/** * FreeRDP: A Remote Desktop Protocol Implementation * RemoteFX USB Redirection * * Copyright 2012 Atrust corp. * Copyright 2012 Alfred Liu * * 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. */ #include #include #include #include #include #include "libusb_udevice.h" #define BASIC_STATE_FUNC_DEFINED(_arg, _type) \ static _type udev_get_##_arg (IUDEVICE* idev) \ { \ UDEVICE* pdev = (UDEVICE*) idev; \ return pdev->_arg; \ } \ static void udev_set_##_arg (IUDEVICE* idev, _type _t) \ { \ UDEVICE* pdev = (UDEVICE*) idev; \ pdev->_arg = _t; \ } #define BASIC_POINT_FUNC_DEFINED(_arg, _type) \ static _type udev_get_p_##_arg (IUDEVICE* idev) \ { \ UDEVICE* pdev = (UDEVICE*) idev; \ return pdev->_arg; \ } \ static void udev_set_p_##_arg (IUDEVICE* idev, _type _t) \ { \ UDEVICE* pdev = (UDEVICE*) idev; \ pdev->_arg = _t; \ } #define BASIC_STATE_FUNC_REGISTER(_arg, _dev) \ _dev->iface.get_##_arg = udev_get_##_arg; \ _dev->iface.set_##_arg = udev_set_##_arg typedef struct _ISO_USER_DATA ISO_USER_DATA; struct _ISO_USER_DATA { BYTE* IsoPacket; BYTE* output_data; int iso_status; int completed; UINT32 error_count; int noack; UINT32 start_frame; }; static int get_next_timeout(libusb_context *ctx, struct timeval *tv, struct timeval *out) { int r; struct timeval timeout; r = libusb_get_next_timeout(ctx, &timeout); if (r) { /* timeout already expired? */ if (!timerisset(&timeout)) return 1; /* choose the smallest of next URB timeout or user specified timeout */ if (timercmp(&timeout, tv, <)) *out = timeout; else *out = *tv; } else { *out = *tv; } return 0; } /* * a simple wrapper to implement libusb_handle_events_timeout_completed * function in libusb library git tree (1.0.9 later) */ static int handle_events_completed(libusb_context *ctx, int *completed) { struct timeval tv; tv.tv_sec = 60; tv.tv_usec = 0; #ifdef HAVE_NEW_LIBUSB return libusb_handle_events_timeout_completed(ctx, &tv, completed); #else int r; struct timeval poll_timeout; r = get_next_timeout(ctx, &tv, &poll_timeout); retry: if (libusb_try_lock_events(ctx) == 0) { if (completed == NULL || !*completed) { /* we obtained the event lock: do our own event handling */ LLOGLN(10, ("doing our own event handling")); r = libusb_handle_events_locked(ctx, &tv); } libusb_unlock_events(ctx); return r; } /* another thread is doing event handling. wait for thread events that * notify event completion. */ libusb_lock_event_waiters(ctx); if (completed && *completed) goto already_done; if (!libusb_event_handler_active(ctx)) { /* we hit a race: whoever was event handling earlier finished in the * time it took us to reach this point. try the cycle again. */ libusb_unlock_event_waiters(ctx); LLOGLN(10, ("event handler was active but went away, retrying")); goto retry; } LLOGLN(10, ("another thread is doing event handling")); r = libusb_wait_for_event(ctx, &poll_timeout); already_done: libusb_unlock_event_waiters(ctx); if (r < 0) { return r; } else if (r == 1) { return libusb_handle_events_timeout(ctx, &tv); } else { return 0; } #endif /* HAVE_NEW_LIBUSE */ } static void func_iso_callback(struct libusb_transfer *transfer) { ISO_USER_DATA* iso_user_data = (ISO_USER_DATA*) transfer->user_data; BYTE* data = iso_user_data->IsoPacket; int* completed = &iso_user_data->completed; UINT32 offset = 0; UINT32 index = 0; UINT32 i, act_len; BYTE* b; *completed = 1; /* Fixme: currently fill the dummy frame number, tt needs to be * filled a real frame number */ // urbdrc_get_mstime(iso_user_data->start_frame); if ((transfer->status == LIBUSB_TRANSFER_COMPLETED) && (!iso_user_data->noack)) { for (i = 0; i < transfer->num_iso_packets; i++) { act_len = transfer->iso_packet_desc[i].actual_length; data_write_UINT32(data + offset, index); data_write_UINT32(data + offset + 4, act_len); data_write_UINT32(data + offset + 8, transfer->iso_packet_desc[i].status); offset += 12; if (transfer->iso_packet_desc[i].status == USBD_STATUS_SUCCESS) { b = libusb_get_iso_packet_buffer_simple(transfer, i); if (act_len > 0) { if (iso_user_data->output_data + index != b) memcpy(iso_user_data->output_data + index, b, act_len); index += act_len; } else { //fprintf(stderr, "actual length %d \n", act_len); //exit(EXIT_FAILURE); } } else { iso_user_data->error_count++; //print_transfer_status(transfer->iso_packet_desc[i].status); } } transfer->actual_length = index; iso_user_data->iso_status = 1; } else if ((transfer->status == LIBUSB_TRANSFER_COMPLETED) && (iso_user_data->noack)) { /* This situation occurs when we do not need to * return any packet */ iso_user_data->iso_status = 1; } else { //print_status(transfer->status); iso_user_data->iso_status = -1; } } static const LIBUSB_ENDPOINT_DESCEIPTOR* func_get_ep_desc(LIBUSB_CONFIG_DESCRIPTOR* LibusbConfig, MSUSB_CONFIG_DESCRIPTOR* MsConfig, UINT32 EndpointAddress) { BYTE alt; int inum, pnum; MSUSB_INTERFACE_DESCRIPTOR** MsInterfaces; const LIBUSB_INTERFACE* interface; const LIBUSB_ENDPOINT_DESCEIPTOR* endpoint; MsInterfaces = MsConfig->MsInterfaces; interface = LibusbConfig->interface; for (inum = 0; inum < MsConfig->NumInterfaces; inum++) { alt = MsInterfaces[inum]->AlternateSetting; endpoint = interface[inum].altsetting[alt].endpoint; for (pnum = 0; pnum < MsInterfaces[inum]->NumberOfPipes; pnum++) { if (endpoint[pnum].bEndpointAddress == EndpointAddress) { return &endpoint[pnum]; } } } return NULL; } static void func_bulk_transfer_cb(struct libusb_transfer *transfer) { int *completed = transfer->user_data; *completed = 1; /* caller interprets results and frees transfer */ } static int func_set_usbd_status(UDEVICE* pdev, UINT32* status, int err_result) { switch (err_result) { case LIBUSB_SUCCESS: *status = USBD_STATUS_SUCCESS; break; case LIBUSB_ERROR_IO: *status = USBD_STATUS_STALL_PID; LLOGLN(10, ("urb_status: LIBUSB_ERROR_IO!!\n")); break; case LIBUSB_ERROR_INVALID_PARAM: *status = USBD_STATUS_INVALID_PARAMETER; break; case LIBUSB_ERROR_ACCESS: *status = USBD_STATUS_NOT_ACCESSED; break; case LIBUSB_ERROR_NO_DEVICE: *status = USBD_STATUS_DEVICE_GONE; if (pdev) { if (!(pdev->status & URBDRC_DEVICE_NOT_FOUND)) { pdev->status |= URBDRC_DEVICE_NOT_FOUND; LLOGLN(libusb_debug, ("urb_status: LIBUSB_ERROR_NO_DEVICE!!\n")); } } break; case LIBUSB_ERROR_NOT_FOUND: *status = USBD_STATUS_STALL_PID; break; case LIBUSB_ERROR_BUSY: *status = USBD_STATUS_STALL_PID; break; case LIBUSB_ERROR_TIMEOUT: *status = USBD_STATUS_TIMEOUT; break; case LIBUSB_ERROR_OVERFLOW: *status = USBD_STATUS_STALL_PID; break; case LIBUSB_ERROR_PIPE: *status = USBD_STATUS_STALL_PID; break; case LIBUSB_ERROR_INTERRUPTED: *status = USBD_STATUS_STALL_PID; break; case LIBUSB_ERROR_NO_MEM: *status = USBD_STATUS_NO_MEMORY; break; case LIBUSB_ERROR_NOT_SUPPORTED: *status = USBD_STATUS_NOT_SUPPORTED; break; case LIBUSB_ERROR_OTHER: *status = USBD_STATUS_STALL_PID; break; default: *status = USBD_STATUS_SUCCESS; break; } return 0; } static void func_iso_data_init(ISO_USER_DATA* iso_user_data, UINT32 numPacket, UINT32 buffsize, UINT32 noAck, BYTE* isoPacket, BYTE * buffer) { /* init struct iso_user_data */ iso_user_data->IsoPacket = isoPacket; iso_user_data->output_data = buffer; iso_user_data->error_count = 0; iso_user_data->completed = 0; iso_user_data->noack = noAck; urbdrc_get_mstime(iso_user_data->start_frame); } static int func_config_release_all_interface(LIBUSB_DEVICE_HANDLE* libusb_handle, UINT32 NumInterfaces) { int i, ret; for (i = 0; i < NumInterfaces; i++) { ret = libusb_release_interface (libusb_handle, i); if (ret < 0) { fprintf(stderr, "config_release_all_interface: error num %d\n", ret); return -1; } } return 0; } static int func_claim_all_interface(LIBUSB_DEVICE_HANDLE* libusb_handle, int NumInterfaces) { int i, ret; for (i = 0; i < NumInterfaces; i++) { ret = libusb_claim_interface(libusb_handle, i); if (ret < 0) { fprintf(stderr, "claim_all_interface: error num %d\n", ret); return -1; } } return 0; } /* static void* print_transfer_status(enum libusb_transfer_status status) { switch (status) { case LIBUSB_TRANSFER_COMPLETED: //fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_COMPLETED\n"); break; case LIBUSB_TRANSFER_ERROR: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_ERROR\n"); break; case LIBUSB_TRANSFER_TIMED_OUT: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_TIMED_OUT\n"); break; case LIBUSB_TRANSFER_CANCELLED: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_CANCELLED\n"); break; case LIBUSB_TRANSFER_STALL: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_STALL\n"); break; case LIBUSB_TRANSFER_NO_DEVICE: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_NO_DEVICE\n"); break; case LIBUSB_TRANSFER_OVERFLOW: fprintf(stderr, "Transfer Status: LIBUSB_TRANSFER_OVERFLOW\n"); break; default: fprintf(stderr, "Transfer Status: Get unknow error num %d (0x%x)\n", status, status); } return 0; } static void print_status(enum libusb_transfer_status status) { switch (status) { case LIBUSB_TRANSFER_COMPLETED: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_COMPLETED\n"); break; case LIBUSB_TRANSFER_ERROR: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_ERROR\n"); break; case LIBUSB_TRANSFER_TIMED_OUT: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_TIMED_OUT\n"); break; case LIBUSB_TRANSFER_CANCELLED: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_CANCELLED\n"); break; case LIBUSB_TRANSFER_STALL: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_STALL\n"); break; case LIBUSB_TRANSFER_NO_DEVICE: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_NO_DEVICE\n"); break; case LIBUSB_TRANSFER_OVERFLOW: fprintf(stderr, "Transfer status: LIBUSB_TRANSFER_OVERFLOW\n"); break; default: fprintf(stderr, "Transfer status: unknow status %d(0x%x)\n", status, status); break; } } */ static LIBUSB_DEVICE* udev_get_libusb_dev(int bus_number, int dev_number) { int i; ssize_t total_device; LIBUSB_DEVICE** libusb_list; total_device = libusb_get_device_list(NULL, &libusb_list); for (i = 0; i < total_device; i++) { if ((bus_number == libusb_get_bus_number(libusb_list[i])) && (dev_number == libusb_get_device_address(libusb_list[i]))) return libusb_list[i]; } libusb_free_device_list(libusb_list, 1); return NULL; } static LIBUSB_DEVICE_DESCRIPTOR* udev_new_descript(LIBUSB_DEVICE* libusb_dev) { int ret; LIBUSB_DEVICE_DESCRIPTOR* descriptor; descriptor = (LIBUSB_DEVICE_DESCRIPTOR*) malloc(sizeof(LIBUSB_DEVICE_DESCRIPTOR)); ret = libusb_get_device_descriptor(libusb_dev, descriptor); if (ret < 0) { fprintf(stderr, "libusb_get_device_descriptor: ERROR!!\n"); return NULL; } return descriptor; } /* Get HUB handle */ static int udev_get_hub_handle(UDEVICE* pdev, UINT16 bus_number, UINT16 dev_number) { struct udev* udev; struct udev_enumerate* enumerate; struct udev_list_entry* devices; struct udev_list_entry* dev_list_entry; struct udev_device* dev; LIBUSB_DEVICE* libusb_dev; int hub_found = 0; int hub_bus = 0; int hub_dev = 0; int error = 0; udev = udev_new(); if (!udev) { LLOGLN(0, ("%s: Can't create udev", __func__)); return -1; } enumerate = udev_enumerate_new(udev); udev_enumerate_add_match_subsystem(enumerate, "usb"); udev_enumerate_add_match_property(enumerate, "DEVTYPE", "usb_device"); udev_enumerate_scan_devices(enumerate); devices = udev_enumerate_get_list_entry(enumerate); udev_list_entry_foreach(dev_list_entry, devices) { const char * path; path = udev_list_entry_get_name(dev_list_entry); dev = udev_device_new_from_syspath(udev, path); if (!dev) continue; int tmp_b = atoi(udev_device_get_property_value(dev,"BUSNUM")); int tmp_d = atoi(udev_device_get_property_value(dev,"DEVNUM")); if (bus_number == tmp_b && dev_number == tmp_d) { /* get port number */ char *p1, *p2; const char* sysfs_path = udev_device_get_property_value(dev,"DEVPATH"); p1 = (char*) sysfs_path; do { p2 = p1 + 1; p1 = strchr(p2, '.'); } while (p1 != NULL); if ((p2 - sysfs_path) < (strlen(sysfs_path) - 2)) { p1 = (char*) sysfs_path; do { p2 = p1 + 1; p1 = strchr(p2, '-'); } while (p1 != NULL); } pdev->port_number = atoi(p2); LLOGLN(libusb_debug, (" Port: %d", pdev->port_number)); /* get device path */ p1 = (char*) sysfs_path; do { p2 = p1 + 1; p1 = strchr(p2, '/'); } while (p1 != NULL); memset(pdev->path, 0, 17); strcpy(pdev->path, p2); LLOGLN(libusb_debug, (" DevPath: %s", pdev->path)); /* query parent hub info */ dev = udev_device_get_parent(dev); if (dev != NULL) { hub_found = 1; hub_bus = atoi(udev_device_get_property_value(dev,"BUSNUM")); hub_dev = atoi(udev_device_get_property_value(dev,"DEVNUM")); LLOGLN(libusb_debug, (" Hub BUS/DEV: %d %d", hub_bus, hub_dev)); } udev_device_unref(dev); break; } udev_device_unref(dev); } udev_enumerate_unref(enumerate); udev_unref(udev); if (!hub_found) { LLOGLN(0, ("%s: hub was not found!", __func__)); return -1; } /* Get libusb hub handle */ libusb_dev = udev_get_libusb_dev(hub_bus, hub_dev); if (libusb_dev == NULL) { LLOGLN(0, ("%s: get hub libusb_dev fail!", __func__)); return -1; } error = libusb_open (libusb_dev, &pdev->hub_handle); if (error < 0) { LLOGLN(0, ("%s: libusb_open error!", __func__)); return -1; } LLOGLN(libusb_debug, ("%s: libusb_open success!", __func__)); /* Success! */ return 0; } static int libusb_udev_select_interface(IUDEVICE* idev, BYTE InterfaceNumber, BYTE AlternateSetting) { int error = 0, diff = 1; UDEVICE* pdev = (UDEVICE*) idev; MSUSB_CONFIG_DESCRIPTOR* MsConfig; MSUSB_INTERFACE_DESCRIPTOR** MsInterfaces; MsConfig = pdev->MsConfig; if (MsConfig) { MsInterfaces = MsConfig->MsInterfaces; if ((MsInterfaces) && (MsInterfaces[InterfaceNumber]->AlternateSetting == AlternateSetting)) { diff = 0; } } if (diff) { error = libusb_set_interface_alt_setting(pdev->libusb_handle, InterfaceNumber, AlternateSetting); if (error < 0) { fprintf(stderr, "%s: Set interface altsetting get error num %d\n", __func__, error); } } return error; } static MSUSB_CONFIG_DESCRIPTOR* libusb_udev_complete_msconfig_setup(IUDEVICE* idev, MSUSB_CONFIG_DESCRIPTOR* MsConfig) { UDEVICE* pdev = (UDEVICE*) idev; MSUSB_INTERFACE_DESCRIPTOR** MsInterfaces; MSUSB_INTERFACE_DESCRIPTOR* MsInterface; MSUSB_PIPE_DESCRIPTOR** MsPipes; MSUSB_PIPE_DESCRIPTOR* MsPipe; MSUSB_PIPE_DESCRIPTOR** t_MsPipes; MSUSB_PIPE_DESCRIPTOR* t_MsPipe; LIBUSB_CONFIG_DESCRIPTOR* LibusbConfig; const LIBUSB_INTERFACE* LibusbInterface; const LIBUSB_INTERFACE_DESCRIPTOR* LibusbAltsetting; const LIBUSB_ENDPOINT_DESCEIPTOR* LibusbEndpoint; BYTE LibusbNumEndpoint; int inum = 0, pnum = 0, MsOutSize = 0; LibusbConfig = pdev->LibusbConfig; if (LibusbConfig->bNumInterfaces != MsConfig->NumInterfaces) { fprintf(stderr, "Select Configuration: Libusb NumberInterfaces(%d) is different " "with MsConfig NumberInterfaces(%d)\n", LibusbConfig->bNumInterfaces, MsConfig->NumInterfaces); } /* replace MsPipes for libusb */ MsInterfaces = MsConfig->MsInterfaces; for (inum = 0; inum < MsConfig->NumInterfaces; inum++) { MsInterface = MsInterfaces[inum]; /* get libusb's number of endpoints */ LibusbInterface = &LibusbConfig->interface[MsInterface->InterfaceNumber]; LibusbAltsetting = &LibusbInterface->altsetting[MsInterface->AlternateSetting]; LibusbNumEndpoint = LibusbAltsetting->bNumEndpoints; t_MsPipes = (MSUSB_PIPE_DESCRIPTOR**) malloc(LibusbNumEndpoint * sizeof(MSUSB_PIPE_DESCRIPTOR*)); for (pnum = 0; pnum < LibusbNumEndpoint; pnum++) { t_MsPipe = (MSUSB_PIPE_DESCRIPTOR *) malloc (sizeof(MSUSB_PIPE_DESCRIPTOR)); memset(t_MsPipe, 0, sizeof(MSUSB_PIPE_DESCRIPTOR)); if (pnum < MsInterface->NumberOfPipes && MsInterface->MsPipes) { MsPipe = MsInterface->MsPipes[pnum]; t_MsPipe->MaximumPacketSize = MsPipe->MaximumPacketSize; t_MsPipe->MaximumTransferSize = MsPipe->MaximumTransferSize; t_MsPipe->PipeFlags = MsPipe->PipeFlags; } else { t_MsPipe->MaximumPacketSize = 0; t_MsPipe->MaximumTransferSize = 0xffffffff; t_MsPipe->PipeFlags = 0; } t_MsPipe->PipeHandle = 0; t_MsPipe->bEndpointAddress = 0; t_MsPipe->bInterval = 0; t_MsPipe->PipeType = 0; t_MsPipe->InitCompleted = 0; t_MsPipes[pnum] = t_MsPipe; } msusb_mspipes_replace(MsInterface, t_MsPipes, LibusbNumEndpoint); } /* setup configuration */ MsOutSize = 8; /* ConfigurationHandle: 4 bytes * --------------------------------------------------------------- * ||<<< 1 byte >>>|<<< 1 byte >>>|<<<<<<<<<< 2 byte >>>>>>>>>>>|| * || bus_number | dev_number | bConfigurationValue || * --------------------------------------------------------------- * ***********************/ MsConfig->ConfigurationHandle = MsConfig->bConfigurationValue | (pdev->bus_number << 24) | (pdev->dev_number << 16); MsInterfaces = MsConfig->MsInterfaces; for (inum = 0; inum < MsConfig->NumInterfaces; inum++) { MsOutSize += 16; MsInterface = MsInterfaces[inum]; /* get libusb's interface */ LibusbInterface = &LibusbConfig->interface[MsInterface->InterfaceNumber]; LibusbAltsetting = &LibusbInterface->altsetting[MsInterface->AlternateSetting]; /* InterfaceHandle: 4 bytes * --------------------------------------------------------------- * ||<<< 1 byte >>>|<<< 1 byte >>>|<<< 1 byte >>>|<<< 1 byte >>>|| * || bus_number | dev_number | altsetting | interfaceNum || * --------------------------------------------------------------- * ***********************/ MsInterface->InterfaceHandle = LibusbAltsetting->bInterfaceNumber | (LibusbAltsetting->bAlternateSetting << 8) | (pdev->dev_number << 16) | (pdev->bus_number << 24); MsInterface->Length = 16 + (MsInterface->NumberOfPipes * 20); MsInterface->bInterfaceClass = LibusbAltsetting->bInterfaceClass; MsInterface->bInterfaceSubClass = LibusbAltsetting->bInterfaceSubClass; MsInterface->bInterfaceProtocol = LibusbAltsetting->bInterfaceProtocol; MsInterface->InitCompleted = 1; MsPipes = MsInterface->MsPipes; LibusbNumEndpoint = LibusbAltsetting->bNumEndpoints; for (pnum = 0; pnum < LibusbNumEndpoint; pnum++) { MsOutSize += 20; MsPipe = MsPipes[pnum]; /* get libusb's endpoint */ LibusbEndpoint = &LibusbAltsetting->endpoint[pnum]; /* PipeHandle: 4 bytes * --------------------------------------------------------------- * ||<<< 1 byte >>>|<<< 1 byte >>>|<<<<<<<<<< 2 byte >>>>>>>>>>>|| * || bus_number | dev_number | bEndpointAddress || * --------------------------------------------------------------- * ***********************/ MsPipe->PipeHandle = LibusbEndpoint->bEndpointAddress | (pdev->dev_number << 16) | (pdev->bus_number << 24); /* count endpoint max packet size */ int max = LibusbEndpoint->wMaxPacketSize & 0x07ff; BYTE attr = LibusbEndpoint->bmAttributes; if ((attr & 0x3) == 1 || (attr & 0x3) == 3) { max *= (1 + ((LibusbEndpoint->wMaxPacketSize >> 11) & 3)); } MsPipe->MaximumPacketSize = max; MsPipe->bEndpointAddress = LibusbEndpoint->bEndpointAddress; MsPipe->bInterval = LibusbEndpoint->bInterval; MsPipe->PipeType = attr & 0x3; MsPipe->InitCompleted = 1; } } MsConfig->MsOutSize = MsOutSize; MsConfig->InitCompleted = 1; /* replace device's MsConfig */ if (!(MsConfig == pdev->MsConfig)) { msusb_msconfig_free(pdev->MsConfig); pdev->MsConfig = MsConfig; } return MsConfig; } static int libusb_udev_select_configuration(IUDEVICE* idev, UINT32 bConfigurationValue) { UDEVICE* pdev = (UDEVICE*) idev; MSUSB_CONFIG_DESCRIPTOR * MsConfig = pdev->MsConfig; LIBUSB_DEVICE_HANDLE * libusb_handle = pdev->libusb_handle; LIBUSB_DEVICE * libusb_dev = pdev->libusb_dev; LIBUSB_CONFIG_DESCRIPTOR ** LibusbConfig = &pdev->LibusbConfig; int ret = 0; if (MsConfig->InitCompleted){ func_config_release_all_interface(libusb_handle, (*LibusbConfig)->bNumInterfaces); } /* The configuration value -1 is mean to put the device in unconfigured state. */ if (bConfigurationValue == 0) ret = libusb_set_configuration(libusb_handle, -1); else ret = libusb_set_configuration(libusb_handle, bConfigurationValue); if (ret < 0){ fprintf(stderr, "libusb_set_configuration: ERROR number %d!!\n", ret); func_claim_all_interface(libusb_handle, (*LibusbConfig)->bNumInterfaces); return -1; } else { ret = libusb_get_active_config_descriptor (libusb_dev, LibusbConfig); if (ret < 0){ fprintf(stderr, "libusb_get_config_descriptor_by_value: ERROR number %d!!\n", ret); func_claim_all_interface(libusb_handle, (*LibusbConfig)->bNumInterfaces); return -1; } } func_claim_all_interface(libusb_handle, (*LibusbConfig)->bNumInterfaces); return 0; } static int libusb_udev_control_pipe_request(IUDEVICE* idev, UINT32 RequestId, UINT32 EndpointAddress, UINT32* UsbdStatus, int command) { int error = 0; UDEVICE* pdev = (UDEVICE*) idev; /* pdev->request_queue->register_request(pdev->request_queue, RequestId, NULL, 0); */ switch (command){ case PIPE_CANCEL: /** cancel bulk or int transfer */ idev->cancel_all_transfer_request(idev); //dummy_wait_s_obj(1); /** set feature to ep (set halt)*/ error = libusb_control_transfer(pdev->libusb_handle, LIBUSB_ENDPOINT_OUT | LIBUSB_RECIPIENT_ENDPOINT, LIBUSB_REQUEST_SET_FEATURE, ENDPOINT_HALT, EndpointAddress, NULL, 0, 1000); break; case PIPE_RESET: idev->cancel_all_transfer_request(idev); error = libusb_clear_halt(pdev->libusb_handle, EndpointAddress); //func_set_usbd_status(pdev, UsbdStatus, error); break; default: error = -0xff; break; } *UsbdStatus = 0; /* if(pdev->request_queue->unregister_request(pdev->request_queue, RequestId)) fprintf(stderr, "request_queue_unregister_request: not fount request 0x%x\n", RequestId); */ return error; } static int libusb_udev_control_query_device_text(IUDEVICE* idev, UINT32 TextType, UINT32 LocaleId, UINT32 * BufferSize, BYTE * Buffer) { UDEVICE* pdev = (UDEVICE*) idev; LIBUSB_DEVICE_DESCRIPTOR * devDescriptor = pdev->devDescriptor; char * strDesc = "Generic Usb String"; char deviceLocation[25]; BYTE bus_number; BYTE device_address; int ret = 0, i = 0; switch (TextType){ case DeviceTextDescription: ret = libusb_get_string_descriptor (pdev->libusb_handle, devDescriptor->iProduct, LocaleId, Buffer, *BufferSize); for(i = 0; i < ret; i++) { Buffer[i] = Buffer[i+2]; } ret -= 2; if (ret <= 0 || ret < 4){ LLOGLN(libusb_debug, ("libusb_get_string_descriptor: " "ERROR num %d, iProduct: %d!", ret, devDescriptor->iProduct)); memcpy(Buffer, strDesc, strlen(strDesc)); Buffer[strlen(strDesc)] = '\0'; *BufferSize = (strlen((char *)Buffer)) * 2; for (i = strlen((char *)Buffer); i > 0; i--) { Buffer[i*2] = Buffer[i]; Buffer[(i*2)-1] = 0; } } else { *BufferSize = ret; } break; case DeviceTextLocationInformation: bus_number = libusb_get_bus_number(pdev->libusb_dev); device_address = libusb_get_device_address(pdev->libusb_dev); sprintf(deviceLocation, "Port_#%04d.Hub_#%04d", device_address, bus_number); for(i=0;irequest_queue->register_request(pdev->request_queue, RequestId, NULL, 0); */ memset(ms_string_desc, 0, 0x13); error = libusb_control_transfer(pdev->libusb_handle, LIBUSB_ENDPOINT_IN | Recipient, LIBUSB_REQUEST_GET_DESCRIPTOR, 0x03ee, 0, ms_string_desc, 0x12, Timeout); //fprintf(stderr, "Get ms string: result number %d", error); if (error > 0) { BYTE bMS_Vendorcode; data_read_BYTE(ms_string_desc + 16, bMS_Vendorcode); //fprintf(stderr, "bMS_Vendorcode:0x%x", bMS_Vendorcode); /** get os descriptor */ error = libusb_control_transfer(pdev->libusb_handle, LIBUSB_ENDPOINT_IN |LIBUSB_REQUEST_TYPE_VENDOR | Recipient, bMS_Vendorcode, (InterfaceNumber << 8) | Ms_PageIndex, Ms_featureDescIndex, Buffer, *BufferSize, Timeout); *BufferSize = error; } if (error < 0) *UsbdStatus = USBD_STATUS_STALL_PID; else *UsbdStatus = USBD_STATUS_SUCCESS; /* if(pdev->request_queue->unregister_request(pdev->request_queue, RequestId)) fprintf(stderr, "request_queue_unregister_request: not fount request 0x%x\n", RequestId); */ return error; } static int libusb_udev_query_device_descriptor(IUDEVICE* idev, int offset) { UDEVICE* pdev = (UDEVICE*) idev; switch (offset) { case B_LENGTH: return pdev->devDescriptor->bLength; case B_DESCRIPTOR_TYPE: return pdev->devDescriptor->bDescriptorType; case BCD_USB: return pdev->devDescriptor->bcdUSB; case B_DEVICE_CLASS: return pdev->devDescriptor->bDeviceClass; case B_DEVICE_SUBCLASS: return pdev->devDescriptor->bDeviceSubClass; case B_DEVICE_PROTOCOL: return pdev->devDescriptor->bDeviceProtocol; case B_MAX_PACKET_SIZE0: return pdev->devDescriptor->bMaxPacketSize0; case ID_VENDOR: return pdev->devDescriptor->idVendor; case ID_PRODUCT: return pdev->devDescriptor->idProduct; case BCD_DEVICE: return pdev->devDescriptor->bcdDevice; case I_MANUFACTURER: return pdev->devDescriptor->iManufacturer; case I_PRODUCT: return pdev->devDescriptor->iProduct; case I_SERIAL_NUMBER: return pdev->devDescriptor->iSerialNumber; case B_NUM_CONFIGURATIONS: return pdev->devDescriptor->bNumConfigurations; default: return 0; } return 0; } static void libusb_udev_detach_kernel_driver(IUDEVICE* idev) { int i, err = 0; UDEVICE* pdev = (UDEVICE*) idev; if ((pdev->status & URBDRC_DEVICE_DETACH_KERNEL) == 0) { for (i = 0; i < pdev->LibusbConfig->bNumInterfaces; i++) { err = libusb_kernel_driver_active(pdev->libusb_handle , i); LLOGLN(libusb_debug, ("libusb_kernel_driver_active = %d\n", err)); if (err){ err = libusb_detach_kernel_driver(pdev->libusb_handle , i); LLOGLN(libusb_debug, ("libusb_detach_kernel_driver = %d\n", err)); } } pdev->status |= URBDRC_DEVICE_DETACH_KERNEL; } } static void libusb_udev_attach_kernel_driver(IUDEVICE* idev) { int i, err = 0; UDEVICE* pdev = (UDEVICE*) idev; for (i = 0; i < pdev->LibusbConfig->bNumInterfaces && err != LIBUSB_ERROR_NO_DEVICE; i++) { err = libusb_release_interface (pdev->libusb_handle, i); if (err < 0){ LLOGLN(libusb_debug, ("libusb_release_interface: error num %d = %d", i, err)); } if (err != LIBUSB_ERROR_NO_DEVICE) { err = libusb_attach_kernel_driver (pdev->libusb_handle , i); LLOGLN(libusb_debug, ("libusb_attach_kernel_driver if%d = %d", i, err)); } } } static int libusb_udev_is_composite_device(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return pdev->isCompositeDevice; } static int libusb_udev_is_signal_end(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return (pdev->status & URBDRC_DEVICE_SIGNAL_END) ? 1 : 0; } static int libusb_udev_is_exist(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return (pdev->status & URBDRC_DEVICE_NOT_FOUND) ? 0 : 1; } static int libusb_udev_is_channel_closed(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return (pdev->status & URBDRC_DEVICE_CHANNEL_CLOSED) ? 1 : 0; } static int libusb_udev_is_already_send(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return (pdev->status & URBDRC_DEVICE_ALREADY_SEND) ? 1 : 0; } static void libusb_udev_signal_end(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; pdev->status |= URBDRC_DEVICE_SIGNAL_END; } static void libusb_udev_channel_closed(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; pdev->status |= URBDRC_DEVICE_CHANNEL_CLOSED; } static void libusb_udev_set_already_send(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; pdev->status |= URBDRC_DEVICE_ALREADY_SEND; } static char* libusb_udev_get_path(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; return pdev->path; } static int libusb_udev_wait_action_completion(IUDEVICE* idev) { int error, sval; UDEVICE* pdev = (UDEVICE*) idev; while(1) { usleep(500000); error = sem_getvalue(&pdev->sem_id, &sval); if (sval == 0) break; } return error; } static void libusb_udev_push_action(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; sem_post(&pdev->sem_id); } static void libusb_udev_complete_action(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; sem_trywait(&pdev->sem_id); } static int libusb_udev_wait_for_detach(IUDEVICE* idev) { int error = 0; int times = 0; UDEVICE* pdev = (UDEVICE*) idev; while (times < 25) { if (pdev->status & URBDRC_DEVICE_SIGNAL_END) { error = -1; break; } usleep(200000); times++; } return error; } static void libusb_udev_lock_fifo_isoch(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; pthread_mutex_lock(&pdev->mutex_isoch); } static void libusb_udev_unlock_fifo_isoch(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; pthread_mutex_unlock(&pdev->mutex_isoch); } static int libusb_udev_query_device_port_status(IUDEVICE* idev, UINT32* UsbdStatus, UINT32* BufferSize, BYTE* Buffer) { UDEVICE* pdev = (UDEVICE*) idev; int success = 0, ret; if (pdev->hub_handle != NULL) { ret = idev->control_transfer(idev, 0xffff, 0, 0, LIBUSB_ENDPOINT_IN | LIBUSB_REQUEST_TYPE_CLASS | LIBUSB_RECIPIENT_OTHER, LIBUSB_REQUEST_GET_STATUS, 0, pdev->port_number, UsbdStatus, BufferSize, Buffer, 1000); if (ret < 0) { LLOGLN(libusb_debug, ("libusb_control_transfer: error num %d", ret)); *BufferSize = 0; } else { LLOGLN(libusb_debug, ("PORT STATUS:0x%02x%02x%02x%02x", Buffer[3], Buffer[2], Buffer[1], Buffer[0])); success = 1; } } return success; } static int libusb_udev_request_queue_is_none(IUDEVICE* idev) { UDEVICE* pdev = (UDEVICE*) idev; if (pdev->request_queue->request_num == 0) return 1; return 0; } static int libusb_udev_isoch_transfer(IUDEVICE* idev, UINT32 RequestId, UINT32 EndpointAddress, UINT32 TransferFlags, int NoAck, UINT32* ErrorCount, UINT32* UrbdStatus, UINT32* StartFrame, UINT32 NumberOfPackets, BYTE* IsoPacket, UINT32* BufferSize, BYTE* Buffer, int Timeout) { UINT32 iso_packet_size; UDEVICE* pdev = (UDEVICE*) idev; ISO_USER_DATA iso_user_data; struct libusb_transfer* iso_transfer = NULL; int status = 0, ret = 0, submit = 0; iso_packet_size = *BufferSize / NumberOfPackets; iso_transfer = libusb_alloc_transfer(NumberOfPackets); if (iso_transfer == NULL) { fprintf(stderr, "Error: libusb_alloc_transfer.\n"); status = -1; } /** process URB_FUNCTION_IOSCH_TRANSFER */ func_iso_data_init(&iso_user_data, NumberOfPackets, *BufferSize, NoAck, IsoPacket, Buffer); /** fill setting */ libusb_fill_iso_transfer(iso_transfer, pdev->libusb_handle, EndpointAddress, Buffer, *BufferSize, NumberOfPackets, func_iso_callback, &iso_user_data, 2000); libusb_set_iso_packet_lengths(iso_transfer, iso_packet_size); if (pdev->status & (URBDRC_DEVICE_SIGNAL_END | URBDRC_DEVICE_NOT_FOUND)) status = -1; iso_user_data.iso_status = 0; if (!(status < 0)) { submit = libusb_submit_transfer(iso_transfer); if (submit < 0) { LLOGLN(libusb_debug, ("Error: Failed to submit transfer (ret = %d).", submit)); status = -1; func_set_usbd_status(pdev, UrbdStatus, ret); } } #if ISOCH_FIFO if (!NoAck) { idev->unlock_fifo_isoch(idev); } #endif while(pdev && iso_user_data.iso_status == 0 && status >= 0 && submit >= 0) { if (pdev->status & URBDRC_DEVICE_NOT_FOUND){ status = -1; break; } ret = handle_events_completed(NULL, &iso_user_data.completed); if (ret < 0) { LLOGLN(libusb_debug, ("Error: libusb_handle_events (ret = %d).", ret)); status = -1; break; } #if WAIT_COMPLETE_SLEEP if (iso_user_data.iso_status == 0) { usleep(WAIT_COMPLETE_SLEEP); } #endif } if (iso_user_data.iso_status < 0) status = -1; *ErrorCount = iso_user_data.error_count; *StartFrame = iso_user_data.start_frame; *BufferSize = iso_transfer->actual_length; libusb_free_transfer(iso_transfer); return status; } static int libusb_udev_control_transfer(IUDEVICE* idev, UINT32 RequestId, UINT32 EndpointAddress, UINT32 TransferFlags, BYTE bmRequestType, BYTE Request, UINT16 Value, UINT16 Index, UINT32* UrbdStatus, UINT32* BufferSize, BYTE* Buffer, UINT32 Timeout) { int status = 0; UDEVICE* pdev = (UDEVICE*) idev; status = libusb_control_transfer(pdev->libusb_handle, bmRequestType, Request, Value, Index, Buffer, *BufferSize, Timeout); if (!(status < 0)) *BufferSize = status; func_set_usbd_status(pdev, UrbdStatus, status); return status; } static int libusb_udev_bulk_or_interrupt_transfer(IUDEVICE* idev, UINT32 RequestId, UINT32 EndpointAddress, UINT32 TransferFlags, UINT32* UsbdStatus, UINT32* BufferSize, BYTE* Buffer, UINT32 Timeout) { UINT32 transfer_type; UDEVICE* pdev = (UDEVICE*) idev; const LIBUSB_ENDPOINT_DESCEIPTOR* ep_desc; struct libusb_transfer* transfer = NULL; TRANSFER_REQUEST* request = NULL; int completed = 0, status = 0, submit = 0; int transferDir = EndpointAddress & 0x80; /* alloc memory for urb transfer */ transfer = libusb_alloc_transfer(0); ep_desc = func_get_ep_desc(pdev->LibusbConfig, pdev->MsConfig, EndpointAddress); if (!ep_desc) { fprintf(stderr, "func_get_ep_desc: endpoint 0x%x is not found!!\n", EndpointAddress); return -1; } transfer_type = (ep_desc->bmAttributes) & 0x3; LLOGLN(libusb_debug, ("urb_bulk_or_interrupt_transfer: ep:0x%x " "transfer_type %d flag:%d OutputBufferSize:0x%x", EndpointAddress, transfer_type, TransferFlags, *BufferSize)); switch (transfer_type) { case BULK_TRANSFER: /** Bulk Transfer */ //Timeout = 10000; break; case INTERRUPT_TRANSFER: /** Interrupt Transfer */ /** Sometime, we may have receive a oversized transfer request, * it make submit urb return error, so we set the length of * request to wMaxPacketSize */ if (*BufferSize != (ep_desc->wMaxPacketSize)) { LLOGLN(libusb_debug, ("Interrupt Transfer(%s): " "BufferSize is different than maxPacketsize(0x%x)", ((transferDir)?"IN":"OUT"), ep_desc->wMaxPacketSize)); if((*BufferSize) > (ep_desc->wMaxPacketSize) && transferDir == USBD_TRANSFER_DIRECTION_IN) (*BufferSize) = ep_desc->wMaxPacketSize; } Timeout = 0; break; default: LLOGLN(0, ("urb_bulk_or_interrupt_transfer:" " other transfer type 0x%X", transfer_type)); return -1; break; } libusb_fill_bulk_transfer(transfer, pdev->libusb_handle, EndpointAddress, Buffer, *BufferSize, func_bulk_transfer_cb, &completed, Timeout); transfer->type = (unsigned char) transfer_type; /** Bug fixed in libusb-1.0-8 later: issue of memory crash */ submit = libusb_submit_transfer(transfer); if (submit < 0) { LLOGLN(libusb_debug, ("libusb_bulk_transfer: error num %d", status)); func_set_usbd_status(pdev, UsbdStatus, status); *BufferSize = 0; } else { request = pdev->request_queue->register_request( pdev->request_queue, RequestId, transfer, EndpointAddress); request->submit = 1; } if ((pdev && *UsbdStatus == 0) && (submit >= 0) && (pdev->iface.isSigToEnd((IUDEVICE*) pdev) == 0)) { while (!completed) { status = handle_events_completed(NULL, &completed); if (status < 0) { if (status == LIBUSB_ERROR_INTERRUPTED) continue; libusb_cancel_transfer(transfer); while (!completed) { if (handle_events_completed(NULL, &completed) < 0) break; #if WAIT_COMPLETE_SLEEP if (!completed) usleep(WAIT_COMPLETE_SLEEP); #endif } break; } #if WAIT_COMPLETE_SLEEP if (!completed) usleep(WAIT_COMPLETE_SLEEP); #endif } switch (transfer->status) { case LIBUSB_TRANSFER_COMPLETED: func_set_usbd_status(pdev, UsbdStatus, 0); break; case LIBUSB_TRANSFER_TIMED_OUT: func_set_usbd_status(pdev, UsbdStatus, LIBUSB_ERROR_TIMEOUT); break; case LIBUSB_TRANSFER_STALL: func_set_usbd_status(pdev, UsbdStatus, LIBUSB_ERROR_PIPE); break; case LIBUSB_TRANSFER_OVERFLOW: func_set_usbd_status(pdev, UsbdStatus, LIBUSB_ERROR_OVERFLOW); break; case LIBUSB_TRANSFER_NO_DEVICE: func_set_usbd_status(pdev, UsbdStatus, LIBUSB_ERROR_NO_DEVICE); break; default: func_set_usbd_status(pdev, UsbdStatus, LIBUSB_ERROR_OTHER); break; } *BufferSize = transfer->actual_length; } LLOGLN(libusb_debug, ("bulk or interrupt Transfer data size : 0x%x", *BufferSize)); if (request) { if(pdev->request_queue->unregister_request(pdev->request_queue, RequestId)) fprintf(stderr, "request_queue_unregister_request: not fount request 0x%x\n", RequestId); } libusb_free_transfer(transfer); return 0; } static void libusb_udev_cancel_all_transfer_request(IUDEVICE* idev) { int status; UDEVICE* pdev = (UDEVICE*) idev; REQUEST_QUEUE* request_queue = pdev->request_queue; TRANSFER_REQUEST* request = NULL; pthread_mutex_lock(&request_queue->request_loading); request_queue->rewind(request_queue); while (request_queue->has_next(request_queue)) { request = request_queue->get_next(request_queue); if ((!request) || (!request->transfer) || (request->endpoint != request->transfer->endpoint) || (request->transfer->endpoint == 0) || (request->submit != 1)) { continue; } status = libusb_cancel_transfer(request->transfer); if (status < 0) { LLOGLN(libusb_debug, ("libusb_cancel_transfer: error num %d!!\n", status)); } else { request->submit = -1; } } pthread_mutex_unlock(&request_queue->request_loading); } static int func_cancel_xact_request(TRANSFER_REQUEST *request) { int status; if ((!request->transfer) || (request->endpoint != request->transfer->endpoint) || (request->transfer->endpoint == 0) || (request->submit != 1)) { return 0; } status = libusb_cancel_transfer(request->transfer); if (status < 0) { LLOGLN(0, ("libusb_cancel_transfer: error num %d!!", status)); if (status == LIBUSB_ERROR_NOT_FOUND) return -1; } else { LLOGLN(libusb_debug, ("libusb_cancel_transfer: Success num:0x%x!!", request->RequestId)); request->submit = -1; return 1; } return 0; } static int libusb_udev_cancel_transfer_request(IUDEVICE* idev, UINT32 RequestId) { UDEVICE* pdev = (UDEVICE*) idev; REQUEST_QUEUE* request_queue = pdev->request_queue; TRANSFER_REQUEST* request = NULL; int status = 0, retry_times = 0; cancel_retry: pthread_mutex_lock(&request_queue->request_loading); request_queue->rewind(request_queue); while (request_queue->has_next(request_queue)) { request = request_queue->get_next(request_queue); LLOGLN(libusb_debug, ("%s: CancelId:0x%x RequestId:0x%x endpoint 0x%x!!", __func__, RequestId, request->RequestId, request->endpoint)); if ((request && request->RequestId) == (RequestId && retry_times <= 10)) { status = func_cancel_xact_request(request); break; } else if ((request->transfer) && (retry_times > 10)) { status = -1; break; } } pthread_mutex_unlock(&request_queue->request_loading); if ((status == 0) && (retry_times < 10)) { retry_times++; usleep(100000); LLOGLN(10, ("urbdrc_process_cancel_request: go retry!!")); goto cancel_retry; } else if ((status < 0) || (retry_times >= 10)) { /** END */ LLOGLN(libusb_debug, ("urbdrc_process_cancel_request: error go exit!!")); return -1; } LLOGLN(libusb_debug, ("urbdrc_process_cancel_request: success!!")); return 0; } BASIC_STATE_FUNC_DEFINED(channel_id, UINT32) BASIC_STATE_FUNC_DEFINED(UsbDevice, UINT32) BASIC_STATE_FUNC_DEFINED(ReqCompletion, UINT32) BASIC_STATE_FUNC_DEFINED(bus_number, UINT16) BASIC_STATE_FUNC_DEFINED(dev_number, UINT16) BASIC_STATE_FUNC_DEFINED(port_number, int) BASIC_STATE_FUNC_DEFINED(isoch_queue, void *) BASIC_STATE_FUNC_DEFINED(MsConfig, MSUSB_CONFIG_DESCRIPTOR *) BASIC_POINT_FUNC_DEFINED(udev, void *) BASIC_POINT_FUNC_DEFINED(prev, void *) BASIC_POINT_FUNC_DEFINED(next, void *) static void udev_load_interface(UDEVICE* pdev) { /* load interface */ /* Basic */ BASIC_STATE_FUNC_REGISTER(channel_id, pdev); BASIC_STATE_FUNC_REGISTER(UsbDevice, pdev); BASIC_STATE_FUNC_REGISTER(ReqCompletion, pdev); BASIC_STATE_FUNC_REGISTER(bus_number, pdev); BASIC_STATE_FUNC_REGISTER(dev_number, pdev); BASIC_STATE_FUNC_REGISTER(port_number, pdev); BASIC_STATE_FUNC_REGISTER(isoch_queue, pdev); BASIC_STATE_FUNC_REGISTER(MsConfig, pdev); BASIC_STATE_FUNC_REGISTER(p_udev, pdev); BASIC_STATE_FUNC_REGISTER(p_prev, pdev); BASIC_STATE_FUNC_REGISTER(p_next, pdev); pdev->iface.isCompositeDevice = libusb_udev_is_composite_device; pdev->iface.isSigToEnd = libusb_udev_is_signal_end; pdev->iface.isExist = libusb_udev_is_exist; pdev->iface.isAlreadySend = libusb_udev_is_already_send; pdev->iface.isChannelClosed = libusb_udev_is_channel_closed; pdev->iface.SigToEnd = libusb_udev_signal_end; pdev->iface.setAlreadySend = libusb_udev_set_already_send; pdev->iface.setChannelClosed = libusb_udev_channel_closed; pdev->iface.getPath = libusb_udev_get_path; /* Transfer */ pdev->iface.isoch_transfer = libusb_udev_isoch_transfer; pdev->iface.control_transfer = libusb_udev_control_transfer; pdev->iface.bulk_or_interrupt_transfer = libusb_udev_bulk_or_interrupt_transfer; pdev->iface.select_interface = libusb_udev_select_interface; pdev->iface.select_configuration = libusb_udev_select_configuration; pdev->iface.complete_msconfig_setup = libusb_udev_complete_msconfig_setup; pdev->iface.control_pipe_request = libusb_udev_control_pipe_request; pdev->iface.control_query_device_text = libusb_udev_control_query_device_text; pdev->iface.os_feature_descriptor_request = libusb_udev_os_feature_descriptor_request; pdev->iface.cancel_all_transfer_request = libusb_udev_cancel_all_transfer_request; pdev->iface.cancel_transfer_request = libusb_udev_cancel_transfer_request; pdev->iface.query_device_descriptor = libusb_udev_query_device_descriptor; pdev->iface.detach_kernel_driver = libusb_udev_detach_kernel_driver; pdev->iface.attach_kernel_driver = libusb_udev_attach_kernel_driver; pdev->iface.wait_action_completion = libusb_udev_wait_action_completion; pdev->iface.push_action = libusb_udev_push_action; pdev->iface.complete_action = libusb_udev_complete_action; pdev->iface.lock_fifo_isoch = libusb_udev_lock_fifo_isoch; pdev->iface.unlock_fifo_isoch = libusb_udev_unlock_fifo_isoch; pdev->iface.query_device_port_status = libusb_udev_query_device_port_status; pdev->iface.request_queue_is_none = libusb_udev_request_queue_is_none; pdev->iface.wait_for_detach = libusb_udev_wait_for_detach; } static IUDEVICE* udev_init(UDEVICE* pdev, UINT16 bus_number, UINT16 dev_number) { int status, num; LIBUSB_DEVICE_DESCRIPTOR* devDescriptor; LIBUSB_CONFIG_DESCRIPTOR* config_temp; LIBUSB_INTERFACE_DESCRIPTOR interface_temp; /* Get HUB handle */ status = udev_get_hub_handle(pdev, bus_number, dev_number); if (status < 0) { fprintf(stderr, "USB init: Error to get HUB handle!!\n"); pdev->hub_handle = NULL; } pdev->devDescriptor = udev_new_descript(pdev->libusb_dev); if (!pdev->devDescriptor) { fprintf(stderr, "USB init: Error to get device descriptor!!\n"); zfree(pdev); return NULL; } num = pdev->devDescriptor->bNumConfigurations; status = libusb_get_active_config_descriptor (pdev->libusb_dev, &pdev->LibusbConfig); if (status < 0) { fprintf(stderr, "libusb_get_descriptor: ERROR!!ret:%d\n", status); zfree(pdev); return NULL; } config_temp = pdev->LibusbConfig; /* get the first interface and first altsetting */ interface_temp = config_temp->interface[0].altsetting[0]; LLOGLN(0, ("Regist Device: Vid: 0x%04X Pid: 0x%04X" " InterfaceClass = 0x%X", pdev->devDescriptor->idVendor, pdev->devDescriptor->idProduct, interface_temp.bInterfaceClass)); /* Denied list */ switch(interface_temp.bInterfaceClass) { case CLASS_RESERVE: //case CLASS_COMMUNICATION_IF: //case CLASS_HID: //case CLASS_PHYSICAL: case CLASS_MASS_STORAGE: case CLASS_HUB: //case CLASS_COMMUNICATION_DATA_IF: case CLASS_SMART_CARD: case CLASS_CONTENT_SECURITY: //case CLASS_WIRELESS_CONTROLLER: //case CLASS_ELSE_DEVICE: fprintf(stderr, " Device is not supported!!\n"); zfree(pdev); return NULL; default: break; } /* Check composite device */ devDescriptor = pdev->devDescriptor; if ((devDescriptor->bNumConfigurations == 1) && (config_temp->bNumInterfaces > 1) && (devDescriptor->bDeviceClass == 0x0)) { pdev->isCompositeDevice = 1; } else if ((devDescriptor->bDeviceClass == 0xef) && (devDescriptor->bDeviceSubClass == 0x02) && (devDescriptor->bDeviceProtocol == 0x01)) { pdev->isCompositeDevice = 1; } else { pdev->isCompositeDevice = 0; } /* set device class to first interface class */ devDescriptor->bDeviceClass = interface_temp.bInterfaceClass; devDescriptor->bDeviceSubClass = interface_temp.bInterfaceSubClass; devDescriptor->bDeviceProtocol = interface_temp.bInterfaceProtocol; /* initialize pdev */ pdev->prev = NULL; pdev->next = NULL; pdev->bus_number = bus_number; pdev->dev_number = dev_number; pdev->status = 0; pdev->ReqCompletion = 0; pdev->channel_id = 0xffff; pdev->request_queue = request_queue_new(); pdev->isoch_queue = NULL; sem_init(&pdev->sem_id, 0, 0); /* set config of windows */ pdev->MsConfig = msusb_msconfig_new(); pthread_mutex_init(&pdev->mutex_isoch, NULL); //deb_config_msg(pdev->libusb_dev, config_temp, devDescriptor->bNumConfigurations); udev_load_interface(pdev); return (IUDEVICE*) pdev; } int udev_new_by_id(UINT16 idVendor, UINT16 idProduct, IUDEVICE*** devArray) { LIBUSB_DEVICE_DESCRIPTOR* descriptor; LIBUSB_DEVICE** libusb_list; UDEVICE** array; UINT16 bus_number; UINT16 dev_number; ssize_t total_device; int i, status, num = 0; fprintf(stderr, "VID: 0x%04X PID: 0x%04X\n", idVendor, idProduct); array = (UDEVICE**) malloc(16 * sizeof(UDEVICE*)); total_device = libusb_get_device_list(NULL, &libusb_list); for (i = 0; i < total_device; i++) { descriptor = udev_new_descript(libusb_list[i]); if ((descriptor->idVendor == idVendor) && (descriptor->idProduct == idProduct)) { bus_number = 0; dev_number = 0; array[num] = (PUDEVICE) malloc(sizeof(UDEVICE)); array[num]->libusb_dev = libusb_list[i]; status = libusb_open(libusb_list[i], &array[num]->libusb_handle); if (status < 0) { fprintf(stderr, "libusb_open: (by id) error: 0x%08X (%d)\n", status, status); zfree(descriptor); zfree(array[num]); continue; } bus_number = libusb_get_bus_number(libusb_list[i]); dev_number = libusb_get_device_address(libusb_list[i]); array[num] = (PUDEVICE) udev_init(array[num], bus_number, dev_number); if (array[num] != NULL) num++; } zfree(descriptor); } libusb_free_device_list(libusb_list, 1); *devArray = (IUDEVICE**) array; return num; } IUDEVICE* udev_new_by_addr(int bus_number, int dev_number) { int status; UDEVICE* pDev; LLOGLN(10, ("bus:%d dev:%d\n", bus_number, dev_number)); pDev = (PUDEVICE) malloc(sizeof(UDEVICE)); pDev->libusb_dev = udev_get_libusb_dev(bus_number, dev_number); if (pDev->libusb_dev == NULL) { fprintf(stderr, "libusb_device_new: ERROR!!\n"); zfree(pDev); return NULL; } status = libusb_open(pDev->libusb_dev, &pDev->libusb_handle); if (status < 0) { fprintf(stderr, "libusb_open: (by addr) ERROR!!\n"); zfree(pDev); return NULL; } return udev_init(pDev, bus_number, dev_number); }