/*
 * main.c
 */
int main() {
	struct pru_rpmsg_transport transport;
	uint16_t src, dst, len;
	volatile uint8_t *status;

	/* allow OCP master port access by the PRU so the PRU can read external memories */
	CT_CFG.SYSCFG_bit.STANDBY_INIT = 0;

	/* clear the status of event MB_INT_NUMBER (the mailbox event) and enable the mailbox event */
	CT_INTC.SICR_bit.STS_CLR_IDX = MB_INT_NUMBER;
	CT_MBX.IRQ[MB_USER].ENABLE_SET |= 1 << (MB_FROM_ARM_HOST * 2);

	/* Make sure the Linux drivers are ready for RPMsg communication */
	status = &resourceTable.rpmsg_vdev.status;
	while (!(*status & VIRTIO_CONFIG_S_DRIVER_OK));

	/* Initialize pru_virtqueue corresponding to vring0 (PRU to ARM Host direction) */
	pru_virtqueue_init(&transport.virtqueue0, &resourceTable.rpmsg_vring0, &CT_MBX.MESSAGE[MB_TO_ARM_HOST], &CT_MBX.MESSAGE[MB_FROM_ARM_HOST]);

	/* Initialize pru_virtqueue corresponding to vring1 (ARM Host to PRU direction) */
	pru_virtqueue_init(&transport.virtqueue1, &resourceTable.rpmsg_vring1, &CT_MBX.MESSAGE[MB_TO_ARM_HOST], &CT_MBX.MESSAGE[MB_FROM_ARM_HOST]);

	/* Create the RPMsg channel between the PRU and ARM user space using the transport structure. */
	while(pru_rpmsg_channel(RPMSG_NS_CREATE, &transport, CHAN_NAME, CHAN_DESC, CHAN_PORT) != PRU_RPMSG_SUCCESS);
	while(1){
		/* Check bit 31 of register R31 to see if the mailbox interrupt has occurred */
#ifdef __GNUC__
		unsigned int r31 = read_r31();
#else
		unsigned int r31 = __R31;
#endif
		if(r31 & HOST_INT){
			/* Clear the mailbox interrupt */
			CT_MBX.IRQ[MB_USER].STATUS_CLR |= 1 << (MB_FROM_ARM_HOST * 2);
			/* Clear the event status, event MB_INT_NUMBER corresponds to the mailbox interrupt */
			CT_INTC.SICR_bit.STS_CLR_IDX = MB_INT_NUMBER;
			/* Use a while loop to read all of the current messages in the mailbox */
			while(CT_MBX.MSGSTATUS_bit[MB_FROM_ARM_HOST].NBOFMSG > 0){
				/* Check to see if the message corresponds to a receive event for the PRU */
				if(CT_MBX.MESSAGE[MB_FROM_ARM_HOST] == 1){
					/* Receive the message */
					if(pru_rpmsg_receive(&transport, &src, &dst, payload, &len) == PRU_RPMSG_SUCCESS){
						/* Echo the message back to the same address from which we just received */
						pru_rpmsg_send(&transport, dst, src, payload, len);
					}
				}
			}
		}
	}

	return 0;
}
Beispiel #2
0
int main(void)
{
	struct pru_rpmsg_transport transport;
	volatile uint8_t *status;

	/* allow OCP master port access by the PRU so the PRU
	 * can read external memories */
	CT_CFG.SYSCFG_bit.STANDBY_INIT = 0;

	/* clear the status of the PRU-ICSS system event that the ARM will use to 'kick' us */
	CT_INTC.SICR_bit.STS_CLR_IDX = FROM_ARM_HOST;

	/* Make sure the Linux drivers are ready for RPMsg communication */
	status = &resourceTable.rpmsg_vdev.status;
	while (!(*status & VIRTIO_CONFIG_S_DRIVER_OK))
		;

	/* Initialize the RPMsg transport structure */
	pru_rpmsg_init(&transport,
		       &resourceTable.rpmsg_vring0,
		       &resourceTable.rpmsg_vring1,
		       TO_ARM_HOST,
		       FROM_ARM_HOST);

	/* Create the RPMsg channel between the PRU and ARM user space using the transport structure. */
	while (pru_rpmsg_channel(RPMSG_NS_CREATE, &transport, CHAN_NAME, CHAN_DESC, CHAN_PORT) != PRU_RPMSG_SUCCESS)
		;

	hc_sr04_init();

	while (1) {
		/* Check bit 31 of register R31 to see
		 * if the mailbox interrupt has occurred */
		if (read_r31() & HOST_INT) {
			handle_mailbox_interrupt(&transport);
		}
	}

	return 0;
}