int main(int argc, char* argv[])
{
struct urb urb;
file = stdin;
while(init_urb(&urb))
{
parse_urb_body(&urb);
update_reports(&urb);
free_urb(&urb);
}
return 0;
}
/**
* @brief submit asynchronous urb
* @param host struct uhci_host
* @param device struct usb_device
* @param epdesc struct usb_endpoint_descriptor
* @param data void *
* @param size u16
* @param callback int *
* @param arg void*
* @param ioc int
*/
static struct usb_request_block *
uhci_submit_async(struct uhci_host *host, struct usb_device *device,
struct usb_endpoint_descriptor *epdesc,
void *data, u16 size,
int (*callback)(struct usb_host *,
struct usb_request_block *, void *),
void *arg, int ioc)
{
struct usb_request_block *urb;
size_t pktsize;
u32 lospeed = 0;
urb = uhci_create_urb(host);
if (!urb)
return (struct usb_request_block *)NULL;
if (device) {
spinlock_lock(&device->lock_dev);
init_urb(urb, device->devnum, epdesc, callback, arg);
spinlock_unlock(&device->lock_dev);
}
/* determine if we are dealing with a low speed device or not */
if (device) {
if (device->speed == UD_SPEED_UNDEF) {
u16 portsc;
ASSERT (device->portno <= UHCI_NUM_PORTS_HC);
portsc = host->portsc[(device->portno-1)];
device->speed = (portsc & UHCI_PORTSC_LOSPEED) ?
UD_SPEED_LOW : UD_SPEED_FULL;
}
lospeed = (device->speed == UD_SPEED_LOW) ? UHCI_TD_STAT_LS : 0;
}
/* create a QH */
URB_UHCI(urb)->qh = uhci_alloc_qh(host, &URB_UHCI(urb)->qh_phys);
if (!URB_UHCI(urb)->qh)
goto fail_submit_async;
URB_UHCI(urb)->qh->link = UHCI_QH_LINK_TE;
pktsize = epdesc->wMaxPacketSize;
/* buffer and TD */
if (size > 0) {
struct usb_buffer_list *b;
b = zalloc_usb_buffer_list();
b->pid = USB_PID_IN;
b->len = size;
b->vadr = (virt_t)alloc2_aligned(b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_async;
}
/* copy data if OUT direction */
if (!USB_EP_DIRECT(epdesc)) {
b->pid = USB_PID_OUT;
memcpy((void *)b->vadr, data, b->len);
}
urb->buffers = b;
}
if (device) {
spinlock_lock(&device->lock_dev);
URB_UHCI(urb)->tdm_head =
prepare_buffer_tds(host, (urb->buffers) ?
(phys32_t)urb->buffers->padr : 0U,
size, device->devnum, epdesc,
(size_t)pktsize,
UHCI_TD_STAT_AC |
UHCI_TD_STAT_SP |
lospeed |
uhci_td_maxerr(3));
spinlock_unlock(&device->lock_dev);
}
if (!URB_UHCI(urb)->tdm_head)
goto fail_submit_async;
/* link the TDs into the QH */
URB_UHCI(urb)->qh->element = URB_UHCI(urb)->tdm_head->td_phys;
/* set IOC */
if (ioc)
URB_UHCI(urb)->tdm_head->td->status |= UHCI_TD_STAT_IC;
/* set up toggles in TDs */
epdesc->toggle = uhci_fixup_toggles(URB_UHCI(urb)->tdm_head,
epdesc->toggle);
/* link the QH into the frame list */
if (uhci_activate_urb(host, urb) != URB_STATUS_RUN)
goto fail_submit_async;
URB_UHCI(urb)->tdm_acttail = NULL;
return urb;
fail_submit_async:
uhci_destroy_urb(host, urb);
return (struct usb_request_block *)NULL;
}
/**
* @brief submit the control messagie
* @param host struct uhci_host
* @param device struct usb_device
* @param endpoint u8
* @param csetup struct usb_device
* @param callback int *
* @param arg void*
* @param ioc int
*/
struct usb_request_block *
uhci_submit_control(struct usb_host *usbhc, struct usb_device *device,
u8 endpoint, u16 pktsz, struct usb_ctrl_setup *csetup,
int (*callback)(struct usb_host *,
struct usb_request_block *, void *),
void *arg, int ioc)
{
struct uhci_host *host = (struct uhci_host *)usbhc->private;
struct usb_request_block *urb;
struct usb_endpoint_descriptor *epdesc;
struct uhci_td_meta *tdm;
struct usb_buffer_list *b;
u32 lospeed = 0;
epdesc = get_edesc_by_address(device, endpoint);
if (!epdesc) {
if (endpoint != 0) {
dprintft(2, "%04x: %s: no endpoint(%d) found.\n",
host->iobase, __FUNCTION__, endpoint);
return (struct usb_request_block *)NULL;
}
/* use the default endpoint */
epdesc = &default_ep0;
}
/* determine if we are dealing with a low speed device or not */
if (device) {
if (device->speed == UD_SPEED_UNDEF) {
u16 portsc;
ASSERT (device->portno <= UHCI_NUM_PORTS_HC);
portsc = host->portsc[(device->portno-1)];
device->speed = (portsc & UHCI_PORTSC_LOSPEED) ?
UD_SPEED_LOW : UD_SPEED_FULL;
}
lospeed = (device->speed == UD_SPEED_LOW) ? UHCI_TD_STAT_LS : 0;
}
dprintft(5, "%s: epdesc->wMaxPacketSize = %d\n",
__FUNCTION__, epdesc->wMaxPacketSize);
urb = uhci_create_urb(host);
if (!urb)
return (struct usb_request_block *)NULL;
if (device) {
spinlock_lock(&device->lock_dev);
init_urb(urb, device->devnum, epdesc, callback, arg);
spinlock_unlock(&device->lock_dev);
}
/* create a QH */
URB_UHCI(urb)->qh = uhci_alloc_qh(host, &URB_UHCI(urb)->qh_phys);
if (!URB_UHCI(urb)->qh)
goto fail_submit_control;
URB_UHCI(urb)->qh->link = UHCI_QH_LINK_TE;
if (pktsz == 0)
pktsz = epdesc->wMaxPacketSize;
/* SETUP TD */
URB_UHCI(urb)->tdm_head = tdm = uhci_new_td_meta(host, NULL);
if (!tdm)
goto fail_submit_control;
URB_UHCI(urb)->qh->element =
URB_UHCI(urb)->qh_element_copy = tdm->td_phys;
b = zalloc_usb_buffer_list();
b->pid = USB_PID_SETUP;
b->len = sizeof(*csetup);
b->vadr = (virt_t)alloc2_aligned(b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_control;
}
urb->buffers = b;
memcpy((void *)b->vadr, (void *)csetup, b->len);
tdm->td->status = tdm->status_copy =
UHCI_TD_STAT_AC | lospeed | uhci_td_maxerr(3);
if (device) {
spinlock_lock(&device->lock_dev);
tdm->td->token = tdm->token_copy =
uhci_td_explen(sizeof(*csetup)) |
UHCI_TD_TOKEN_ENDPOINT(epdesc->bEndpointAddress) |
UHCI_TD_TOKEN_DEVADDRESS(device->devnum) |
UHCI_TD_TOKEN_PID_SETUP;
spinlock_unlock(&device->lock_dev);
}
tdm->td->buffer = (phys32_t)b->padr;
if (csetup->wLength > 0) {
b = zalloc_usb_buffer_list();
b->pid = USB_PID_IN;
b->len = csetup->wLength;
b->vadr = (virt_t)alloc2_aligned(b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_control;
}
b->next = urb->buffers;
urb->buffers = b;
if (device) {
spinlock_lock(&device->lock_dev);
tdm = prepare_buffer_tds(host, (phys32_t)b->padr,
b->len,
device->devnum, epdesc,
(size_t)pktsz,
UHCI_TD_STAT_AC |
UHCI_TD_STAT_SP |
lospeed |
uhci_td_maxerr(3));
spinlock_unlock(&device->lock_dev);
}
if (!tdm)
goto fail_submit_control;
dprintft(5, "%s: tdm->td_phys = %llx\n",
__FUNCTION__, tdm->td_phys);
URB_UHCI(urb)->tdm_head->next = tdm;
URB_UHCI(urb)->tdm_head->td->link = tdm->td_phys;
}
/* The 1st toggle for SETUP must be 0. */
uhci_fixup_toggles(URB_UHCI(urb)->tdm_head, epdesc->toggle);
/* append one more TD for the status stage */
for (tdm = URB_UHCI(urb)->tdm_head; tdm->next; tdm = tdm->next);
tdm->next = uhci_new_td_meta(host, NULL);
if (!tdm->next)
goto fail_submit_control;
tdm->next->td->link = UHCI_TD_LINK_TE;
tdm->next->td->status = UHCI_TD_STAT_AC | lospeed | uhci_td_maxerr(3);
if (ioc)
tdm->next->td->status |= UHCI_TD_STAT_IC;
if (device) {
spinlock_lock(&device->lock_dev);
tdm->next->td->token = uhci_td_explen(0) |
UHCI_TD_TOKEN_ENDPOINT(epdesc->bEndpointAddress) |
UHCI_TD_TOKEN_DEVADDRESS(device->devnum) |
UHCI_TD_TOKEN_DT1_TOGGLE;
spinlock_unlock(&device->lock_dev);
}
tdm->next->td->token |= (csetup->wLength > 0) ?
UHCI_TD_TOKEN_PID_OUT : UHCI_TD_TOKEN_PID_IN;
tdm->next->td->buffer = 0U;
tdm->td->link = (phys32_t)tdm->next->td_phys;
/* link the QH into the frame list */
if (uhci_activate_urb(host, urb) != URB_STATUS_RUN)
goto fail_submit_control;
URB_UHCI(urb)->tdm_acttail = NULL;
return urb;
fail_submit_control:
uhci_destroy_urb(host, urb);
return (struct usb_request_block *)NULL;
}
/**
* @brief submit asynchronous urb
* @param host struct uhci_host
* @param device struct usb_device
* @param epdesc struct usb_endpoint_descriptor
* @param data void *
* @param size u16
* @param callback int *
* @param arg void*
* @param ioc int
*/
static struct usb_request_block *
uhci_submit_async(struct uhci_host *host, struct usb_device *device,
struct usb_endpoint_descriptor *epdesc,
void *data, u16 size,
int (*callback)(struct usb_host *,
struct usb_request_block *, void *),
void *arg, int ioc)
{
struct usb_request_block *urb;
size_t pktsize;
urb = create_urb(host);
if (!urb)
return (struct usb_request_block *)NULL;
if (device){
spinlock_lock(&device->lock_dev);
init_urb(urb, device->devnum, epdesc, callback, arg);
spinlock_unlock(&device->lock_dev);
}
/* create a QH */
URB_UHCI(urb)->qh = uhci_alloc_qh(host, &URB_UHCI(urb)->qh_phys);
if (!URB_UHCI(urb)->qh)
goto fail_submit_async;
URB_UHCI(urb)->qh->link = UHCI_QH_LINK_TE;
pktsize = epdesc->wMaxPacketSize;
/* buffer and TD */
if (size > 0) {
struct usb_buffer_list *b;
b = zalloc_usb_buffer_list();
b->len = size;
b->vadr = malloc_from_pool(host->pool, b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_async;
}
/* copy data if OUT direction */
if (!USB_EP_DIRECT(epdesc))
memcpy((void *)b->vadr, data, b->len);
urb->buffers = b;
}
if (device){
spinlock_lock(&device->lock_dev);
URB_UHCI(urb)->tdm_head =
prepare_buffer_tds(host, (urb->buffers) ?
(phys32_t)urb->buffers->padr : 0U,
size, device->devnum, epdesc,
UHCI_TD_STAT_AC |
UHCI_TD_STAT_SP |
uhci_td_maxerr(3));
spinlock_unlock(&device->lock_dev);
}
if (!URB_UHCI(urb)->tdm_head)
goto fail_submit_async;
/* link the TDs into the QH */
URB_UHCI(urb)->qh->element = URB_UHCI(urb)->tdm_head->td_phys;
/* set IOC */
if (ioc)
URB_UHCI(urb)->tdm_head->td->status |= UHCI_TD_STAT_IC;
/* set up toggles in TDs */
epdesc->toggle = uhci_fixup_toggles(URB_UHCI(urb)->tdm_head,
epdesc->toggle);
/* link the QH into the frame list */
if (uhci_activate_urb(host, urb) != URB_STATUS_RUN)
goto fail_submit_async;
link_urb(&host->inproc_urbs, urb);
return urb;
fail_submit_async:
destroy_urb(host, urb);
return (struct usb_request_block *)NULL;
}
/**
* @brief submit the control messagie
* @param host struct uhci_host
* @param device struct usb_device
* @param endpoint u8
* @param csetup struct usb_device
* @param callback int *
* @param arg void*
* @param ioc int
*/
struct usb_request_block *
uhci_submit_control(struct uhci_host *host, struct usb_device *device,
u8 endpoint, struct usb_ctrl_setup *csetup,
int (*callback)(struct usb_host *,
struct usb_request_block *, void *),
void *arg, int ioc)
{
struct usb_request_block *urb;
struct usb_endpoint_descriptor *epdesc;
struct uhci_td_meta *tdm;
struct usb_buffer_list *b;
size_t pktsize;
epdesc = usb_epdesc(device, endpoint);
if (!epdesc) {
dprintft(2, "%04x: %s: no endpoint(%d) found.\n",
host->iobase, __FUNCTION__, endpoint);
return (struct usb_request_block *)NULL;
}
dprintft(5, "%s: epdesc->wMaxPacketSize = %d\n",
__FUNCTION__, epdesc->wMaxPacketSize);
urb = create_urb(host);
if (!urb)
return (struct usb_request_block *)NULL;
if (device){
spinlock_lock(&device->lock_dev);
init_urb(urb, device->devnum, epdesc, callback, arg);
spinlock_unlock(&device->lock_dev);
}
/* create a QH */
URB_UHCI(urb)->qh = uhci_alloc_qh(host, &URB_UHCI(urb)->qh_phys);
if (!URB_UHCI(urb)->qh)
goto fail_submit_control;
URB_UHCI(urb)->qh->link = UHCI_QH_LINK_TE;
pktsize = epdesc->wMaxPacketSize;
/* SETUP TD */
URB_UHCI(urb)->tdm_head = tdm = uhci_new_td_meta(host, NULL);
if (!tdm)
goto fail_submit_control;
URB_UHCI(urb)->qh->element =
URB_UHCI(urb)->qh_element_copy = tdm->td_phys;
b = zalloc_usb_buffer_list();
b->len = sizeof(*csetup);
b->vadr = malloc_from_pool(host->pool, b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_control;
}
urb->buffers = b;
memcpy((void *)b->vadr, (void *)csetup, b->len);
tdm->td->status = tdm->status_copy =
UHCI_TD_STAT_AC | uhci_td_maxerr(3);
if (device){
spinlock_lock(&device->lock_dev);
tdm->td->token = tdm->token_copy =
uhci_td_explen(sizeof(*csetup)) |
UHCI_TD_TOKEN_ENDPOINT(epdesc->bEndpointAddress) |
UHCI_TD_TOKEN_DEVADDRESS(device->devnum) |
UHCI_TD_TOKEN_PID_SETUP;
spinlock_unlock(&device->lock_dev);
}
tdm->td->buffer = (phys32_t)b->padr;
if (csetup->wLength > 0) {
b = zalloc_usb_buffer_list();
b->len = csetup->wLength;
b->vadr = malloc_from_pool(host->pool, b->len, &b->padr);
if (!b->vadr) {
free(b);
goto fail_submit_control;
}
b->next = urb->buffers;
urb->buffers = b;
if(device){
spinlock_lock(&device->lock_dev);
tdm = prepare_buffer_tds(host, (phys32_t)b->padr,
b->len,
device->devnum, epdesc,
UHCI_TD_STAT_AC |
UHCI_TD_STAT_SP |
uhci_td_maxerr(3));
spinlock_unlock(&device->lock_dev);
}
if (!tdm)
goto fail_submit_control;
dprintft(5, "%s: tdm->td_phys = %llx\n",
__FUNCTION__, tdm->td_phys);
URB_UHCI(urb)->tdm_head->next = tdm;
URB_UHCI(urb)->tdm_head->td->link = tdm->td_phys;
}
/* The 1st toggle for SETUP must be 0. */
uhci_fixup_toggles(URB_UHCI(urb)->tdm_head, epdesc->toggle);
/* append one more TD for the status stage */
for (tdm = URB_UHCI(urb)->tdm_head; tdm->next; tdm = tdm->next);
tdm->next = uhci_new_td_meta(host, NULL);
if (!tdm->next)
goto fail_submit_control;
tdm->next->td->link = UHCI_TD_LINK_TE;
tdm->next->td->status = UHCI_TD_STAT_AC | uhci_td_maxerr(3);
if (ioc)
tdm->next->td->status |= UHCI_TD_STAT_IC;
if (device){
spinlock_lock(&device->lock_dev);
tdm->next->td->token = uhci_td_explen(0) |
UHCI_TD_TOKEN_ENDPOINT(epdesc->bEndpointAddress) |
UHCI_TD_TOKEN_DEVADDRESS(device->devnum) |
UHCI_TD_TOKEN_DT1_TOGGLE;
spinlock_unlock(&device->lock_dev);
}
tdm->next->td->token |= (csetup->wLength > 0) ?
UHCI_TD_TOKEN_PID_OUT : UHCI_TD_TOKEN_PID_IN;
tdm->next->td->buffer = 0U;
tdm->td->link = (phys32_t)tdm->next->td_phys;
/* link the QH into the frame list */
if (uhci_activate_urb(host, urb) != URB_STATUS_RUN)
goto fail_submit_control;
link_urb(&host->inproc_urbs, urb);
return urb;
fail_submit_control:
destroy_urb(host, urb);
return (struct usb_request_block *)NULL;
}
