/* * Copyright (C) 2010 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. */ package android.mtp; import android.annotation.NonNull; import android.annotation.Nullable; import android.hardware.usb.UsbDevice; import android.hardware.usb.UsbDeviceConnection; import android.os.CancellationSignal; import android.os.ParcelFileDescriptor; import com.android.internal.util.Preconditions; import java.io.IOException; /** * This class represents an MTP or PTP device connected on the USB host bus. An application can * instantiate an object of this type, by referencing an attached {@link * android.hardware.usb.UsbDevice} and then use methods in this class to get information about the * device and objects stored on it, as well as open the connection and transfer data. */ public final class MtpDevice { private static final String TAG = "MtpDevice"; private final UsbDevice mDevice; static { System.loadLibrary("media_jni"); } /** * MtpClient constructor * * @param device the {@link android.hardware.usb.UsbDevice} for the MTP or PTP device */ public MtpDevice(UsbDevice device) { mDevice = device; } /** * Opens the MTP device. Once the device is open it takes ownership of the * {@link android.hardware.usb.UsbDeviceConnection}. * The connection will be closed when you call {@link #close()} * The connection will also be closed if this method fails. * * @param connection an open {@link android.hardware.usb.UsbDeviceConnection} for the device * @return true if the device was successfully opened. */ public boolean open(UsbDeviceConnection connection) { boolean result = native_open(mDevice.getDeviceName(), connection.getFileDescriptor()); if (!result) { connection.close(); } return result; } /** * Closes all resources related to the MtpDevice object. * After this is called, the object can not be used until {@link #open} is called again * with a new {@link android.hardware.usb.UsbDeviceConnection}. */ public void close() { native_close(); } @Override protected void finalize() throws Throwable { try { native_close(); } finally { super.finalize(); } } /** * Returns the name of the USB device * This returns the same value as {@link android.hardware.usb.UsbDevice#getDeviceName} * for the device's {@link android.hardware.usb.UsbDevice} * * @return the device name */ public String getDeviceName() { return mDevice.getDeviceName(); } /** * Returns the USB ID of the USB device. * This returns the same value as {@link android.hardware.usb.UsbDevice#getDeviceId} * for the device's {@link android.hardware.usb.UsbDevice} * * @return the device ID */ public int getDeviceId() { return mDevice.getDeviceId(); } @Override public String toString() { return mDevice.getDeviceName(); } /** * Returns the {@link MtpDeviceInfo} for this device * * @return the device info */ public MtpDeviceInfo getDeviceInfo() { return native_get_device_info(); } /** * Returns the list of IDs for all storage units on this device * Information about each storage unit can be accessed via {@link #getStorageInfo}. * * @return the list of storage IDs */ public int[] getStorageIds() { return native_get_storage_ids(); } /** * Returns the list of object handles for all objects on the given storage unit, * with the given format and parent. * Information about each object can be accessed via {@link #getObjectInfo}. * * @param storageId the storage unit to query * @param format the format of the object to return, or zero for all formats * @param objectHandle the parent object to query, -1 for the storage root, * or zero for all objects * @return the object handles */ public int[] getObjectHandles(int storageId, int format, int objectHandle) { return native_get_object_handles(storageId, format, objectHandle); } /** * Returns the data for an object as a byte array. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. * * @param objectHandle handle of the object to read * @param objectSize the size of the object (this should match * {@link MtpObjectInfo#getCompressedSize}) * @return the object's data, or null if reading fails */ public byte[] getObject(int objectHandle, int objectSize) { Preconditions.checkArgumentNonnegative(objectSize, "objectSize should not be negative"); return native_get_object(objectHandle, objectSize); } /** * Obtains object bytes in the specified range and writes it to an array. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. * * @param objectHandle handle of the object to read * @param offset Start index of reading range. It must be a non-negative value at most * 0xffffffff. * @param size Size of reading range. It must be a non-negative value at most Integer.MAX_VALUE * or 0xffffffff. If 0xffffffff is specified, the method obtains the full bytes of object. * @param buffer Array to write data. * @return Size of bytes that are actually read. */ public long getPartialObject(int objectHandle, long offset, long size, byte[] buffer) throws IOException { return native_get_partial_object(objectHandle, offset, size, buffer); } /** * Obtains object bytes in the specified range and writes it to an array. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. * * This is a vender-extended operation supported by Android that enables us to pass * unsigned 64-bit offset. Check if the MTP device supports the operation by using * {@link MtpDeviceInfo#getOperationsSupported()}. * * @param objectHandle handle of the object to read * @param offset Start index of reading range. It must be a non-negative value. * @param size Size of reading range. It must be a non-negative value at most Integer.MAX_VALUE. * @param buffer Array to write data. * @return Size of bytes that are actually read. * @see MtpConstants#OPERATION_GET_PARTIAL_OBJECT_64 */ public long getPartialObject64(int objectHandle, long offset, long size, byte[] buffer) throws IOException { return native_get_partial_object_64(objectHandle, offset, size, buffer); } /** * Returns the thumbnail data for an object as a byte array. * The size and format of the thumbnail data can be determined via * {@link MtpObjectInfo#getThumbCompressedSize} and * {@link MtpObjectInfo#getThumbFormat}. * For typical devices the format is JPEG. * * @param objectHandle handle of the object to read * @return the object's thumbnail, or null if reading fails */ public byte[] getThumbnail(int objectHandle) { return native_get_thumbnail(objectHandle); } /** * Retrieves the {@link MtpStorageInfo} for a storage unit. * * @param storageId the ID of the storage unit * @return the MtpStorageInfo */ public MtpStorageInfo getStorageInfo(int storageId) { return native_get_storage_info(storageId); } /** * Retrieves the {@link MtpObjectInfo} for an object. * * @param objectHandle the handle of the object * @return the MtpObjectInfo */ public MtpObjectInfo getObjectInfo(int objectHandle) { return native_get_object_info(objectHandle); } /** * Deletes an object on the device. This call may block, since * deleting a directory containing many files may take a long time * on some devices. * * @param objectHandle handle of the object to delete * @return true if the deletion succeeds */ public boolean deleteObject(int objectHandle) { return native_delete_object(objectHandle); } /** * Retrieves the object handle for the parent of an object on the device. * * @param objectHandle handle of the object to query * @return the parent's handle, or zero if it is in the root of the storage */ public long getParent(int objectHandle) { return native_get_parent(objectHandle); } /** * Retrieves the ID of the storage unit containing the given object on the device. * * @param objectHandle handle of the object to query * @return the object's storage unit ID */ public long getStorageId(int objectHandle) { return native_get_storage_id(objectHandle); } /** * Copies the data for an object to a file in external storage. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. * * @param objectHandle handle of the object to read * @param destPath path to destination for the file transfer. * This path should be in the external storage as defined by * {@link android.os.Environment#getExternalStorageDirectory} * @return true if the file transfer succeeds */ public boolean importFile(int objectHandle, String destPath) { return native_import_file(objectHandle, destPath); } /** * Copies the data for an object to a file descriptor. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. The file descriptor is not closed * on completion, and must be done by the caller. * * @param objectHandle handle of the object to read * @param descriptor file descriptor to write the data to for the file transfer. * @return true if the file transfer succeeds */ public boolean importFile(int objectHandle, ParcelFileDescriptor descriptor) { return native_import_file(objectHandle, descriptor.getFd()); } /** * Copies the data for an object from a file descriptor. * This call may block for an arbitrary amount of time depending on the size * of the data and speed of the devices. The file descriptor is not closed * on completion, and must be done by the caller. * * @param objectHandle handle of the target file * @param size size of the file in bytes * @param descriptor file descriptor to read the data from. * @return true if the file transfer succeeds */ public boolean sendObject(int objectHandle, long size, ParcelFileDescriptor descriptor) { return native_send_object(objectHandle, size, descriptor.getFd()); } /** * Uploads an object metadata for a new entry. The {@link MtpObjectInfo} can be * created with the {@link MtpObjectInfo.Builder} class. * * The returned {@link MtpObjectInfo} has the new object handle field filled in. * * @param info metadata of the entry * @return object info of the created entry or null if the operation failed. */ public MtpObjectInfo sendObjectInfo(MtpObjectInfo info) { return native_send_object_info(info); } /** * Reads an event from the device. It blocks the current thread until it gets an event. * It throws OperationCanceledException if it is cancelled by signal. * * @param signal signal for cancellation * @return obtained event * @throws IOException */ public @NonNull MtpEvent readEvent(@Nullable CancellationSignal signal) throws IOException { final int handle = native_submit_event_request(); Preconditions.checkState(handle >= 0, "Other thread is reading an event."); if (signal != null) { signal.setOnCancelListener(new CancellationSignal.OnCancelListener() { @Override public void onCancel() { native_discard_event_request(handle); } }); } try { return native_reap_event_request(handle); } finally { if (signal != null) { signal.setOnCancelListener(null); } } } /** * Returns object size in 64-bit integer. * * Though MtpObjectInfo#getCompressedSize returns the object size in 32-bit unsigned integer, * this method returns the object size in 64-bit integer from the object property. Thus it can * fetch 4GB+ object size correctly. If the device does not support objectSize property, it * throws IOException. * @hide */ public long getObjectSizeLong(int handle, int format) throws IOException { return native_get_object_size_long(handle, format); } // used by the JNI code private long mNativeContext; private native boolean native_open(String deviceName, int fd); private native void native_close(); private native MtpDeviceInfo native_get_device_info(); private native int[] native_get_storage_ids(); private native MtpStorageInfo native_get_storage_info(int storageId); private native int[] native_get_object_handles(int storageId, int format, int objectHandle); private native MtpObjectInfo native_get_object_info(int objectHandle); private native byte[] native_get_object(int objectHandle, long objectSize); private native long native_get_partial_object( int objectHandle, long offset, long objectSize, byte[] buffer) throws IOException; private native int native_get_partial_object_64( int objectHandle, long offset, long objectSize, byte[] buffer) throws IOException; private native byte[] native_get_thumbnail(int objectHandle); private native boolean native_delete_object(int objectHandle); private native int native_get_parent(int objectHandle); private native int native_get_storage_id(int objectHandle); private native boolean native_import_file(int objectHandle, String destPath); private native boolean native_import_file(int objectHandle, int fd); private native boolean native_send_object(int objectHandle, long size, int fd); private native MtpObjectInfo native_send_object_info(MtpObjectInfo info); private native int native_submit_event_request() throws IOException; private native MtpEvent native_reap_event_request(int handle) throws IOException; private native void native_discard_event_request(int handle); private native long native_get_object_size_long(int handle, int format) throws IOException; }