/* * usb.c * * Heavily based in usb_comms from libnx. * * Copyright (c) 2018-2020, Switchbrew and libnx contributors. * Copyright (c) 2020, DarkMatterCore . * * This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool). * * nxdumptool is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * nxdumptool is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "utils.h" #include "usb.h" #define USB_ABI_VERSION 1 #define USB_CMD_HEADER_MAGIC 0x4E584454 /* "NXDT". */ #define USB_TRANSFER_ALIGNMENT 0x1000 /* 4 KiB. */ #define USB_TRANSFER_TIMEOUT 5 /* 5 seconds. */ /* Type definitions. */ typedef struct { RwLock lock, lock_in, lock_out; bool initialized; UsbDsInterface *interface; UsbDsEndpoint *endpoint_in, *endpoint_out; } usbDeviceInterface; typedef enum { UsbCommandType_StartSession = 0, UsbCommandType_SendFileProperties = 1, UsbCommandType_SendNspHeader = 2, ///< Needs to be implemented. UsbCommandType_EndSession = 3 } UsbCommandType; typedef struct { u32 magic; u32 cmd; u32 cmd_block_size; u8 reserved[0x4]; } UsbCommandHeader; typedef struct { u8 app_ver_major; u8 app_ver_minor; u8 app_ver_micro; u8 abi_version; u8 reserved[0xC]; } UsbCommandStartSession; typedef struct { u64 file_size; u32 filename_length; u8 reserved_1[0x4]; char filename[FS_MAX_PATH]; u8 reserved_2[0xF]; } UsbCommandSendFileProperties; typedef enum { ///< Expected response code. UsbStatusType_Success = 0, ///< Internal usage. UsbStatusType_InvalidCommandSize = 1, UsbStatusType_WriteCommandFailed = 2, UsbStatusType_ReadStatusFailed = 3, ///< These can be returned by the host device. UsbStatusType_InvalidMagicWord = 4, UsbStatusType_UnsupportedCommand = 5, UsbStatusType_UnsupportedAbiVersion = 6, UsbStatusType_MalformedCommand = 7, UsbStatusType_HostIoError = 8 } UsbStatusType; typedef struct { u32 magic; u32 status; u8 reserved[0x8]; } UsbStatus; /* Global variables. */ static RwLock g_usbDeviceLock = {0}; static usbDeviceInterface g_usbDeviceInterface = {0}; static bool g_usbDeviceInterfaceInitialized = false; static Event *g_usbStateChangeEvent = NULL; static thrd_t g_usbDetectionThread; static UEvent g_usbDetectionThreadExitEvent = {0}, g_usbTimeoutEvent = {0}; static bool g_usbDetectionThreadCreated = false, g_usbHostAvailable = false, g_usbSessionStarted = false; static u8 *g_usbTransferBuffer = NULL; static u64 g_usbTransferRemainingSize = 0; /* Function prototypes. */ static bool usbCreateDetectionThread(void); static void usbDestroyDetectionThread(void); static int usbDetectionThreadFunc(void *arg); static bool usbStartSession(void); static void usbEndSession(void); NX_INLINE void usbPrepareCommandHeader(u32 cmd, u32 cmd_block_size); static u32 usbSendCommand(size_t cmd_size); NX_INLINE void usbLogStatusDetail(u32 status); NX_INLINE bool usbAllocateTransferBuffer(void); NX_INLINE void usbFreeTransferBuffer(void); static bool usbInitializeComms(void); static void usbCloseComms(void); static void usbFreeDeviceInterface(void); NX_INLINE bool usbInitializeDeviceInterface(void); static bool usbInitializeDeviceInterface5x(void); static bool usbInitializeDeviceInterface1x(void); NX_INLINE bool usbIsHostAvailable(void); NX_INLINE bool usbRead(void *buf, size_t size); NX_INLINE bool usbWrite(void *buf, size_t size); static bool usbTransferData(void *buf, size_t size, UsbDsEndpoint *endpoint); bool usbInitialize(void) { bool ret = false; rwlockWriteLock(&g_usbDeviceLock); /* Allocate USB transfer buffer. */ if (!usbAllocateTransferBuffer()) { LOGFILE("Failed to allocate memory for the USB transfer buffer!"); goto exit; } /* Initialize USB device interface. */ if (!usbInitializeComms()) { LOGFILE("Failed to initialize USB device interface!"); goto exit; } /* Retrieve USB state change kernel event. */ g_usbStateChangeEvent = usbDsGetStateChangeEvent(); if (!g_usbStateChangeEvent) { LOGFILE("Failed to retrieve USB state change kernel event!"); goto exit; } /* Create usermode exit event. */ ueventCreate(&g_usbDetectionThreadExitEvent, true); /* Create usermode USB timeout event. */ ueventCreate(&g_usbTimeoutEvent, true); /* Create USB detection thread. */ if (!(g_usbDetectionThreadCreated = usbCreateDetectionThread())) goto exit; ret = true; exit: rwlockWriteUnlock(&g_usbDeviceLock); return ret; } void usbExit(void) { rwlockWriteLock(&g_usbDeviceLock); /* Destroy USB detection thread. */ if (g_usbDetectionThreadCreated) { usbDestroyDetectionThread(); g_usbDetectionThreadCreated = false; } /* Clear USB state change kernel event. */ g_usbStateChangeEvent = NULL; /* Close USB device interface. */ usbCloseComms(); /* Free USB transfer buffer. */ usbFreeTransferBuffer(); rwlockWriteUnlock(&g_usbDeviceLock); } void *usbAllocatePageAlignedBuffer(size_t size) { if (!size) return NULL; return memalign(USB_TRANSFER_ALIGNMENT, size); } bool usbIsReady(void) { rwlockWriteLock(&g_usbDeviceLock); rwlockWriteLock(&(g_usbDeviceInterface.lock)); bool ret = (g_usbHostAvailable && g_usbSessionStarted); rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); rwlockWriteUnlock(&g_usbDeviceLock); return ret; } bool usbSendFileProperties(u64 file_size, const char *filename) { rwlockWriteLock(&g_usbDeviceLock); rwlockWriteLock(&(g_usbDeviceInterface.lock)); bool ret = false; UsbCommandSendFileProperties *cmd_block = NULL; size_t cmd_size = 0; u32 status = UsbStatusType_Success; u32 filename_length = 0; if (!g_usbTransferBuffer || !g_usbDeviceInterfaceInitialized || !g_usbDeviceInterface.initialized || !g_usbHostAvailable || !g_usbSessionStarted || g_usbTransferRemainingSize > 0 || !filename || \ !(filename_length = (u32)strlen(filename)) || filename_length >= FS_MAX_PATH) { LOGFILE("Invalid parameters!"); goto exit; } usbPrepareCommandHeader(UsbCommandType_SendFileProperties, (u32)sizeof(UsbCommandSendFileProperties)); cmd_block = (UsbCommandSendFileProperties*)(g_usbTransferBuffer + sizeof(UsbCommandHeader)); memset(cmd_block, 0, sizeof(UsbCommandSendFileProperties)); cmd_block->file_size = file_size; cmd_block->filename_length = filename_length; sprintf(cmd_block->filename, "%s", filename); cmd_size = (sizeof(UsbCommandHeader) + sizeof(UsbCommandSendFileProperties)); status = usbSendCommand(cmd_size); if (status == UsbStatusType_Success) { ret = true; g_usbTransferRemainingSize = file_size; } else { usbLogStatusDetail(status); } exit: rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); rwlockWriteUnlock(&g_usbDeviceLock); return ret; } bool usbSendFileData(void *data, u64 data_size) { rwlockWriteLock(&g_usbDeviceLock); rwlockWriteLock(&(g_usbDeviceInterface.lock)); bool ret = false; void *buf = NULL; UsbStatus *cmd_status = NULL; if (!g_usbTransferBuffer || !g_usbDeviceInterfaceInitialized || !g_usbDeviceInterface.initialized || !g_usbHostAvailable || !g_usbSessionStarted || !g_usbTransferRemainingSize || !data || \ !data_size || data_size > USB_TRANSFER_BUFFER_SIZE || data_size > g_usbTransferRemainingSize) { LOGFILE("Invalid parameters!"); goto exit; } /* Optimization for buffers that already are page aligned. */ if (IS_ALIGNED((u64)data, USB_TRANSFER_ALIGNMENT)) { buf = data; } else { buf = g_usbTransferBuffer; memcpy(buf, data, data_size); } if (!usbWrite(buf, data_size)) { LOGFILE("Failed to write 0x%lX bytes long file data chunk!", data_size); goto exit; } ret = true; g_usbTransferRemainingSize -= data_size; /* Check if this is the last chunk. */ if (!g_usbTransferRemainingSize) { if (!usbRead(g_usbTransferBuffer, sizeof(UsbStatus))) { LOGFILE("Failed to read 0x%lX bytes long status block!", sizeof(UsbStatus)); ret = false; goto exit; } cmd_status = (UsbStatus*)g_usbTransferBuffer; if (cmd_status->magic != __builtin_bswap32(USB_CMD_HEADER_MAGIC)) { LOGFILE("Invalid status block magic word!"); ret = false; goto exit; } ret = (cmd_status->status == UsbStatusType_Success); if (!ret) usbLogStatusDetail(cmd_status->status); } exit: if (!ret) g_usbTransferRemainingSize = 0; rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); rwlockWriteUnlock(&g_usbDeviceLock); return ret; } static bool usbCreateDetectionThread(void) { if (thrd_create(&g_usbDetectionThread, usbDetectionThreadFunc, NULL) != thrd_success) { LOGFILE("Failed to create USB detection thread!"); return false; } return true; } static void usbDestroyDetectionThread(void) { /* Signal the exit event to terminate the USB detection thread */ ueventSignal(&g_usbDetectionThreadExitEvent); /* Wait for the USB detection thread to exit. */ thrd_join(g_usbDetectionThread, NULL); } static int usbDetectionThreadFunc(void *arg) { (void)arg; Result rc = 0; int idx = 0; Waiter usb_change_event_waiter = waiterForEvent(g_usbStateChangeEvent); Waiter usb_timeout_event_waiter = waiterForUEvent(&g_usbTimeoutEvent); Waiter exit_event_waiter = waiterForUEvent(&g_usbDetectionThreadExitEvent); while(true) { /* Wait until an event is triggered. */ rc = waitMulti(&idx, -1, usb_change_event_waiter, usb_timeout_event_waiter, exit_event_waiter); if (R_FAILED(rc)) continue; /* Exit event triggered. */ if (idx == 2) break; rwlockWriteLock(&g_usbDeviceLock); rwlockWriteLock(&(g_usbDeviceInterface.lock)); /* Retrieve current USB connection status */ /* Only proceed if we're dealing with a status change. */ g_usbHostAvailable = usbIsHostAvailable(); g_usbSessionStarted = false; g_usbTransferRemainingSize = 0; /* Start a USB session if we're connected to a host device and if the status change event was triggered. */ /* This will essentially hang this thread and all other threads that call USB-related functions until a session is established. */ if (g_usbHostAvailable && idx == 1) g_usbSessionStarted = usbStartSession(); rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); rwlockWriteUnlock(&g_usbDeviceLock); } /* Close USB session if needed. */ if (g_usbHostAvailable && g_usbSessionStarted) usbEndSession(); g_usbHostAvailable = g_usbSessionStarted = false; g_usbTransferRemainingSize = 0; return 0; } static bool usbStartSession(void) { UsbCommandStartSession *cmd_block = NULL; size_t cmd_size = 0; u32 status = UsbStatusType_Success; if (!g_usbTransferBuffer || !g_usbDeviceInterfaceInitialized || !g_usbDeviceInterface.initialized) { LOGFILE("Invalid parameters!"); return false; } usbPrepareCommandHeader(UsbCommandType_StartSession, (u32)sizeof(UsbCommandStartSession)); cmd_block = (UsbCommandStartSession*)(g_usbTransferBuffer + sizeof(UsbCommandHeader)); memset(cmd_block, 0, sizeof(UsbCommandStartSession)); cmd_block->app_ver_major = VERSION_MAJOR; cmd_block->app_ver_minor = VERSION_MINOR; cmd_block->app_ver_micro = VERSION_MICRO; cmd_block->abi_version = USB_ABI_VERSION; cmd_size = (sizeof(UsbCommandHeader) + sizeof(UsbCommandStartSession)); status = usbSendCommand(cmd_size); if (status != UsbStatusType_Success) usbLogStatusDetail(status); return (status == UsbStatusType_Success); } static void usbEndSession(void) { if (!g_usbTransferBuffer || !g_usbDeviceInterfaceInitialized || !g_usbDeviceInterface.initialized || !g_usbHostAvailable || !g_usbSessionStarted) { LOGFILE("Invalid parameters!"); return; } usbPrepareCommandHeader(UsbCommandType_EndSession, 0); if (!usbWrite(g_usbTransferBuffer, sizeof(UsbCommandHeader))) LOGFILE("Failed to send EndSession command!"); } NX_INLINE void usbPrepareCommandHeader(u32 cmd, u32 cmd_block_size) { if (cmd > UsbCommandType_EndSession) return; UsbCommandHeader *cmd_header = (UsbCommandHeader*)g_usbTransferBuffer; memset(cmd_header, 0, sizeof(UsbCommandHeader)); cmd_header->magic = __builtin_bswap32(USB_CMD_HEADER_MAGIC); cmd_header->cmd = cmd; cmd_header->cmd_block_size = cmd_block_size; } static u32 usbSendCommand(size_t cmd_size) { u32 cmd = ((UsbCommandHeader*)g_usbTransferBuffer)->cmd; UsbStatus *cmd_status = NULL; if (cmd_size < sizeof(UsbCommandHeader) || cmd_size > USB_TRANSFER_BUFFER_SIZE) { LOGFILE("Invalid command size!"); return UsbStatusType_InvalidCommandSize; } if (!usbWrite(g_usbTransferBuffer, cmd_size)) { LOGFILE("Failed to write 0x%lX bytes long block for type 0x%X command!", cmd_size, cmd); return UsbStatusType_WriteCommandFailed; } if (!usbRead(g_usbTransferBuffer, sizeof(UsbStatus))) { LOGFILE("Failed to read 0x%lX bytes long status block for type 0x%X command!", sizeof(UsbStatus), cmd); return UsbStatusType_ReadStatusFailed; } cmd_status = (UsbStatus*)g_usbTransferBuffer; if (cmd_status->magic != __builtin_bswap32(USB_CMD_HEADER_MAGIC)) { LOGFILE("Invalid status block magic word for type 0x%X command!", cmd); return UsbStatusType_InvalidMagicWord; } return cmd_status->status; } NX_INLINE void usbLogStatusDetail(u32 status) { switch(status) { case UsbStatusType_Success: case UsbStatusType_InvalidCommandSize: case UsbStatusType_WriteCommandFailed: case UsbStatusType_ReadStatusFailed: break; case UsbStatusType_InvalidMagicWord: LOGFILE("Host replied with Invalid Magic Word status code."); break; case UsbStatusType_UnsupportedCommand: LOGFILE("Host replied with Unsupported Command status code."); break; case UsbStatusType_UnsupportedAbiVersion: LOGFILE("Host replied with Unsupported ABI Version status code."); break; case UsbStatusType_MalformedCommand: LOGFILE("Host replied with Malformed Command status code."); break; case UsbStatusType_HostIoError: LOGFILE("Host replied with I/O Error status code."); break; default: LOGFILE("Unknown status code: 0x%X.", status); break; } } NX_INLINE bool usbAllocateTransferBuffer(void) { if (g_usbTransferBuffer) return true; g_usbTransferBuffer = memalign(USB_TRANSFER_ALIGNMENT, USB_TRANSFER_BUFFER_SIZE); return (g_usbTransferBuffer != NULL); } NX_INLINE void usbFreeTransferBuffer(void) { if (!g_usbTransferBuffer) return; free(g_usbTransferBuffer); g_usbTransferBuffer = NULL; } static bool usbInitializeComms(void) { Result rc = 0; bool ret = (g_usbDeviceInterfaceInitialized && g_usbDeviceInterface.initialized); if (ret) goto exit; rc = usbDsInitialize(); if (R_FAILED(rc)) { LOGFILE("usbDsInitialize failed! (0x%08X).", rc); goto exit; } if (hosversionAtLeast(5,0,0)) { u8 manufacturer = 0, product = 0, serial_number = 0; static const u16 supported_langs[1] = { 0x0409 }; /* Send language descriptor. */ rc = usbDsAddUsbLanguageStringDescriptor(NULL, supported_langs, sizeof(supported_langs) / sizeof(u16)); if (R_FAILED(rc)) LOGFILE("usbDsAddUsbLanguageStringDescriptor failed! (0x%08X).", rc); /* Send manufacturer. */ if (R_SUCCEEDED(rc)) { rc = usbDsAddUsbStringDescriptor(&manufacturer, APP_AUTHOR); if (R_FAILED(rc)) LOGFILE("usbDsAddUsbStringDescriptor failed! (0x%08X) (manufacturer).", rc); } /* Send product. */ if (R_SUCCEEDED(rc)) { rc = usbDsAddUsbStringDescriptor(&product, APP_TITLE); if (R_FAILED(rc)) LOGFILE("usbDsAddUsbStringDescriptor failed! (0x%08X) (product).", rc); } /* Send serial number. */ if (R_SUCCEEDED(rc)) { rc = usbDsAddUsbStringDescriptor(&serial_number, APP_VERSION); if (R_FAILED(rc)) LOGFILE("usbDsAddUsbStringDescriptor failed! (0x%08X) (serial number).", rc); } /* Send device descriptors. */ struct usb_device_descriptor device_descriptor = { .bLength = USB_DT_DEVICE_SIZE, .bDescriptorType = USB_DT_DEVICE, .bcdUSB = 0x0110, .bDeviceClass = 0x00, .bDeviceSubClass = 0x00, .bDeviceProtocol = 0x00, .bMaxPacketSize0 = 0x40, .idVendor = 0x057e, .idProduct = 0x3000, .bcdDevice = 0x0100, .iManufacturer = manufacturer, .iProduct = product, .iSerialNumber = serial_number, .bNumConfigurations = 0x01 }; /* Full Speed is USB 1.1. */ if (R_SUCCEEDED(rc)) { rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_Full, &device_descriptor); if (R_FAILED(rc)) LOGFILE("usbDsSetUsbDeviceDescriptor failed! (0x%08X) (USB 1.1).", rc); } /* High Speed is USB 2.0. */ device_descriptor.bcdUSB = 0x0200; if (R_SUCCEEDED(rc)) { rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_High, &device_descriptor); if (R_FAILED(rc)) LOGFILE("usbDsSetUsbDeviceDescriptor failed! (0x%08X) (USB 2.0).", rc); } /* Super Speed is USB 3.0. */ /* Upgrade packet size to 512. */ device_descriptor.bcdUSB = 0x0300; device_descriptor.bMaxPacketSize0 = 0x09; if (R_SUCCEEDED(rc)) { rc = usbDsSetUsbDeviceDescriptor(UsbDeviceSpeed_Super, &device_descriptor); if (R_FAILED(rc)) LOGFILE("usbDsSetUsbDeviceDescriptor failed! (0x%08X) (USB 3.0).", rc); } /* Define Binary Object Store. */ u8 bos[0x16] = { /* USB 1.1. */ 0x05, /* bLength. */ USB_DT_BOS, /* bDescriptorType. */ 0x16, 0x00, /* wTotalLength. */ 0x02, /* bNumDeviceCaps. */ /* USB 2.0. */ 0x07, /* bLength. */ USB_DT_DEVICE_CAPABILITY, /* bDescriptorType. */ 0x02, /* bDevCapabilityType. */ 0x02, 0x00, 0x00, 0x00, /* dev_capability_data. */ /* USB 3.0. */ 0x0A, /* bLength. */ USB_DT_DEVICE_CAPABILITY, /* bDescriptorType. */ 0x03, /* bDevCapabilityType. */ 0x00, 0x0E, 0x00, 0x03, 0x00, 0x00, 0x00 }; if (R_SUCCEEDED(rc)) { rc = usbDsSetBinaryObjectStore(bos, sizeof(bos)); if (R_FAILED(rc)) LOGFILE("usbDsSetBinaryObjectStore failed! (0x%08X).", rc); } } else { static const UsbDsDeviceInfo device_info = { .idVendor = 0x057e, .idProduct = 0x3000, .bcdDevice = 0x0100, .Manufacturer = APP_AUTHOR, .Product = APP_TITLE, .SerialNumber = APP_VERSION }; /* Set VID, PID and BCD. */ rc = usbDsSetVidPidBcd(&device_info); if (R_FAILED(rc)) LOGFILE("usbDsSetVidPidBcd failed! (0x%08X).", rc); } if (R_FAILED(rc)) goto exit; /* Initialize USB device interface. */ rwlockWriteLock(&(g_usbDeviceInterface.lock)); rwlockWriteLock(&(g_usbDeviceInterface.lock_in)); rwlockWriteLock(&(g_usbDeviceInterface.lock_out)); bool dev_iface_init = usbInitializeDeviceInterface(); rwlockWriteUnlock(&(g_usbDeviceInterface.lock_out)); rwlockWriteUnlock(&(g_usbDeviceInterface.lock_in)); rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); if (!dev_iface_init) { LOGFILE("Failed to initialize USB device interface!"); goto exit; } if (hosversionAtLeast(5,0,0)) { rc = usbDsEnable(); if (R_FAILED(rc)) { LOGFILE("usbDsEnable failed! (0x%08X).", rc); goto exit; } } ret = g_usbDeviceInterfaceInitialized = true; exit: if (!ret) usbCloseComms(); return ret; } static void usbCloseComms(void) { usbDsExit(); g_usbDeviceInterfaceInitialized = false; usbFreeDeviceInterface(); } static void usbFreeDeviceInterface(void) { rwlockWriteLock(&(g_usbDeviceInterface.lock)); if (!g_usbDeviceInterface.initialized) { rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); return; } rwlockWriteLock(&(g_usbDeviceInterface.lock_in)); rwlockWriteLock(&(g_usbDeviceInterface.lock_out)); g_usbDeviceInterface.initialized = false; g_usbDeviceInterface.interface = NULL; g_usbDeviceInterface.endpoint_in = NULL; g_usbDeviceInterface.endpoint_out = NULL; rwlockWriteUnlock(&(g_usbDeviceInterface.lock_out)); rwlockWriteUnlock(&(g_usbDeviceInterface.lock_in)); rwlockWriteUnlock(&(g_usbDeviceInterface.lock)); } NX_INLINE bool usbInitializeDeviceInterface(void) { return (hosversionAtLeast(5,0,0) ? usbInitializeDeviceInterface5x() : usbInitializeDeviceInterface1x()); } static bool usbInitializeDeviceInterface5x(void) { Result rc = 0; struct usb_interface_descriptor interface_descriptor = { .bLength = USB_DT_INTERFACE_SIZE, .bDescriptorType = USB_DT_INTERFACE, .bInterfaceNumber = 4, .bNumEndpoints = 2, .bInterfaceClass = USB_CLASS_VENDOR_SPEC, .bInterfaceSubClass = USB_CLASS_VENDOR_SPEC, .bInterfaceProtocol = USB_CLASS_VENDOR_SPEC, }; struct usb_endpoint_descriptor endpoint_descriptor_in = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = USB_ENDPOINT_IN, .bmAttributes = USB_TRANSFER_TYPE_BULK, .wMaxPacketSize = 0x40, }; struct usb_endpoint_descriptor endpoint_descriptor_out = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = USB_ENDPOINT_OUT, .bmAttributes = USB_TRANSFER_TYPE_BULK, .wMaxPacketSize = 0x40, }; struct usb_ss_endpoint_companion_descriptor endpoint_companion = { .bLength = sizeof(struct usb_ss_endpoint_companion_descriptor), .bDescriptorType = USB_DT_SS_ENDPOINT_COMPANION, .bMaxBurst = 0x0F, .bmAttributes = 0x00, .wBytesPerInterval = 0x00, }; /* Enable device interface. */ g_usbDeviceInterface.initialized = true; /* Setup interface. */ rc = usbDsRegisterInterface(&(g_usbDeviceInterface.interface)); if (R_FAILED(rc)) { LOGFILE("usbDsRegisterInterface failed! (0x%08X).", rc); return false; } interface_descriptor.bInterfaceNumber = g_usbDeviceInterface.interface->interface_index; endpoint_descriptor_in.bEndpointAddress += (interface_descriptor.bInterfaceNumber + 1); endpoint_descriptor_out.bEndpointAddress += (interface_descriptor.bInterfaceNumber + 1); /* Full Speed config (USB 1.1). */ rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Full, &interface_descriptor, USB_DT_INTERFACE_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 1.1) (interface).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Full, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 1.1) (in endpoint).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Full, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 1.1) (out endpoint).", rc); return false; } /* High Speed config (USB 2.0). */ endpoint_descriptor_in.wMaxPacketSize = 0x200; endpoint_descriptor_out.wMaxPacketSize = 0x200; rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_High, &interface_descriptor, USB_DT_INTERFACE_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 2.0) (interface).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_High, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 2.0) (in endpoint).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_High, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 2.0) (out endpoint).", rc); return false; } /* Super Speed config (USB 3.0). */ endpoint_descriptor_in.wMaxPacketSize = 0x400; endpoint_descriptor_out.wMaxPacketSize = 0x400; rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Super, &interface_descriptor, USB_DT_INTERFACE_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 3.0) (interface).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Super, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 3.0) (in endpoint).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Super, &endpoint_companion, USB_DT_SS_ENDPOINT_COMPANION_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 3.0) (in endpoint companion).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Super, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 3.0) (out endpoint).", rc); return false; } rc = usbDsInterface_AppendConfigurationData(g_usbDeviceInterface.interface, UsbDeviceSpeed_Super, &endpoint_companion, USB_DT_SS_ENDPOINT_COMPANION_SIZE); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_AppendConfigurationData failed! (0x%08X) (USB 3.0) (out endpoint companion).", rc); return false; } /* Setup endpoints. */ rc = usbDsInterface_RegisterEndpoint(g_usbDeviceInterface.interface, &(g_usbDeviceInterface.endpoint_in), endpoint_descriptor_in.bEndpointAddress); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_RegisterEndpoint failed! (0x%08X) (in endpoint).", rc); return false; } rc = usbDsInterface_RegisterEndpoint(g_usbDeviceInterface.interface, &(g_usbDeviceInterface.endpoint_out), endpoint_descriptor_out.bEndpointAddress); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_RegisterEndpoint failed! (0x%08X) (out endpoint).", rc); return false; } rc = usbDsInterface_EnableInterface(g_usbDeviceInterface.interface); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_EnableInterface failed! (0x%08X).", rc); return false; } return true; } static bool usbInitializeDeviceInterface1x(void) { Result rc = 0; struct usb_interface_descriptor interface_descriptor = { .bLength = USB_DT_INTERFACE_SIZE, .bDescriptorType = USB_DT_INTERFACE, .bInterfaceNumber = 0, .bInterfaceClass = USB_CLASS_VENDOR_SPEC, .bInterfaceSubClass = USB_CLASS_VENDOR_SPEC, .bInterfaceProtocol = USB_CLASS_VENDOR_SPEC, }; struct usb_endpoint_descriptor endpoint_descriptor_in = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = USB_ENDPOINT_IN, .bmAttributes = USB_TRANSFER_TYPE_BULK, .wMaxPacketSize = 0x200, }; struct usb_endpoint_descriptor endpoint_descriptor_out = { .bLength = USB_DT_ENDPOINT_SIZE, .bDescriptorType = USB_DT_ENDPOINT, .bEndpointAddress = USB_ENDPOINT_OUT, .bmAttributes = USB_TRANSFER_TYPE_BULK, .wMaxPacketSize = 0x200, }; /* Enable device interface. */ g_usbDeviceInterface.initialized = true; /* Setup interface. */ rc = usbDsGetDsInterface(&(g_usbDeviceInterface.interface), &interface_descriptor, "usb"); if (R_FAILED(rc)) { LOGFILE("usbDsGetDsInterface failed! (0x%08X).", rc); return false; } /* Setup endpoints. */ rc = usbDsInterface_GetDsEndpoint(g_usbDeviceInterface.interface, &(g_usbDeviceInterface.endpoint_in), &endpoint_descriptor_in); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_GetDsEndpoint failed! (0x%08X) (in endpoint).", rc); return false; } rc = usbDsInterface_GetDsEndpoint(g_usbDeviceInterface.interface, &(g_usbDeviceInterface.endpoint_out), &endpoint_descriptor_out); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_GetDsEndpoint failed! (0x%08X) (out endpoint).", rc); return false; } rc = usbDsInterface_EnableInterface(g_usbDeviceInterface.interface); if (R_FAILED(rc)) { LOGFILE("usbDsInterface_EnableInterface failed! (0x%08X).", rc); return false; } return true; } NX_INLINE bool usbIsHostAvailable(void) { u32 state = 0; Result rc = usbDsGetState(&state); return (R_SUCCEEDED(rc) && state == 5); } NX_INLINE bool usbRead(void *buf, u64 size) { rwlockWriteLock(&(g_usbDeviceInterface.lock_out)); bool ret = usbTransferData(buf, size, g_usbDeviceInterface.endpoint_out); rwlockWriteUnlock(&(g_usbDeviceInterface.lock_out)); return ret; } NX_INLINE bool usbWrite(void *buf, u64 size) { rwlockWriteLock(&(g_usbDeviceInterface.lock_in)); bool ret = usbTransferData(buf, size, g_usbDeviceInterface.endpoint_in); if (ret) usbDsEndpoint_SetZlt(g_usbDeviceInterface.endpoint_in, true); rwlockWriteUnlock(&(g_usbDeviceInterface.lock_in)); return ret; } static bool usbTransferData(void *buf, u64 size, UsbDsEndpoint *endpoint) { if (!buf || !IS_ALIGNED((u64)buf, USB_TRANSFER_ALIGNMENT) || !size || !endpoint) { LOGFILE("Invalid parameters!"); return false; } if (!usbIsHostAvailable()) { LOGFILE("USB host unavailable!"); return false; } u32 urb_id = 0; Result rc = 0; UsbDsReportData report_data = {0}; u32 transferred_size = 0; /* Start an USB transfer using the provided endpoint. */ rc = usbDsEndpoint_PostBufferAsync(endpoint, buf, size, &urb_id); if (R_FAILED(rc)) { LOGFILE("usbDsEndpoint_PostBufferAsync failed! (0x%08X).", rc); return false; } /* Wait for the transfer to finish. */ /* If we're starting an USB transfer session, use an infinite timeout value to let the user start the companion app. */ u64 timeout = (g_usbSessionStarted ? (USB_TRANSFER_TIMEOUT * (u64)1000000000) : UINT64_MAX); rc = eventWait(&(endpoint->CompletionEvent), timeout); eventClear(&(endpoint->CompletionEvent)); if (R_FAILED(rc)) { /* Cancel transfer. */ usbDsEndpoint_Cancel(endpoint); /* Safety measure: wait until the completion event is triggered again before proceeding. */ eventWait(&(endpoint->CompletionEvent), UINT64_MAX); eventClear(&(endpoint->CompletionEvent)); /* Signal usermode USB timeout event if needed. */ /* This will "reset" the USB connection by making the background thread wait until a new session is established. */ if (g_usbSessionStarted) ueventSignal(&g_usbTimeoutEvent); LOGFILE("eventWait failed! (0x%08X).", rc); return false; } rc = usbDsEndpoint_GetReportData(endpoint, &report_data); if (R_FAILED(rc)) { LOGFILE("usbDsEndpoint_GetReportData failed! (0x%08X).", rc); return false; } rc = usbDsParseReportData(&report_data, urb_id, NULL, &transferred_size); if (R_FAILED(rc)) { LOGFILE("usbDsParseReportData failed! (0x%08X).", rc); return false; } if (transferred_size != size) { LOGFILE("USB transfer failed! Expected 0x%lX bytes, got 0x%X bytes.", size, transferred_size); return false; } return true; }