/* * 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. */ #define LOG_TAG "MtpDevice" #include "MtpDebug.h" #include "MtpDevice.h" #include "MtpDeviceInfo.h" #include "MtpEventPacket.h" #include "MtpObjectInfo.h" #include "MtpProperty.h" #include "MtpStorageInfo.h" #include "MtpStringBuffer.h" #include "MtpUtils.h" #include #include #include #include #include #include #include #include #include namespace android { namespace { static constexpr int USB_CONTROL_TRANSFER_TIMEOUT_MS = 200; } // namespace #if 0 static bool isMtpDevice(uint16_t vendor, uint16_t product) { // Sandisk Sansa Fuze if (vendor == 0x0781 && product == 0x74c2) return true; // Samsung YP-Z5 if (vendor == 0x04e8 && product == 0x503c) return true; return false; } #endif namespace { bool writeToFd(void* data, uint32_t /* unused_offset */, uint32_t length, void* clientData) { const int fd = *static_cast(clientData); const ssize_t result = write(fd, data, length); if (result < 0) { return false; } return static_cast(result) == length; } } // namespace MtpDevice* MtpDevice::open(const char* deviceName, int fd) { struct usb_device *device = usb_device_new(deviceName, fd); if (!device) { ALOGE("usb_device_new failed for %s", deviceName); return NULL; } struct usb_descriptor_header* desc; struct usb_descriptor_iter iter; usb_descriptor_iter_init(device, &iter); while ((desc = usb_descriptor_iter_next(&iter)) != NULL) { if (desc->bDescriptorType == USB_DT_INTERFACE) { struct usb_interface_descriptor *interface = (struct usb_interface_descriptor *)desc; if (interface->bInterfaceClass == USB_CLASS_STILL_IMAGE && interface->bInterfaceSubClass == 1 && // Still Image Capture interface->bInterfaceProtocol == 1) // Picture Transfer Protocol (PIMA 15470) { char* manufacturerName = usb_device_get_manufacturer_name(device, USB_CONTROL_TRANSFER_TIMEOUT_MS); char* productName = usb_device_get_product_name(device, USB_CONTROL_TRANSFER_TIMEOUT_MS); ALOGD("Found camera: \"%s\" \"%s\"\n", manufacturerName, productName); free(manufacturerName); free(productName); } else if (interface->bInterfaceClass == 0xFF && interface->bInterfaceSubClass == 0xFF && interface->bInterfaceProtocol == 0) { char* interfaceName = usb_device_get_string(device, interface->iInterface, USB_CONTROL_TRANSFER_TIMEOUT_MS); if (!interfaceName) { continue; } else if (strcmp(interfaceName, "MTP")) { free(interfaceName); continue; } free(interfaceName); // Looks like an android style MTP device char* manufacturerName = usb_device_get_manufacturer_name(device, USB_CONTROL_TRANSFER_TIMEOUT_MS); char* productName = usb_device_get_product_name(device, USB_CONTROL_TRANSFER_TIMEOUT_MS); ALOGD("Found MTP device: \"%s\" \"%s\"\n", manufacturerName, productName); free(manufacturerName); free(productName); } #if 0 else { // look for special cased devices based on vendor/product ID // we are doing this mainly for testing purposes uint16_t vendor = usb_device_get_vendor_id(device); uint16_t product = usb_device_get_product_id(device); if (!isMtpDevice(vendor, product)) { // not an MTP or PTP device continue; } // request MTP OS string and descriptor // some music players need to see this before entering MTP mode. char buffer[256]; memset(buffer, 0, sizeof(buffer)); int ret = usb_device_control_transfer(device, USB_DIR_IN|USB_RECIP_DEVICE|USB_TYPE_STANDARD, USB_REQ_GET_DESCRIPTOR, (USB_DT_STRING << 8) | 0xEE, 0, buffer, sizeof(buffer), 0); printf("usb_device_control_transfer returned %d errno: %d\n", ret, errno); if (ret > 0) { printf("got MTP string %s\n", buffer); ret = usb_device_control_transfer(device, USB_DIR_IN|USB_RECIP_DEVICE|USB_TYPE_VENDOR, 1, 0, 4, buffer, sizeof(buffer), 0); printf("OS descriptor got %d\n", ret); } else { printf("no MTP string\n"); } } #else else { continue; } #endif // if we got here, then we have a likely MTP or PTP device // interface should be followed by three endpoints struct usb_endpoint_descriptor *ep; struct usb_endpoint_descriptor *ep_in_desc = NULL; struct usb_endpoint_descriptor *ep_out_desc = NULL; struct usb_endpoint_descriptor *ep_intr_desc = NULL; //USB3 add USB_DT_SS_ENDPOINT_COMP as companion descriptor; struct usb_ss_ep_comp_descriptor *ep_ss_ep_comp_desc = NULL; for (int i = 0; i < 3; i++) { ep = (struct usb_endpoint_descriptor *)usb_descriptor_iter_next(&iter); if (ep && ep->bDescriptorType == USB_DT_SS_ENDPOINT_COMP) { ALOGD("Descriptor type is USB_DT_SS_ENDPOINT_COMP for USB3 \n"); ep_ss_ep_comp_desc = (usb_ss_ep_comp_descriptor*)ep; ep = (struct usb_endpoint_descriptor *)usb_descriptor_iter_next(&iter); } if (!ep || ep->bDescriptorType != USB_DT_ENDPOINT) { ALOGE("endpoints not found\n"); usb_device_close(device); return NULL; } if (ep->bmAttributes == USB_ENDPOINT_XFER_BULK) { if (ep->bEndpointAddress & USB_ENDPOINT_DIR_MASK) ep_in_desc = ep; else ep_out_desc = ep; } else if (ep->bmAttributes == USB_ENDPOINT_XFER_INT && ep->bEndpointAddress & USB_ENDPOINT_DIR_MASK) { ep_intr_desc = ep; } } if (!ep_in_desc || !ep_out_desc || !ep_intr_desc) { ALOGE("endpoints not found\n"); usb_device_close(device); return NULL; } int ret = usb_device_claim_interface(device, interface->bInterfaceNumber); if (ret && errno == EBUSY) { // disconnect kernel driver and try again usb_device_connect_kernel_driver(device, interface->bInterfaceNumber, false); ret = usb_device_claim_interface(device, interface->bInterfaceNumber); } if (ret) { ALOGE("usb_device_claim_interface failed errno: %d\n", errno); usb_device_close(device); return NULL; } MtpDevice* mtpDevice = new MtpDevice(device, interface->bInterfaceNumber, ep_in_desc, ep_out_desc, ep_intr_desc); mtpDevice->initialize(); return mtpDevice; } } usb_device_close(device); ALOGE("device not found"); return NULL; } MtpDevice::MtpDevice(struct usb_device* device, int interface, const struct usb_endpoint_descriptor *ep_in, const struct usb_endpoint_descriptor *ep_out, const struct usb_endpoint_descriptor *ep_intr) : mDevice(device), mInterface(interface), mRequestIn1(NULL), mRequestIn2(NULL), mRequestOut(NULL), mRequestIntr(NULL), mDeviceInfo(NULL), mSessionID(0), mTransactionID(0), mReceivedResponse(false), mProcessingEvent(false), mCurrentEventHandle(0), mLastSendObjectInfoTransactionID(0), mLastSendObjectInfoObjectHandle(0), mPacketDivisionMode(FIRST_PACKET_HAS_PAYLOAD) { mRequestIn1 = usb_request_new(device, ep_in); mRequestIn2 = usb_request_new(device, ep_in); mRequestOut = usb_request_new(device, ep_out); mRequestIntr = usb_request_new(device, ep_intr); } MtpDevice::~MtpDevice() { close(); for (size_t i = 0; i < mDeviceProperties.size(); i++) delete mDeviceProperties[i]; usb_request_free(mRequestIn1); usb_request_free(mRequestIn2); usb_request_free(mRequestOut); usb_request_free(mRequestIntr); } void MtpDevice::initialize() { openSession(); mDeviceInfo = getDeviceInfo(); if (mDeviceInfo) { if (mDeviceInfo->mDeviceProperties) { int count = mDeviceInfo->mDeviceProperties->size(); for (int i = 0; i < count; i++) { MtpDeviceProperty propCode = (*mDeviceInfo->mDeviceProperties)[i]; MtpProperty* property = getDevicePropDesc(propCode); if (property) mDeviceProperties.push_back(property); } } } } void MtpDevice::close() { if (mDevice) { usb_device_release_interface(mDevice, mInterface); usb_device_close(mDevice); mDevice = NULL; } } void MtpDevice::print() { if (!mDeviceInfo) return; mDeviceInfo->print(); if (mDeviceInfo->mDeviceProperties) { ALOGI("***** DEVICE PROPERTIES *****\n"); int count = mDeviceInfo->mDeviceProperties->size(); for (int i = 0; i < count; i++) { MtpDeviceProperty propCode = (*mDeviceInfo->mDeviceProperties)[i]; MtpProperty* property = getDevicePropDesc(propCode); if (property) { property->print(); delete property; } } } if (mDeviceInfo->mPlaybackFormats) { ALOGI("***** OBJECT PROPERTIES *****\n"); int count = mDeviceInfo->mPlaybackFormats->size(); for (int i = 0; i < count; i++) { MtpObjectFormat format = (*mDeviceInfo->mPlaybackFormats)[i]; ALOGI("*** FORMAT: %s\n", MtpDebug::getFormatCodeName(format)); MtpObjectPropertyList* props = getObjectPropsSupported(format); if (props) { for (size_t j = 0; j < props->size(); j++) { MtpObjectProperty prop = (*props)[j]; MtpProperty* property = getObjectPropDesc(prop, format); if (property) { property->print(); delete property; } else { ALOGE("could not fetch property: %s", MtpDebug::getObjectPropCodeName(prop)); } } } } } } const char* MtpDevice::getDeviceName() { if (mDevice) return usb_device_get_name(mDevice); else return "???"; } bool MtpDevice::openSession() { std::lock_guard lg(mMutex); mSessionID = 0; mTransactionID = 0; MtpSessionID newSession = 1; mRequest.reset(); mRequest.setParameter(1, newSession); if (!sendRequest(MTP_OPERATION_OPEN_SESSION)) return false; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_SESSION_ALREADY_OPEN) newSession = mResponse.getParameter(1); else if (ret != MTP_RESPONSE_OK) return false; mSessionID = newSession; mTransactionID = 1; return true; } bool MtpDevice::closeSession() { // FIXME return true; } MtpDeviceInfo* MtpDevice::getDeviceInfo() { std::lock_guard lg(mMutex); mRequest.reset(); if (!sendRequest(MTP_OPERATION_GET_DEVICE_INFO)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { MtpDeviceInfo* info = new MtpDeviceInfo; if (info->read(mData)) return info; else delete info; } return NULL; } MtpStorageIDList* MtpDevice::getStorageIDs() { std::lock_guard lg(mMutex); mRequest.reset(); if (!sendRequest(MTP_OPERATION_GET_STORAGE_IDS)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { return mData.getAUInt32(); } return NULL; } MtpStorageInfo* MtpDevice::getStorageInfo(MtpStorageID storageID) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, storageID); if (!sendRequest(MTP_OPERATION_GET_STORAGE_INFO)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { MtpStorageInfo* info = new MtpStorageInfo(storageID); if (info->read(mData)) return info; else delete info; } return NULL; } MtpObjectHandleList* MtpDevice::getObjectHandles(MtpStorageID storageID, MtpObjectFormat format, MtpObjectHandle parent) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, storageID); mRequest.setParameter(2, format); mRequest.setParameter(3, parent); if (!sendRequest(MTP_OPERATION_GET_OBJECT_HANDLES)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { return mData.getAUInt32(); } return NULL; } MtpObjectInfo* MtpDevice::getObjectInfo(MtpObjectHandle handle) { std::lock_guard lg(mMutex); // FIXME - we might want to add some caching here mRequest.reset(); mRequest.setParameter(1, handle); if (!sendRequest(MTP_OPERATION_GET_OBJECT_INFO)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { MtpObjectInfo* info = new MtpObjectInfo(handle); if (info->read(mData)) return info; else delete info; } return NULL; } void* MtpDevice::getThumbnail(MtpObjectHandle handle, int& outLength) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); if (sendRequest(MTP_OPERATION_GET_THUMB) && readData()) { MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { return mData.getData(&outLength); } } outLength = 0; return NULL; } MtpObjectHandle MtpDevice::sendObjectInfo(MtpObjectInfo* info) { std::lock_guard lg(mMutex); mRequest.reset(); MtpObjectHandle parent = info->mParent; if (parent == 0) parent = MTP_PARENT_ROOT; mRequest.setParameter(1, info->mStorageID); mRequest.setParameter(2, parent); mData.reset(); mData.putUInt32(info->mStorageID); mData.putUInt16(info->mFormat); mData.putUInt16(info->mProtectionStatus); mData.putUInt32(info->mCompressedSize); mData.putUInt16(info->mThumbFormat); mData.putUInt32(info->mThumbCompressedSize); mData.putUInt32(info->mThumbPixWidth); mData.putUInt32(info->mThumbPixHeight); mData.putUInt32(info->mImagePixWidth); mData.putUInt32(info->mImagePixHeight); mData.putUInt32(info->mImagePixDepth); mData.putUInt32(info->mParent); mData.putUInt16(info->mAssociationType); mData.putUInt32(info->mAssociationDesc); mData.putUInt32(info->mSequenceNumber); mData.putString(info->mName); char created[100], modified[100]; formatDateTime(info->mDateCreated, created, sizeof(created)); formatDateTime(info->mDateModified, modified, sizeof(modified)); mData.putString(created); mData.putString(modified); if (info->mKeywords) mData.putString(info->mKeywords); else mData.putEmptyString(); if (sendRequest(MTP_OPERATION_SEND_OBJECT_INFO) && sendData()) { MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { mLastSendObjectInfoTransactionID = mRequest.getTransactionID(); mLastSendObjectInfoObjectHandle = mResponse.getParameter(3); info->mStorageID = mResponse.getParameter(1); info->mParent = mResponse.getParameter(2); info->mHandle = mResponse.getParameter(3); return info->mHandle; } } return (MtpObjectHandle)-1; } bool MtpDevice::sendObject(MtpObjectHandle handle, uint32_t size, int srcFD) { std::lock_guard lg(mMutex); if (mLastSendObjectInfoTransactionID + 1 != mTransactionID || mLastSendObjectInfoObjectHandle != handle) { ALOGE("A sendObject request must follow the sendObjectInfo request."); return false; } mRequest.reset(); if (sendRequest(MTP_OPERATION_SEND_OBJECT)) { mData.setOperationCode(mRequest.getOperationCode()); mData.setTransactionID(mRequest.getTransactionID()); const int64_t writeResult = mData.write(mRequestOut, mPacketDivisionMode, srcFD, size); const MtpResponseCode ret = readResponse(); return ret == MTP_RESPONSE_OK && writeResult > 0; } return false; } bool MtpDevice::deleteObject(MtpObjectHandle handle) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); if (sendRequest(MTP_OPERATION_DELETE_OBJECT)) { MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) return true; } return false; } MtpObjectHandle MtpDevice::getParent(MtpObjectHandle handle) { MtpObjectInfo* info = getObjectInfo(handle); if (info) { MtpObjectHandle parent = info->mParent; delete info; return parent; } else { return -1; } } MtpObjectHandle MtpDevice::getStorageID(MtpObjectHandle handle) { MtpObjectInfo* info = getObjectInfo(handle); if (info) { MtpObjectHandle storageId = info->mStorageID; delete info; return storageId; } else { return -1; } } MtpObjectPropertyList* MtpDevice::getObjectPropsSupported(MtpObjectFormat format) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, format); if (!sendRequest(MTP_OPERATION_GET_OBJECT_PROPS_SUPPORTED)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { return mData.getAUInt16(); } return NULL; } MtpProperty* MtpDevice::getDevicePropDesc(MtpDeviceProperty code) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, code); if (!sendRequest(MTP_OPERATION_GET_DEVICE_PROP_DESC)) return NULL; if (!readData()) return NULL; MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { MtpProperty* property = new MtpProperty; if (property->read(mData)) return property; else delete property; } return NULL; } bool MtpDevice::setDevicePropValueStr(MtpProperty* property) { if (property == nullptr) return false; std::lock_guard lg(mMutex); if (property->getDataType() != MTP_TYPE_STR) { return false; } mRequest.reset(); mRequest.setParameter(1, property->getPropertyCode()); mData.reset(); mData.putString(property->getCurrentValue().str); if (sendRequest(MTP_OPERATION_SET_DEVICE_PROP_VALUE) && sendData()) { MtpResponseCode ret = readResponse(); if (ret != MTP_RESPONSE_OK) { ALOGW("%s: Response=0x%04X\n", __func__, ret); return false; } } return true; } MtpProperty* MtpDevice::getObjectPropDesc(MtpObjectProperty code, MtpObjectFormat format) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, code); mRequest.setParameter(2, format); if (!sendRequest(MTP_OPERATION_GET_OBJECT_PROP_DESC)) return NULL; if (!readData()) return NULL; const MtpResponseCode ret = readResponse(); if (ret == MTP_RESPONSE_OK) { MtpProperty* property = new MtpProperty; if (property->read(mData)) return property; else delete property; } return NULL; } bool MtpDevice::getObjectPropValue(MtpObjectHandle handle, MtpProperty* property) { if (property == nullptr) return false; std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); mRequest.setParameter(2, property->getPropertyCode()); if (!sendRequest(MTP_OPERATION_GET_OBJECT_PROP_VALUE)) return false; if (!readData()) return false; if (readResponse() != MTP_RESPONSE_OK) return false; property->setCurrentValue(mData); return true; } bool MtpDevice::readObject(MtpObjectHandle handle, ReadObjectCallback callback, uint32_t expectedLength, void* clientData) { return readObjectInternal(handle, callback, &expectedLength, clientData); } // reads the object's data and writes it to the specified file path bool MtpDevice::readObject(MtpObjectHandle handle, const char* destPath, int group, int perm) { ALOGD("readObject: %s", destPath); int fd = ::open(destPath, O_RDWR | O_CREAT | O_TRUNC, S_IRUSR | S_IWUSR); if (fd < 0) { ALOGE("open failed for %s", destPath); return false; } fchown(fd, getuid(), group); // set permissions int mask = umask(0); fchmod(fd, perm); umask(mask); bool result = readObject(handle, fd); ::close(fd); return result; } bool MtpDevice::readObject(MtpObjectHandle handle, int fd) { ALOGD("readObject: %d", fd); return readObjectInternal(handle, writeToFd, NULL /* expected size */, &fd); } bool MtpDevice::readObjectInternal(MtpObjectHandle handle, ReadObjectCallback callback, const uint32_t* expectedLength, void* clientData) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); if (!sendRequest(MTP_OPERATION_GET_OBJECT)) { ALOGE("Failed to send a read request."); return false; } return readData(callback, expectedLength, nullptr, clientData); } bool MtpDevice::readData(ReadObjectCallback callback, const uint32_t* expectedLength, uint32_t* writtenSize, void* clientData) { if (!mData.readDataHeader(mRequestIn1)) { ALOGE("Failed to read header."); return false; } // If object size 0 byte, the remote device may reply a response packet without sending any data // packets. if (mData.getContainerType() == MTP_CONTAINER_TYPE_RESPONSE) { mResponse.copyFrom(mData); return mResponse.getResponseCode() == MTP_RESPONSE_OK; } const uint32_t fullLength = mData.getContainerLength(); if (fullLength < MTP_CONTAINER_HEADER_SIZE) { ALOGE("fullLength is too short: %d", fullLength); return false; } const uint32_t length = fullLength - MTP_CONTAINER_HEADER_SIZE; if (expectedLength && length != *expectedLength) { ALOGE("readObject error length: %d", fullLength); return false; } uint32_t offset = 0; bool writingError = false; { int initialDataLength = 0; void* const initialData = mData.getData(&initialDataLength); if (fullLength > MTP_CONTAINER_HEADER_SIZE && initialDataLength == 0) { // According to the MTP spec, the responder (MTP device) can choose two ways of sending // data. a) The first packet contains the head and as much of the payload as possible // b) The first packet contains only the header. The initiator (MTP host) needs // to remember which way the responder used, and send upcoming data in the same way. ALOGD("Found short packet that contains only a header."); mPacketDivisionMode = FIRST_PACKET_ONLY_HEADER; } if (initialData) { if (initialDataLength > 0) { if (!callback(initialData, offset, initialDataLength, clientData)) { ALOGE("Failed to write initial data."); writingError = true; } offset += initialDataLength; } free(initialData); } } // USB reads greater than 16K don't work. char buffer1[MTP_BUFFER_SIZE], buffer2[MTP_BUFFER_SIZE]; mRequestIn1->buffer = buffer1; mRequestIn2->buffer = buffer2; struct usb_request* req = NULL; while (offset < length) { // Wait for previous read to complete. void* writeBuffer = NULL; int writeLength = 0; if (req) { const int read = mData.readDataWait(mDevice); if (read < 0) { ALOGE("readDataWait failed."); return false; } writeBuffer = req->buffer; writeLength = read; } // Request to read next chunk. const uint32_t nextOffset = offset + writeLength; if (nextOffset < length) { // Queue up a read request. const size_t remaining = length - nextOffset; req = (req == mRequestIn1 ? mRequestIn2 : mRequestIn1); req->buffer_length = remaining > MTP_BUFFER_SIZE ? static_cast(MTP_BUFFER_SIZE) : remaining; if (mData.readDataAsync(req) != 0) { ALOGE("readDataAsync failed"); return false; } } // Write previous buffer. if (writeBuffer && !writingError) { if (!callback(writeBuffer, offset, writeLength, clientData)) { ALOGE("write failed"); writingError = true; } } offset = nextOffset; } if (writtenSize) { *writtenSize = length; } return readResponse() == MTP_RESPONSE_OK; } bool MtpDevice::readPartialObject(MtpObjectHandle handle, uint32_t offset, uint32_t size, uint32_t *writtenSize, ReadObjectCallback callback, void* clientData) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); mRequest.setParameter(2, offset); mRequest.setParameter(3, size); if (!sendRequest(MTP_OPERATION_GET_PARTIAL_OBJECT)) { ALOGE("Failed to send a read request."); return false; } // The expected size is null because it requires the exact number of bytes to read though // MTP_OPERATION_GET_PARTIAL_OBJECT allows devices to return shorter length of bytes than // requested. Destination's buffer length should be checked in |callback|. return readData(callback, nullptr /* expected size */, writtenSize, clientData); } bool MtpDevice::readPartialObject64(MtpObjectHandle handle, uint64_t offset, uint32_t size, uint32_t *writtenSize, ReadObjectCallback callback, void* clientData) { std::lock_guard lg(mMutex); mRequest.reset(); mRequest.setParameter(1, handle); mRequest.setParameter(2, 0xffffffff & offset); mRequest.setParameter(3, 0xffffffff & (offset >> 32)); mRequest.setParameter(4, size); if (!sendRequest(MTP_OPERATION_GET_PARTIAL_OBJECT_64)) { ALOGE("Failed to send a read request."); return false; } // The expected size is null because it requires the exact number of bytes to read though // MTP_OPERATION_GET_PARTIAL_OBJECT_64 allows devices to return shorter length of bytes than // requested. Destination's buffer length should be checked in |callback|. return readData(callback, nullptr /* expected size */, writtenSize, clientData); } bool MtpDevice::sendRequest(MtpOperationCode operation) { ALOGV("sendRequest: %s\n", MtpDebug::getOperationCodeName(operation)); mReceivedResponse = false; mRequest.setOperationCode(operation); if (mTransactionID > 0) mRequest.setTransactionID(mTransactionID++); int ret = mRequest.write(mRequestOut); mRequest.dump(); return (ret > 0); } bool MtpDevice::sendData() { ALOGV("sendData\n"); mData.setOperationCode(mRequest.getOperationCode()); mData.setTransactionID(mRequest.getTransactionID()); int ret = mData.write(mRequestOut, mPacketDivisionMode); mData.dump(); return (ret >= 0); } bool MtpDevice::readData() { mData.reset(); int ret = mData.read(mRequestIn1); ALOGV("readData returned %d\n", ret); if (ret >= MTP_CONTAINER_HEADER_SIZE) { if (mData.getContainerType() == MTP_CONTAINER_TYPE_RESPONSE) { ALOGD("got response packet instead of data packet"); // we got a response packet rather than data // copy it to mResponse mResponse.copyFrom(mData); mReceivedResponse = true; return false; } mData.dump(); return true; } else { ALOGV("readResponse failed\n"); return false; } } MtpResponseCode MtpDevice::readResponse() { ALOGV("readResponse\n"); if (mReceivedResponse) { mReceivedResponse = false; return mResponse.getResponseCode(); } int ret = mResponse.read(mRequestIn1); // handle zero length packets, which might occur if the data transfer // ends on a packet boundary if (ret == 0) ret = mResponse.read(mRequestIn1); if (ret >= MTP_CONTAINER_HEADER_SIZE) { mResponse.dump(); return mResponse.getResponseCode(); } else { ALOGD("readResponse failed\n"); return -1; } } int MtpDevice::submitEventRequest() { if (!mEventMutex.try_lock()) { // An event is being reaped on another thread. return -1; } if (mProcessingEvent) { // An event request was submitted, but no reapEventRequest called so far. return -1; } std::lock_guard lg(mEventMutexForInterrupt); mEventPacket.sendRequest(mRequestIntr); const int currentHandle = ++mCurrentEventHandle; mProcessingEvent = true; mEventMutex.unlock(); return currentHandle; } int MtpDevice::reapEventRequest(int handle, uint32_t (*parameters)[3]) { std::lock_guard lg(mEventMutex); if (!mProcessingEvent || mCurrentEventHandle != handle || !parameters) { return -1; } mProcessingEvent = false; const int readSize = mEventPacket.readResponse(mRequestIntr->dev); const int result = mEventPacket.getEventCode(); // MTP event has three parameters. (*parameters)[0] = mEventPacket.getParameter(1); (*parameters)[1] = mEventPacket.getParameter(2); (*parameters)[2] = mEventPacket.getParameter(3); return readSize != 0 ? result : 0; } void MtpDevice::discardEventRequest(int handle) { std::lock_guard lg(mEventMutexForInterrupt); if (mCurrentEventHandle != handle) { return; } usb_request_cancel(mRequestIntr); } } // namespace android