X-Git-Url: http://47.100.26.94:8080/?a=blobdiff_plain;ds=sidebyside;f=app%2Fsrc%2Fmain%2Fjni%2Flibusb-1.0.22%2Flibusb%2Fos%2Fhaiku_usb_backend.cpp;fp=app%2Fsrc%2Fmain%2Fjni%2Flibusb-1.0.22%2Flibusb%2Fos%2Fhaiku_usb_backend.cpp;h=d3de8cc08082525f7a9c9f92e3ac12a009169f2b;hb=577426ccc66649228285c4a0b6ba8752836059c6;hp=0000000000000000000000000000000000000000;hpb=b7202442677d0cf41e6e59870cd6c34e5619b8b9;p=rtmpclient.git diff --git a/app/src/main/jni/libusb-1.0.22/libusb/os/haiku_usb_backend.cpp b/app/src/main/jni/libusb-1.0.22/libusb/os/haiku_usb_backend.cpp new file mode 100644 index 0000000..d3de8cc --- /dev/null +++ b/app/src/main/jni/libusb-1.0.22/libusb/os/haiku_usb_backend.cpp @@ -0,0 +1,517 @@ +/* + * Haiku Backend for libusb + * Copyright © 2014 Akshay Jaggi + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2.1 of the License, or (at your option) any later version. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + */ + + +#include +#include +#include +#include +#include + +#include "haiku_usb.h" + +int _errno_to_libusb(int status) +{ + return status; +} + +USBTransfer::USBTransfer(struct usbi_transfer *itransfer, USBDevice *device) +{ + fUsbiTransfer = itransfer; + fLibusbTransfer = USBI_TRANSFER_TO_LIBUSB_TRANSFER(itransfer); + fUSBDevice = device; + fCancelled = false; +} + +USBTransfer::~USBTransfer() +{ +} + +struct usbi_transfer * +USBTransfer::UsbiTransfer() +{ + return fUsbiTransfer; +} + +void +USBTransfer::SetCancelled() +{ + fCancelled = true; +} + +bool +USBTransfer::IsCancelled() +{ + return fCancelled; +} + +void +USBTransfer::Do(int fRawFD) +{ + switch (fLibusbTransfer->type) { + case LIBUSB_TRANSFER_TYPE_CONTROL: + { + struct libusb_control_setup *setup = (struct libusb_control_setup *)fLibusbTransfer->buffer; + usb_raw_command command; + command.control.request_type = setup->bmRequestType; + command.control.request = setup->bRequest; + command.control.value = setup->wValue; + command.control.index = setup->wIndex; + command.control.length = setup->wLength; + command.control.data = fLibusbTransfer->buffer + LIBUSB_CONTROL_SETUP_SIZE; + if (fCancelled) + break; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_CONTROL_TRANSFER, &command, sizeof(command)) || + command.control.status != B_USB_RAW_STATUS_SUCCESS) { + fUsbiTransfer->transferred = -1; + usbi_err(TRANSFER_CTX(fLibusbTransfer), "failed control transfer"); + break; + } + fUsbiTransfer->transferred = command.control.length; + } + break; + case LIBUSB_TRANSFER_TYPE_BULK: + case LIBUSB_TRANSFER_TYPE_INTERRUPT: + { + usb_raw_command command; + command.transfer.interface = fUSBDevice->EndpointToInterface(fLibusbTransfer->endpoint); + command.transfer.endpoint = fUSBDevice->EndpointToIndex(fLibusbTransfer->endpoint); + command.transfer.data = fLibusbTransfer->buffer; + command.transfer.length = fLibusbTransfer->length; + if (fCancelled) + break; + if (fLibusbTransfer->type == LIBUSB_TRANSFER_TYPE_BULK) { + if (ioctl(fRawFD, B_USB_RAW_COMMAND_BULK_TRANSFER, &command, sizeof(command)) || + command.transfer.status != B_USB_RAW_STATUS_SUCCESS) { + fUsbiTransfer->transferred = -1; + usbi_err(TRANSFER_CTX(fLibusbTransfer), "failed bulk transfer"); + break; + } + } + else { + if (ioctl(fRawFD, B_USB_RAW_COMMAND_INTERRUPT_TRANSFER, &command, sizeof(command)) || + command.transfer.status != B_USB_RAW_STATUS_SUCCESS) { + fUsbiTransfer->transferred = -1; + usbi_err(TRANSFER_CTX(fLibusbTransfer), "failed interrupt transfer"); + break; + } + } + fUsbiTransfer->transferred = command.transfer.length; + } + break; + // IsochronousTransfers not tested + case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS: + { + usb_raw_command command; + command.isochronous.interface = fUSBDevice->EndpointToInterface(fLibusbTransfer->endpoint); + command.isochronous.endpoint = fUSBDevice->EndpointToIndex(fLibusbTransfer->endpoint); + command.isochronous.data = fLibusbTransfer->buffer; + command.isochronous.length = fLibusbTransfer->length; + command.isochronous.packet_count = fLibusbTransfer->num_iso_packets; + int i; + usb_iso_packet_descriptor *packetDescriptors = new usb_iso_packet_descriptor[fLibusbTransfer->num_iso_packets]; + for (i = 0; i < fLibusbTransfer->num_iso_packets; i++) { + if ((int16)(fLibusbTransfer->iso_packet_desc[i]).length != (fLibusbTransfer->iso_packet_desc[i]).length) { + fUsbiTransfer->transferred = -1; + usbi_err(TRANSFER_CTX(fLibusbTransfer), "failed isochronous transfer"); + break; + } + packetDescriptors[i].request_length = (int16)(fLibusbTransfer->iso_packet_desc[i]).length; + } + if (i < fLibusbTransfer->num_iso_packets) + break; // TODO Handle this error + command.isochronous.packet_descriptors = packetDescriptors; + if (fCancelled) + break; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_ISOCHRONOUS_TRANSFER, &command, sizeof(command)) || + command.isochronous.status != B_USB_RAW_STATUS_SUCCESS) { + fUsbiTransfer->transferred = -1; + usbi_err(TRANSFER_CTX(fLibusbTransfer), "failed isochronous transfer"); + break; + } + for (i = 0; i < fLibusbTransfer->num_iso_packets; i++) { + (fLibusbTransfer->iso_packet_desc[i]).actual_length = packetDescriptors[i].actual_length; + switch (packetDescriptors[i].status) { + case B_OK: + (fLibusbTransfer->iso_packet_desc[i]).status = LIBUSB_TRANSFER_COMPLETED; + break; + default: + (fLibusbTransfer->iso_packet_desc[i]).status = LIBUSB_TRANSFER_ERROR; + break; + } + } + delete[] packetDescriptors; + // Do we put the length of transfer here, for isochronous transfers? + fUsbiTransfer->transferred = command.transfer.length; + } + break; + default: + usbi_err(TRANSFER_CTX(fLibusbTransfer), "Unknown type of transfer"); + } +} + +bool +USBDeviceHandle::InitCheck() +{ + return fInitCheck; +} + +status_t +USBDeviceHandle::TransfersThread(void *self) +{ + USBDeviceHandle *handle = (USBDeviceHandle *)self; + handle->TransfersWorker(); + return B_OK; +} + +void +USBDeviceHandle::TransfersWorker() +{ + while (true) { + status_t status = acquire_sem(fTransfersSem); + if (status == B_BAD_SEM_ID) + break; + if (status == B_INTERRUPTED) + continue; + fTransfersLock.Lock(); + USBTransfer *fPendingTransfer = (USBTransfer *) fTransfers.RemoveItem((int32)0); + fTransfersLock.Unlock(); + fPendingTransfer->Do(fRawFD); + usbi_signal_transfer_completion(fPendingTransfer->UsbiTransfer()); + } +} + +status_t +USBDeviceHandle::SubmitTransfer(struct usbi_transfer *itransfer) +{ + USBTransfer *transfer = new USBTransfer(itransfer, fUSBDevice); + *((USBTransfer **)usbi_transfer_get_os_priv(itransfer)) = transfer; + BAutolock locker(fTransfersLock); + fTransfers.AddItem(transfer); + release_sem(fTransfersSem); + return LIBUSB_SUCCESS; +} + +status_t +USBDeviceHandle::CancelTransfer(USBTransfer *transfer) +{ + transfer->SetCancelled(); + fTransfersLock.Lock(); + bool removed = fTransfers.RemoveItem(transfer); + fTransfersLock.Unlock(); + if(removed) + usbi_signal_transfer_completion(transfer->UsbiTransfer()); + return LIBUSB_SUCCESS; +} + +USBDeviceHandle::USBDeviceHandle(USBDevice *dev) + : + fTransfersThread(-1), + fUSBDevice(dev), + fClaimedInterfaces(0), + fInitCheck(false) +{ + fRawFD = open(dev->Location(), O_RDWR | O_CLOEXEC); + if (fRawFD < 0) { + usbi_err(NULL,"failed to open device"); + return; + } + fTransfersSem = create_sem(0, "Transfers Queue Sem"); + fTransfersThread = spawn_thread(TransfersThread, "Transfer Worker", B_NORMAL_PRIORITY, this); + resume_thread(fTransfersThread); + fInitCheck = true; +} + +USBDeviceHandle::~USBDeviceHandle() +{ + if (fRawFD > 0) + close(fRawFD); + for(int i = 0; i < 32; i++) { + if (fClaimedInterfaces & (1 << i)) + ReleaseInterface(i); + } + delete_sem(fTransfersSem); + if (fTransfersThread > 0) + wait_for_thread(fTransfersThread, NULL); +} + +int +USBDeviceHandle::ClaimInterface(int inumber) +{ + int status = fUSBDevice->ClaimInterface(inumber); + if (status == LIBUSB_SUCCESS) + fClaimedInterfaces |= (1 << inumber); + return status; +} + +int +USBDeviceHandle::ReleaseInterface(int inumber) +{ + fUSBDevice->ReleaseInterface(inumber); + fClaimedInterfaces &= ~(1 << inumber); + return LIBUSB_SUCCESS; +} + +int +USBDeviceHandle::SetConfiguration(int config) +{ + int config_index = fUSBDevice->CheckInterfacesFree(config); + if(config_index == LIBUSB_ERROR_BUSY || config_index == LIBUSB_ERROR_NOT_FOUND) + return config_index; + usb_raw_command command; + command.config.config_index = config_index; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_SET_CONFIGURATION, &command, sizeof(command)) || + command.config.status != B_USB_RAW_STATUS_SUCCESS) { + return _errno_to_libusb(command.config.status); + } + fUSBDevice->SetActiveConfiguration(config_index); + return LIBUSB_SUCCESS; +} + +int +USBDeviceHandle::SetAltSetting(int inumber, int alt) +{ + usb_raw_command command; + command.alternate.config_index = fUSBDevice->ActiveConfigurationIndex(); + command.alternate.interface_index = inumber; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_ACTIVE_ALT_INTERFACE_INDEX, &command, sizeof(command)) || + command.alternate.status != B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "Error retrieving active alternate interface"); + return _errno_to_libusb(command.alternate.status); + } + if (command.alternate.alternate_info == alt) { + usbi_dbg("Setting alternate interface successful"); + return LIBUSB_SUCCESS; + } + command.alternate.alternate_info = alt; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_SET_ALT_INTERFACE, &command, sizeof(command)) || + command.alternate.status != B_USB_RAW_STATUS_SUCCESS) { //IF IOCTL FAILS DEVICE DISONNECTED PROBABLY + usbi_err(NULL, "Error setting alternate interface"); + return _errno_to_libusb(command.alternate.status); + } + usbi_dbg("Setting alternate interface successful"); + return LIBUSB_SUCCESS; +} + + +USBDevice::USBDevice(const char *path) + : + fPath(NULL), + fActiveConfiguration(0), //0? + fConfigurationDescriptors(NULL), + fClaimedInterfaces(0), + fEndpointToIndex(NULL), + fEndpointToInterface(NULL), + fInitCheck(false) +{ + fPath=strdup(path); + Initialise(); +} + +USBDevice::~USBDevice() +{ + free(fPath); + if (fConfigurationDescriptors) { + for(int i = 0; i < fDeviceDescriptor.num_configurations; i++) { + if (fConfigurationDescriptors[i]) + delete fConfigurationDescriptors[i]; + } + delete[] fConfigurationDescriptors; + } + if (fEndpointToIndex) + delete[] fEndpointToIndex; + if (fEndpointToInterface) + delete[] fEndpointToInterface; +} + +bool +USBDevice::InitCheck() +{ + return fInitCheck; +} + +const char * +USBDevice::Location() const +{ + return fPath; +} + +uint8 +USBDevice::CountConfigurations() const +{ + return fDeviceDescriptor.num_configurations; +} + +const usb_device_descriptor * +USBDevice::Descriptor() const +{ + return &fDeviceDescriptor; +} + +const usb_configuration_descriptor * +USBDevice::ConfigurationDescriptor(uint32 index) const +{ + if (index > CountConfigurations()) + return NULL; + return (usb_configuration_descriptor *) fConfigurationDescriptors[index]; +} + +const usb_configuration_descriptor * +USBDevice::ActiveConfiguration() const +{ + return (usb_configuration_descriptor *) fConfigurationDescriptors[fActiveConfiguration]; +} + +int +USBDevice::ActiveConfigurationIndex() const +{ + return fActiveConfiguration; +} + +int USBDevice::ClaimInterface(int interface) +{ + if (interface > ActiveConfiguration()->number_interfaces) + return LIBUSB_ERROR_NOT_FOUND; + if (fClaimedInterfaces & (1 << interface)) + return LIBUSB_ERROR_BUSY; + fClaimedInterfaces |= (1 << interface); + return LIBUSB_SUCCESS; +} + +int USBDevice::ReleaseInterface(int interface) +{ + fClaimedInterfaces &= ~(1 << interface); + return LIBUSB_SUCCESS; +} + +int +USBDevice::CheckInterfacesFree(int config) +{ + if (fConfigToIndex.count(config) == 0) + return LIBUSB_ERROR_NOT_FOUND; + if (fClaimedInterfaces == 0) + return fConfigToIndex[(uint8)config]; + return LIBUSB_ERROR_BUSY; +} + +int +USBDevice::SetActiveConfiguration(int config_index) +{ + fActiveConfiguration = config_index; + return LIBUSB_SUCCESS; +} + +uint8 +USBDevice::EndpointToIndex(uint8 address) const +{ + return fEndpointToIndex[fActiveConfiguration][address]; +} + +uint8 +USBDevice::EndpointToInterface(uint8 address) const +{ + return fEndpointToInterface[fActiveConfiguration][address]; +} + +int +USBDevice::Initialise() //Do we need more error checking, etc? How to report? +{ + int fRawFD = open(fPath, O_RDWR | O_CLOEXEC); + if (fRawFD < 0) + return B_ERROR; + usb_raw_command command; + command.device.descriptor = &fDeviceDescriptor; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_DEVICE_DESCRIPTOR, &command, sizeof(command)) || + command.device.status != B_USB_RAW_STATUS_SUCCESS) { + close(fRawFD); + return B_ERROR; + } + + fConfigurationDescriptors = new(std::nothrow) unsigned char *[fDeviceDescriptor.num_configurations]; + fEndpointToIndex = new(std::nothrow) map [fDeviceDescriptor.num_configurations]; + fEndpointToInterface = new(std::nothrow) map [fDeviceDescriptor.num_configurations]; + for (int i = 0; i < fDeviceDescriptor.num_configurations; i++) { + usb_configuration_descriptor tmp_config; + command.config.descriptor = &tmp_config; + command.config.config_index = i; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_CONFIGURATION_DESCRIPTOR, &command, sizeof(command)) || + command.config.status != B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "failed retrieving configuration descriptor"); + close(fRawFD); + return B_ERROR; + } + fConfigToIndex[tmp_config.configuration_value] = i; + fConfigurationDescriptors[i] = new(std::nothrow) unsigned char[tmp_config.total_length]; + command.control.request_type = 128; + command.control.request = 6; + command.control.value = (2 << 8) | i; + command.control.index = 0; + command.control.length = tmp_config.total_length; + command.control.data = fConfigurationDescriptors[i]; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_CONTROL_TRANSFER, &command, sizeof(command)) || + command.control.status!=B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "failed retrieving full configuration descriptor"); + close(fRawFD); + return B_ERROR; + } + for (int j = 0; j < tmp_config.number_interfaces; j++) { + command.alternate.config_index = i; + command.alternate.interface_index = j; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_ALT_INTERFACE_COUNT, &command, sizeof(command)) || + command.config.status != B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "failed retrieving number of alternate interfaces"); + close(fRawFD); + return B_ERROR; + } + int num_alternate = command.alternate.alternate_info; + for (int k = 0; k < num_alternate; k++) { + usb_interface_descriptor tmp_interface; + command.interface_etc.config_index = i; + command.interface_etc.interface_index = j; + command.interface_etc.alternate_index = k; + command.interface_etc.descriptor = &tmp_interface; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_INTERFACE_DESCRIPTOR_ETC, &command, sizeof(command)) || + command.config.status != B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "failed retrieving interface descriptor"); + close(fRawFD); + return B_ERROR; + } + for (int l = 0; l < tmp_interface.num_endpoints; l++) { + usb_endpoint_descriptor tmp_endpoint; + command.endpoint_etc.config_index = i; + command.endpoint_etc.interface_index = j; + command.endpoint_etc.alternate_index = k; + command.endpoint_etc.endpoint_index = l; + command.endpoint_etc.descriptor = &tmp_endpoint; + if (ioctl(fRawFD, B_USB_RAW_COMMAND_GET_ENDPOINT_DESCRIPTOR_ETC, &command, sizeof(command)) || + command.config.status != B_USB_RAW_STATUS_SUCCESS) { + usbi_err(NULL, "failed retrieving endpoint descriptor"); + close(fRawFD); + return B_ERROR; + } + fEndpointToIndex[i][tmp_endpoint.endpoint_address] = l; + fEndpointToInterface[i][tmp_endpoint.endpoint_address] = j; + } + } + } + } + close(fRawFD); + fInitCheck = true; + return B_OK; +}