Handling the Interrupting Device

The interrupt routine is similar to the asynchronous version, with the addition of the call to start() and the removal of the call to cv_signal(9F).

Example 16–7 Block Driver Routine for Asynchronous Interrupts

static u_int
xxintr(caddr_t arg)
{
    struct xxstate *xsp = (struct xxstate *)arg;
    struct buf *bp;
    uint8_t status;
    mutex_enter(&xsp->mu);
    status = ddi_get8(xsp->data_access_handle, &xsp->regp->csr);
    if (!(status & INTERRUPTING)) {
        mutex_exit(&xsp->mu);
        return (DDI_INTR_UNCLAIMED);
    }
    /* Get the buf responsible for this interrupt */
    bp = xsp->bp;
    xsp->bp = NULL;
    /*
     * This example is for a simple device which either
     * succeeds or fails the data transfer, indicated in the
     * command/status register.
     */
    if (status & DEVICE_ERROR) {
        /* failure */
        bp->b_resid = bp->b_bcount;
        bioerror(bp, EIO);
    } else {
        /* success */
        bp->b_resid = 0;
    }
    ddi_put8(xsp->data_access_handle, &xsp->regp->csr,
        CLEAR_INTERRUPT);
    /* The transfer has finished, successfully or not */
    biodone(bp);
    /*
     * If the device has power manageable components that were
     * marked busy in strategy(9F), mark them idle now with
     * pm_idle_component(9F)
     * Release any resources used in the transfer, such as DMA
     * resources (ddi_dma_unbind_handle(9F) and
     * ddi_dma_free_handle(9F)).
     *
     * Let the next I/O thread have access to the device.
     */
    xsp->busy = 0;
    mutex_exit(&xsp->mu);
    (void) xxstart((caddr_t)xsp);
    return (DDI_INTR_CLAIMED);
}