/*
When receiving RXQ done interrupt, qmu_interrupt calls this function.
1. Traverse GPD/BD data structures to count actual transferred length.
2. Set the done flag to notify rxstate_qmu() to report status to upper gadget driver.
ported from proc_qmu_rx() from test driver.
caller:qmu_interrupt after getting QMU done interrupt and TX is raised
*/
void qmu_done_rx(struct musb *musb, u8 ep_num, unsigned long flags)
{
TGPD *gpd = Rx_gpd_last[ep_num];
TGPD *gpd_current = (TGPD *) (os_readl(USB_QMU_RQCPR(ep_num)));
struct musb_ep *musb_ep = &musb->endpoints[ep_num].ep_out;
struct usb_request *request = NULL;
struct musb_request *req;
/* trying to give_back the request to gadget driver. */
req = next_request(musb_ep);
if (!req) {
qmu_printk(K_ERR, "[RXD]" "%s Cannot get next request of %d, "
"but QMU has done.\n", __func__, ep_num);
return;
} else {
request = &req->request;
}
/*Transfer PHY addr got from QMU register to VIR addr */
gpd_current = phys_to_virt((unsigned long)gpd_current);
qmu_printk(K_DEBUG, "[RXD]" "%s EP%d, Last=%p, Current=%p, End=%p\n",
__func__, ep_num, gpd, gpd_current, Rx_gpd_end[ep_num]);
/*gpd_current should at least point to the next GPD to the previous last one. */
if (gpd == gpd_current) {
qmu_printk(K_ERR, "[RXD][ERROR]" "%s gpd(%p) == gpd_current(%p)\n", __func__, gpd,
gpd_current);
qmu_printk(K_ERR, "[RXD][ERROR]" "EP%d RQCSR=%x, RQSAR=%x, RQCPR=%x, RQLDPR=%x\n",
ep_num, os_readl(USB_QMU_RQCSR(ep_num)), os_readl(USB_QMU_RQSAR(ep_num)),
os_readl(USB_QMU_RQCPR(ep_num)), os_readl(USB_QMU_RQLDPR(ep_num)));
qmu_printk(K_ERR, "[RXD][ERROR]" "QCR0=%x, QCR1=%x, QCR2=%x, QCR3=%x, "
"QGCSR=%x\n", os_readl(U3D_QCR0), os_readl(U3D_QCR1), os_readl(U3D_QCR2),
os_readl(U3D_QCR3), os_readl(U3D_QGCSR));
qmu_printk(K_INFO, "[RXD][ERROR]" "HWO=%d, Next_GPD=%x ,DataBufLen=%d, "
"DataBuf=%x, RecvLen=%d, Endpoint=%d\n",
(DEV_UINT32) TGPD_GET_FLAG(gpd), (DEV_UINT32) TGPD_GET_NEXT(gpd),
(DEV_UINT32) TGPD_GET_DataBUF_LEN(gpd), (DEV_UINT32) TGPD_GET_DATA(gpd),
(DEV_UINT32) TGPD_GET_BUF_LEN(gpd), (DEV_UINT32) TGPD_GET_EPaddr(gpd));
return;
}
spin_unlock_irqrestore(&musb->lock, flags);
/* invalidate GPD data in CPU */
dma_sync_single_for_cpu(musb->controller, virt_to_phys(gpd), sizeof(TGPD), DMA_FROM_DEVICE);
spin_lock_irqsave(&musb->lock, flags);
if (!gpd || !gpd_current) {
qmu_printk(K_ERR, "[RXD][ERROR]" "%s EP%d, gpd=%p, gpd_current=%p, ishwo=%d, \
rx_gpd_last=%p, RQCPR=0x%x\n", __func__, ep_num, gpd, gpd_current, ((gpd == NULL) ? 999 : TGPD_IS_FLAGS_HWO(gpd)), Rx_gpd_last[ep_num], os_readl(USB_QMU_RQCPR(ep_num)));
return;
}
/*
When receiving RXQ done interrupt, qmu_interrupt calls this function.
1. Traverse GPD/BD data structures to count actual transferred length.
2. Set the done flag to notify rxstate_qmu() to report status to upper gadget driver.
ported from proc_qmu_rx() from test driver.
caller:qmu_interrupt after getting QMU done interrupt and TX is raised
*/
void qmu_done_rx(struct musb *musb, u8 ep_num, unsigned long flags)
{
TGPD* gpd = Rx_gpd_last[ep_num];
TGPD* gpd_current = (TGPD*)(uintptr_t)(os_readl(USB_QMU_RQCPR(ep_num))); //QMU GPD address --> CPU DMA address
struct musb_ep *musb_ep = &musb->endpoints[ep_num].ep_out;
struct usb_request *request = NULL;
struct musb_request *req;
//trying to give_back the request to gadget driver.
req = next_request(musb_ep);
if (!req) {
qmu_printk(K_ERR, "[RXD]""%s Cannot get next request of %d, "
"but QMU has done.\n", __func__, ep_num);
return;
} else {
request = &req->request;
}
/*Transfer PHY addr got from QMU register to VIR addr*/
gpd_current = gpd_phys_to_virt(gpd_current, USB_RX, ep_num);
qmu_printk(K_DEBUG, "[RXD]""%s EP%d, Last=%p, Current=%p, End=%p\n",
__func__, ep_num, gpd, gpd_current, Rx_gpd_end[ep_num]);
/*gpd_current should at least point to the next GPD to the previous last one.*/
if (gpd == gpd_current) {
qmu_printk(K_ERR, "[RXD][ERROR]""%s gpd(%p) == gpd_current(%p)\n", __func__, gpd, \
gpd_current);
qmu_printk(K_ERR, "[RXD][ERROR]""EP%d RQCSR=%x, RQSAR=%x, RQCPR=%x, RQLDPR=%x\n",
ep_num, os_readl(USB_QMU_RQCSR(ep_num)), os_readl(USB_QMU_RQSAR(ep_num)),
os_readl(USB_QMU_RQCPR(ep_num)), os_readl(USB_QMU_RQLDPR(ep_num)));
qmu_printk(K_ERR, "[RXD][ERROR]""QCR0=%x, QCR1=%x, QCR2=%x, QCR3=%x, "
"QGCSR=%x\n", os_readl(U3D_QCR0), os_readl(U3D_QCR1), os_readl(U3D_QCR2), \
os_readl(U3D_QCR3), os_readl(U3D_QGCSR));
qmu_printk(K_INFO,"[RXD][ERROR]""HWO=%d, Next_GPD=%lx ,DataBufLen=%d, "
"DataBuf=%lx, RecvLen=%d, Endpoint=%d\n",
(u32)TGPD_GET_FLAG(gpd), (uintptr_t)TGPD_GET_NEXT(gpd),
(u32)TGPD_GET_DataBUF_LEN(gpd), (uintptr_t)TGPD_GET_DATA(gpd),
(u32)TGPD_GET_BUF_LEN(gpd), (u32)TGPD_GET_EPaddr(gpd));
return;
}
if(!gpd || !gpd_current) {
qmu_printk(K_ERR, "[RXD][ERROR]""%s EP%d, gpd=%p, gpd_current=%p, ishwo=%d, \
rx_gpd_last=%p, RQCPR=0x%x\n", __func__,
ep_num, gpd, gpd_current, ((gpd==NULL) ? 999 : TGPD_IS_FLAGS_HWO(gpd)),
Rx_gpd_last[ep_num], os_readl(USB_QMU_RQCPR(ep_num)));
return;
}
