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// Main code for handling USB controllers and devices.
//
// Copyright (C) 2009-2013 Kevin O'Connor <kevin@koconnor.net>
//
// This file may be distributed under the terms of the GNU LGPLv3 license.
#include "biosvar.h" // GET_GLOBAL
#include "config.h" // CONFIG_*
#include "malloc.h" // free
#include "output.h" // dprintf
#include "string.h" // memset
#include "usb.h" // struct usb_s
#include "usb-ehci.h" // ehci_setup
#include "usb-xhci.h" // xhci_setup
#include "usb-hid.h" // usb_keyboard_setup
#include "usb-hub.h" // usb_hub_setup
#include "usb-msc.h" // usb_msc_setup
#include "usb-ohci.h" // ohci_setup
#include "usb-uas.h" // usb_uas_setup
#include "usb-uhci.h" // uhci_setup
#include "util.h" // msleep
#include "x86.h" // __fls
/****************************************************************
* Controller function wrappers
****************************************************************/
// Allocate, update, or free a usb pipe.
static struct usb_pipe *
usb_realloc_pipe(struct usbdevice_s *usbdev, struct usb_pipe *pipe
, struct usb_endpoint_descriptor *epdesc)
{
switch (usbdev->hub->cntl->type) {
default:
case USB_TYPE_UHCI:
return uhci_realloc_pipe(usbdev, pipe, epdesc);
case USB_TYPE_OHCI:
return ohci_realloc_pipe(usbdev, pipe, epdesc);
case USB_TYPE_EHCI:
return ehci_realloc_pipe(usbdev, pipe, epdesc);
case USB_TYPE_XHCI:
return xhci_realloc_pipe(usbdev, pipe, epdesc);
}
}
// Send a message on a control pipe using the default control descriptor.
static int
usb_send_pipe(struct usb_pipe *pipe_fl, int dir, const void *cmd
, void *data, int datasize)
{
switch (GET_LOWFLAT(pipe_fl->type)) {
default:
case USB_TYPE_UHCI:
return uhci_send_pipe(pipe_fl, dir, cmd, data, datasize);
case USB_TYPE_OHCI:
if (MODESEGMENT)
return -1;
return ohci_send_pipe(pipe_fl, dir, cmd, data, datasize);
case USB_TYPE_EHCI:
return ehci_send_pipe(pipe_fl, dir, cmd, data, datasize);
case USB_TYPE_XHCI:
if (MODESEGMENT)
return -1;
return xhci_send_pipe(pipe_fl, dir, cmd, data, datasize);
}
}
int
usb_poll_intr(struct usb_pipe *pipe_fl, void *data)
{
ASSERT16();
switch (GET_LOWFLAT(pipe_fl->type)) {
default:
case USB_TYPE_UHCI:
return uhci_poll_intr(pipe_fl, data);
case USB_TYPE_OHCI:
return ohci_poll_intr(pipe_fl, data);
case USB_TYPE_EHCI:
return ehci_poll_intr(pipe_fl, data);
case USB_TYPE_XHCI: ;
extern void _cfunc32flat_xhci_poll_intr(void);
return call32_params(_cfunc32flat_xhci_poll_intr, (u32)pipe_fl
, (u32)MAKE_FLATPTR(GET_SEG(SS), (u32)data), 0, -1);
}
}
int usb_32bit_pipe(struct usb_pipe *pipe_fl)
{
return (CONFIG_USB_XHCI && GET_LOWFLAT(pipe_fl->type) == USB_TYPE_XHCI)
|| (CONFIG_USB_OHCI && GET_LOWFLAT(pipe_fl->type) == USB_TYPE_OHCI);
}
/****************************************************************
* Helper functions
****************************************************************/
// Allocate a usb pipe.
struct usb_pipe *
usb_alloc_pipe(struct usbdevice_s *usbdev
, struct usb_endpoint_descriptor *epdesc)
{
return usb_realloc_pipe(usbdev, NULL, epdesc);
}
// Free an allocated control or bulk pipe.
void
usb_free_pipe(struct usbdevice_s *usbdev, struct usb_pipe *pipe)
{
if (!pipe)
return;
usb_realloc_pipe(usbdev, pipe, NULL);
}
// Send a message to the default control pipe of a device.
int
usb_send_default_control(struct usb_pipe *pipe, const struct usb_ctrlrequest *req
, void *data)
{
return usb_send_pipe(pipe, req->bRequestType & USB_DIR_IN, req
, data, req->wLength);
}
// Send a message to a bulk endpoint
int
usb_send_bulk(struct usb_pipe *pipe_fl, int dir, void *data, int datasize)
{
return usb_send_pipe(pipe_fl, dir, NULL, data, datasize);
}
// Check if a pipe for a given controller is on the freelist
int
usb_is_freelist(struct usb_s *cntl, struct usb_pipe *pipe)
{
return pipe->cntl != cntl;
}
// Add a pipe to the controller's freelist
void
usb_add_freelist(struct usb_pipe *pipe)
{
if (!pipe)
return;
struct usb_s *cntl = pipe->cntl;
pipe->freenext = cntl->freelist;
cntl->freelist = pipe;
}
// Check for an available pipe on the freelist.
struct usb_pipe *
usb_get_freelist(struct usb_s *cntl, u8 eptype)
{
struct usb_pipe **pfree = &cntl->freelist;
for (;;) {
struct usb_pipe *pipe = *pfree;
if (!pipe)
return NULL;
if (pipe->eptype == eptype) {
*pfree = pipe->freenext;
return pipe;
}
pfree = &pipe->freenext;
}
}
// Fill "pipe" endpoint info from an endpoint descriptor.
void
usb_desc2pipe(struct usb_pipe *pipe, struct usbdevice_s *usbdev
, struct usb_endpoint_descriptor *epdesc)
{
pipe->cntl = usbdev->hub->cntl;
pipe->type = usbdev->hub->cntl->type;
pipe->ep = epdesc->bEndpointAddress & USB_ENDPOINT_NUMBER_MASK;
pipe->devaddr = usbdev->devaddr;
pipe->speed = usbdev->speed;
pipe->maxpacket = epdesc->wMaxPacketSize;
pipe->eptype = epdesc->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK;
}
// Find the exponential period of the requested interrupt end point.
int
usb_get_period(struct usbdevice_s *usbdev
, struct usb_endpoint_descriptor *epdesc)
{
int period = epdesc->bInterval;
if (usbdev->speed != USB_HIGHSPEED)
return (period <= 0) ? 0 : __fls(period);
return (period <= 4) ? 0 : period - 4;
}
// Maximum time (in ms) a data transfer should take
int
usb_xfer_time(struct usb_pipe *pipe, int datalen)
{
// Use the maximum command time (5 seconds), except for
// set_address commands where we don't want to stall the boot if
// the device doesn't actually exist. Add 100ms to account for
// any controller delays.
if (!GET_LOWFLAT(pipe->devaddr))
return USB_TIME_STATUS + 100;
return USB_TIME_COMMAND + 100;
}
// Find the first endpoint of a given type in an interface description.
struct usb_endpoint_descriptor *
usb_find_desc(struct usbdevice_s *usbdev, int type, int dir)
{
struct usb_endpoint_descriptor *epdesc = (void*)&usbdev->iface[1];
for (;;) {
if ((void*)epdesc >= (void*)usbdev->iface + usbdev->imax
|| epdesc->bDescriptorType == USB_DT_INTERFACE) {
return NULL;
}
if (epdesc->bDescriptorType == USB_DT_ENDPOINT
&& (epdesc->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == dir
&& (epdesc->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK) == type)
return epdesc;
epdesc = (void*)epdesc + epdesc->bLength;
}
}
// Get the first 8 bytes of the device descriptor.
static int
get_device_info8(struct usb_pipe *pipe, struct usb_device_descriptor *dinfo)
{
struct usb_ctrlrequest req;
req.bRequestType = USB_DIR_IN | USB_TYPE_STANDARD | USB_RECIP_DEVICE;
req.bRequest = USB_REQ_GET_DESCRIPTOR;
req.wValue = USB_DT_DEVICE<<8;
req.wIndex = 0;
req.wLength = 8;
return usb_send_default_control(pipe, &req, dinfo);
}
static struct usb_config_descriptor *
get_device_config(struct usb_pipe *pipe)
{
struct usb_config_descriptor cfg;
struct usb_ctrlrequest req;
req.bRequestType = USB_DIR_IN | USB_TYPE_STANDARD | USB_RECIP_DEVICE;
req.bRequest = USB_REQ_GET_DESCRIPTOR;
req.wValue = USB_DT_CONFIG<<8;
req.wIndex = 0;
req.wLength = sizeof(cfg);
int ret = usb_send_default_control(pipe, &req, &cfg);
if (ret)
return NULL;
void *config = malloc_tmphigh(cfg.wTotalLength);
if (!config)
return NULL;
req.wLength = cfg.wTotalLength;
ret = usb_send_default_control(pipe, &req, config);
if (ret) {
free(config);
return NULL;
}
//hexdump(config, cfg.wTotalLength);
return config;
}
static int
set_configuration(struct usb_pipe *pipe, u16 val)
{
struct usb_ctrlrequest req;
req.bRequestType = USB_DIR_OUT | USB_TYPE_STANDARD | USB_RECIP_DEVICE;
req.bRequest = USB_REQ_SET_CONFIGURATION;
req.wValue = val;
req.wIndex = 0;
req.wLength = 0;
return usb_send_default_control(pipe, &req, NULL);
}
/****************************************************************
* Initialization and enumeration
****************************************************************/
static const int speed_to_ctlsize[] = {
[ USB_FULLSPEED ] = 8,
[ USB_LOWSPEED ] = 8,
[ USB_HIGHSPEED ] = 64,
[ USB_SUPERSPEED ] = 512,
};
// Assign an address to a device in the default state on the given
// controller.
static int
usb_set_address(struct usbdevice_s *usbdev)
{
ASSERT32FLAT();
struct usb_s *cntl = usbdev->hub->cntl;
dprintf(3, "set_address %p\n", cntl);
if (cntl->maxaddr >= USB_MAXADDR)
return -1;
msleep(USB_TIME_RSTRCY);
// Create a pipe for the default address.
struct usb_endpoint_descriptor epdesc = {
.wMaxPacketSize = speed_to_ctlsize[usbdev->speed],
.bmAttributes = USB_ENDPOINT_XFER_CONTROL,
};
usbdev->defpipe = usb_alloc_pipe(usbdev, &epdesc);
if (!usbdev->defpipe)
return -1;
// Send set_address command.
struct usb_ctrlrequest req;
req.bRequestType = USB_DIR_OUT | USB_TYPE_STANDARD | USB_RECIP_DEVICE;
req.bRequest = USB_REQ_SET_ADDRESS;
req.wValue = cntl->maxaddr + 1;
req.wIndex = 0;
req.wLength = 0;
int ret = usb_send_default_control(usbdev->defpipe, &req, NULL);
if (ret) {
usb_free_pipe(usbdev, usbdev->defpipe);
return -1;
}
msleep(USB_TIME_SETADDR_RECOVERY);
cntl->maxaddr++;
usbdev->devaddr = cntl->maxaddr;
usbdev->defpipe = usb_realloc_pipe(usbdev, usbdev->defpipe, &epdesc);
if (!usbdev->defpipe)
return -1;
return 0;
}
// Called for every found device - see if a driver is available for
// this device and do setup if so.
static int
configure_usb_device(struct usbdevice_s *usbdev)
{
ASSERT32FLAT();
dprintf(3, "config_usb: %p\n", usbdev->defpipe);
// Set the max packet size for endpoint 0 of this device.
struct usb_device_descriptor dinfo;
int ret = get_device_info8(usbdev->defpipe, &dinfo);
if (ret)
return 0;
u16 maxpacket = dinfo.bMaxPacketSize0;
if (dinfo.bcdUSB >= 0x0300)
maxpacket = 1 << dinfo.bMaxPacketSize0;
dprintf(3, "device rev=%04x cls=%02x sub=%02x proto=%02x size=%d\n"
, dinfo.bcdUSB, dinfo.bDeviceClass, dinfo.bDeviceSubClass
, dinfo.bDeviceProtocol, maxpacket);
if (maxpacket < 8)
return 0;
struct usb_endpoint_descriptor epdesc = {
.wMaxPacketSize = maxpacket,
.bmAttributes = USB_ENDPOINT_XFER_CONTROL,
};
usbdev->defpipe = usb_realloc_pipe(usbdev, usbdev->defpipe, &epdesc);
if (!usbdev->defpipe)
return -1;
// Get configuration
struct usb_config_descriptor *config = get_device_config(usbdev->defpipe);
if (!config)
return 0;
// Determine if a driver exists for this device - only look at the
// first interface of the first configuration.
struct usb_interface_descriptor *iface = (void*)(&config[1]);
if (iface->bInterfaceClass != USB_CLASS_HID
&& iface->bInterfaceClass != USB_CLASS_MASS_STORAGE
&& iface->bInterfaceClass != USB_CLASS_HUB)
// Not a supported device.
goto fail;
// Set the configuration.
ret = set_configuration(usbdev->defpipe, config->bConfigurationValue);
if (ret)
goto fail;
// Configure driver.
usbdev->config = config;
usbdev->iface = iface;
usbdev->imax = (void*)config + config->wTotalLength - (void*)iface;
if (iface->bInterfaceClass == USB_CLASS_HUB)
ret = usb_hub_setup(usbdev);
else if (iface->bInterfaceClass == USB_CLASS_MASS_STORAGE) {
if (iface->bInterfaceProtocol == US_PR_BULK)
ret = usb_msc_setup(usbdev);
if (iface->bInterfaceProtocol == US_PR_UAS)
ret = usb_uas_setup(usbdev);
} else
ret = usb_hid_setup(usbdev);
if (ret)
goto fail;
free(config);
return 1;
fail:
free(config);
return 0;
}
static void
usb_hub_port_setup(void *data)
{
struct usbdevice_s *usbdev = data;
struct usbhub_s *hub = usbdev->hub;
u32 port = usbdev->port;
for (;;) {
// Detect if device present (and possibly start reset)
int ret = hub->op->detect(hub, port);
if (ret > 0)
// Device connected.
break;
if (ret < 0 || timer_check(hub->detectend))
// No device found.
goto done;
msleep(5);
}
// XXX - wait USB_TIME_ATTDB time?
// Reset port and determine device speed
mutex_lock(&hub->cntl->resetlock);
int ret = hub->op->reset(hub, port);
if (ret < 0)
// Reset failed
goto resetfail;
usbdev->speed = ret;
// Set address of port
ret = usb_set_address(usbdev);
if (ret) {
hub->op->disconnect(hub, port);
goto resetfail;
}
mutex_unlock(&hub->cntl->resetlock);
// Configure the device
int count = configure_usb_device(usbdev);
usb_free_pipe(usbdev, usbdev->defpipe);
if (!count)
hub->op->disconnect(hub, port);
hub->devcount += count;
done:
hub->threads--;
free(usbdev);
return;
resetfail:
mutex_unlock(&hub->cntl->resetlock);
goto done;
}
void
usb_enumerate(struct usbhub_s *hub)
{
u32 portcount = hub->portcount;
hub->threads = portcount;
hub->detectend = timer_calc(USB_TIME_SIGATT);
// Launch a thread for every port.
int i;
for (i=0; i<portcount; i++) {
struct usbdevice_s *usbdev = malloc_tmphigh(sizeof(*usbdev));
if (!usbdev) {
warn_noalloc();
continue;
}
memset(usbdev, 0, sizeof(*usbdev));
usbdev->hub = hub;
usbdev->port = i;
run_thread(usb_hub_port_setup, usbdev);
}
// Wait for threads to complete.
while (hub->threads)
yield();
}
void
__usb_setup(void *data)
{
dprintf(3, "init usb\n");
xhci_setup();
ehci_setup();
uhci_setup();
ohci_setup();
}
void
usb_setup(void)
{
ASSERT32FLAT();
if (! CONFIG_USB)
return;
run_thread(__usb_setup, NULL);
}
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