message.c 51.9 KB
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/*
 * message.c - synchronous message handling
 */

#include <linux/pci.h>	/* for scatterlist macros */
#include <linux/usb.h>
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/init.h>
#include <linux/mm.h>
#include <linux/timer.h>
#include <linux/ctype.h>
#include <linux/device.h>
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#include <linux/scatterlist.h>
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#include <linux/usb/quirks.h>
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#include <asm/byteorder.h>

#include "hcd.h"	/* for usbcore internals */
#include "usb.h"

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struct api_context {
	struct completion	done;
	int			status;
};

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static void usb_api_blocking_completion(struct urb *urb)
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{
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	struct api_context *ctx = urb->context;

	ctx->status = urb->status;
	complete(&ctx->done);
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}


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/*
 * Starts urb and waits for completion or timeout. Note that this call
 * is NOT interruptible. Many device driver i/o requests should be
 * interruptible and therefore these drivers should implement their
 * own interruptible routines.
 */
static int usb_start_wait_urb(struct urb *urb, int timeout, int *actual_length)
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{
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	struct api_context ctx;
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	unsigned long expire;
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	int retval;
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	init_completion(&ctx.done);
	urb->context = &ctx;
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	urb->actual_length = 0;
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	retval = usb_submit_urb(urb, GFP_NOIO);
	if (unlikely(retval))
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		goto out;
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	expire = timeout ? msecs_to_jiffies(timeout) : MAX_SCHEDULE_TIMEOUT;
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	if (!wait_for_completion_timeout(&ctx.done, expire)) {
		usb_kill_urb(urb);
		retval = (ctx.status == -ENOENT ? -ETIMEDOUT : ctx.status);
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		dev_dbg(&urb->dev->dev,
			"%s timed out on ep%d%s len=%d/%d\n",
			current->comm,
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			usb_endpoint_num(&urb->ep->desc),
			usb_urb_dir_in(urb) ? "in" : "out",
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			urb->actual_length,
			urb->transfer_buffer_length);
	} else
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		retval = ctx.status;
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out:
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	if (actual_length)
		*actual_length = urb->actual_length;
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	usb_free_urb(urb);
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	return retval;
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}

/*-------------------------------------------------------------------*/
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/* returns status (negative) or length (positive) */
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static int usb_internal_control_msg(struct usb_device *usb_dev,
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				    unsigned int pipe,
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				    struct usb_ctrlrequest *cmd,
				    void *data, int len, int timeout)
{
	struct urb *urb;
	int retv;
	int length;

	urb = usb_alloc_urb(0, GFP_NOIO);
	if (!urb)
		return -ENOMEM;
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	usb_fill_control_urb(urb, usb_dev, pipe, (unsigned char *)cmd, data,
			     len, usb_api_blocking_completion, NULL);

	retv = usb_start_wait_urb(urb, timeout, &length);
	if (retv < 0)
		return retv;
	else
		return length;
}

/**
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 * usb_control_msg - Builds a control urb, sends it off and waits for completion
 * @dev: pointer to the usb device to send the message to
 * @pipe: endpoint "pipe" to send the message to
 * @request: USB message request value
 * @requesttype: USB message request type value
 * @value: USB message value
 * @index: USB message index value
 * @data: pointer to the data to send
 * @size: length in bytes of the data to send
 * @timeout: time in msecs to wait for the message to complete before timing
 *	out (if 0 the wait is forever)
 *
 * Context: !in_interrupt ()
 *
 * This function sends a simple control message to a specified endpoint and
 * waits for the message to complete, or timeout.
 *
 * If successful, it returns the number of bytes transferred, otherwise a
 * negative error number.
 *
 * Don't use this function from within an interrupt context, like a bottom half
 * handler.  If you need an asynchronous message, or need to send a message
 * from within interrupt context, use usb_submit_urb().
 * If a thread in your driver uses this call, make sure your disconnect()
 * method can wait for it to complete.  Since you don't have a handle on the
 * URB used, you can't cancel the request.
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 */
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int usb_control_msg(struct usb_device *dev, unsigned int pipe, __u8 request,
		    __u8 requesttype, __u16 value, __u16 index, void *data,
		    __u16 size, int timeout)
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{
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	struct usb_ctrlrequest *dr;
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	int ret;
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	dr = kmalloc(sizeof(struct usb_ctrlrequest), GFP_NOIO);
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	if (!dr)
		return -ENOMEM;

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	dr->bRequestType = requesttype;
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	dr->bRequest = request;
	dr->wValue = cpu_to_le16p(&value);
	dr->wIndex = cpu_to_le16p(&index);
	dr->wLength = cpu_to_le16p(&size);

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	/* dbg("usb_control_msg"); */
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	ret = usb_internal_control_msg(dev, pipe, dr, data, size, timeout);

	kfree(dr);

	return ret;
}
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EXPORT_SYMBOL_GPL(usb_control_msg);
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/**
 * usb_interrupt_msg - Builds an interrupt urb, sends it off and waits for completion
 * @usb_dev: pointer to the usb device to send the message to
 * @pipe: endpoint "pipe" to send the message to
 * @data: pointer to the data to send
 * @len: length in bytes of the data to send
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 * @actual_length: pointer to a location to put the actual length transferred
 *	in bytes
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 * @timeout: time in msecs to wait for the message to complete before
 *	timing out (if 0 the wait is forever)
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 *
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 * Context: !in_interrupt ()
 *
 * This function sends a simple interrupt message to a specified endpoint and
 * waits for the message to complete, or timeout.
 *
 * If successful, it returns 0, otherwise a negative error number.  The number
 * of actual bytes transferred will be stored in the actual_length paramater.
 *
 * Don't use this function from within an interrupt context, like a bottom half
 * handler.  If you need an asynchronous message, or need to send a message
 * from within interrupt context, use usb_submit_urb() If a thread in your
 * driver uses this call, make sure your disconnect() method can wait for it to
 * complete.  Since you don't have a handle on the URB used, you can't cancel
 * the request.
 */
int usb_interrupt_msg(struct usb_device *usb_dev, unsigned int pipe,
		      void *data, int len, int *actual_length, int timeout)
{
	return usb_bulk_msg(usb_dev, pipe, data, len, actual_length, timeout);
}
EXPORT_SYMBOL_GPL(usb_interrupt_msg);

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/**
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 * usb_bulk_msg - Builds a bulk urb, sends it off and waits for completion
 * @usb_dev: pointer to the usb device to send the message to
 * @pipe: endpoint "pipe" to send the message to
 * @data: pointer to the data to send
 * @len: length in bytes of the data to send
 * @actual_length: pointer to a location to put the actual length transferred
 *	in bytes
 * @timeout: time in msecs to wait for the message to complete before
 *	timing out (if 0 the wait is forever)
 *
 * Context: !in_interrupt ()
 *
 * This function sends a simple bulk message to a specified endpoint
 * and waits for the message to complete, or timeout.
 *
 * If successful, it returns 0, otherwise a negative error number.  The number
 * of actual bytes transferred will be stored in the actual_length paramater.
 *
 * Don't use this function from within an interrupt context, like a bottom half
 * handler.  If you need an asynchronous message, or need to send a message
 * from within interrupt context, use usb_submit_urb() If a thread in your
 * driver uses this call, make sure your disconnect() method can wait for it to
 * complete.  Since you don't have a handle on the URB used, you can't cancel
 * the request.
 *
 * Because there is no usb_interrupt_msg() and no USBDEVFS_INTERRUPT ioctl,
 * users are forced to abuse this routine by using it to submit URBs for
 * interrupt endpoints.  We will take the liberty of creating an interrupt URB
 * (with the default interval) if the target is an interrupt endpoint.
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 */
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int usb_bulk_msg(struct usb_device *usb_dev, unsigned int pipe,
		 void *data, int len, int *actual_length, int timeout)
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{
	struct urb *urb;
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	struct usb_host_endpoint *ep;
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	ep = (usb_pipein(pipe) ? usb_dev->ep_in : usb_dev->ep_out)
			[usb_pipeendpoint(pipe)];
	if (!ep || len < 0)
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		return -EINVAL;

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	urb = usb_alloc_urb(0, GFP_KERNEL);
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	if (!urb)
		return -ENOMEM;

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	if ((ep->desc.bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) ==
			USB_ENDPOINT_XFER_INT) {
		pipe = (pipe & ~(3 << 30)) | (PIPE_INTERRUPT << 30);
		usb_fill_int_urb(urb, usb_dev, pipe, data, len,
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				usb_api_blocking_completion, NULL,
				ep->desc.bInterval);
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	} else
		usb_fill_bulk_urb(urb, usb_dev, pipe, data, len,
				usb_api_blocking_completion, NULL);
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	return usb_start_wait_urb(urb, timeout, actual_length);
}
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EXPORT_SYMBOL_GPL(usb_bulk_msg);
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/*-------------------------------------------------------------------*/

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static void sg_clean(struct usb_sg_request *io)
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{
	if (io->urbs) {
		while (io->entries--)
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			usb_free_urb(io->urbs [io->entries]);
		kfree(io->urbs);
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		io->urbs = NULL;
	}
	if (io->dev->dev.dma_mask != NULL)
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		usb_buffer_unmap_sg(io->dev, usb_pipein(io->pipe),
				    io->sg, io->nents);
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	io->dev = NULL;
}

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static void sg_complete(struct urb *urb)
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{
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	struct usb_sg_request *io = urb->context;
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	int status = urb->status;
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	spin_lock(&io->lock);
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	/* In 2.5 we require hcds' endpoint queues not to progress after fault
	 * reports, until the completion callback (this!) returns.  That lets
	 * device driver code (like this routine) unlink queued urbs first,
	 * if it needs to, since the HC won't work on them at all.  So it's
	 * not possible for page N+1 to overwrite page N, and so on.
	 *
	 * That's only for "hard" faults; "soft" faults (unlinks) sometimes
	 * complete before the HCD can get requests away from hardware,
	 * though never during cleanup after a hard fault.
	 */
	if (io->status
			&& (io->status != -ECONNRESET
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				|| status != -ECONNRESET)
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			&& urb->actual_length) {
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		dev_err(io->dev->bus->controller,
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			"dev %s ep%d%s scatterlist error %d/%d\n",
			io->dev->devpath,
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			usb_endpoint_num(&urb->ep->desc),
			usb_urb_dir_in(urb) ? "in" : "out",
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			status, io->status);
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		/* BUG (); */
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	}

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	if (io->status == 0 && status && status != -ECONNRESET) {
		int i, found, retval;
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		io->status = status;
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		/* the previous urbs, and this one, completed already.
		 * unlink pending urbs so they won't rx/tx bad data.
		 * careful: unlink can sometimes be synchronous...
		 */
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		spin_unlock(&io->lock);
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		for (i = 0, found = 0; i < io->entries; i++) {
			if (!io->urbs [i] || !io->urbs [i]->dev)
				continue;
			if (found) {
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				retval = usb_unlink_urb(io->urbs [i]);
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				if (retval != -EINPROGRESS &&
				    retval != -ENODEV &&
				    retval != -EBUSY)
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					dev_err(&io->dev->dev,
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						"%s, unlink --> %d\n",
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						__func__, retval);
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			} else if (urb == io->urbs [i])
				found = 1;
		}
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		spin_lock(&io->lock);
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	}
	urb->dev = NULL;

	/* on the last completion, signal usb_sg_wait() */
	io->bytes += urb->actual_length;
	io->count--;
	if (!io->count)
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		complete(&io->complete);
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	spin_unlock(&io->lock);
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}


/**
 * usb_sg_init - initializes scatterlist-based bulk/interrupt I/O request
 * @io: request block being initialized.  until usb_sg_wait() returns,
 *	treat this as a pointer to an opaque block of memory,
 * @dev: the usb device that will send or receive the data
 * @pipe: endpoint "pipe" used to transfer the data
 * @period: polling rate for interrupt endpoints, in frames or
 * 	(for high speed endpoints) microframes; ignored for bulk
 * @sg: scatterlist entries
 * @nents: how many entries in the scatterlist
 * @length: how many bytes to send from the scatterlist, or zero to
 * 	send every byte identified in the list.
 * @mem_flags: SLAB_* flags affecting memory allocations in this call
 *
 * Returns zero for success, else a negative errno value.  This initializes a
 * scatter/gather request, allocating resources such as I/O mappings and urb
 * memory (except maybe memory used by USB controller drivers).
 *
 * The request must be issued using usb_sg_wait(), which waits for the I/O to
 * complete (or to be canceled) and then cleans up all resources allocated by
 * usb_sg_init().
 *
 * The request may be canceled with usb_sg_cancel(), either before or after
 * usb_sg_wait() is called.
 */
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int usb_sg_init(struct usb_sg_request *io, struct usb_device *dev,
		unsigned pipe, unsigned	period, struct scatterlist *sg,
		int nents, size_t length, gfp_t mem_flags)
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{
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	int i;
	int urb_flags;
	int dma;
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	if (!io || !dev || !sg
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			|| usb_pipecontrol(pipe)
			|| usb_pipeisoc(pipe)
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			|| nents <= 0)
		return -EINVAL;

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	spin_lock_init(&io->lock);
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	io->dev = dev;
	io->pipe = pipe;
	io->sg = sg;
	io->nents = nents;

	/* not all host controllers use DMA (like the mainstream pci ones);
	 * they can use PIO (sl811) or be software over another transport.
	 */
	dma = (dev->dev.dma_mask != NULL);
	if (dma)
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		io->entries = usb_buffer_map_sg(dev, usb_pipein(pipe),
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						sg, nents);
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	else
		io->entries = nents;

	/* initialize all the urbs we'll use */
	if (io->entries <= 0)
		return io->entries;

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	io->urbs = kmalloc(io->entries * sizeof *io->urbs, mem_flags);
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	if (!io->urbs)
		goto nomem;

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	urb_flags = URB_NO_INTERRUPT;
	if (dma)
		urb_flags |= URB_NO_TRANSFER_DMA_MAP;
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	if (usb_pipein(pipe))
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		urb_flags |= URB_SHORT_NOT_OK;

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	for_each_sg(sg, sg, io->entries, i) {
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		unsigned len;
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		io->urbs[i] = usb_alloc_urb(0, mem_flags);
		if (!io->urbs[i]) {
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			io->entries = i;
			goto nomem;
		}

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		io->urbs[i]->dev = NULL;
		io->urbs[i]->pipe = pipe;
		io->urbs[i]->interval = period;
		io->urbs[i]->transfer_flags = urb_flags;
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		io->urbs[i]->complete = sg_complete;
		io->urbs[i]->context = io;
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		/*
		 * Some systems need to revert to PIO when DMA is temporarily
		 * unavailable.  For their sakes, both transfer_buffer and
		 * transfer_dma are set when possible.  However this can only
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		 * work on systems without:
		 *
		 *  - HIGHMEM, since DMA buffers located in high memory are
		 *    not directly addressable by the CPU for PIO;
		 *
		 *  - IOMMU, since dma_map_sg() is allowed to use an IOMMU to
		 *    make virtually discontiguous buffers be "dma-contiguous"
		 *    so that PIO and DMA need diferent numbers of URBs.
		 *
		 * So when HIGHMEM or IOMMU are in use, transfer_buffer is NULL
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		 * to prevent stale pointers and to help spot bugs.
		 */
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		if (dma) {
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			io->urbs[i]->transfer_dma = sg_dma_address(sg);
			len = sg_dma_len(sg);
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#if defined(CONFIG_HIGHMEM) || defined(CONFIG_GART_IOMMU)
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			io->urbs[i]->transfer_buffer = NULL;
#else
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			io->urbs[i]->transfer_buffer = sg_virt(sg);
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#endif
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		} else {
			/* hc may use _only_ transfer_buffer */
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			io->urbs[i]->transfer_buffer = sg_virt(sg);
			len = sg->length;
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		}

		if (length) {
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			len = min_t(unsigned, len, length);
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			length -= len;
			if (length == 0)
				io->entries = i + 1;
		}
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		io->urbs[i]->transfer_buffer_length = len;
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	}
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	io->urbs[--i]->transfer_flags &= ~URB_NO_INTERRUPT;
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	/* transaction state */
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	io->count = io->entries;
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	io->status = 0;
	io->bytes = 0;
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	init_completion(&io->complete);
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	return 0;

nomem:
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	sg_clean(io);
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	return -ENOMEM;
}
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EXPORT_SYMBOL_GPL(usb_sg_init);
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/**
 * usb_sg_wait - synchronously execute scatter/gather request
 * @io: request block handle, as initialized with usb_sg_init().
 * 	some fields become accessible when this call returns.
 * Context: !in_interrupt ()
 *
 * This function blocks until the specified I/O operation completes.  It
 * leverages the grouping of the related I/O requests to get good transfer
 * rates, by queueing the requests.  At higher speeds, such queuing can
 * significantly improve USB throughput.
 *
 * There are three kinds of completion for this function.
 * (1) success, where io->status is zero.  The number of io->bytes
 *     transferred is as requested.
 * (2) error, where io->status is a negative errno value.  The number
 *     of io->bytes transferred before the error is usually less
 *     than requested, and can be nonzero.
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 * (3) cancellation, a type of error with status -ECONNRESET that
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 *     is initiated by usb_sg_cancel().
 *
 * When this function returns, all memory allocated through usb_sg_init() or
 * this call will have been freed.  The request block parameter may still be
 * passed to usb_sg_cancel(), or it may be freed.  It could also be
 * reinitialized and then reused.
 *
 * Data Transfer Rates:
 *
 * Bulk transfers are valid for full or high speed endpoints.
 * The best full speed data rate is 19 packets of 64 bytes each
 * per frame, or 1216 bytes per millisecond.
 * The best high speed data rate is 13 packets of 512 bytes each
 * per microframe, or 52 KBytes per millisecond.
 *
 * The reason to use interrupt transfers through this API would most likely
 * be to reserve high speed bandwidth, where up to 24 KBytes per millisecond
 * could be transferred.  That capability is less useful for low or full
 * speed interrupt endpoints, which allow at most one packet per millisecond,
 * of at most 8 or 64 bytes (respectively).
 */
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void usb_sg_wait(struct usb_sg_request *io)
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{
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	int i;
	int entries = io->entries;
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	/* queue the urbs.  */
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	spin_lock_irq(&io->lock);
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	i = 0;
	while (i < entries && !io->status) {
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		int retval;
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		io->urbs[i]->dev = io->dev;
		retval = usb_submit_urb(io->urbs [i], GFP_ATOMIC);
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		/* after we submit, let completions or cancelations fire;
		 * we handshake using io->status.
		 */
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		spin_unlock_irq(&io->lock);
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		switch (retval) {
			/* maybe we retrying will recover */
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		case -ENXIO:	/* hc didn't queue this one */
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		case -EAGAIN:
		case -ENOMEM:
			io->urbs[i]->dev = NULL;
			retval = 0;
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			yield();
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			break;

			/* no error? continue immediately.
			 *
			 * NOTE: to work better with UHCI (4K I/O buffer may
			 * need 3K of TDs) it may be good to limit how many
			 * URBs are queued at once; N milliseconds?
			 */
		case 0:
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			++i;
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			cpu_relax();
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			break;

			/* fail any uncompleted urbs */
		default:
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			io->urbs[i]->dev = NULL;
			io->urbs[i]->status = retval;
			dev_dbg(&io->dev->dev, "%s, submit --> %d\n",
555
				__func__, retval);
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			usb_sg_cancel(io);
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		}
558
		spin_lock_irq(&io->lock);
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		if (retval && (io->status == 0 || io->status == -ECONNRESET))
			io->status = retval;
	}
	io->count -= entries - i;
	if (io->count == 0)
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		complete(&io->complete);
	spin_unlock_irq(&io->lock);
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	/* OK, yes, this could be packaged as non-blocking.
	 * So could the submit loop above ... but it's easier to
	 * solve neither problem than to solve both!
	 */
571
	wait_for_completion(&io->complete);
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573
	sg_clean(io);
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}
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EXPORT_SYMBOL_GPL(usb_sg_wait);
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/**
 * usb_sg_cancel - stop scatter/gather i/o issued by usb_sg_wait()
 * @io: request block, initialized with usb_sg_init()
 *
 * This stops a request after it has been started by usb_sg_wait().
 * It can also prevents one initialized by usb_sg_init() from starting,
 * so that call just frees resources allocated to the request.
 */
585
void usb_sg_cancel(struct usb_sg_request *io)
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{
587
	unsigned long flags;
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589
	spin_lock_irqsave(&io->lock, flags);
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	/* shut everything down, if it didn't already */
	if (!io->status) {
593
		int i;
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		io->status = -ECONNRESET;
596
		spin_unlock(&io->lock);
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		for (i = 0; i < io->entries; i++) {
598
			int retval;
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			if (!io->urbs [i]->dev)
				continue;
602
			retval = usb_unlink_urb(io->urbs [i]);
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			if (retval != -EINPROGRESS && retval != -EBUSY)
604
				dev_warn(&io->dev->dev, "%s, unlink --> %d\n",
605
					__func__, retval);
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		}
607
		spin_lock(&io->lock);
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	}
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	spin_unlock_irqrestore(&io->lock, flags);
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}
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EXPORT_SYMBOL_GPL(usb_sg_cancel);
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/*-------------------------------------------------------------------*/

/**
 * usb_get_descriptor - issues a generic GET_DESCRIPTOR request
 * @dev: the device whose descriptor is being retrieved
 * @type: the descriptor type (USB_DT_*)
 * @index: the number of the descriptor
 * @buf: where to put the descriptor
 * @size: how big is "buf"?
 * Context: !in_interrupt ()
 *
 * Gets a USB descriptor.  Convenience functions exist to simplify
 * getting some types of descriptors.  Use
 * usb_get_string() or usb_string() for USB_DT_STRING.
 * Device (USB_DT_DEVICE) and configuration descriptors (USB_DT_CONFIG)
 * are part of the device structure.
 * In addition to a number of USB-standard descriptors, some
 * devices also use class-specific or vendor-specific descriptors.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns the number of bytes received on success, or else the status code
 * returned by the underlying usb_control_msg() call.
 */
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int usb_get_descriptor(struct usb_device *dev, unsigned char type,
		       unsigned char index, void *buf, int size)
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{
	int i;
	int result;
642 643

	memset(buf, 0, size);	/* Make sure we parse really received data */
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	for (i = 0; i < 3; ++i) {
646
		/* retry on length 0 or error; some devices are flakey */
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		result = usb_control_msg(dev, usb_rcvctrlpipe(dev, 0),
				USB_REQ_GET_DESCRIPTOR, USB_DIR_IN,
				(type << 8) + index, 0, buf, size,
				USB_CTRL_GET_TIMEOUT);
651
		if (result <= 0 && result != -ETIMEDOUT)
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			continue;
		if (result > 1 && ((u8 *)buf)[1] != type) {
			result = -EPROTO;
			continue;
		}
		break;
	}
	return result;
}
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EXPORT_SYMBOL_GPL(usb_get_descriptor);
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/**
 * usb_get_string - gets a string descriptor
 * @dev: the device whose string descriptor is being retrieved
 * @langid: code for language chosen (from string descriptor zero)
 * @index: the number of the descriptor
 * @buf: where to put the string
 * @size: how big is "buf"?
 * Context: !in_interrupt ()
 *
 * Retrieves a string, encoded using UTF-16LE (Unicode, 16 bits per character,
 * in little-endian byte order).
 * The usb_string() function will often be a convenient way to turn
 * these strings into kernel-printable form.
 *
 * Strings may be referenced in device, configuration, interface, or other
 * descriptors, and could also be used in vendor-specific ways.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns the number of bytes received on success, or else the status code
 * returned by the underlying usb_control_msg() call.
 */
685 686
static int usb_get_string(struct usb_device *dev, unsigned short langid,
			  unsigned char index, void *buf, int size)
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{
	int i;
	int result;

	for (i = 0; i < 3; ++i) {
		/* retry on length 0 or stall; some devices are flakey */
		result = usb_control_msg(dev, usb_rcvctrlpipe(dev, 0),
			USB_REQ_GET_DESCRIPTOR, USB_DIR_IN,
			(USB_DT_STRING << 8) + index, langid, buf, size,
			USB_CTRL_GET_TIMEOUT);
		if (!(result == 0 || result == -EPIPE))
			break;
	}
	return result;
}

static void usb_try_string_workarounds(unsigned char *buf, int *length)
{
	int newlength, oldlength = *length;

	for (newlength = 2; newlength + 1 < oldlength; newlength += 2)
		if (!isprint(buf[newlength]) || buf[newlength + 1])
			break;

	if (newlength > 2) {
		buf[0] = newlength;
		*length = newlength;
	}
}

static int usb_string_sub(struct usb_device *dev, unsigned int langid,
718
			  unsigned int index, unsigned char *buf)
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{
	int rc;

	/* Try to read the string descriptor by asking for the maximum
	 * possible number of bytes */
724 725 726 727
	if (dev->quirks & USB_QUIRK_STRING_FETCH_255)
		rc = -EIO;
	else
		rc = usb_get_string(dev, langid, index, buf, 255);
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	/* If that failed try to read the descriptor length, then
	 * ask for just that many bytes */
	if (rc < 2) {
		rc = usb_get_string(dev, langid, index, buf, 2);
		if (rc == 2)
			rc = usb_get_string(dev, langid, index, buf, buf[0]);
	}

	if (rc >= 2) {
		if (!buf[0] && !buf[1])
			usb_try_string_workarounds(buf, &rc);

		/* There might be extra junk at the end of the descriptor */
		if (buf[0] < rc)
			rc = buf[0];

		rc = rc - (rc & 1); /* force a multiple of two */
	}

	if (rc < 2)
		rc = (rc < 0 ? rc : -EINVAL);

	return rc;
}

/**
 * usb_string - returns ISO 8859-1 version of a string descriptor
 * @dev: the device whose string descriptor is being retrieved
 * @index: the number of the descriptor
 * @buf: where to put the string
 * @size: how big is "buf"?
 * Context: !in_interrupt ()
761
 *
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 * This converts the UTF-16LE encoded strings returned by devices, from
 * usb_get_string_descriptor(), to null-terminated ISO-8859-1 encoded ones
 * that are more usable in most kernel contexts.  Note that all characters
 * in the chosen descriptor that can't be encoded using ISO-8859-1
 * are converted to the question mark ("?") character, and this function
 * chooses strings in the first language supported by the device.
 *
 * The ASCII (or, redundantly, "US-ASCII") character set is the seven-bit
 * subset of ISO 8859-1. ISO-8859-1 is the eight-bit subset of Unicode,
 * and is appropriate for use many uses of English and several other
 * Western European languages.  (But it doesn't include the "Euro" symbol.)
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns length of the string (>= 0) or usb_control_msg status (< 0).
 */
int usb_string(struct usb_device *dev, int index, char *buf, size_t size)
{
	unsigned char *tbuf;
	int err;
	unsigned int u, idx;

	if (dev->state == USB_STATE_SUSPENDED)
		return -EHOSTUNREACH;
	if (size <= 0 || !buf || !index)
		return -EINVAL;
	buf[0] = 0;
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	tbuf = kmalloc(256, GFP_NOIO);
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	if (!tbuf)
		return -ENOMEM;

	/* get langid for strings if it's not yet known */
	if (!dev->have_langid) {
		err = usb_string_sub(dev, 0, 0, tbuf);
		if (err < 0) {
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			dev_err(&dev->dev,
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				"string descriptor 0 read error: %d\n",
				err);
			goto errout;
		} else if (err < 4) {
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			dev_err(&dev->dev, "string descriptor 0 too short\n");
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			err = -EINVAL;
			goto errout;
		} else {
806
			dev->have_langid = 1;
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			dev->string_langid = tbuf[2] | (tbuf[3] << 8);
			/* always use the first langid listed */
			dev_dbg(&dev->dev, "default language 0x%04x\n",
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				dev->string_langid);
		}
	}
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	err = usb_string_sub(dev, dev->string_langid, index, tbuf);
	if (err < 0)
		goto errout;

	size--;		/* leave room for trailing NULL char in output buffer */
	for (idx = 0, u = 2; u < err; u += 2) {
		if (idx >= size)
			break;
		if (tbuf[u+1])			/* high byte */
			buf[idx++] = '?';  /* non ISO-8859-1 character */
		else
			buf[idx++] = tbuf[u];
	}
	buf[idx] = 0;
	err = idx;

	if (tbuf[1] != USB_DT_STRING)
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		dev_dbg(&dev->dev,
			"wrong descriptor type %02x for string %d (\"%s\")\n",
			tbuf[1], index, buf);
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 errout:
	kfree(tbuf);
	return err;
}
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EXPORT_SYMBOL_GPL(usb_string);
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/**
 * usb_cache_string - read a string descriptor and cache it for later use
 * @udev: the device whose string descriptor is being read
 * @index: the descriptor index
 *
 * Returns a pointer to a kmalloc'ed buffer containing the descriptor string,
 * or NULL if the index is 0 or the string could not be read.
 */
char *usb_cache_string(struct usb_device *udev, int index)
{
	char *buf;
	char *smallbuf = NULL;
	int len;

855 856 857 858 859 860 861 862 863
	if (index <= 0)
		return NULL;

	buf = kmalloc(256, GFP_KERNEL);
	if (buf) {
		len = usb_string(udev, index, buf, 256);
		if (len > 0) {
			smallbuf = kmalloc(++len, GFP_KERNEL);
			if (!smallbuf)
864 865 866 867 868 869 870 871
				return buf;
			memcpy(smallbuf, buf, len);
		}
		kfree(buf);
	}
	return smallbuf;
}

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/*
 * usb_get_device_descriptor - (re)reads the device descriptor (usbcore)
 * @dev: the device whose device descriptor is being updated
 * @size: how much of the descriptor to read
 * Context: !in_interrupt ()
 *
 * Updates the copy of the device descriptor stored in the device structure,
879
 * which dedicates space for this purpose.
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 *
 * Not exported, only for use by the core.  If drivers really want to read
 * the device descriptor directly, they can call usb_get_descriptor() with
 * type = USB_DT_DEVICE and index = 0.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns the number of bytes received on success, or else the status code
 * returned by the underlying usb_control_msg() call.
 */
int usb_get_device_descriptor(struct usb_device *dev, unsigned int size)
{
	struct usb_device_descriptor *desc;
	int ret;

	if (size > sizeof(*desc))
		return -EINVAL;
	desc = kmalloc(sizeof(*desc), GFP_NOIO);
	if (!desc)
		return -ENOMEM;

	ret = usb_get_descriptor(dev, USB_DT_DEVICE, 0, desc, size);
902
	if (ret >= 0)
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		memcpy(&dev->descriptor, desc, size);
	kfree(desc);
	return ret;
}

/**
 * usb_get_status - issues a GET_STATUS call
 * @dev: the device whose status is being checked
 * @type: USB_RECIP_*; for device, interface, or endpoint
 * @target: zero (for device), else interface or endpoint number
 * @data: pointer to two bytes of bitmap data
 * Context: !in_interrupt ()
 *
 * Returns device, interface, or endpoint status.  Normally only of
 * interest to see if the device is self powered, or has enabled the
 * remote wakeup facility; or whether a bulk or interrupt endpoint
 * is halted ("stalled").
 *
 * Bits in these status bitmaps are set using the SET_FEATURE request,
 * and cleared using the CLEAR_FEATURE request.  The usb_clear_halt()
 * function should be used to clear halt ("stall") status.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns the number of bytes received on success, or else the status code
 * returned by the underlying usb_control_msg() call.
 */
int usb_get_status(struct usb_device *dev, int type, int target, void *data)
{
	int ret;
	u16 *status = kmalloc(sizeof(*status), GFP_KERNEL);

	if (!status)
		return -ENOMEM;

	ret = usb_control_msg(dev, usb_rcvctrlpipe(dev, 0),
		USB_REQ_GET_STATUS, USB_DIR_IN | type, 0, target, status,
		sizeof(*status), USB_CTRL_GET_TIMEOUT);

	*(u16 *)data = *status;
	kfree(status);
	return ret;
}
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EXPORT_SYMBOL_GPL(usb_get_status);
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/**
 * usb_clear_halt - tells device to clear endpoint halt/stall condition
 * @dev: device whose endpoint is halted
 * @pipe: endpoint "pipe" being cleared
 * Context: !in_interrupt ()
 *
 * This is used to clear halt conditions for bulk and interrupt endpoints,
 * as reported by URB completion status.  Endpoints that are halted are
 * sometimes referred to as being "stalled".  Such endpoints are unable
 * to transmit or receive data until the halt status is cleared.  Any URBs
 * queued for such an endpoint should normally be unlinked by the driver
 * before clearing the halt condition, as described in sections 5.7.5
 * and 5.8.5 of the USB 2.0 spec.
 *
 * Note that control and isochronous endpoints don't halt, although control
 * endpoints report "protocol stall" (for unsupported requests) using the
 * same status code used to report a true stall.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 *
 * Returns zero on success, or else the status code returned by the
 * underlying usb_control_msg() call.
 */
int usb_clear_halt(struct usb_device *dev, int pipe)
{
	int result;
	int endp = usb_pipeendpoint(pipe);
975 976

	if (usb_pipein(pipe))
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		endp |= USB_DIR_IN;

	/* we don't care if it wasn't halted first. in fact some devices
	 * (like some ibmcam model 1 units) seem to expect hosts to make
	 * this request for iso endpoints, which can't halt!
	 */
	result = usb_control_msg(dev, usb_sndctrlpipe(dev, 0),
		USB_REQ_CLEAR_FEATURE, USB_RECIP_ENDPOINT,
		USB_ENDPOINT_HALT, endp, NULL, 0,
		USB_CTRL_SET_TIMEOUT);

	/* don't un-halt or force to DATA0 except on success */
	if (result < 0)
		return result;

	/* NOTE:  seems like Microsoft and Apple don't bother verifying
	 * the clear "took", so some devices could lock up if you check...
	 * such as the Hagiwara FlashGate DUAL.  So we won't bother.
	 *
	 * NOTE:  make sure the logic here doesn't diverge much from
	 * the copy in usb-storage, for as long as we need two copies.
	 */

	/* toggle was reset by the clear */
	usb_settoggle(dev, usb_pipeendpoint(pipe), usb_pipeout(pipe), 0);

	return 0;
}
1005
EXPORT_SYMBOL_GPL(usb_clear_halt);
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/**
 * usb_disable_endpoint -- Disable an endpoint by address
 * @dev: the device whose endpoint is being disabled
 * @epaddr: the endpoint's address.  Endpoint number for output,
 *	endpoint number + USB_DIR_IN for input
 *
 * Deallocates hcd/hardware state for this endpoint ... and nukes all
 * pending urbs.
 *
 * If the HCD hasn't registered a disable() function, this sets the
 * endpoint's maxpacket size to 0 to prevent further submissions.
 */
void usb_disable_endpoint(struct usb_device *dev, unsigned int epaddr)
{
	unsigned int epnum = epaddr & USB_ENDPOINT_NUMBER_MASK;
	struct usb_host_endpoint *ep;

	if (!dev)
		return;

	if (usb_endpoint_out(epaddr)) {
		ep = dev->ep_out[epnum];
		dev->ep_out[epnum] = NULL;
	} else {
		ep = dev->ep_in[epnum];
		dev->ep_in[epnum] = NULL;
	}
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	if (ep) {
		ep->enabled = 0;
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		usb_hcd_flush_endpoint(dev, ep);
		usb_hcd_disable_endpoint(dev, ep);
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	}
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}

/**
 * usb_disable_interface -- Disable all endpoints for an interface
 * @dev: the device whose interface is being disabled
 * @intf: pointer to the interface descriptor
 *
 * Disables all the endpoints for the interface's current altsetting.
 */
void usb_disable_interface(struct usb_device *dev, struct usb_interface *intf)
{
	struct usb_host_interface *alt = intf->cur_altsetting;
	int i;

	for (i = 0; i < alt->desc.bNumEndpoints; ++i) {
		usb_disable_endpoint(dev,
				alt->endpoint[i].desc.bEndpointAddress);
	}
}

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/**
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 * usb_disable_device - Disable all the endpoints for a USB device
 * @dev: the device whose endpoints are being disabled
 * @skip_ep0: 0 to disable endpoint 0, 1 to skip it.
 *
 * Disables all the device's endpoints, potentially including endpoint 0.
 * Deallocates hcd/hardware state for the endpoints (nuking all or most
 * pending urbs) and usbcore state for the interfaces, so that usbcore
 * must usb_set_configuration() before any interfaces could be used.
 */
void usb_disable_device(struct usb_device *dev, int skip_ep0)
{
	int i;

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	dev_dbg(&dev->dev, "%s nuking %s URBs\n", __func__,
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		skip_ep0 ? "non-ep0" : "all");
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	for (i = skip_ep0; i < 16; ++i) {
		usb_disable_endpoint(dev, i);
		usb_disable_endpoint(dev, i + USB_DIR_IN);
	}
	dev->toggle[0] = dev->toggle[1] = 0;

	/* getting rid of interfaces will disconnect
	 * any drivers bound to them (a key side effect)
	 */
	if (dev->actconfig) {
		for (i = 0; i < dev->actconfig->desc.bNumInterfaces; i++) {
			struct usb_interface	*interface;

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			/* remove this interface if it has been registered */
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			interface = dev->actconfig->interface[i];
1090
			if (!device_is_registered(&interface->dev))
1091
				continue;
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			dev_dbg(&dev->dev, "unregistering interface %s\n",
1093
				dev_name(&interface->dev));
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			usb_remove_sysfs_intf_files(interface);
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			device_del(&interface->dev);
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		}

		/* Now that the interfaces are unbound, nobody should
		 * try to access them.
		 */
		for (i = 0; i < dev->actconfig->desc.bNumInterfaces; i++) {
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			put_device(&dev->actconfig->interface[i]->dev);
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			dev->actconfig->interface[i] = NULL;
		}
		dev->actconfig = NULL;
		if (dev->state == USB_STATE_CONFIGURED)
			usb_set_device_state(dev, USB_STATE_ADDRESS);
	}
}

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/**
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 * usb_enable_endpoint - Enable an endpoint for USB communications
 * @dev: the device whose interface is being enabled
 * @ep: the endpoint
 *
 * Resets the endpoint toggle, and sets dev->ep_{in,out} pointers.
 * For control endpoints, both the input and output sides are handled.
 */
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void usb_enable_endpoint(struct usb_device *dev, struct usb_host_endpoint *ep)
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{
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	int epnum = usb_endpoint_num(&ep->desc);
	int is_out = usb_endpoint_dir_out(&ep->desc);
	int is_control = usb_endpoint_xfer_control(&ep->desc);
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	if (is_out || is_control) {
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		usb_settoggle(dev, epnum, 1, 0);
		dev->ep_out[epnum] = ep;
	}
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	if (!is_out || is_control) {
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		usb_settoggle(dev, epnum, 0, 0);
		dev->ep_in[epnum] = ep;
	}
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	ep->enabled = 1;
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}

1136
/**
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 * usb_enable_interface - Enable all the endpoints for an interface
 * @dev: the device whose interface is being enabled
 * @intf: pointer to the interface descriptor
 *
 * Enables all the endpoints for the interface's current altsetting.
 */
static void usb_enable_interface(struct usb_device *dev,
				 struct usb_interface *intf)
{
	struct usb_host_interface *alt = intf->cur_altsetting;
	int i;

	for (i = 0; i < alt->desc.bNumEndpoints; ++i)
		usb_enable_endpoint(dev, &alt->endpoint[i]);
}

/**
 * usb_set_interface - Makes a particular alternate setting be current
 * @dev: the device whose interface is being updated
 * @interface: the interface being updated
 * @alternate: the setting being chosen.
 * Context: !in_interrupt ()
 *
 * This is used to enable data transfers on interfaces that may not
 * be enabled by default.  Not all devices support such configurability.
 * Only the driver bound to an interface may change its setting.
 *
 * Within any given configuration, each interface may have several
 * alternative settings.  These are often used to control levels of
 * bandwidth consumption.  For example, the default setting for a high
 * speed interrupt endpoint may not send more than 64 bytes per microframe,
 * while interrupt transfers of up to 3KBytes per microframe are legal.
 * Also, isochronous endpoints may never be part of an
 * interface's default setting.  To access such bandwidth, alternate
 * interface settings must be made current.
 *
 * Note that in the Linux USB subsystem, bandwidth associated with
 * an endpoint in a given alternate setting is not reserved until an URB
 * is submitted that needs that bandwidth.  Some other operating systems
 * allocate bandwidth early, when a configuration is chosen.
 *
 * This call is synchronous, and may not be used in an interrupt context.
 * Also, drivers must not change altsettings while urbs are scheduled for
 * endpoints in that interface; all such urbs must first be completed
 * (perhaps forced by unlinking).
 *
 * Returns zero on success, or else the status code returned by the
 * underlying usb_control_msg() call.
 */
int usb_set_interface(struct usb_device *dev, int interface, int alternate)
{
	struct usb_interface *iface;
	struct usb_host_interface *alt;
	int ret;
	int manual = 0;
1192 1193
	unsigned int epaddr;
	unsigned int pipe;
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	if (dev->state == USB_STATE_SUSPENDED)
		return -EHOSTUNREACH;

	iface = usb_ifnum_to_if(dev, interface);
	if (!iface) {
		dev_dbg(&dev->dev, "selecting invalid interface %d\n",
			interface);
		return -EINVAL;
	}

	alt = usb_altnum_to_altsetting(iface, alternate);
	if (!alt) {
1207 1208
		dev_warn(&dev->dev, "selecting invalid altsetting %d",
			 alternate);
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		return -EINVAL;
	}

1212 1213 1214 1215
	if (dev->quirks & USB_QUIRK_NO_SET_INTF)
		ret = -EPIPE;
	else
		ret = usb_control_msg(dev, usb_sndctrlpipe(dev, 0),
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				   USB_REQ_SET_INTERFACE, USB_RECIP_INTERFACE,
				   alternate, interface, NULL, 0, 5000);

	/* 9.4.10 says devices don't need this and are free to STALL the
	 * request if the interface only has one alternate setting.
	 */
	if (ret == -EPIPE && iface->num_altsetting == 1) {
		dev_dbg(&dev->dev,
			"manual set_interface for iface %d, alt %d\n",
			interface, alternate);
		manual = 1;
	} else if (ret < 0)
		return ret;

	/* FIXME drivers shouldn't need to replicate/bugfix the logic here
	 * when they implement async or easily-killable versions of this or
	 * other "should-be-internal" functions (like clear_halt).
	 * should hcd+usbcore postprocess control requests?
	 */

	/* prevent submissions using previous endpoint settings */
1237
	if (iface->cur_altsetting != alt)
1238
		usb_remove_sysfs_intf_files(iface);
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	usb_disable_interface(dev, iface);

	iface->cur_altsetting = alt;

	/* If the interface only has one altsetting and the device didn't
1244
	 * accept the request, we attempt to carry out the equivalent action
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	 * by manually clearing the HALT feature for each endpoint in the
	 * new altsetting.
	 */
	if (manual) {
		int i;

		for (i = 0; i < alt->desc.bNumEndpoints; i++) {
1252 1253 1254 1255 1256
			epaddr = alt->endpoint[i].desc.bEndpointAddress;
			pipe = __create_pipe(dev,
					USB_ENDPOINT_NUMBER_MASK & epaddr) |
					(usb_endpoint_out(epaddr) ?
					USB_DIR_OUT : USB_DIR_IN);
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			usb_clear_halt(dev, pipe);
		}
	}

	/* 9.1.1.5: reset toggles for all endpoints in the new altsetting
	 *
	 * Note:
	 * Despite EP0 is always present in all interfaces/AS, the list of
	 * endpoints from the descriptor does not contain EP0. Due to its
	 * omnipresence one might expect EP0 being considered "affected" by
	 * any SetInterface request and hence assume toggles need to be reset.
	 * However, EP0 toggles are re-synced for every individual transfer
	 * during the SETUP stage - hence EP0 toggles are "don't care" here.
	 * (Likewise, EP0 never "halts" on well designed devices.)
	 */
	usb_enable_interface(dev, iface);
1274
	if (device_is_registered(&iface->dev))
1275
		usb_create_sysfs_intf_files(iface);
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	return 0;
}
1279
EXPORT_SYMBOL_GPL(usb_set_interface);
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/**
 * usb_reset_configuration - lightweight device reset
 * @dev: the device whose configuration is being reset
 *
 * This issues a standard SET_CONFIGURATION request to the device using
 * the current configuration.  The effect is to reset most USB-related
 * state in the device, including interface altsettings (reset to zero),
 * endpoint halts (cleared), and data toggle (only for bulk and interrupt
 * endpoints).  Other usbcore state is unchanged, including bindings of
 * usb device drivers to interfaces.
 *
 * Because this affects multiple interfaces, avoid using this with composite
 * (multi-interface) devices.  Instead, the driver for each interface may
1294 1295 1296
 * use usb_set_interface() on the interfaces it claims.  Be careful though;
 * some devices don't support the SET_INTERFACE request, and others won't
 * reset all the interface state (notably data toggles).  Resetting the whole
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 * configuration would affect other drivers' interfaces.
 *
 * The caller must own the device lock.
 *
 * Returns zero on success, else a negative error code.
 */
int usb_reset_configuration(struct usb_device *dev)
{
	int			i, retval;
	struct usb_host_config	*config;

	if (dev->state == USB_STATE_SUSPENDED)
		return -EHOSTUNREACH;

	/* caller must have locked the device and must own
	 * the usb bus readlock (so driver bindings are stable);
	 * calls during probe() are fine
	 */

	for (i = 1; i < 16; ++i) {
		usb_disable_endpoint(dev, i);
		usb_disable_endpoint(dev, i + USB_DIR_IN);
	}

	config = dev->actconfig;
	retval = usb_control_msg(dev, usb_sndctrlpipe(dev, 0),
			USB_REQ_SET_CONFIGURATION, 0,
			config->desc.bConfigurationValue, 0,
			NULL, 0, USB_CTRL_SET_TIMEOUT);
1326
	if (retval < 0)
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		return retval;

	dev->toggle[0] = dev->toggle[1] = 0;

	/* re-init hc/hcd interface/endpoint state */
	for (i = 0; i < config->desc.bNumInterfaces; i++) {
		struct usb_interface *intf = config->interface[i];
		struct usb_host_interface *alt;

1336
		usb_remove_sysfs_intf_files(intf);
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		alt = usb_altnum_to_altsetting(intf, 0);

		/* No altsetting 0?  We'll assume the first altsetting.
		 * We could use a GetInterface call, but if a device is
		 * so non-compliant that it doesn't have altsetting 0
		 * then I wouldn't trust its reply anyway.
		 */
		if (!alt)
			alt = &intf->altsetting[0];

		intf->cur_altsetting = alt;
		usb_enable_interface(dev, intf);
1349 1350
		if (device_is_registered(&intf->dev))
			usb_create_sysfs_intf_files(intf);
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	}
	return 0;
}
1354
EXPORT_SYMBOL_GPL(usb_reset_configuration);
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1356
static void usb_release_interface(struct device *dev)
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{
	struct usb_interface *intf = to_usb_interface(dev);
	struct usb_interface_cache *intfc =
			altsetting_to_usb_interface_cache(intf->altsetting);

	kref_put(&intfc->ref, usb_release_interface_cache);
	kfree(intf);
}

1366
#ifdef	CONFIG_HOTPLUG
1367
static int usb_if_uevent(struct device *dev, struct kobj_uevent_env *env)
1368 1369 1370 1371 1372 1373 1374 1375 1376
{
	struct usb_device *usb_dev;
	struct usb_interface *intf;
	struct usb_host_interface *alt;

	intf = to_usb_interface(dev);
	usb_dev = interface_to_usbdev(intf);
	alt = intf->cur_altsetting;

1377
	if (add_uevent_var(env, "INTERFACE=%d/%d/%d",
1378 1379 1380 1381 1382
		   alt->desc.bInterfaceClass,
		   alt->desc.bInterfaceSubClass,
		   alt->desc.bInterfaceProtocol))
		return -ENOMEM;

1383
	if (add_uevent_var(env,
1384 1385
		   "MODALIAS=usb:"
		   "v%04Xp%04Xd%04Xdc%02Xdsc%02Xdp%02Xic%02Xisc%02Xip%02X",
1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401
		   le16_to_cpu(usb_dev->descriptor.idVendor),
		   le16_to_cpu(usb_dev->descriptor.idProduct),
		   le16_to_cpu(usb_dev->descriptor.bcdDevice),
		   usb_dev->descriptor.bDeviceClass,
		   usb_dev->descriptor.bDeviceSubClass,
		   usb_dev->descriptor.bDeviceProtocol,
		   alt->desc.bInterfaceClass,
		   alt->desc.bInterfaceSubClass,
		   alt->desc.bInterfaceProtocol))
		return -ENOMEM;

	return 0;
}

#else

1402
static int usb_if_uevent(struct device *dev, struct kobj_uevent_env *env)
1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413
{
	return -ENODEV;
}
#endif	/* CONFIG_HOTPLUG */

struct device_type usb_if_device_type = {
	.name =		"usb_interface",
	.release =	usb_release_interface,
	.uevent =	usb_if_uevent,
};

1414
static struct usb_interface_assoc_descriptor *find_iad(struct usb_device *dev,
1415 1416
						struct usb_host_config *config,
						u8 inum)
1417 1418 1419 1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442
{
	struct usb_interface_assoc_descriptor *retval = NULL;
	struct usb_interface_assoc_descriptor *intf_assoc;
	int first_intf;
	int last_intf;
	int i;

	for (i = 0; (i < USB_MAXIADS && config->intf_assoc[i]); i++) {
		intf_assoc = config->intf_assoc[i];
		if (intf_assoc->bInterfaceCount == 0)
			continue;

		first_intf = intf_assoc->bFirstInterface;
		last_intf = first_intf + (intf_assoc->bInterfaceCount - 1);
		if (inum >= first_intf && inum <= last_intf) {
			if (!retval)
				retval = intf_assoc;
			else
				dev_err(&dev->dev, "Interface #%d referenced"
					" by multiple IADs\n", inum);
		}
	}

	return retval;
}

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/*
 * usb_set_configuration - Makes a particular device setting be current
 * @dev: the device whose configuration is being updated
 * @configuration: the configuration being chosen.
 * Context: !in_interrupt(), caller owns the device lock
 *
 * This is used to enable non-default device modes.  Not all devices
 * use this kind of configurability; many devices only have one
 * configuration.
 *
1453 1454 1455 1456 1457 1458 1459 1460
 * @configuration is the value of the configuration to be installed.
 * According to the USB spec (e.g. section 9.1.1.5), configuration values
 * must be non-zero; a value of zero indicates that the device in
 * unconfigured.  However some devices erroneously use 0 as one of their
 * configuration values.  To help manage such devices, this routine will
 * accept @configuration = -1 as indicating the device should be put in
 * an unconfigured state.
 *
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 * USB device configurations may affect Linux interoperability,
 * power consumption and the functionality available.  For example,
 * the default configuration is limited to using 100mA of bus power,
 * so that when certain device functionality requires more power,
 * and the device is bus powered, that functionality should be in some
 * non-default device configuration.  Other device modes may also be
 * reflected as configuration options, such as whether two ISDN
 * channels are available independently; and choosing between open
 * standard device protocols (like CDC) or proprietary ones.
 *
1471 1472 1473
 * Note that a non-authorized device (dev->authorized == 0) will only
 * be put in unconfigured mode.
 *
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 * Note that USB has an additional level of device configurability,
 * associated with interfaces.  That configurability is accessed using
 * usb_set_interface().
 *
 * This call is synchronous. The calling context must be able to sleep,
 * must own the device lock, and must not hold the driver model's USB
1480
 * bus mutex; usb interface driver probe() methods cannot use this routine.
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 *
 * Returns zero on success, or else the status code returned by the
1483
 * underlying call that failed.  On successful completion, each interface
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 * in the original device configuration has been destroyed, and each one
 * in the new configuration has been probed by all relevant usb device
 * drivers currently known to the kernel.
 */
int usb_set_configuration(struct usb_device *dev, int configuration)
{
	int i, ret;
	struct usb_host_config *cp = NULL;
	struct usb_interface **new_interfaces = NULL;
	int n, nintf;

1495
	if (dev->authorized == 0 || configuration == -1)
1496 1497 1498 1499 1500 1501 1502 1503
		configuration = 0;
	else {
		for (i = 0; i < dev->descriptor.bNumConfigurations; i++) {
			if (dev->config[i].desc.bConfigurationValue ==
					configuration) {
				cp = &dev->config[i];
				break;
			}
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		}
	}
	if ((!cp && configuration != 0))
		return -EINVAL;

	/* The USB spec says configuration 0 means unconfigured.
	 * But if a device includes a configuration numbered 0,
	 * we will accept it as a correctly configured state.
1512
	 * Use -1 if you really want to unconfigure the device.
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	 */
	if (cp && configuration == 0)
		dev_warn(&dev->dev, "config 0 descriptor??\n");

	/* Allocate memory for new interfaces before doing anything else,
	 * so that if we run out then nothing will have changed. */
	n = nintf = 0;
	if (cp) {
		nintf = cp->desc.bNumInterfaces;
		new_interfaces = kmalloc(nintf * sizeof(*new_interfaces),
				GFP_KERNEL);
		if (!new_interfaces) {
1525
			dev_err(&dev->dev, "Out of memory\n");
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			return -ENOMEM;
		}

		for (; n < nintf; ++n) {
1530
			new_interfaces[n] = kzalloc(
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1531 1532 1533
					sizeof(struct usb_interface),
					GFP_KERNEL);
			if (!new_interfaces[n]) {
1534
				dev_err(&dev->dev, "Out of memory\n");
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				ret = -ENOMEM;
free_interfaces:
				while (--n >= 0)
					kfree(new_interfaces[n]);
				kfree(new_interfaces);
				return ret;
			}
		}

1544 1545 1546 1547 1548 1549
		i = dev->bus_mA - cp->desc.bMaxPower * 2;
		if (i < 0)
			dev_warn(&dev->dev, "new config #%d exceeds power "
					"limit by %dmA\n",
					configuration, -i);
	}
1550

1551
	/* Wake up the device so we can send it the Set-Config request */
1552
	ret = usb_autoresume_device(dev);
1553 1554 1555
	if (ret)
		goto free_interfaces;

1556 1557 1558 1559
	/* if it's already configured, clear out old state first.
	 * getting rid of old interfaces means unbinding their drivers.
	 */
	if (dev->state != USB_STATE_ADDRESS)
1560
		usb_disable_device(dev, 1);	/* Skip ep0 */
1561

1562 1563 1564 1565
	ret = usb_control_msg(dev, usb_sndctrlpipe(dev, 0),
			      USB_REQ_SET_CONFIGURATION, 0, configuration, 0,
			      NULL, 0, USB_CTRL_SET_TIMEOUT);
	if (ret < 0) {
1566 1567 1568 1569 1570
		/* All the old state is gone, so what else can we do?
		 * The device is probably useless now anyway.
		 */
		cp = NULL;
	}
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	dev->actconfig = cp;
1573
	if (!cp) {
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		usb_set_device_state(dev, USB_STATE_ADDRESS);
1575
		usb_autosuspend_device(dev);
1576 1577 1578
		goto free_interfaces;
	}
	usb_set_device_state(dev, USB_STATE_CONFIGURED);
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1580 1581 1582 1583 1584 1585 1586
	/* Initialize the new interface structures and the
	 * hc/hcd/usbcore interface/endpoint state.
	 */
	for (i = 0; i < nintf; ++i) {
		struct usb_interface_cache *intfc;
		struct usb_interface *intf;
		struct usb_host_interface *alt;
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1588 1589 1590 1591
		cp->interface[i] = intf = new_interfaces[i];
		intfc = cp->intf_cache[i];
		intf->altsetting = intfc->altsetting;
		intf->num_altsetting = intfc->num_altsetting;
1592
		intf->intf_assoc = find_iad(dev, cp, i);
1593
		kref_get(&intfc->ref);
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1595 1596 1597 1598 1599 1600
		alt = usb_altnum_to_altsetting(intf, 0);

		/* No altsetting 0?  We'll assume the first altsetting.
		 * We could use a GetInterface call, but if a device is
		 * so non-compliant that it doesn't have altsetting 0
		 * then I wouldn't trust its reply anyway.
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		 */
1602 1603 1604 1605 1606 1607 1608 1609
		if (!alt)
			alt = &intf->altsetting[0];

		intf->cur_altsetting = alt;
		usb_enable_interface(dev, intf);
		intf->dev.parent = &dev->dev;
		intf->dev.driver = NULL;
		intf->dev.bus = &usb_bus_type;
1610
		intf->dev.type = &usb_if_device_type;
1611
		intf->dev.groups = usb_interface_groups;
1612
		intf->dev.dma_mask = dev->dev.dma_mask;
1613
		device_initialize(&intf->dev);
1614
		mark_quiesced(intf);
1615
		dev_set_name(&intf->dev, "%d-%s:%d.%d",
1616 1617
			dev->bus->busnum, dev->devpath,
			configuration, alt->desc.bInterfaceNumber);
1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632
	}
	kfree(new_interfaces);

	if (cp->string == NULL)
		cp->string = usb_cache_string(dev, cp->desc.iConfiguration);

	/* Now that all the interfaces are set up, register them
	 * to trigger binding of drivers to interfaces.  probe()
	 * routines may install different altsettings and may
	 * claim() any interfaces not yet bound.  Many class drivers
	 * need that: CDC, audio, video, etc.
	 */
	for (i = 0; i < nintf; ++i) {
		struct usb_interface *intf = cp->interface[i];

1633
		dev_dbg(&dev->dev,
1634
			"adding %s (config #%d, interface %d)\n",
1635
			dev_name(&intf->dev), configuration,
1636
			intf->cur_altsetting->desc.bInterfaceNumber);
1637
		ret = device_add(&intf->dev);
1638 1639
		if (ret != 0) {
			dev_err(&dev->dev, "device_add(%s) --> %d\n",
1640
				dev_name(&intf->dev), ret);
1641
			continue;
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		}
1643
		usb_create_sysfs_intf_files(intf);
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1644 1645
	}

1646
	usb_autosuspend_device(dev);
1647
	return 0;
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}

1650 1651 1652 1653 1654 1655 1656
struct set_config_request {
	struct usb_device	*udev;
	int			config;
	struct work_struct	work;
};

/* Worker routine for usb_driver_set_configuration() */
D
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static void driver_set_config_work(struct work_struct *work)
1658
{
D
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1659 1660
	struct set_config_request *req =
		container_of(work, struct set_config_request, work);
1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697

	usb_lock_device(req->udev);
	usb_set_configuration(req->udev, req->config);
	usb_unlock_device(req->udev);
	usb_put_dev(req->udev);
	kfree(req);
}

/**
 * usb_driver_set_configuration - Provide a way for drivers to change device configurations
 * @udev: the device whose configuration is being updated
 * @config: the configuration being chosen.
 * Context: In process context, must be able to sleep
 *
 * Device interface drivers are not allowed to change device configurations.
 * This is because changing configurations will destroy the interface the
 * driver is bound to and create new ones; it would be like a floppy-disk
 * driver telling the computer to replace the floppy-disk drive with a
 * tape drive!
 *
 * Still, in certain specialized circumstances the need may arise.  This
 * routine gets around the normal restrictions by using a work thread to
 * submit the change-config request.
 *
 * Returns 0 if the request was succesfully queued, error code otherwise.
 * The caller has no way to know whether the queued request will eventually
 * succeed.
 */
int usb_driver_set_configuration(struct usb_device *udev, int config)
{
	struct set_config_request *req;

	req = kmalloc(sizeof(*req), GFP_KERNEL);
	if (!req)
		return -ENOMEM;
	req->udev = udev;
	req->config = config;
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David Howells 已提交
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	INIT_WORK(&req->work, driver_set_config_work);
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	usb_get_dev(udev);
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	schedule_work(&req->work);
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	return 0;
}
EXPORT_SYMBOL_GPL(usb_driver_set_configuration);