].numerator / image_data.gps.time_stamp[1].denominator, image_data.gps.time_stamp[2].numerator / image_data.gps.time_stamp[2].denominator)); } if (!image_data.gps.date_stamp.empty()) { map.add( String8("GPSDateStamp"), String8(image_data.gps.date_stamp.c_str())); } } jobject hashMap = KeyedVectorToHashMap(env, map); if (returnThumbnail) { std::unique_ptr<jbyte[]> thumbnailData(new jbyte[image_data.thumbnail.length]); if (thumbnailData.get() == NULL) { ALOGE("No memory to parse a thumbnail"); return NULL; } jbyteArray jthumbnailByteArray = env->NewByteArray(image_data.thumbnail.length); if (jthumbnailByteArray == NULL) { ALOGE("No memory to parse a thumbnail"); return NULL; } piexStream.get()->GetData(image_data.thumbnail.offset, image_data.thumbnail.length, (uint8_t*)thumbnailData.get()); env->SetByteArrayRegion( jthumbnailByteArray, 0, image_data.thumbnail.length, thumbnailData.get()); jstring jkey = env->NewStringUTF(String8("ThumbnailData")); env->CallObjectMethod(hashMap, gFields.hashMap.put, jkey, jthumbnailByteArray); env->DeleteLocalRef(jkey); env->DeleteLocalRef(jthumbnailByteArray); } return hashMap; } static jobject ExifInterface_getRawAttributesFromAsset( JNIEnv* env, jclass /* clazz */, jlong jasset) { std::unique_ptr<char[]> jpegSignature(new char[kJpegSignatureSize]); if (jpegSignature.get() == NULL) { ALOGE("No enough memory to parse"); return NULL; } Asset* asset = reinterpret_cast<Asset*>(jasset); std::unique_ptr<AssetStreamAdaptor> stream(new AssetStreamAdaptor(asset)); if (stream.get()->read(jpegSignature.get(), kJpegSignatureSize) != kJpegSignatureSize) { // Rewind the stream. stream.get()->rewind(); ALOGI("Corrupted image."); return NULL; } // Rewind the stream. stream.get()->rewind(); if (memcmp(jpegSignature.get(), kJpegSignatureChars, kJpegSignatureSize) == 0) { ALOGI("Should be a JPEG stream."); return NULL; } // Try to parse from the given stream. jobject result = getRawAttributes(env, stream.get(), false); // Rewind the stream for the chance to read JPEG. if (result == NULL) { stream.get()->rewind(); } return result; } static jobject ExifInterface_getRawAttributesFromFileDescriptor( JNIEnv* env, jclass /* clazz */, jobject jfileDescriptor) { std::unique_ptr<char[]> jpegSignature(new char[kJpegSignatureSize]); if (jpegSignature.get() == NULL) { ALOGE("No enough memory to parse"); return NULL; } int fd = jniGetFDFromFileDescriptor(env, jfileDescriptor); if (fd < 0) { ALOGI("Invalid file descriptor"); return NULL; } // Restore the file descriptor's offset on exiting this function. AutoFDSeek autoRestore(fd); int dupFd = dup(fd); FILE* file = fdopen(dupFd, "r"); if (file == NULL) { ALOGI("Failed to open the file descriptor"); return NULL; } if (fgets(jpegSignature.get(), kJpegSignatureSize, file) == NULL) { ALOGI("Corrupted image."); return NULL; } if (memcmp(jpegSignature.get(), kJpegSignatureChars, kJpegSignatureSize) == 0) { ALOGI("Should be a JPEG stream."); return NULL; } // Rewind the file descriptor. fseek(file, 0L, SEEK_SET); std::unique_ptr<SkFILEStream> fileStream(new SkFILEStream(file, SkFILEStream::kCallerPasses_Ownership)); return getRawAttributes(env, fileStream.get(), false); } static jobject ExifInterface_getRawAttributesFromInputStream( JNIEnv* env, jclass /* clazz */, jobject jinputStream) { jbyteArray byteArray = env->NewByteArray(8*1024); ScopedLocalRef<jbyteArray> scoper(env, byteArray); std::unique_ptr<SkStream> stream(CreateJavaInputStreamAdaptor(env, jinputStream, scoper.get())); return getRawAttributes(env, stream.get(), true); } } // extern "C" // ---------------------------------------------------------------------------- static JNINativeMethod gMethods[] = { { "nativeInitRaw", "()V", (void *)ExifInterface_initRaw }, { "nativeGetThumbnailFromAsset", "(JII)[B", (void *)ExifInterface_getThumbnailFromAsset }, { "nativeGetRawAttributesFromAsset", "(J)Ljava/util/HashMap;", (void*)ExifInterface_getRawAttributesFromAsset }, { "nativeGetRawAttributesFromFileDescriptor", "(Ljava/io/FileDescriptor;)Ljava/util/HashMap;", (void*)ExifInterface_getRawAttributesFromFileDescriptor }, { "nativeGetRawAttributesFromInputStream", "(Ljava/io/InputStream;)Ljava/util/HashMap;", (void*)ExifInterface_getRawAttributesFromInputStream }, }; int register_android_media_ExifInterface(JNIEnv *env) { return AndroidRuntime::registerNativeMethods( env, "android/media/ExifInterface", gMethods, NELEM(gMethods)); }