drivers/usb/gadget/core.c - u-boot-mtk - Git at Google

 // SPDX-License-Identifier: GPL-2.0+
 /*
  * (C) Copyright 2003
  * Gerry Hamel, geh@ti.com, Texas Instruments
  *
  * Based on
  * linux/drivers/usbd/usbd.c.c - USB Device Core Layer
  *
  * Copyright (c) 2000, 2001, 2002 Lineo
  * Copyright (c) 2001 Hewlett Packard
  *
  * By:
  *	Stuart Lynne <sl@lineo.com>,
  *	Tom Rushworth <tbr@lineo.com>,
  *	Bruce Balden <balden@lineo.com>
  */

 #include <malloc.h>
 #include <usbdevice.h>

 #define MAX_INTERFACES 2


 int maxstrings = 20;

 /* Global variables ************************************************************************** */

 struct usb_string_descriptor **usb_strings;

 int usb_devices;

 extern struct usb_function_driver ep0_driver;

 int registered_functions;
 int registered_devices;

 char *usbd_device_events[] = {
 	"DEVICE_UNKNOWN",
 	"DEVICE_INIT",
 	"DEVICE_CREATE",
 	"DEVICE_HUB_CONFIGURED",
 	"DEVICE_RESET",
 	"DEVICE_ADDRESS_ASSIGNED",
 	"DEVICE_CONFIGURED",
 	"DEVICE_SET_INTERFACE",
 	"DEVICE_SET_FEATURE",
 	"DEVICE_CLEAR_FEATURE",
 	"DEVICE_DE_CONFIGURED",
 	"DEVICE_BUS_INACTIVE",
 	"DEVICE_BUS_ACTIVITY",
 	"DEVICE_POWER_INTERRUPTION",
 	"DEVICE_HUB_RESET",
 	"DEVICE_DESTROY",
 	"DEVICE_FUNCTION_PRIVATE",
 };

 char *usbd_device_states[] = {
 	"STATE_INIT",
 	"STATE_CREATED",
 	"STATE_ATTACHED",
 	"STATE_POWERED",
 	"STATE_DEFAULT",
 	"STATE_ADDRESSED",
 	"STATE_CONFIGURED",
 	"STATE_UNKNOWN",
 };

 char *usbd_device_requests[] = {
 	"GET STATUS",		/* 0 */
 	"CLEAR FEATURE",	/* 1 */
 	"RESERVED",		/* 2 */
 	"SET FEATURE",		/* 3 */
 	"RESERVED",		/* 4 */
 	"SET ADDRESS",		/* 5 */
 	"GET DESCRIPTOR",	/* 6 */
 	"SET DESCRIPTOR",	/* 7 */
 	"GET CONFIGURATION",	/* 8 */
 	"SET CONFIGURATION",	/* 9 */
 	"GET INTERFACE",	/* 10 */
 	"SET INTERFACE",	/* 11 */
 	"SYNC FRAME",		/* 12 */
 };

 char *usbd_device_descriptors[] = {
 	"UNKNOWN",		/* 0 */
 	"DEVICE",		/* 1 */
 	"CONFIG",		/* 2 */
 	"STRING",		/* 3 */
 	"INTERFACE",		/* 4 */
 	"ENDPOINT",		/* 5 */
 	"DEVICE QUALIFIER",	/* 6 */
 	"OTHER SPEED",		/* 7 */
 	"INTERFACE POWER",	/* 8 */
 };

 char *usbd_device_status[] = {
 	"USBD_OPENING",
 	"USBD_OK",
 	"USBD_SUSPENDED",
 	"USBD_CLOSING",
 };


 /* Descriptor support functions ************************************************************** */


 /**
  * usbd_get_string - find and return a string descriptor
  * @index: string index to return
  *
  * Find an indexed string and return a pointer to a it.
  */
 struct usb_string_descriptor *usbd_get_string (__u8 index)
 {
 	if (index >= maxstrings) {
 		return NULL;
 	}
 	return usb_strings[index];
 }


 /* Access to device descriptor functions ***************************************************** */


 /* *
  * usbd_device_configuration_instance - find a configuration instance for this device
  * @device:
  * @configuration: index to configuration, 0 - N-1
  *
  * Get specifed device configuration. Index should be bConfigurationValue-1.
  */
 static struct usb_configuration_instance *usbd_device_configuration_instance (struct usb_device_instance *device,
 		unsigned int port, unsigned int configuration)
 {
 	if (configuration >= device->configurations)
 		return NULL;

 	return device->configuration_instance_array + configuration;
 }


 /* *
  * usbd_device_interface_instance
  * @device:
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  *
  * Return the specified interface descriptor for the specified device.
  */
 struct usb_interface_instance *usbd_device_interface_instance (struct usb_device_instance *device, int port, int configuration, int interface)
 {
 	struct usb_configuration_instance *configuration_instance;

 	if ((configuration_instance = usbd_device_configuration_instance (device, port, configuration)) == NULL) {
 		return NULL;
 	}
 	if (interface >= configuration_instance->interfaces) {
 		return NULL;
 	}
 	return configuration_instance->interface_instance_array + interface;
 }

 /* *
  * usbd_device_alternate_descriptor_list
  * @device:
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  * @alternate: alternate setting
  *
  * Return the specified alternate descriptor for the specified device.
  */
 struct usb_alternate_instance *usbd_device_alternate_instance (struct usb_device_instance *device, int port, int configuration, int interface, int alternate)
 {
 	struct usb_interface_instance *interface_instance;

 	if ((interface_instance = usbd_device_interface_instance (device, port, configuration, interface)) == NULL) {
 		return NULL;
 	}

 	if (alternate >= interface_instance->alternates) {
 		return NULL;
 	}

 	return interface_instance->alternates_instance_array + alternate;
 }


 /* *
  * usbd_device_device_descriptor
  * @device: which device
  * @configuration: index to configuration, 0 - N-1
  * @port: which port
  *
  * Return the specified configuration descriptor for the specified device.
  */
 struct usb_device_descriptor *usbd_device_device_descriptor (struct usb_device_instance *device, int port)
 {
 	return (device->device_descriptor);
 }

 /**
  * usbd_device_configuration_descriptor
  * @device: which device
  * @port: which port
  * @configuration: index to configuration, 0 - N-1
  *
  * Return the specified configuration descriptor for the specified device.
  */
 struct usb_configuration_descriptor *usbd_device_configuration_descriptor (struct
 									   usb_device_instance
 									   *device, int port, int configuration)
 {
 	struct usb_configuration_instance *configuration_instance;
 	if (!(configuration_instance = usbd_device_configuration_instance (device, port, configuration))) {
 		return NULL;
 	}
 	return (configuration_instance->configuration_descriptor);
 }


 /**
  * usbd_device_interface_descriptor
  * @device: which device
  * @port: which port
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  * @alternate: alternate setting
  *
  * Return the specified interface descriptor for the specified device.
  */
 struct usb_interface_descriptor *usbd_device_interface_descriptor (struct usb_device_instance
 								   *device, int port, int configuration, int interface, int alternate)
 {
 	struct usb_interface_instance *interface_instance;
 	if (!(interface_instance = usbd_device_interface_instance (device, port, configuration, interface))) {
 		return NULL;
 	}
 	if ((alternate < 0) || (alternate >= interface_instance->alternates)) {
 		return NULL;
 	}
 	return (interface_instance->alternates_instance_array[alternate].interface_descriptor);
 }

 /**
  * usbd_device_endpoint_descriptor_index
  * @device: which device
  * @port: which port
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  * @alternate: index setting
  * @index: which index
  *
  * Return the specified endpoint descriptor for the specified device.
  */
 struct usb_endpoint_descriptor *usbd_device_endpoint_descriptor_index (struct usb_device_instance
 								       *device, int port, int configuration, int interface, int alternate, int index)
 {
 	struct usb_alternate_instance *alternate_instance;

 	if (!(alternate_instance = usbd_device_alternate_instance (device, port, configuration, interface, alternate))) {
 		return NULL;
 	}
 	if (index >= alternate_instance->endpoints) {
 		return NULL;
 	}
 	return *(alternate_instance->endpoints_descriptor_array + index);
 }


 /**
  * usbd_device_endpoint_transfersize
  * @device: which device
  * @port: which port
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  * @index: which index
  *
  * Return the specified endpoint transfer size;
  */
 int usbd_device_endpoint_transfersize (struct usb_device_instance *device, int port, int configuration, int interface, int alternate, int index)
 {
 	struct usb_alternate_instance *alternate_instance;

 	if (!(alternate_instance = usbd_device_alternate_instance (device, port, configuration, interface, alternate))) {
 		return 0;
 	}
 	if (index >= alternate_instance->endpoints) {
 		return 0;
 	}
 	return *(alternate_instance->endpoint_transfersize_array + index);
 }


 /**
  * usbd_device_endpoint_descriptor
  * @device: which device
  * @port: which port
  * @configuration: index to configuration, 0 - N-1
  * @interface: index to interface
  * @alternate: alternate setting
  * @endpoint: which endpoint
  *
  * Return the specified endpoint descriptor for the specified device.
  */
 struct usb_endpoint_descriptor *usbd_device_endpoint_descriptor (struct usb_device_instance *device, int port, int configuration, int interface, int alternate, int endpoint)
 {
 	struct usb_endpoint_descriptor *endpoint_descriptor;
 	int i;

 	for (i = 0; !(endpoint_descriptor = usbd_device_endpoint_descriptor_index (device, port, configuration, interface, alternate, i)); i++) {
 		if (endpoint_descriptor->bEndpointAddress == endpoint) {
 			return endpoint_descriptor;
 		}
 	}
 	return NULL;
 }

 /**
  * usbd_endpoint_halted
  * @device: point to struct usb_device_instance
  * @endpoint: endpoint to check
  *
  * Return non-zero if endpoint is halted.
  */
 int usbd_endpoint_halted (struct usb_device_instance *device, int endpoint)
 {
 	return (device->status == USB_STATUS_HALT);
 }


 /**
  * usbd_rcv_complete - complete a receive
  * @endpoint:
  * @len:
  * @urb_bad:
  *
  * Called from rcv interrupt to complete.
  */
 void usbd_rcv_complete(struct usb_endpoint_instance *endpoint, int len, int urb_bad)
 {
 	if (endpoint) {
 		struct urb *rcv_urb;

 		/*usbdbg("len: %d urb: %p\n", len, endpoint->rcv_urb); */

 		/* if we had an urb then update actual_length, dispatch if neccessary */
 		if ((rcv_urb = endpoint->rcv_urb)) {

 			/*usbdbg("actual: %d buffer: %d\n", */
 			/*rcv_urb->actual_length, rcv_urb->buffer_length); */

 			/* check the urb is ok, are we adding data less than the packetsize */
 			if (!urb_bad && (len <= endpoint->rcv_packetSize)) {
 			  /*usbdbg("updating actual_length by %d\n",len); */

 				/* increment the received data size */
 				rcv_urb->actual_length += len;

 			} else {
 				usberr(" RECV_ERROR actual: %d buffer: %d urb_bad: %d\n",
 				       rcv_urb->actual_length, rcv_urb->buffer_length, urb_bad);

 				rcv_urb->actual_length = 0;
 				rcv_urb->status = RECV_ERROR;
 			}
 		} else {
 			usberr("no rcv_urb!");
 		}
 	} else {
 		usberr("no endpoint!");
 	}

 }

 /**
  * usbd_tx_complete - complete a transmit
  * @endpoint:
  * @resetart:
  *
  * Called from tx interrupt to complete.
  */
 void usbd_tx_complete (struct usb_endpoint_instance *endpoint)
 {
 	if (endpoint) {
 		struct urb *tx_urb;

 		/* if we have a tx_urb advance or reset, finish if complete */
 		if ((tx_urb = endpoint->tx_urb)) {
 			int sent = endpoint->last;
 			endpoint->sent += sent;
 			endpoint->last -= sent;

 			if( (endpoint->tx_urb->actual_length - endpoint->sent) <= 0 ) {
 				tx_urb->actual_length = 0;
 				endpoint->sent = 0;
 				endpoint->last = 0;

 				/* Remove from active, save for re-use */
 				urb_detach(tx_urb);
 				urb_append(&endpoint->done, tx_urb);
 				/*usbdbg("done->next %p, tx_urb %p, done %p", */
 				/*	 endpoint->done.next, tx_urb, &endpoint->done); */

 				endpoint->tx_urb = first_urb_detached(&endpoint->tx);
 				if( endpoint->tx_urb ) {
 					endpoint->tx_queue--;
 					usbdbg("got urb from tx list");
 				}
 				if( !endpoint->tx_urb ) {
 					/*usbdbg("taking urb from done list"); */
 					endpoint->tx_urb = first_urb_detached(&endpoint->done);
 				}
 				if( !endpoint->tx_urb ) {
 					usbdbg("allocating new urb for tx_urb");
 					endpoint->tx_urb = usbd_alloc_urb(tx_urb->device, endpoint);
 				}
 			}
 		}
 	}
 }

 /* URB linked list functions ***************************************************** */

 /*
  * Initialize an urb_link to be a single element list.
  * If the urb_link is being used as a distinguished list head
  * the list is empty when the head is the only link in the list.
  */
 void urb_link_init (urb_link * ul)
 {
 	if (ul) {
 		ul->prev = ul->next = ul;
 	}
 }

 /*
  * Detach an urb_link from a list, and set it
  * up as a single element list, so no dangling
  * pointers can be followed, and so it can be
  * joined to another list if so desired.
  */
 void urb_detach (struct urb *urb)
 {
 	if (urb) {
 		urb_link *ul = &urb->link;
 		ul->next->prev = ul->prev;
 		ul->prev->next = ul->next;
 		urb_link_init (ul);
 	}
 }

 /*
  * Return the first urb_link in a list with a distinguished
  * head "hd", or NULL if the list is empty.  This will also
  * work as a predicate, returning NULL if empty, and non-NULL
  * otherwise.
  */
 urb_link *first_urb_link (urb_link * hd)
 {
 	urb_link *nx;
 	if (NULL != hd && NULL != (nx = hd->next) && nx != hd) {
 		/* There is at least one element in the list */
 		/* (besides the distinguished head). */
 		return (nx);
 	}
 	/* The list is empty */
 	return (NULL);
 }

 /*
  * Return the first urb in a list with a distinguished
  * head "hd", or NULL if the list is empty.
  */
 struct urb *first_urb (urb_link * hd)
 {
 	urb_link *nx;
 	if (NULL == (nx = first_urb_link (hd))) {
 		/* The list is empty */
 		return (NULL);
 	}
 	return (p2surround (struct urb, link, nx));
 }

 /*
  * Detach and return the first urb in a list with a distinguished
  * head "hd", or NULL if the list is empty.
  *
  */
 struct urb *first_urb_detached (urb_link * hd)
 {
 	struct urb *urb;
 	if ((urb = first_urb (hd))) {
 		urb_detach (urb);
 	}
 	return urb;
 }


 /*
  * Append an urb_link (or a whole list of
  * urb_links) to the tail of another list
  * of urb_links.
  */
 void urb_append (urb_link * hd, struct urb *urb)
 {
 	if (hd && urb) {
 		urb_link *new = &urb->link;

 		/* This allows the new urb to be a list of urbs, */
 		/* with new pointing at the first, but the link */
 		/* must be initialized. */
 		/* Order is important here... */
 		urb_link *pul = hd->prev;
 		new->prev->next = hd;
 		hd->prev = new->prev;
 		new->prev = pul;
 		pul->next = new;
 	}
 }

 /* URB create/destroy functions ***************************************************** */

 /**
  * usbd_alloc_urb - allocate an URB appropriate for specified endpoint
  * @device: device instance
  * @endpoint: endpoint
  *
  * Allocate an urb structure. The usb device urb structure is used to
  * contain all data associated with a transfer, including a setup packet for
  * control transfers.
  *
  * NOTE: endpoint_address MUST contain a direction flag.
  */
 struct urb *usbd_alloc_urb (struct usb_device_instance *device,
 			    struct usb_endpoint_instance *endpoint)
 {
 	struct urb *urb;

 	if (!(urb = (struct urb *) malloc (sizeof (struct urb)))) {
 		usberr (" F A T A L:  malloc(%zu) FAILED!!!!",
 			sizeof (struct urb));
 		return NULL;
 	}

 	/* Fill in known fields */
 	memset (urb, 0, sizeof (struct urb));
 	urb->endpoint = endpoint;
 	urb->device = device;
 	urb->buffer = (u8 *) urb->buffer_data;
 	urb->buffer_length = sizeof (urb->buffer_data);

 	urb_link_init (&urb->link);

 	return urb;
 }

 /**
  * usbd_dealloc_urb - deallocate an URB and associated buffer
  * @urb: pointer to an urb structure
  *
  * Deallocate an urb structure and associated data.
  */
 void usbd_dealloc_urb (struct urb *urb)
 {
 	if (urb) {
 		free (urb);
 	}
 }

 /* Event signaling functions ***************************************************** */

 /**
  * usbd_device_event - called to respond to various usb events
  * @device: pointer to struct device
  * @event: event to respond to
  *
  * Used by a Bus driver to indicate an event.
  */
 void usbd_device_event_irq (struct usb_device_instance *device, usb_device_event_t event, int data)
 {
 	usb_device_state_t state;

 	if (!device || !device->bus) {
 		usberr("(%p,%d) NULL device or device->bus", device, event);
 		return;
 	}

 	state = device->device_state;

 	usbinfo("%s", usbd_device_events[event]);

 	switch (event) {
 	case DEVICE_UNKNOWN:
 		break;
 	case DEVICE_INIT:
 		device->device_state = STATE_INIT;
 		break;

 	case DEVICE_CREATE:
 		device->device_state = STATE_ATTACHED;
 		break;

 	case DEVICE_HUB_CONFIGURED:
 		device->device_state = STATE_POWERED;
 		break;

 	case DEVICE_RESET:
 		device->device_state = STATE_DEFAULT;
 		device->address = 0;
 		break;

 	case DEVICE_ADDRESS_ASSIGNED:
 		device->device_state = STATE_ADDRESSED;
 		break;

 	case DEVICE_CONFIGURED:
 		device->device_state = STATE_CONFIGURED;
 		break;

 	case DEVICE_DE_CONFIGURED:
 		device->device_state = STATE_ADDRESSED;
 		break;

 	case DEVICE_BUS_INACTIVE:
 		if (device->status != USBD_CLOSING) {
 			device->status = USBD_SUSPENDED;
 		}
 		break;
 	case DEVICE_BUS_ACTIVITY:
 		if (device->status != USBD_CLOSING) {
 			device->status = USBD_OK;
 		}
 		break;

 	case DEVICE_SET_INTERFACE:
 		break;
 	case DEVICE_SET_FEATURE:
 		break;
 	case DEVICE_CLEAR_FEATURE:
 		break;

 	case DEVICE_POWER_INTERRUPTION:
 		device->device_state = STATE_POWERED;
 		break;
 	case DEVICE_HUB_RESET:
 		device->device_state = STATE_ATTACHED;
 		break;
 	case DEVICE_DESTROY:
 		device->device_state = STATE_UNKNOWN;
 		break;

 	case DEVICE_FUNCTION_PRIVATE:
 		break;

 	default:
 		usbdbg("event %d - not handled",event);
 		break;
 	}
 	debug("%s event: %d oldstate: %d newstate: %d status: %d address: %d",
 		device->name, event, state,
 		device->device_state, device->status, device->address);

 	/* tell the bus interface driver */
 	if( device->event ) {
 		/* usbdbg("calling device->event"); */
 		device->event(device, event, data);
 	}
 }
	// SPDX-License-Identifier: GPL-2.0+
	/*
	* (C) Copyright 2003
	* Gerry Hamel, geh@ti.com, Texas Instruments
	*
	* Based on
	* linux/drivers/usbd/usbd.c.c - USB Device Core Layer
	*
	* Copyright (c) 2000, 2001, 2002 Lineo
	* Copyright (c) 2001 Hewlett Packard
	*
	* By:
	* Stuart Lynne <sl@lineo.com>,
	* Tom Rushworth <tbr@lineo.com>,
	* Bruce Balden <balden@lineo.com>
	*/

	#include <malloc.h>
	#include <usbdevice.h>

	#define MAX_INTERFACES 2


	int maxstrings = 20;

	/* Global variables ************************************************************************** */

	struct usb_string_descriptor **usb_strings;

	int usb_devices;

	extern struct usb_function_driver ep0_driver;

	int registered_functions;
	int registered_devices;

	char *usbd_device_events[] = {
	"DEVICE_UNKNOWN",
	"DEVICE_INIT",
	"DEVICE_CREATE",
	"DEVICE_HUB_CONFIGURED",
	"DEVICE_RESET",
	"DEVICE_ADDRESS_ASSIGNED",
	"DEVICE_CONFIGURED",
	"DEVICE_SET_INTERFACE",
	"DEVICE_SET_FEATURE",
	"DEVICE_CLEAR_FEATURE",
	"DEVICE_DE_CONFIGURED",
	"DEVICE_BUS_INACTIVE",
	"DEVICE_BUS_ACTIVITY",
	"DEVICE_POWER_INTERRUPTION",
	"DEVICE_HUB_RESET",
	"DEVICE_DESTROY",
	"DEVICE_FUNCTION_PRIVATE",
	};

	char *usbd_device_states[] = {
	"STATE_INIT",
	"STATE_CREATED",
	"STATE_ATTACHED",
	"STATE_POWERED",
	"STATE_DEFAULT",
	"STATE_ADDRESSED",
	"STATE_CONFIGURED",
	"STATE_UNKNOWN",
	};

	char *usbd_device_requests[] = {
	"GET STATUS", /* 0 */
	"CLEAR FEATURE", /* 1 */
	"RESERVED", /* 2 */
	"SET FEATURE", /* 3 */
	"RESERVED", /* 4 */
	"SET ADDRESS", /* 5 */
	"GET DESCRIPTOR", /* 6 */
	"SET DESCRIPTOR", /* 7 */
	"GET CONFIGURATION", /* 8 */
	"SET CONFIGURATION", /* 9 */
	"GET INTERFACE", /* 10 */
	"SET INTERFACE", /* 11 */
	"SYNC FRAME", /* 12 */
	};

	char *usbd_device_descriptors[] = {
	"UNKNOWN", /* 0 */
	"DEVICE", /* 1 */
	"CONFIG", /* 2 */
	"STRING", /* 3 */
	"INTERFACE", /* 4 */
	"ENDPOINT", /* 5 */
	"DEVICE QUALIFIER", /* 6 */
	"OTHER SPEED", /* 7 */
	"INTERFACE POWER", /* 8 */
	};

	char *usbd_device_status[] = {
	"USBD_OPENING",
	"USBD_OK",
	"USBD_SUSPENDED",
	"USBD_CLOSING",
	};


	/* Descriptor support functions ************************************************************** */


	/**
	* usbd_get_string - find and return a string descriptor
	* @index: string index to return
	*
	* Find an indexed string and return a pointer to a it.
	*/
	struct usb_string_descriptor *usbd_get_string (__u8 index)
	{
	if (index >= maxstrings) {
	return NULL;
	}
	return usb_strings[index];
	}


	/* Access to device descriptor functions ***************************************************** */


	/* *
	* usbd_device_configuration_instance - find a configuration instance for this device
	* @device:
	* @configuration: index to configuration, 0 - N-1
	*
	* Get specifed device configuration. Index should be bConfigurationValue-1.
	*/
	static struct usb_configuration_instance usbd_device_configuration_instance (struct usb_device_instance device,
	unsigned int port, unsigned int configuration)
	{
	if (configuration >= device->configurations)
	return NULL;

	return device->configuration_instance_array + configuration;
	}


	/* *
	* usbd_device_interface_instance
	* @device:
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	*
	* Return the specified interface descriptor for the specified device.
	*/
	struct usb_interface_instance usbd_device_interface_instance (struct usb_device_instance device, int port, int configuration, int interface)
	{
	struct usb_configuration_instance *configuration_instance;

	if ((configuration_instance = usbd_device_configuration_instance (device, port, configuration)) == NULL) {
	return NULL;
	}
	if (interface >= configuration_instance->interfaces) {
	return NULL;
	}
	return configuration_instance->interface_instance_array + interface;
	}

	/* *
	* usbd_device_alternate_descriptor_list
	* @device:
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	* @alternate: alternate setting
	*
	* Return the specified alternate descriptor for the specified device.
	*/
	struct usb_alternate_instance usbd_device_alternate_instance (struct usb_device_instance device, int port, int configuration, int interface, int alternate)
	{
	struct usb_interface_instance *interface_instance;

	if ((interface_instance = usbd_device_interface_instance (device, port, configuration, interface)) == NULL) {
	return NULL;
	}

	if (alternate >= interface_instance->alternates) {
	return NULL;
	}

	return interface_instance->alternates_instance_array + alternate;
	}


	/* *
	* usbd_device_device_descriptor
	* @device: which device
	* @configuration: index to configuration, 0 - N-1
	* @port: which port
	*
	* Return the specified configuration descriptor for the specified device.
	*/
	struct usb_device_descriptor usbd_device_device_descriptor (struct usb_device_instance device, int port)
	{
	return (device->device_descriptor);
	}

	/**
	* usbd_device_configuration_descriptor
	* @device: which device
	* @port: which port
	* @configuration: index to configuration, 0 - N-1
	*
	* Return the specified configuration descriptor for the specified device.
	*/
	struct usb_configuration_descriptor *usbd_device_configuration_descriptor (struct
	usb_device_instance
	*device, int port, int configuration)
	{
	struct usb_configuration_instance *configuration_instance;
	if (!(configuration_instance = usbd_device_configuration_instance (device, port, configuration))) {
	return NULL;
	}
	return (configuration_instance->configuration_descriptor);
	}


	/**
	* usbd_device_interface_descriptor
	* @device: which device
	* @port: which port
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	* @alternate: alternate setting
	*
	* Return the specified interface descriptor for the specified device.
	*/
	struct usb_interface_descriptor *usbd_device_interface_descriptor (struct usb_device_instance
	*device, int port, int configuration, int interface, int alternate)
	{
	struct usb_interface_instance *interface_instance;
	if (!(interface_instance = usbd_device_interface_instance (device, port, configuration, interface))) {
	return NULL;
	}
	if ((alternate < 0) \|\| (alternate >= interface_instance->alternates)) {
	return NULL;
	}
	return (interface_instance->alternates_instance_array[alternate].interface_descriptor);
	}

	/**
	* usbd_device_endpoint_descriptor_index
	* @device: which device
	* @port: which port
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	* @alternate: index setting
	* @index: which index
	*
	* Return the specified endpoint descriptor for the specified device.
	*/
	struct usb_endpoint_descriptor *usbd_device_endpoint_descriptor_index (struct usb_device_instance
	*device, int port, int configuration, int interface, int alternate, int index)
	{
	struct usb_alternate_instance *alternate_instance;

	if (!(alternate_instance = usbd_device_alternate_instance (device, port, configuration, interface, alternate))) {
	return NULL;
	}
	if (index >= alternate_instance->endpoints) {
	return NULL;
	}
	return *(alternate_instance->endpoints_descriptor_array + index);
	}


	/**
	* usbd_device_endpoint_transfersize
	* @device: which device
	* @port: which port
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	* @index: which index
	*
	* Return the specified endpoint transfer size;
	*/
	int usbd_device_endpoint_transfersize (struct usb_device_instance *device, int port, int configuration, int interface, int alternate, int index)
	{
	struct usb_alternate_instance *alternate_instance;

	if (!(alternate_instance = usbd_device_alternate_instance (device, port, configuration, interface, alternate))) {
	return 0;
	}
	if (index >= alternate_instance->endpoints) {
	return 0;
	}
	return *(alternate_instance->endpoint_transfersize_array + index);
	}


	/**
	* usbd_device_endpoint_descriptor
	* @device: which device
	* @port: which port
	* @configuration: index to configuration, 0 - N-1
	* @interface: index to interface
	* @alternate: alternate setting
	* @endpoint: which endpoint
	*
	* Return the specified endpoint descriptor for the specified device.
	*/
	struct usb_endpoint_descriptor usbd_device_endpoint_descriptor (struct usb_device_instance device, int port, int configuration, int interface, int alternate, int endpoint)
	{
	struct usb_endpoint_descriptor *endpoint_descriptor;
	int i;

	for (i = 0; !(endpoint_descriptor = usbd_device_endpoint_descriptor_index (device, port, configuration, interface, alternate, i)); i++) {
	if (endpoint_descriptor->bEndpointAddress == endpoint) {
	return endpoint_descriptor;
	}
	}
	return NULL;
	}

	/**
	* usbd_endpoint_halted
	* @device: point to struct usb_device_instance
	* @endpoint: endpoint to check
	*
	* Return non-zero if endpoint is halted.
	*/
	int usbd_endpoint_halted (struct usb_device_instance *device, int endpoint)
	{
	return (device->status == USB_STATUS_HALT);
	}


	/**
	* usbd_rcv_complete - complete a receive
	* @endpoint:
	* @len:
	* @urb_bad:
	*
	* Called from rcv interrupt to complete.
	*/
	void usbd_rcv_complete(struct usb_endpoint_instance *endpoint, int len, int urb_bad)
	{
	if (endpoint) {
	struct urb *rcv_urb;

	/usbdbg("len: %d urb: %p\n", len, endpoint->rcv_urb); /

	/* if we had an urb then update actual_length, dispatch if neccessary */
	if ((rcv_urb = endpoint->rcv_urb)) {

	/usbdbg("actual: %d buffer: %d\n", /
	/rcv_urb->actual_length, rcv_urb->buffer_length); /

	/* check the urb is ok, are we adding data less than the packetsize */
	if (!urb_bad && (len <= endpoint->rcv_packetSize)) {
	/usbdbg("updating actual_length by %d\n",len); /

	/* increment the received data size */
	rcv_urb->actual_length += len;

	} else {
	usberr(" RECV_ERROR actual: %d buffer: %d urb_bad: %d\n",
	rcv_urb->actual_length, rcv_urb->buffer_length, urb_bad);

	rcv_urb->actual_length = 0;
	rcv_urb->status = RECV_ERROR;
	}
	} else {
	usberr("no rcv_urb!");
	}
	} else {
	usberr("no endpoint!");
	}

	}

	/**
	* usbd_tx_complete - complete a transmit
	* @endpoint:
	* @resetart:
	*
	* Called from tx interrupt to complete.
	*/
	void usbd_tx_complete (struct usb_endpoint_instance *endpoint)
	{
	if (endpoint) {
	struct urb *tx_urb;

	/* if we have a tx_urb advance or reset, finish if complete */
	if ((tx_urb = endpoint->tx_urb)) {
	int sent = endpoint->last;
	endpoint->sent += sent;
	endpoint->last -= sent;

	if( (endpoint->tx_urb->actual_length - endpoint->sent) <= 0 ) {
	tx_urb->actual_length = 0;
	endpoint->sent = 0;
	endpoint->last = 0;

	/* Remove from active, save for re-use */
	urb_detach(tx_urb);
	urb_append(&endpoint->done, tx_urb);
	/usbdbg("done->next %p, tx_urb %p, done %p", /
	/* endpoint->done.next, tx_urb, &endpoint->done); */

	endpoint->tx_urb = first_urb_detached(&endpoint->tx);
	if( endpoint->tx_urb ) {
	endpoint->tx_queue--;
	usbdbg("got urb from tx list");
	}
	if( !endpoint->tx_urb ) {
	/usbdbg("taking urb from done list"); /
	endpoint->tx_urb = first_urb_detached(&endpoint->done);
	}
	if( !endpoint->tx_urb ) {
	usbdbg("allocating new urb for tx_urb");
	endpoint->tx_urb = usbd_alloc_urb(tx_urb->device, endpoint);
	}
	}
	}
	}
	}

	/* URB linked list functions ***************************************************** */

	/*
	* Initialize an urb_link to be a single element list.
	* If the urb_link is being used as a distinguished list head
	* the list is empty when the head is the only link in the list.
	*/
	void urb_link_init (urb_link * ul)
	{
	if (ul) {
	ul->prev = ul->next = ul;
	}
	}

	/*
	* Detach an urb_link from a list, and set it
	* up as a single element list, so no dangling
	* pointers can be followed, and so it can be
	* joined to another list if so desired.
	*/
	void urb_detach (struct urb *urb)
	{
	if (urb) {
	urb_link *ul = &urb->link;
	ul->next->prev = ul->prev;
	ul->prev->next = ul->next;
	urb_link_init (ul);
	}
	}

	/*
	* Return the first urb_link in a list with a distinguished
	* head "hd", or NULL if the list is empty. This will also
	* work as a predicate, returning NULL if empty, and non-NULL
	* otherwise.
	*/
	urb_link first_urb_link (urb_link hd)
	{
	urb_link *nx;
	if (NULL != hd && NULL != (nx = hd->next) && nx != hd) {
	/* There is at least one element in the list */
	/* (besides the distinguished head). */
	return (nx);
	}
	/* The list is empty */
	return (NULL);
	}

	/*
	* Return the first urb in a list with a distinguished
	* head "hd", or NULL if the list is empty.
	*/
	struct urb first_urb (urb_link hd)
	{
	urb_link *nx;
	if (NULL == (nx = first_urb_link (hd))) {
	/* The list is empty */
	return (NULL);
	}
	return (p2surround (struct urb, link, nx));
	}

	/*
	* Detach and return the first urb in a list with a distinguished
	* head "hd", or NULL if the list is empty.
	*
	*/
	struct urb first_urb_detached (urb_link hd)
	{
	struct urb *urb;
	if ((urb = first_urb (hd))) {
	urb_detach (urb);
	}
	return urb;
	}


	/*
	* Append an urb_link (or a whole list of
	* urb_links) to the tail of another list
	* of urb_links.
	*/
	void urb_append (urb_link * hd, struct urb *urb)
	{
	if (hd && urb) {
	urb_link *new = &urb->link;

	/* This allows the new urb to be a list of urbs, */
	/* with new pointing at the first, but the link */
	/* must be initialized. */
	/* Order is important here... */
	urb_link *pul = hd->prev;
	new->prev->next = hd;
	hd->prev = new->prev;
	new->prev = pul;
	pul->next = new;
	}
	}

	/* URB create/destroy functions ***************************************************** */

	/**
	* usbd_alloc_urb - allocate an URB appropriate for specified endpoint
	* @device: device instance
	* @endpoint: endpoint
	*
	* Allocate an urb structure. The usb device urb structure is used to
	* contain all data associated with a transfer, including a setup packet for
	* control transfers.
	*
	* NOTE: endpoint_address MUST contain a direction flag.
	*/
	struct urb usbd_alloc_urb (struct usb_device_instance device,
	struct usb_endpoint_instance *endpoint)
	{
	struct urb *urb;

	if (!(urb = (struct urb *) malloc (sizeof (struct urb)))) {
	usberr (" F A T A L: malloc(%zu) FAILED!!!!",
	sizeof (struct urb));
	return NULL;
	}

	/* Fill in known fields */
	memset (urb, 0, sizeof (struct urb));
	urb->endpoint = endpoint;
	urb->device = device;
	urb->buffer = (u8 *) urb->buffer_data;
	urb->buffer_length = sizeof (urb->buffer_data);

	urb_link_init (&urb->link);

	return urb;
	}

	/**
	* usbd_dealloc_urb - deallocate an URB and associated buffer
	* @urb: pointer to an urb structure
	*
	* Deallocate an urb structure and associated data.
	*/
	void usbd_dealloc_urb (struct urb *urb)
	{
	if (urb) {
	free (urb);
	}
	}

	/* Event signaling functions ***************************************************** */

	/**
	* usbd_device_event - called to respond to various usb events
	* @device: pointer to struct device
	* @event: event to respond to
	*
	* Used by a Bus driver to indicate an event.
	*/
	void usbd_device_event_irq (struct usb_device_instance *device, usb_device_event_t event, int data)
	{
	usb_device_state_t state;

	if (!device \|\| !device->bus) {
	usberr("(%p,%d) NULL device or device->bus", device, event);
	return;
	}

	state = device->device_state;

	usbinfo("%s", usbd_device_events[event]);

	switch (event) {
	case DEVICE_UNKNOWN:
	break;
	case DEVICE_INIT:
	device->device_state = STATE_INIT;
	break;

	case DEVICE_CREATE:
	device->device_state = STATE_ATTACHED;
	break;

	case DEVICE_HUB_CONFIGURED:
	device->device_state = STATE_POWERED;
	break;

	case DEVICE_RESET:
	device->device_state = STATE_DEFAULT;
	device->address = 0;
	break;

	case DEVICE_ADDRESS_ASSIGNED:
	device->device_state = STATE_ADDRESSED;
	break;

	case DEVICE_CONFIGURED:
	device->device_state = STATE_CONFIGURED;
	break;

	case DEVICE_DE_CONFIGURED:
	device->device_state = STATE_ADDRESSED;
	break;

	case DEVICE_BUS_INACTIVE:
	if (device->status != USBD_CLOSING) {
	device->status = USBD_SUSPENDED;
	}
	break;
	case DEVICE_BUS_ACTIVITY:
	if (device->status != USBD_CLOSING) {
	device->status = USBD_OK;
	}
	break;

	case DEVICE_SET_INTERFACE:
	break;
	case DEVICE_SET_FEATURE:
	break;
	case DEVICE_CLEAR_FEATURE:
	break;

	case DEVICE_POWER_INTERRUPTION:
	device->device_state = STATE_POWERED;
	break;
	case DEVICE_HUB_RESET:
	device->device_state = STATE_ATTACHED;
	break;
	case DEVICE_DESTROY:
	device->device_state = STATE_UNKNOWN;
	break;

	case DEVICE_FUNCTION_PRIVATE:
	break;

	default:
	usbdbg("event %d - not handled",event);
	break;
	}
	debug("%s event: %d oldstate: %d newstate: %d status: %d address: %d",
	device->name, event, state,
	device->device_state, device->status, device->address);

	/* tell the bus interface driver */
	if( device->event ) {
	/* usbdbg("calling device->event"); */
	device->event(device, event, data);
	}
	}