#include "ao.h"
#include "ao_usb.h"
#include "ao_product.h"
+#include "ao_power.h"
#define USB_DEBUG 0
+#define USB_STATUS 0
#define USB_DEBUG_DATA 0
#define USB_ECHO 0
+#ifndef AO_PA11_PA12_RMP
+#error "must define AO_PA11_PA12_RMP"
+#endif
+
#ifndef USE_USB_STDIO
#define USE_USB_STDIO 1
#endif
static uint16_t *ao_usb_ep0_tx_buffer;
static uint16_t *ao_usb_ep0_rx_buffer;
+/* Pointer to interrupt buffer in USB memory */
+static uint16_t ao_usb_int_tx_offset;
+
/* Pointer to bulk data tx/rx buffers in USB memory */
static uint16_t ao_usb_in_tx_offset;
static uint16_t *ao_usb_in_tx_buffer;
+static uint16_t ao_usb_out_rx_offset;
static uint16_t *ao_usb_out_rx_buffer;
/* System ram shadow of USB buffer; writing individual bytes is
uint8_t ao_usb_running;
static uint8_t ao_usb_configuration;
-#define AO_USB_EP0_GOT_RESET 1
-#define AO_USB_EP0_GOT_SETUP 2
-#define AO_USB_EP0_GOT_RX_DATA 4
-#define AO_USB_EP0_GOT_TX_ACK 8
+#define AO_USB_EP0_GOT_SETUP 1
+#define AO_USB_EP0_GOT_RX_DATA 2
+#define AO_USB_EP0_GOT_TX_ACK 4
static uint8_t ao_usb_ep0_receive;
static uint8_t ao_usb_address;
return (uint16_t *) (stm_usb_sram + sram_addr);
}
-#if AO_USB_DIRECTIO
static inline uint16_t ao_usb_packet_buffer_offset(uint16_t *addr)
{
return (uint16_t) ((uint8_t *) addr - stm_usb_sram);
}
-#endif
static inline uint32_t ao_usb_epr_stat_rx(uint32_t epr) {
return (epr >> STM_USB_EPR_STAT_RX) & STM_USB_EPR_STAT_RX_MASK;
}
static void
-ao_usb_init_btable(void)
+ao_usb_alloc_buffers(void)
{
ao_usb_sram_addr = 0;
ao_usb_bdt = (void *) stm_usb_sram;
-
ao_usb_sram_addr += 8 * STM_USB_BDT_SIZE;
- /* Set up EP 0 - a Control end point with 32 bytes of in and out buffers */
-
- ao_usb_bdt[0].single.addr_tx = ao_usb_sram_addr;
- ao_usb_bdt[0].single.count_tx = 0;
ao_usb_ep0_tx_buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
ao_usb_sram_addr += AO_USB_CONTROL_SIZE;
- ao_usb_bdt[0].single.addr_rx = ao_usb_sram_addr;
- ao_usb_bdt[0].single.count_rx = ((1 << STM_USB_BDT_COUNT_RX_BL_SIZE) |
- (((AO_USB_CONTROL_SIZE / 32) - 1) << STM_USB_BDT_COUNT_RX_NUM_BLOCK));
ao_usb_ep0_rx_buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
ao_usb_sram_addr += AO_USB_CONTROL_SIZE;
+ ao_usb_int_tx_offset = ao_usb_sram_addr;
+ ao_usb_sram_addr += AO_USB_INT_SIZE;
+
+ ao_usb_out_rx_buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
+ ao_usb_out_rx_offset = ao_usb_sram_addr;
+ ao_usb_sram_addr += AO_USB_OUT_SIZE;
+
+ ao_usb_in_tx_buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
+ ao_usb_in_tx_offset = ao_usb_sram_addr;
+ ao_usb_sram_addr += AO_USB_IN_SIZE;
+}
+
+static void
+ao_usb_init_btable(void)
+{
+ /* Set up EP 0 - a Control end point with 32 bytes of in and out buffers */
+
+ ao_usb_bdt[0].single.addr_tx = ao_usb_packet_buffer_offset(ao_usb_ep0_tx_buffer);
+ ao_usb_bdt[0].single.count_tx = 0;
+
+ ao_usb_bdt[0].single.addr_rx = ao_usb_packet_buffer_offset(ao_usb_ep0_rx_buffer);
+ ao_usb_bdt[0].single.count_rx = ((1 << STM_USB_BDT_COUNT_RX_BL_SIZE) |
+ (((AO_USB_CONTROL_SIZE / 32) - 1) << STM_USB_BDT_COUNT_RX_NUM_BLOCK));
}
static void
}
ao_usb_set_address(0);
+
+ ao_usb_running = 0;
}
static void
debug ("ao_usb_set_configuration\n");
/* Set up the INT end point */
- ao_usb_bdt[AO_USB_INT_EPR].single.addr_tx = ao_usb_sram_addr;
+ ao_usb_bdt[AO_USB_INT_EPR].single.addr_tx = ao_usb_int_tx_offset;
ao_usb_bdt[AO_USB_INT_EPR].single.count_tx = 0;
- ao_usb_sram_addr += AO_USB_INT_SIZE;
ao_usb_init_ep(AO_USB_INT_EPR,
AO_USB_INT_EP,
STM_USB_EPR_STAT_TX_NAK);
/* Set up the OUT end point */
- ao_usb_bdt[AO_USB_OUT_EPR].single.addr_rx = ao_usb_sram_addr;
+ ao_usb_bdt[AO_USB_OUT_EPR].single.addr_rx = ao_usb_out_rx_offset;
ao_usb_bdt[AO_USB_OUT_EPR].single.count_rx = ((1 << STM_USB_BDT_COUNT_RX_BL_SIZE) |
(((AO_USB_OUT_SIZE / 32) - 1) << STM_USB_BDT_COUNT_RX_NUM_BLOCK));
- ao_usb_out_rx_buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
- ao_usb_sram_addr += AO_USB_OUT_SIZE;
ao_usb_init_ep(AO_USB_OUT_EPR,
AO_USB_OUT_EP,
STM_USB_EPR_STAT_TX_DISABLED);
/* Set up the IN end point */
- ao_usb_bdt[AO_USB_IN_EPR].single.addr_tx = ao_usb_sram_addr;
+ ao_usb_bdt[AO_USB_IN_EPR].single.addr_tx = ao_usb_in_tx_offset;
ao_usb_bdt[AO_USB_IN_EPR].single.count_tx = 0;
- ao_usb_in_tx_offset = ao_usb_sram_addr;
- ao_usb_in_tx_buffer = ao_usb_packet_buffer_addr(ao_usb_in_tx_offset);
- ao_usb_sram_addr += AO_USB_IN_SIZE;
ao_usb_init_ep(AO_USB_IN_EPR,
AO_USB_IN_EP,
STM_USB_EPR_STAT_TX_NAK);
ao_usb_running = 1;
+#if AO_USB_DIRECTIO
+ ao_wakeup(&ao_usb_running);
+#endif
}
static uint16_t control_count;
static uint16_t in_count;
static uint16_t out_count;
static uint16_t reset_count;
+static uint16_t suspend_count;
/* The USB memory must be accessed in 16-bit units
*/
ao_usb_ep0_handle(uint8_t receive)
{
ao_usb_ep0_receive = 0;
- if (receive & AO_USB_EP0_GOT_RESET) {
- debug ("\treset\n");
- ao_usb_set_ep0();
- return;
- }
if (receive & AO_USB_EP0_GOT_SETUP) {
debug ("\tsetup\n");
ao_usb_ep0_setup();
}
}
+void
+ao_usb_suspend(void)
+{
+ stm_usb.cntr |= (1 << STM_USB_CNTR_FSUSP);
+ ao_power_suspend();
+ stm_usb.cntr |= (1 << STM_USB_CNTR_LP_MODE);
+ ao_clock_suspend();
+}
+
+void
+ao_usb_wakeup(void)
+{
+ ao_clock_resume();
+ stm_usb.cntr &= ~(1 << STM_USB_CNTR_FSUSP);
+ ao_power_resume();
+}
+
void
stm_usb_isr(void)
{
if (istr & (1 << STM_USB_ISTR_RESET)) {
++reset_count;
- ao_usb_ep0_receive |= AO_USB_EP0_GOT_RESET;
- ao_usb_ep0_handle(ao_usb_ep0_receive);
+ debug ("\treset\n");
+ ao_usb_set_ep0();
+ }
+ if (istr & (1 << STM_USB_ISTR_SUSP)) {
+ ++suspend_count;
+ debug ("\tsuspend\n");
+ ao_usb_suspend();
+ }
+ if (istr & (1 << STM_USB_ISTR_WKUP)) {
+ debug ("\twakeup\n");
+ ao_usb_wakeup();
}
-
}
/* Queue the current IN buffer for transmission */
{
uint16_t *buffer;
- if (!ao_usb_running)
- return NULL;
buffer = ao_usb_packet_buffer_addr(ao_usb_sram_addr);
ao_usb_sram_addr += AO_USB_IN_SIZE;
return buffer;
{
ao_arch_block_interrupts();
- /* Flush any pending regular */
- if (ao_usb_tx_count)
- _ao_usb_in_send();
+ /* Wait for everything to be ready at the same time */
+ for (;;) {
+ /* Make sure USB is connected */
+ if (!ao_usb_running) {
+ ao_sleep(&ao_usb_running);
+ continue;
+ }
+
+ /* Flush any pending regular I/O */
+ if (ao_usb_tx_count) {
+ _ao_usb_in_send();
+ continue;
+ }
+
+ /* Wait for an idle IN buffer */
+ if (ao_usb_in_pending) {
+ ao_sleep(&ao_usb_in_pending);
+ continue;
+ }
+ break;
+ }
- while (ao_usb_in_pending)
- ao_sleep(&ao_usb_in_pending);
ao_usb_in_pending = 1;
ao_usb_in_flushed = (len != AO_USB_IN_SIZE);
ao_usb_bdt[AO_USB_IN_EPR].single.addr_tx = ao_usb_packet_buffer_offset(buffer);
stm_usb.cntr = ((1 << STM_USB_CNTR_CTRM) |
(0 << STM_USB_CNTR_PMAOVRM) |
(0 << STM_USB_CNTR_ERRM) |
- (0 << STM_USB_CNTR_WKUPM) |
- (0 << STM_USB_CNTR_SUSPM) |
+ (1 << STM_USB_CNTR_WKUPM) |
+ (1 << STM_USB_CNTR_SUSPM) |
(1 << STM_USB_CNTR_RESETM) |
(0 << STM_USB_CNTR_SOFM) |
(0 << STM_USB_CNTR_ESOFM) |
}
#endif
-#if USB_DEBUG
+#if USB_STATUS
static void
ao_usb_irq(void)
{
- printf ("control: %d out: %d in: %d int: %d reset: %d\n",
- control_count, out_count, in_count, int_count, reset_count);
+ printf ("control: %d out: %d in: %d int: %d reset: %d suspend %d\n",
+ control_count, out_count, in_count, int_count, reset_count, suspend_count);
}
__code struct ao_cmds ao_usb_cmds[] = {
void
ao_usb_init(void)
{
+ /* Turn on syscfg */
+ stm_rcc.apb2enr |= (1 << STM_RCC_APB2ENR_SYSCFGCOMPEN);
+
+ /* Set PA11/PA12 remapping bit */
+ stm_syscfg.cfgr1 |= (AO_PA11_PA12_RMP << STM_SYSCFG_CFGR1_PA11_PA12_RMP);
+
ao_usb_enable();
debug ("ao_usb_init\n");
ao_usb_ep0_state = AO_USB_EP0_IDLE;
+
+ ao_usb_alloc_buffers();
+
#if USB_ECHO
ao_add_task(&ao_usb_echo_task, ao_usb_echo, "usb echo");
#endif
-#if USB_DEBUG
+#if USB_STATUS
ao_cmd_register(&ao_usb_cmds[0]);
#endif
#if !USB_ECHO