#include <drv/timer.h>
#include <drv/usb.h>
+#include <mware/event.h>
+
#include <string.h> /* memcpy() */
#include "usb_stm32.h"
-/* XXX: consider to move this to cfg/compiler.h */
-#define ALIGNED(x) __attribute__ ((__aligned__(x)))
-
/* XXX: consider to move this to cfg/macros.h */
-#define ALIGN_UP(value, align) (((value) & ((align) - 1)) ? \
- (((value) + ((align) - 1)) & ~((align) - 1)) : \
- (value))
/* XXX: redefine this to make it usable within C expression */
#define _MIN(a,b) (((a) < (b)) ? (a) : (b))
static UsbCtrlRequest setup_packet;
/* USB device controller: max supported interfaces */
-#define USB_MAX_INTERFACE 1
+#define USB_MAX_INTERFACE CONFIG_USB_INTERFACE_MAX
/* USB device controller features */
#define STM32_UDC_FEATURE_SELFPOWERED BV(0)
static stm32_UsbMemSlot memory_buffer[EP_MAX_NUM];
/* Endpoint TX and RX buffers */
-/// \cond
-/* XXX: use the empty cond section to silent a buggy doxygen warning */
-static bool rx_done, tx_done;
static size_t rx_size, tx_size;
#define EP_BUFFER_SIZE _MIN(CONFIG_USB_BUFSIZE, USB_XFER_MAX_SIZE)
STATIC_ASSERT(!(EP_BUFFER_SIZE & 0x03));
static uint8_t ep_buffer[EP_MAX_NUM][EP_BUFFER_SIZE] ALIGNED(4);
-/// \endcond
+
+static Event usb_event_done[EP_MAX_SLOTS];
+
+/* Check if we're running in atomic (non-sleepable) context or not */
+static volatile bool in_atomic = false;
/* Allocate a free block of the packet memory */
static stm32_UsbMemSlot *usb_malloc(void)
switch (ep_hw->type)
{
case USB_ENDPOINT_XFER_CONTROL:
- LOG_INFO("EP%d: CONTROL IN\n", EP >> 1);
+ LOG_INFO("EP%d: CONTROL %s\n", EP >> 1,
+ EP & 1 ? "IN" : "OUT");
ep_ctrl_set_ep_type(hw, EP_CTRL);
ep_ctrl_set_ep_kind(hw, 0);
break;
case USB_ENDPOINT_XFER_INT:
- LOG_INFO("EP%d: INTERRUPT IN\n", EP >> 1);
+ LOG_INFO("EP%d: INTERRUPT %s\n", EP >> 1,
+ EP & 1 ? "IN" : "OUT");
ep_ctrl_set_ep_type(hw, EP_INTERRUPT);
ep_ctrl_set_ep_kind(hw, 0);
break;
case USB_ENDPOINT_XFER_BULK:
- LOG_INFO("EP%d: BULK IN\n", EP >> 1);
+ LOG_INFO("EP%d: BULK %s\n", EP >> 1,
+ EP & 1 ? "IN" : "OUT");
ep_ctrl_set_ep_type(hw, EP_BULK);
ep_ctrl_set_ep_kind(hw, 0);
break;
case USB_ENDPOINT_XFER_ISOC:
- LOG_ERR("EP%d: ISOCHRONOUS IN: not supported\n", EP >> 1);
+ LOG_ERR("EP%d: ISOCHRONOUS %s: not supported\n",
+ EP >> 1,
+ EP & 1 ? "IN" : "OUT");
/* Fallback to default */
default:
ASSERT(0);
}
ASSERT(!(ep & 0x01));
- rx_done = true;
+ event_do(&usb_event_done[ep >> 1]);
rx_size = ep_cnfg[ep].size;
}
-ssize_t usb_endpointRead(int ep, void *buffer, ssize_t size)
+ssize_t usb_endpointReadTimeout(int ep, void *buffer, ssize_t size,
+ ticks_t timeout)
{
int ep_num = usb_ep_logical_to_hw(ep);
ssize_t max_size = sizeof(ep_buffer[ep_num]);
/* Non-blocking read for EP0 */
- if (ep_num == CTRL_ENP_OUT)
+ if (in_atomic && (ep_num == CTRL_ENP_OUT))
{
size = usb_size(size, usb_le16_to_cpu(setup_packet.wLength));
if (UNLIKELY(size > max_size))
if (UNLIKELY(!size))
return 0;
size = MIN(size, max_size);
- rx_done = false;
+ event_initGeneric(&usb_event_done[ep_num >> 1]);
rx_size = 0;
/* Blocking read */
__usb_ep_read(ep_num, ep_buffer[ep_num], size,
usb_endpointRead_complete);
- while (!rx_done)
- cpu_relax();
+ if (timeout < 0)
+ event_wait(&usb_event_done[ep_num >> 1]);
+ else
+ if (!event_waitTimeout(&usb_event_done[ep_num >> 1], timeout))
+ return 0;
memcpy(buffer, ep_buffer[ep_num], rx_size);
return rx_size;
}
ASSERT(ep & 0x01);
- tx_done = true;
+ event_do(&usb_event_done[ep >> 1]);
tx_size = ep_cnfg[ep].size;
}
-ssize_t usb_endpointWrite(int ep, const void *buffer, ssize_t size)
+ssize_t usb_endpointWriteTimeout(int ep, const void *buffer, ssize_t size,
+ ticks_t timeout)
{
int ep_num = usb_ep_logical_to_hw(ep);
ssize_t max_size = sizeof(ep_buffer[ep_num]);
/* Non-blocking write for EP0 */
- if (ep_num == CTRL_ENP_IN)
+ if (in_atomic && (ep_num == CTRL_ENP_IN))
{
size = usb_size(size, usb_le16_to_cpu(setup_packet.wLength));
if (UNLIKELY(size > max_size))
if (UNLIKELY(!size))
return 0;
size = MIN(size, max_size);
- tx_done = false;
+ event_initGeneric(&usb_event_done[ep_num >> 1]);
tx_size = 0;
/* Blocking write */
memcpy(ep_buffer[ep_num], buffer, size);
__usb_ep_write(ep_num, ep_buffer[ep_num], size,
usb_endpointWrite_complete);
- while (!tx_done)
- cpu_relax();
+ if (timeout < 0)
+ event_wait(&usb_event_done[ep_num >> 1]);
+ else
+ if (!event_waitTimeout(&usb_event_done[ep_num >> 1], timeout))
+ return 0;
return tx_size;
}
if ((setup_packet.mRequestType & USB_RECIP_MASK) ==
USB_RECIP_DEVICE)
usb_get_descriptor();
- /* Getting descriptor for a device is a standard request */
- else if ((setup_packet.mRequestType & USB_DIR_MASK) == USB_DIR_IN)
- usb_event_handler(usb_dev);
else
- ep_cnfg[CTRL_ENP_OUT].status = STALLED;
+ usb_event_handler(usb_dev);
}
/* USB setup packet: SET_ADDRESS handler */
udc.alt[i] = 0;
usb_set_device_state(USB_STATE_CONFIGURED);
usb_dev->configured = true;
+ event_do(&usb_event_done[0]);
LOG_INFO("%s: device configured\n", __func__);
}
else
interrupt.status = usb->ISTR;
interrupt.status &= usb->CNTR | 0x1f;
+ /* Set the context as atomic */
+ in_atomic = true;
+
if (interrupt.PMAOVR)
{
LOG_WARN("%s: DMA overrun / underrun\n", __func__);
{
usb_isr_correct_transfer(interrupt);
}
+ in_atomic = false;
}
/* USB: hardware initialization */
MOD_CHECK(proc);
#endif
usb_dev = dev;
+ usb_dev->configured = false;
+
+ event_initGeneric(&usb_event_done[0]);
usb_init();
- while (!usb_dev->configured)
- cpu_relax();
+ event_wait(&usb_event_done[0]);
+
return 0;
}