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|
/*
* Copyright (C) 2015 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <assert.h>
#include <ipxe/efi/efi.h>
#include <ipxe/efi/efi_driver.h>
#include <ipxe/efi/efi_utils.h>
#include <ipxe/efi/Protocol/UsbIo.h>
#include <ipxe/usb.h>
#include "usbio.h"
/** @file
*
* EFI_USB_IO_PROTOCOL pseudo Host Controller Interface driver
*
*
* The EFI_USB_IO_PROTOCOL is an almost unbelievably poorly designed
* abstraction of a USB device. It would be just about forgivable for
* an API to support only synchronous operation for bulk OUT
* endpoints. It is imbecilic to support only synchronous operation
* for bulk IN endpoints. This apparently intern-designed API
* throttles a typical NIC down to 1.5% of its maximum throughput.
* That isn't a typo. It really is that slow.
*
* We can't even work around this stupidity by talking to the host
* controller abstraction directly, because an identical limitation
* exists in the EFI_USB2_HC_PROTOCOL.
*
* Unless you derive therapeutic value from watching download progress
* indicators lethargically creep through every single integer from 0
* to 100, you should use iPXE's native USB host controller drivers
* instead. (Or just upgrade from UEFI to "legacy" BIOS, which will
* produce a similar speed increase.)
*
*
* For added excitement, the EFI_USB_IO_PROTOCOL makes the
* (demonstrably incorrect) assumption that a USB driver needs to
* attach to exactly one interface within a USB device, and provides a
* helper method to retrieve "the" interface descriptor. Since pretty
* much every USB network device requires binding to a pair of
* control+data interfaces, this aspect of EFI_USB_IO_PROTOCOL is of
* no use to us.
*
* We have our own existing code for reading USB descriptors, so we
* don't actually care that the UsbGetInterfaceDescriptor() method
* provided by EFI_USB_IO_PROTOCOL is useless for network devices. We
* can read the descriptors ourselves (via UsbControlTransfer()) and
* get all of the information we need this way. We can even work
* around the fact that EFI_USB_IO_PROTOCOL provides separate handles
* for each of the two interfaces comprising our network device.
*
* However, if we discover that we need to select an alternative
* device configuration (e.g. for devices exposing both RNDIS and
* ECM), then all hell breaks loose. EFI_USB_IO_PROTOCOL starts to
* panic because its cached interface and endpoint descriptors will no
* longer be valid. As mentioned above, the cached descriptors are
* useless for network devices anyway so we _really_ don't care about
* this, but EFI_USB_IO_PROTOCOL certainly cares. It prints out a
* manic warning message containing no fewer than six exclamation
* marks and then literally commits seppuku in the middle of the
* UsbControlTransfer() method by attempting to uninstall itself.
* Quite how the caller is supposed to react when asked to stop using
* the EFI_USB_IO_PROTOCOL instance while in the middle of an
* uninterruptible call to said instance is left as an exercise for
* the interested reader.
*
* There is no sensible way to work around this, so we just
* preemptively fail if asked to change the device configuration, on
* the basis that reporting a sarcastic error message is often
* preferable to jumping through a NULL pointer and crashing the
* system.
*/
/* Disambiguate the various error causes */
#define ENOTSUP_MORONIC_SPECIFICATION \
__einfo_error ( EINFO_ENOTSUP_MORONIC_SPECIFICATION )
#define EINFO_ENOTSUP_MORONIC_SPECIFICATION \
__einfo_uniqify ( EINFO_ENOTSUP, 0x01, \
"EFI_USB_IO_PROTOCOL was designed by morons" )
/******************************************************************************
*
* Device model
*
******************************************************************************
*/
/**
* Determine endpoint interface number
*
* @v usbio USB I/O device
* @v ep USB Endpoint
* @ret interface Interface number, or negative error
*/
static int usbio_interface ( struct usbio_device *usbio,
struct usb_endpoint *ep ) {
EFI_HANDLE handle = usbio->handle;
struct usb_device *usb = ep->usb;
struct usb_configuration_descriptor *config;
struct usb_interface_descriptor *interface;
struct usb_endpoint_descriptor *endpoint;
struct usb_function *func;
unsigned int i;
/* The control endpoint is not part of a described interface */
if ( ep->address == USB_EP0_ADDRESS )
return 0;
/* Iterate over all interface descriptors looking for a match */
config = usbio->config;
for_each_config_descriptor ( interface, config ) {
/* Skip non-interface descriptors */
if ( interface->header.type != USB_INTERFACE_DESCRIPTOR )
continue;
/* Iterate over all endpoint descriptors looking for a match */
for_each_interface_descriptor ( endpoint, config, interface ) {
/* Skip non-endpoint descriptors */
if ( endpoint->header.type != USB_ENDPOINT_DESCRIPTOR )
continue;
/* Check endpoint address */
if ( endpoint->endpoint != ep->address )
continue;
/* Check interface belongs to this function */
list_for_each_entry ( func, &usb->functions, list ) {
/* Skip non-matching functions */
if ( func->interface[0] != usbio->first )
continue;
/* Iterate over all interfaces for a match */
for ( i = 0 ; i < func->desc.count ; i++ ) {
if ( interface->interface ==
func->interface[i] )
return interface->interface;
}
}
}
}
DBGC ( usbio, "USBIO %s cannot find interface for %s",
efi_handle_name ( handle ), usb_endpoint_name ( ep ) );
return -ENOENT;
}
/**
* Open USB I/O interface
*
* @v usbio USB I/O device
* @v interface Interface number
* @ret rc Return status code
*/
static int usbio_open ( struct usbio_device *usbio, unsigned int interface ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
EFI_HANDLE handle = usbio->handle;
struct usbio_interface *intf = &usbio->interface[interface];
EFI_DEVICE_PATH_PROTOCOL *path;
EFI_DEVICE_PATH_PROTOCOL *end;
USB_DEVICE_PATH *usbpath;
union {
void *interface;
EFI_USB_IO_PROTOCOL *io;
} u;
EFI_STATUS efirc;
int rc;
/* Sanity check */
assert ( interface < usbio->config->interfaces );
/* If interface is already open, just increment the usage count */
if ( intf->count ) {
intf->count++;
return 0;
}
/* Construct device path for this interface */
path = usbio->path;
usbpath = usbio->usbpath;
usbpath->InterfaceNumber = interface;
end = efi_devpath_end ( path );
/* Locate handle for this endpoint's interface */
if ( ( efirc = bs->LocateDevicePath ( &efi_usb_io_protocol_guid, &path,
&intf->handle ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s could not locate ",
efi_handle_name ( handle ) );
DBGC ( usbio, "%s: %s\n",
efi_devpath_text ( usbio->path ), strerror ( rc ) );
return rc;
}
/* Check that expected path was located */
if ( path != end ) {
DBGC ( usbio, "USBIO %s located incomplete ",
efi_handle_name ( handle ) );
DBGC ( usbio, "%s\n", efi_handle_name ( intf->handle ) );
return -EXDEV;
}
/* Open USB I/O protocol on this handle */
if ( ( efirc = bs->OpenProtocol ( intf->handle,
&efi_usb_io_protocol_guid,
&u.interface, efi_image_handle,
intf->handle,
( EFI_OPEN_PROTOCOL_BY_DRIVER |
EFI_OPEN_PROTOCOL_EXCLUSIVE )))!=0){
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s cannot open ",
efi_handle_name ( handle ) );
DBGC ( usbio, "%s: %s\n",
efi_handle_name ( intf->handle ), strerror ( rc ) );
DBGC_EFI_OPENERS ( usbio, intf->handle,
&efi_usb_io_protocol_guid );
return rc;
}
intf->io = u.io;
/* Increment usage count */
intf->count++;
return 0;
}
/**
* Close USB I/O interface
*
* @v usbio USB I/O device
* @v interface Interface number
*/
static void usbio_close ( struct usbio_device *usbio, unsigned int interface ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
struct usbio_interface *intf = &usbio->interface[interface];
/* Sanity checks */
assert ( interface < usbio->config->interfaces );
assert ( intf->count > 0 );
/* Decrement usage count */
intf->count--;
/* Do nothing if interface is still in use */
if ( intf->count )
return;
/* Close USB I/O protocol */
bs->CloseProtocol ( intf->handle, &efi_usb_io_protocol_guid,
efi_image_handle, intf->handle );
}
/******************************************************************************
*
* Control endpoints
*
******************************************************************************
*/
/**
* Open control endpoint
*
* @v endpoint Endpoint
* @ret rc Return status code
*/
static int usbio_control_open ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
return 0;
}
/**
* Close control endpoint
*
* @v endpoint Endpoint
*/
static void usbio_control_close ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
}
/**
* Poll control endpoint
*
* @v endpoint Endpoint
*/
static void usbio_control_poll ( struct usbio_endpoint *endpoint ) {
struct usbio_device *usbio = endpoint->usbio;
struct usb_endpoint *ep = endpoint->ep;
EFI_HANDLE handle = usbio->handle;
EFI_USB_IO_PROTOCOL *io;
union {
struct usb_setup_packet setup;
EFI_USB_DEVICE_REQUEST efi;
} *msg;
EFI_USB_DATA_DIRECTION direction;
struct io_buffer *iobuf;
unsigned int index;
unsigned int flags;
unsigned int recipient;
unsigned int interface;
uint16_t request;
void *data;
size_t len;
UINT32 status;
EFI_STATUS efirc;
int rc;
/* Do nothing if ring is empty */
if ( endpoint->cons == endpoint->prod )
return;
/* Consume next transfer */
index = ( endpoint->cons++ % USBIO_RING_COUNT );
iobuf = endpoint->iobuf[index];
flags = endpoint->flags[index];
/* Sanity check */
if ( ! ( flags & USBIO_MESSAGE ) ) {
DBGC ( usbio, "USBIO %s %s non-message transfer\n",
efi_handle_name ( handle ), usb_endpoint_name ( ep ) );
rc = -ENOTSUP;
goto err_not_message;
}
/* Construct transfer */
assert ( iob_len ( iobuf ) >= sizeof ( *msg ) );
msg = iobuf->data;
iob_pull ( iobuf, sizeof ( *msg ) );
request = le16_to_cpu ( msg->setup.request );
len = iob_len ( iobuf );
if ( len ) {
data = iobuf->data;
direction = ( ( request & USB_DIR_IN ) ?
EfiUsbDataIn : EfiUsbDataOut );
} else {
data = NULL;
direction = EfiUsbNoData;
}
/* Determine interface for this transfer */
recipient = ( request & USB_RECIP_MASK );
if ( recipient == USB_RECIP_INTERFACE ) {
/* Recipient is an interface: use interface number directly */
interface = le16_to_cpu ( msg->setup.index );
} else {
/* Route all other requests through the first interface */
interface = 0;
}
/* Open interface */
if ( ( rc = usbio_open ( usbio, interface ) ) != 0 )
goto err_open;
io = usbio->interface[interface].io;
/* Due to the design of EFI_USB_IO_PROTOCOL, attempting to set
* the configuration to a non-default value is basically a
* self-destruct button.
*/
if ( ( request == USB_SET_CONFIGURATION ) &&
( le16_to_cpu ( msg->setup.value ) != usbio->config->config ) ) {
rc = -ENOTSUP_MORONIC_SPECIFICATION;
DBGC ( usbio, "USBIO %s cannot change configuration: %s\n",
efi_handle_name ( handle ), strerror ( rc ) );
goto err_moronic_specification;
}
/* Submit transfer */
if ( ( efirc = io->UsbControlTransfer ( io, &msg->efi, direction, 0,
data, len, &status ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s %s could not submit control transfer ",
efi_handle_name ( handle ), usb_endpoint_name ( ep ) );
DBGC ( usbio, "via %s: %s (status %04x)\n",
efi_handle_name ( usbio->interface[interface].handle ),
strerror ( rc ), status );
goto err_transfer;
}
/* Close interface */
usbio_close ( usbio, interface );
/* Complete transfer */
usb_complete ( ep, iobuf );
return;
err_transfer:
err_moronic_specification:
usbio_close ( usbio, interface );
err_open:
err_not_message:
usb_complete_err ( ep, iobuf, rc );
}
/** Control endpoint operations */
static struct usbio_operations usbio_control_operations = {
.open = usbio_control_open,
.close = usbio_control_close,
.poll = usbio_control_poll,
};
/******************************************************************************
*
* Bulk IN endpoints
*
******************************************************************************
*/
/**
* Open bulk IN endpoint
*
* @v endpoint Endpoint
* @ret rc Return status code
*/
static int usbio_bulk_in_open ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
return 0;
}
/**
* Close bulk IN endpoint
*
* @v endpoint Endpoint
*/
static void usbio_bulk_in_close ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
}
/**
* Poll bulk IN endpoint
*
* @v endpoint Endpoint
*/
static void usbio_bulk_in_poll ( struct usbio_endpoint *endpoint ) {
struct usbio_device *usbio = endpoint->usbio;
struct usb_endpoint *ep = endpoint->ep;
EFI_USB_IO_PROTOCOL *io = endpoint->io;
EFI_HANDLE handle = usbio->handle;
struct io_buffer *iobuf;
unsigned int index;
UINTN len;
UINT32 status;
EFI_STATUS efirc;
int rc;
/* Do nothing if ring is empty */
if ( endpoint->cons == endpoint->prod )
return;
/* Attempt (but do not yet consume) next transfer */
index = ( endpoint->cons % USBIO_RING_COUNT );
iobuf = endpoint->iobuf[index];
/* Construct transfer */
len = iob_len ( iobuf );
/* Upon being turned on, the EFI_USB_IO_PROTOCOL did nothing
* for several minutes before firing a small ARP packet a few
* millimetres into the ether.
*/
efirc = io->UsbBulkTransfer ( io, ep->address, iobuf->data,
&len, 1, &status );
if ( efirc == EFI_TIMEOUT )
return;
/* Consume transfer */
endpoint->cons++;
/* Check for failure */
if ( efirc != 0 ) {
rc = -EEFI ( efirc );
DBGC2 ( usbio, "USBIO %s %s could not submit bulk IN transfer: "
"%s (status %04x)\n", efi_handle_name ( handle ),
usb_endpoint_name ( ep ), strerror ( rc ), status );
usb_complete_err ( ep, iobuf, rc );
return;
}
/* Update length */
iob_put ( iobuf, ( len - iob_len ( iobuf ) ) );
/* Complete transfer */
usb_complete ( ep, iobuf );
}
/** Bulk endpoint operations */
static struct usbio_operations usbio_bulk_in_operations = {
.open = usbio_bulk_in_open,
.close = usbio_bulk_in_close,
.poll = usbio_bulk_in_poll,
};
/******************************************************************************
*
* Bulk OUT endpoints
*
******************************************************************************
*/
/**
* Open bulk OUT endpoint
*
* @v endpoint Endpoint
* @ret rc Return status code
*/
static int usbio_bulk_out_open ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
return 0;
}
/**
* Close bulk OUT endpoint
*
* @v endpoint Endpoint
*/
static void usbio_bulk_out_close ( struct usbio_endpoint *endpoint __unused ) {
/* Nothing to do */
}
/**
* Poll bulk OUT endpoint
*
* @v endpoint Endpoint
*/
static void usbio_bulk_out_poll ( struct usbio_endpoint *endpoint ) {
struct usbio_device *usbio = endpoint->usbio;
struct usb_endpoint *ep = endpoint->ep;
EFI_USB_IO_PROTOCOL *io = endpoint->io;
EFI_HANDLE handle = usbio->handle;
struct io_buffer *iobuf;
unsigned int index;
unsigned int flags;
UINTN len;
UINT32 status;
EFI_STATUS efirc;
int rc;
/* Do nothing if ring is empty */
if ( endpoint->cons == endpoint->prod )
return;
/* Consume next transfer */
index = ( endpoint->cons++ % USBIO_RING_COUNT );
iobuf = endpoint->iobuf[index];
flags = endpoint->flags[index];
/* Construct transfer */
len = iob_len ( iobuf );
/* Submit transfer */
if ( ( efirc = io->UsbBulkTransfer ( io, ep->address, iobuf->data,
&len, 0, &status ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s %s could not submit bulk OUT transfer: "
"%s (status %04x)\n", efi_handle_name ( handle ),
usb_endpoint_name ( ep ), strerror ( rc ), status );
goto err;
}
/* Update length */
iob_put ( iobuf, ( len - iob_len ( iobuf ) ) );
/* Submit zero-length transfer if required */
len = 0;
if ( ( flags & USBIO_ZLEN ) &&
( efirc = io->UsbBulkTransfer ( io, ep->address, NULL, &len, 0,
&status ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s %s could not submit zero-length "
"transfer: %s (status %04x)\n",
efi_handle_name ( handle ), usb_endpoint_name ( ep ),
strerror ( rc ), status );
goto err;
}
/* Complete transfer */
usb_complete ( ep, iobuf );
return;
err:
usb_complete_err ( ep, iobuf, rc );
}
/** Bulk endpoint operations */
static struct usbio_operations usbio_bulk_out_operations = {
.open = usbio_bulk_out_open,
.close = usbio_bulk_out_close,
.poll = usbio_bulk_out_poll,
};
/******************************************************************************
*
* Interrupt endpoints
*
******************************************************************************
*
* The EFI_USB_IO_PROTOCOL provides two ways to interact with
* interrupt endpoints, neither of which naturally model the hardware
* interaction. The UsbSyncInterruptTransfer() method allows imposes
* a 1ms overhead for every interrupt transfer (which could result in
* up to a 50% decrease in overall throughput for the device). The
* UsbAsyncInterruptTransfer() method provides no way for us to
* prevent transfers when no I/O buffers are available.
*
* We work around this design by utilising a small, fixed ring buffer
* into which the interrupt callback delivers the data. This aims to
* provide buffer space even if no I/O buffers have yet been enqueued.
* The scheme is not guaranteed since the fixed ring buffer may also
* become full. However:
*
* - devices which send a constant stream of interrupts (and which
* therefore might exhaust the fixed ring buffer) tend to be
* responding to every interrupt request, and can tolerate lost
* packets, and
*
* - devices which cannot tolerate lost interrupt packets tend to send
* only a few small messages.
*
* The scheme should therefore work in practice.
*/
/**
* Interrupt endpoint callback
*
* @v data Received data
* @v len Length of received data
* @v context Callback context
* @v status Transfer status
* @ret efirc EFI status code
*/
static EFI_STATUS EFIAPI usbio_interrupt_callback ( VOID *data, UINTN len,
VOID *context,
UINT32 status ) {
struct usbio_interrupt_ring *intr = context;
struct usbio_endpoint *endpoint = intr->endpoint;
struct usbio_device *usbio = endpoint->usbio;
struct usb_endpoint *ep = endpoint->ep;
EFI_HANDLE handle = usbio->handle;
unsigned int fill;
unsigned int index;
/* Sanity check */
assert ( len <= ep->mtu );
/* Do nothing if ring is empty */
fill = ( intr->prod - intr->cons );
if ( fill >= USBIO_INTR_COUNT ) {
DBGC ( usbio, "USBIO %s %s dropped interrupt completion\n",
efi_handle_name ( handle ), usb_endpoint_name ( ep ) );
return 0;
}
/* Do nothing if transfer was unsuccessful */
if ( status != 0 ) {
DBGC ( usbio, "USBIO %s %s interrupt completion status %04x\n",
efi_handle_name ( handle ), usb_endpoint_name ( ep ),
status );
return 0; /* Unclear what failure actually means here */
}
/* Copy data to buffer and increment producer counter */
index = ( intr->prod % USBIO_INTR_COUNT );
memcpy ( intr->data[index], data, len );
intr->len[index] = len;
intr->prod++;
return 0;
}
/**
* Open interrupt endpoint
*
* @v endpoint Endpoint
* @ret rc Return status code
*/
static int usbio_interrupt_open ( struct usbio_endpoint *endpoint ) {
struct usbio_device *usbio = endpoint->usbio;
struct usbio_interrupt_ring *intr;
struct usb_endpoint *ep = endpoint->ep;
EFI_USB_IO_PROTOCOL *io = endpoint->io;
EFI_HANDLE handle = usbio->handle;
unsigned int interval;
unsigned int i;
void *data;
EFI_STATUS efirc;
int rc;
/* Allocate interrupt ring buffer */
intr = zalloc ( sizeof ( *intr ) + ( USBIO_INTR_COUNT * ep->mtu ) );
if ( ! intr ) {
rc = -ENOMEM;
goto err_alloc;
}
endpoint->intr = intr;
intr->endpoint = endpoint;
data = ( ( ( void * ) intr ) + sizeof ( *intr ) );
for ( i = 0 ; i < USBIO_INTR_COUNT ; i++ ) {
intr->data[i] = data;
data += ep->mtu;
}
/* Determine polling interval */
interval = ( ep->interval >> 3 /* microframes -> milliseconds */ );
if ( ! interval )
interval = 1; /* May not be zero */
/* Add to periodic schedule */
if ( ( efirc = io->UsbAsyncInterruptTransfer ( io, ep->address, TRUE,
interval, ep->mtu,
usbio_interrupt_callback,
intr ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s %s could not schedule interrupt "
"transfer: %s\n", efi_handle_name ( handle ),
usb_endpoint_name ( ep ), strerror ( rc ) );
goto err_schedule;
}
return 0;
io->UsbAsyncInterruptTransfer ( io, ep->address, FALSE, 0, 0,
NULL, NULL );
err_schedule:
free ( intr );
err_alloc:
return rc;
}
/**
* Close interrupt endpoint
*
* @v endpoint Endpoint
*/
static void usbio_interrupt_close ( struct usbio_endpoint *endpoint ) {
struct usb_endpoint *ep = endpoint->ep;
EFI_USB_IO_PROTOCOL *io = endpoint->io;
/* Remove from periodic schedule */
io->UsbAsyncInterruptTransfer ( io, ep->address, FALSE, 0, 0,
NULL, NULL );
/* Free interrupt ring buffer */
free ( endpoint->intr );
}
/**
* Poll interrupt endpoint
*
* @v endpoint Endpoint
*/
static void usbio_interrupt_poll ( struct usbio_endpoint *endpoint ) {
struct usbio_interrupt_ring *intr = endpoint->intr;
struct usb_endpoint *ep = endpoint->ep;
struct io_buffer *iobuf;
unsigned int index;
unsigned int intr_index;
size_t len;
/* Do nothing if ring is empty */
if ( endpoint->cons == endpoint->prod )
return;
/* Do nothing if interrupt ring is empty */
if ( intr->cons == intr->prod )
return;
/* Consume next transfer */
index = ( endpoint->cons++ % USBIO_RING_COUNT );
iobuf = endpoint->iobuf[index];
/* Populate I/O buffer */
intr_index = ( intr->cons++ % USBIO_INTR_COUNT );
len = intr->len[intr_index];
assert ( len <= iob_len ( iobuf ) );
iob_put ( iobuf, ( len - iob_len ( iobuf ) ) );
memcpy ( iobuf->data, intr->data[intr_index], len );
/* Complete transfer */
usb_complete ( ep, iobuf );
}
/** Interrupt endpoint operations */
static struct usbio_operations usbio_interrupt_operations = {
.open = usbio_interrupt_open,
.close = usbio_interrupt_close,
.poll = usbio_interrupt_poll,
};
/******************************************************************************
*
* Endpoint operations
*
******************************************************************************
*/
/**
* Open endpoint
*
* @v ep USB endpoint
* @ret rc Return status code
*/
static int usbio_endpoint_open ( struct usb_endpoint *ep ) {
struct usb_bus *bus = ep->usb->port->hub->bus;
struct usbio_device *usbio = usb_bus_get_hostdata ( bus );
struct usbio_endpoint *endpoint;
EFI_HANDLE handle = usbio->handle;
unsigned int attr = ( ep->attributes & USB_ENDPOINT_ATTR_TYPE_MASK );
int interface;
int rc;
/* Allocate and initialise structure */
endpoint = zalloc ( sizeof ( *endpoint ) );
if ( ! endpoint ) {
rc = -ENOMEM;
goto err_alloc;
}
usb_endpoint_set_hostdata ( ep, endpoint );
endpoint->usbio = usbio;
endpoint->ep = ep;
/* Identify endpoint operations */
if ( attr == USB_ENDPOINT_ATTR_CONTROL ) {
endpoint->op = &usbio_control_operations;
} else if ( attr == USB_ENDPOINT_ATTR_BULK ) {
endpoint->op = ( ( ep->address & USB_DIR_IN ) ?
&usbio_bulk_in_operations :
&usbio_bulk_out_operations );
} else if ( attr == USB_ENDPOINT_ATTR_INTERRUPT ) {
endpoint->op = &usbio_interrupt_operations;
} else {
rc = -ENOTSUP;
goto err_operations;
}
/* Identify interface for this endpoint */
interface = usbio_interface ( usbio, ep );
if ( interface < 0 ) {
rc = interface;
goto err_interface;
}
endpoint->interface = interface;
/* Open interface */
if ( ( rc = usbio_open ( usbio, interface ) ) != 0 )
goto err_open_interface;
endpoint->handle = usbio->interface[interface].handle;
endpoint->io = usbio->interface[interface].io;
DBGC ( usbio, "USBIO %s %s using ",
efi_handle_name ( handle ), usb_endpoint_name ( ep ) );
DBGC ( usbio, "%s\n", efi_handle_name ( endpoint->handle ) );
/* Open endpoint */
if ( ( rc = endpoint->op->open ( endpoint ) ) != 0 )
goto err_open_endpoint;
/* Add to list of endpoints */
list_add_tail ( &endpoint->list, &usbio->endpoints );
return 0;
list_del ( &endpoint->list );
endpoint->op->close ( endpoint );
err_open_endpoint:
usbio_close ( usbio, interface );
err_open_interface:
err_interface:
err_operations:
free ( endpoint );
err_alloc:
return rc;
}
/**
* Close endpoint
*
* @v ep USB endpoint
*/
static void usbio_endpoint_close ( struct usb_endpoint *ep ) {
struct usbio_endpoint *endpoint = usb_endpoint_get_hostdata ( ep );
struct usbio_device *usbio = endpoint->usbio;
struct io_buffer *iobuf;
unsigned int index;
/* Remove from list of endpoints */
list_del ( &endpoint->list );
/* Close endpoint */
endpoint->op->close ( endpoint );
/* Close interface */
usbio_close ( usbio, endpoint->interface );
/* Cancel any incomplete transfers */
while ( endpoint->cons != endpoint->prod ) {
index = ( endpoint->cons++ % USBIO_RING_COUNT );
iobuf = endpoint->iobuf[index];
usb_complete_err ( ep, iobuf, -ECANCELED );
}
/* Free endpoint */
free ( endpoint );
}
/**
* Reset endpoint
*
* @v ep USB endpoint
* @ret rc Return status code
*/
static int usbio_endpoint_reset ( struct usb_endpoint *ep __unused ) {
/* Nothing to do */
return 0;
}
/**
* Update MTU
*
* @v ep USB endpoint
* @ret rc Return status code
*/
static int usbio_endpoint_mtu ( struct usb_endpoint *ep __unused ) {
/* Nothing to do */
return 0;
}
/**
* Enqueue transfer
*
* @v ep USB endpoint
* @v iobuf I/O buffer
* @v flags Transfer flags
* @ret rc Return status code
*/
static int usbio_endpoint_enqueue ( struct usb_endpoint *ep,
struct io_buffer *iobuf,
unsigned int flags ) {
struct usbio_endpoint *endpoint = usb_endpoint_get_hostdata ( ep );
unsigned int fill;
unsigned int index;
/* Fail if transfer ring is full */
fill = ( endpoint->prod - endpoint->cons );
if ( fill >= USBIO_RING_COUNT )
return -ENOBUFS;
/* Add to ring */
index = ( endpoint->prod++ % USBIO_RING_COUNT );
endpoint->iobuf[index] = iobuf;
endpoint->flags[index] = flags;
return 0;
}
/**
* Enqueue message transfer
*
* @v ep USB endpoint
* @v iobuf I/O buffer
* @ret rc Return status code
*/
static int usbio_endpoint_message ( struct usb_endpoint *ep,
struct io_buffer *iobuf ) {
/* Enqueue transfer */
return usbio_endpoint_enqueue ( ep, iobuf, USBIO_MESSAGE );
}
/**
* Enqueue stream transfer
*
* @v ep USB endpoint
* @v iobuf I/O buffer
* @v zlp Append a zero-length packet
* @ret rc Return status code
*/
static int usbio_endpoint_stream ( struct usb_endpoint *ep,
struct io_buffer *iobuf, int zlp ) {
/* Enqueue transfer */
return usbio_endpoint_enqueue ( ep, iobuf, ( zlp ? USBIO_ZLEN : 0 ) );
}
/**
* Poll for completions
*
* @v endpoint Endpoint
*/
static void usbio_endpoint_poll ( struct usbio_endpoint *endpoint ) {
/* Poll endpoint */
endpoint->op->poll ( endpoint );
}
/******************************************************************************
*
* Device operations
*
******************************************************************************
*/
/**
* Open device
*
* @v usb USB device
* @ret rc Return status code
*/
static int usbio_device_open ( struct usb_device *usb ) {
struct usbio_device *usbio =
usb_bus_get_hostdata ( usb->port->hub->bus );
usb_set_hostdata ( usb, usbio );
return 0;
}
/**
* Close device
*
* @v usb USB device
*/
static void usbio_device_close ( struct usb_device *usb __unused ) {
/* Nothing to do */
}
/**
* Assign device address
*
* @v usb USB device
* @ret rc Return status code
*/
static int usbio_device_address ( struct usb_device *usb __unused ) {
/* Nothing to do */
return 0;
}
/******************************************************************************
*
* Hub operations
*
******************************************************************************
*/
/**
* Open hub
*
* @v hub USB hub
* @ret rc Return status code
*/
static int usbio_hub_open ( struct usb_hub *hub ) {
/* Disallow non-root hubs */
if ( hub->usb )
return -ENOTSUP;
/* Nothing to do */
return 0;
}
/**
* Close hub
*
* @v hub USB hub
*/
static void usbio_hub_close ( struct usb_hub *hub __unused ) {
/* Nothing to do */
}
/******************************************************************************
*
* Root hub operations
*
******************************************************************************
*/
/**
* Open root hub
*
* @v hub USB hub
* @ret rc Return status code
*/
static int usbio_root_open ( struct usb_hub *hub __unused ) {
/* Nothing to do */
return 0;
}
/**
* Close root hub
*
* @v hub USB hub
*/
static void usbio_root_close ( struct usb_hub *hub __unused ) {
/* Nothing to do */
}
/**
* Enable port
*
* @v hub USB hub
* @v port USB port
* @ret rc Return status code
*/
static int usbio_root_enable ( struct usb_hub *hub __unused,
struct usb_port *port __unused ) {
/* Nothing to do */
return 0;
}
/**
* Disable port
*
* @v hub USB hub
* @v port USB port
* @ret rc Return status code
*/
static int usbio_root_disable ( struct usb_hub *hub __unused,
struct usb_port *port __unused ) {
/* Nothing to do */
return 0;
}
/**
* Update root hub port speed
*
* @v hub USB hub
* @v port USB port
* @ret rc Return status code
*/
static int usbio_root_speed ( struct usb_hub *hub __unused,
struct usb_port *port ) {
/* Not actually exposed via EFI_USB_IO_PROTOCOL */
port->speed = USB_SPEED_HIGH;
return 0;
}
/**
* Clear transaction translator buffer
*
* @v hub USB hub
* @v port USB port
* @v ep USB endpoint
* @ret rc Return status code
*/
static int usbio_root_clear_tt ( struct usb_hub *hub __unused,
struct usb_port *port __unused,
struct usb_endpoint *ep __unused ) {
/* Should never be called; this is a root hub */
return -ENOTSUP;
}
/******************************************************************************
*
* Bus operations
*
******************************************************************************
*/
/**
* Open USB bus
*
* @v bus USB bus
* @ret rc Return status code
*/
static int usbio_bus_open ( struct usb_bus *bus __unused ) {
/* Nothing to do */
return 0;
}
/**
* Close USB bus
*
* @v bus USB bus
*/
static void usbio_bus_close ( struct usb_bus *bus __unused ) {
/* Nothing to do */
}
/**
* Poll USB bus
*
* @v bus USB bus
*/
static void usbio_bus_poll ( struct usb_bus *bus ) {
struct usbio_device *usbio = usb_bus_get_hostdata ( bus );
struct usbio_endpoint *endpoint;
/* Poll all endpoints. We trust that completion handlers are
* minimal and will not do anything that could plausibly
* affect the endpoint list itself.
*/
list_for_each_entry ( endpoint, &usbio->endpoints, list )
usbio_endpoint_poll ( endpoint );
}
/******************************************************************************
*
* EFI driver interface
*
******************************************************************************
*/
/** USB I/O host controller driver operations */
static struct usb_host_operations usbio_operations = {
.endpoint = {
.open = usbio_endpoint_open,
.close = usbio_endpoint_close,
.reset = usbio_endpoint_reset,
.mtu = usbio_endpoint_mtu,
.message = usbio_endpoint_message,
.stream = usbio_endpoint_stream,
},
.device = {
.open = usbio_device_open,
.close = usbio_device_close,
.address = usbio_device_address,
},
.bus = {
.open = usbio_bus_open,
.close = usbio_bus_close,
.poll = usbio_bus_poll,
},
.hub = {
.open = usbio_hub_open,
.close = usbio_hub_close,
},
.root = {
.open = usbio_root_open,
.close = usbio_root_close,
.enable = usbio_root_enable,
.disable = usbio_root_disable,
.speed = usbio_root_speed,
.clear_tt = usbio_root_clear_tt,
},
};
/**
* Check to see if driver supports a device
*
* @v handle EFI device handle
* @ret rc Return status code
*/
static int usbio_supported ( EFI_HANDLE handle ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
EFI_USB_DEVICE_DESCRIPTOR device;
EFI_USB_INTERFACE_DESCRIPTOR interface;
struct usb_function_descriptor desc;
struct usb_driver *driver;
struct usb_device_id *id;
union {
void *interface;
EFI_USB_IO_PROTOCOL *io;
} usb;
EFI_STATUS efirc;
int rc;
/* Get protocol */
if ( ( efirc = bs->OpenProtocol ( handle, &efi_usb_io_protocol_guid,
&usb.interface, efi_image_handle,
handle,
EFI_OPEN_PROTOCOL_GET_PROTOCOL ))!=0){
rc = -EEFI ( efirc );
DBGCP ( handle, "USB %s is not a USB device\n",
efi_handle_name ( handle ) );
goto err_open_protocol;
}
/* Get device descriptor */
if ( ( efirc = usb.io->UsbGetDeviceDescriptor ( usb.io,
&device ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( handle, "USB %s could not get device descriptor: "
"%s\n", efi_handle_name ( handle ), strerror ( rc ) );
goto err_get_device_descriptor;
}
memset ( &desc, 0, sizeof ( desc ) );
desc.vendor = device.IdVendor;
desc.product = device.IdProduct;
/* Get interface descriptor */
if ( ( efirc = usb.io->UsbGetInterfaceDescriptor ( usb.io,
&interface ) ) !=0){
rc = -EEFI ( efirc );
DBGC ( handle, "USB %s could not get interface descriptor: "
"%s\n", efi_handle_name ( handle ), strerror ( rc ) );
goto err_get_interface_descriptor;
}
desc.class.class.class = interface.InterfaceClass;
desc.class.class.subclass = interface.InterfaceSubClass;
desc.class.class.protocol = interface.InterfaceProtocol;
/* Look for a driver for this interface */
driver = usb_find_driver ( &desc, &id );
if ( ! driver ) {
rc = -ENOTSUP;
goto err_unsupported;
}
/* Success */
rc = 0;
err_unsupported:
err_get_interface_descriptor:
err_get_device_descriptor:
bs->CloseProtocol ( handle, &efi_usb_io_protocol_guid,
efi_image_handle, handle );
err_open_protocol:
return rc;
}
/**
* Fetch configuration descriptor
*
* @v usbio USB I/O device
* @ret rc Return status code
*/
static int usbio_config ( struct usbio_device *usbio ) {
EFI_HANDLE handle = usbio->handle;
EFI_USB_IO_PROTOCOL *io = usbio->io;
EFI_USB_DEVICE_DESCRIPTOR device;
EFI_USB_CONFIG_DESCRIPTOR partial;
union {
struct usb_setup_packet setup;
EFI_USB_DEVICE_REQUEST efi;
} msg;
UINT32 status;
size_t len;
unsigned int count;
unsigned int value;
unsigned int i;
EFI_STATUS efirc;
int rc;
/* Get device descriptor */
if ( ( efirc = io->UsbGetDeviceDescriptor ( io, &device ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USB %s could not get device descriptor: "
"%s\n", efi_handle_name ( handle ), strerror ( rc ) );
goto err_get_device_descriptor;
}
count = device.NumConfigurations;
/* Get current partial configuration descriptor */
if ( ( efirc = io->UsbGetConfigDescriptor ( io, &partial ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USB %s could not get partial configuration "
"descriptor: %s\n", efi_handle_name ( handle ),
strerror ( rc ) );
goto err_get_configuration_descriptor;
}
len = le16_to_cpu ( partial.TotalLength );
/* Allocate configuration descriptor */
usbio->config = malloc ( len );
if ( ! usbio->config ) {
rc = -ENOMEM;
goto err_alloc;
}
/* There is, naturally, no way to retrieve the entire device
* configuration descriptor via EFI_USB_IO_PROTOCOL. Worse,
* there is no way to even retrieve the index of the current
* configuration descriptor. We have to iterate over all
* possible configuration descriptors looking for the
* descriptor that matches the current configuration value.
*/
for ( i = 0 ; i < count ; i++ ) {
/* Construct request */
msg.setup.request = cpu_to_le16 ( USB_GET_DESCRIPTOR );
value = ( ( USB_CONFIGURATION_DESCRIPTOR << 8 ) | i );
msg.setup.value = cpu_to_le16 ( value );
msg.setup.index = 0;
msg.setup.len = cpu_to_le16 ( len );
/* Get full configuration descriptor */
if ( ( efirc = io->UsbControlTransfer ( io, &msg.efi,
EfiUsbDataIn, 0,
usbio->config, len,
&status ) ) != 0 ) {
rc = -EEFI ( efirc );
DBGC ( usbio, "USB %s could not get configuration %d "
"descriptor: %s\n", efi_handle_name ( handle ),
i, strerror ( rc ) );
goto err_control_transfer;
}
/* Ignore unless this is the current configuration */
if ( usbio->config->config != partial.ConfigurationValue )
continue;
/* Check length */
if ( le16_to_cpu ( usbio->config->len ) != len ) {
DBGC ( usbio, "USB %s configuration descriptor length "
"mismatch\n", efi_handle_name ( handle ) );
rc = -EINVAL;
goto err_len;
}
return 0;
}
/* No match found */
DBGC ( usbio, "USB %s could not find current configuration "
"descriptor\n", efi_handle_name ( handle ) );
rc = -ENOENT;
err_len:
err_control_transfer:
free ( usbio->config );
err_alloc:
err_get_configuration_descriptor:
err_get_device_descriptor:
return rc;
}
/**
* Construct device path for opening other interfaces
*
* @v usbio USB I/O device
* @ret rc Return status code
*/
static int usbio_path ( struct usbio_device *usbio ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
EFI_HANDLE handle = usbio->handle;
EFI_DEVICE_PATH_PROTOCOL *path;
EFI_DEVICE_PATH_PROTOCOL *end;
USB_DEVICE_PATH *usbpath;
union {
void *interface;
EFI_DEVICE_PATH_PROTOCOL *path;
} u;
size_t len;
EFI_STATUS efirc;
int rc;
/* Open device path protocol */
if ( ( efirc = bs->OpenProtocol ( handle,
&efi_device_path_protocol_guid,
&u.interface, efi_image_handle,
handle,
EFI_OPEN_PROTOCOL_GET_PROTOCOL ))!=0){
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s cannot open device path protocol: "
"%s\n", efi_handle_name ( handle ), strerror ( rc ) );
goto err_open_protocol;
}
path = u.interface;
/* Locate end of device path and sanity check */
len = efi_devpath_len ( path );
if ( len < sizeof ( *usbpath ) ) {
DBGC ( usbio, "USBIO %s underlength device path\n",
efi_handle_name ( handle ) );
rc = -EINVAL;
goto err_underlength;
}
usbpath = ( ( ( void * ) path ) + len - sizeof ( *usbpath ) );
if ( ! ( ( usbpath->Header.Type == MESSAGING_DEVICE_PATH ) &&
( usbpath->Header.SubType == MSG_USB_DP ) ) ) {
DBGC ( usbio, "USBIO %s not a USB device path: ",
efi_handle_name ( handle ) );
DBGC ( usbio, "%s\n", efi_devpath_text ( path ) );
rc = -EINVAL;
goto err_non_usb;
}
/* Allocate copy of device path */
usbio->path = malloc ( len + sizeof ( *end ) );
if ( ! usbio->path ) {
rc = -ENOMEM;
goto err_alloc;
}
memcpy ( usbio->path, path, ( len + sizeof ( *end ) ) );
usbio->usbpath = ( ( ( void * ) usbio->path ) + len -
sizeof ( *usbpath ) );
/* Close protocol */
bs->CloseProtocol ( handle, &efi_device_path_protocol_guid,
efi_image_handle, handle );
return 0;
free ( usbio->path );
err_alloc:
err_non_usb:
err_underlength:
bs->CloseProtocol ( handle, &efi_device_path_protocol_guid,
efi_image_handle, handle );
err_open_protocol:
return rc;
}
/**
* Construct interface list
*
* @v usbio USB I/O device
* @ret rc Return status code
*/
static int usbio_interfaces ( struct usbio_device *usbio ) {
EFI_HANDLE handle = usbio->handle;
EFI_USB_IO_PROTOCOL *io = usbio->io;
EFI_USB_INTERFACE_DESCRIPTOR interface;
unsigned int first;
unsigned int count;
EFI_STATUS efirc;
int rc;
/* Get interface descriptor */
if ( ( efirc = io->UsbGetInterfaceDescriptor ( io, &interface ) ) != 0){
rc = -EEFI ( efirc );
DBGC ( usbio, "USB %s could not get interface descriptor: "
"%s\n", efi_handle_name ( handle ), strerror ( rc ) );
goto err_get_interface_descriptor;
}
/* Record first interface number */
first = interface.InterfaceNumber;
count = usbio->config->interfaces;
assert ( first < count );
usbio->first = first;
/* Allocate interface list */
usbio->interface = zalloc ( count * sizeof ( usbio->interface[0] ) );
if ( ! usbio->interface ) {
rc = -ENOMEM;
goto err_alloc;
}
/* Use already-opened protocol for control transfers and for
* the first interface.
*/
usbio->interface[0].handle = handle;
usbio->interface[0].io = io;
usbio->interface[0].count = 1;
usbio->interface[first].handle = handle;
usbio->interface[first].io = io;
usbio->interface[first].count = 1;
return 0;
free ( usbio->interface );
err_alloc:
err_get_interface_descriptor:
return rc;
}
/**
* Attach driver to device
*
* @v efidev EFI device
* @ret rc Return status code
*/
static int usbio_start ( struct efi_device *efidev ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
EFI_HANDLE handle = efidev->device;
struct usbio_device *usbio;
struct usb_port *port;
union {
void *interface;
EFI_USB_IO_PROTOCOL *io;
} u;
EFI_STATUS efirc;
int rc;
/* Allocate and initialise structure */
usbio = zalloc ( sizeof ( *usbio ) );
if ( ! usbio ) {
rc = -ENOMEM;
goto err_alloc;
}
efidev_set_drvdata ( efidev, usbio );
usbio->handle = handle;
INIT_LIST_HEAD ( &usbio->endpoints );
/* Open USB I/O protocol */
if ( ( efirc = bs->OpenProtocol ( handle, &efi_usb_io_protocol_guid,
&u.interface, efi_image_handle,
handle,
( EFI_OPEN_PROTOCOL_BY_DRIVER |
EFI_OPEN_PROTOCOL_EXCLUSIVE )))!=0){
rc = -EEFI ( efirc );
DBGC ( usbio, "USBIO %s cannot open USB I/O protocol: %s\n",
efi_handle_name ( handle ), strerror ( rc ) );
DBGC_EFI_OPENERS ( usbio, handle, &efi_usb_io_protocol_guid );
goto err_open_usbio;
}
usbio->io = u.io;
/* Describe generic device */
efi_device_info ( handle, "USB", &usbio->dev );
usbio->dev.parent = &efidev->dev;
list_add ( &usbio->dev.siblings, &efidev->dev.children );
INIT_LIST_HEAD ( &usbio->dev.children );
/* Fetch configuration descriptor */
if ( ( rc = usbio_config ( usbio ) ) != 0 )
goto err_config;
/* Construct device path */
if ( ( rc = usbio_path ( usbio ) ) != 0 )
goto err_path;
/* Construct interface list */
if ( ( rc = usbio_interfaces ( usbio ) ) != 0 )
goto err_interfaces;
/* Allocate USB bus */
usbio->bus = alloc_usb_bus ( &usbio->dev, 1 /* single "port" */,
USBIO_MTU, &usbio_operations );
if ( ! usbio->bus ) {
rc = -ENOMEM;
goto err_alloc_bus;
}
usb_bus_set_hostdata ( usbio->bus, usbio );
usb_hub_set_drvdata ( usbio->bus->hub, usbio );
/* Set port protocol */
port = usb_port ( usbio->bus->hub, 1 );
port->protocol = USB_PROTO_2_0;
/* Register USB bus */
if ( ( rc = register_usb_bus ( usbio->bus ) ) != 0 )
goto err_register;
return 0;
unregister_usb_bus ( usbio->bus );
err_register:
free_usb_bus ( usbio->bus );
err_alloc_bus:
free ( usbio->interface );
err_interfaces:
free ( usbio->path );
err_path:
free ( usbio->config );
err_config:
list_del ( &usbio->dev.siblings );
bs->CloseProtocol ( handle, &efi_usb_io_protocol_guid,
efi_image_handle, handle );
err_open_usbio:
free ( usbio );
err_alloc:
return rc;
}
/**
* Detach driver from device
*
* @v efidev EFI device
*/
static void usbio_stop ( struct efi_device *efidev ) {
EFI_BOOT_SERVICES *bs = efi_systab->BootServices;
EFI_HANDLE handle = efidev->device;
struct usbio_device *usbio = efidev_get_drvdata ( efidev );
unregister_usb_bus ( usbio->bus );
free_usb_bus ( usbio->bus );
free ( usbio->interface );
free ( usbio->path );
free ( usbio->config );
list_del ( &usbio->dev.siblings );
bs->CloseProtocol ( handle, &efi_usb_io_protocol_guid,
efi_image_handle, handle );
free ( usbio );
}
/** EFI USB I/O driver */
struct efi_driver usbio_driver __efi_driver ( EFI_DRIVER_NORMAL ) = {
.name = "USBIO",
.supported = usbio_supported,
.start = usbio_start,
.stop = usbio_stop,
};
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