static int
hci1394_ioctl_wrphy(hci1394_state_t *soft_state, void *arg, int mode)
{
hci1394_ioctl_wrphy_t wrphy;
int status;
ASSERT(soft_state != NULL);
ASSERT(arg != NULL);
TNF_PROBE_0_DEBUG(hci1394_ioctl_wrphy_enter, HCI1394_TNF_HAL_STACK, "");
status = ddi_copyin(arg, &wrphy, sizeof (hci1394_ioctl_wrphy_t), mode);
if (status != 0) {
TNF_PROBE_0(hci1394_ioctl_wrphy_ci_fail, HCI1394_TNF_HAL_ERROR,
"");
TNF_PROBE_0_DEBUG(hci1394_ioctl_wrphy_exit,
HCI1394_TNF_HAL_STACK, "");
return (EFAULT);
}
status = hci1394_ohci_phy_write(soft_state->ohci, wrphy.addr,
wrphy.data);
if (status != DDI_SUCCESS) {
TNF_PROBE_0(hci1394_ioctl_wrphy_pw_fail,
HCI1394_TNF_HAL_ERROR, "");
TNF_PROBE_0_DEBUG(hci1394_ioctl_wrphy_exit,
HCI1394_TNF_HAL_STACK, "");
return (EINVAL);
}
TNF_PROBE_0_DEBUG(hci1394_ioctl_wrphy_exit, HCI1394_TNF_HAL_STACK, "");
return (0);
}
/*
* hci1394_isr_self_id()
* Process the selfid complete interrupt. The bus reset has completed
* and the 1394 HW has finished it's bus enumeration. The SW needs to
* see what's changed and handle any hotplug conditions.
*/
static void
hci1394_isr_self_id(hci1394_state_t *soft_state)
{
int status;
uint_t node_id;
uint_t selfid_size;
uint_t quadlet_count;
uint_t index;
uint32_t *selfid_buf_p;
boolean_t selfid_error;
boolean_t nodeid_error;
boolean_t saw_error = B_FALSE;
uint_t phy_status;
ASSERT(soft_state != NULL);
TNF_PROBE_0_DEBUG(hci1394_isr_self_id_enter, HCI1394_TNF_HAL_STACK, "");
soft_state->drvinfo.di_stats.st_selfid_count++;
/*
* check for the bizarre case that we got both a bus reset and self id
* complete after checking for a bus reset
*/
if (hci1394_state(&soft_state->drvinfo) != HCI1394_BUS_RESET) {
hci1394_isr_bus_reset(soft_state);
}
/*
* Clear any set PHY error status bits set. The PHY status bits
* may always be set (i.e. we removed cable power) so we do not want
* to clear them when we handle the interrupt. We will clear them
* every selfid complete interrupt so worst case we will get 1 PHY event
* interrupt every bus reset.
*/
status = hci1394_ohci_phy_read(soft_state->ohci, 5, &phy_status);
if (status != DDI_SUCCESS) {
TNF_PROBE_0(hci1394_isr_self_id_pr_fail,
HCI1394_TNF_HAL_ERROR, "");
} else {
phy_status |= OHCI_PHY_LOOP_ERR | OHCI_PHY_PWRFAIL_ERR |
OHCI_PHY_TIMEOUT_ERR | OHCI_PHY_PORTEVT_ERR;
status = hci1394_ohci_phy_write(soft_state->ohci, 5,
phy_status);
if (status != DDI_SUCCESS) {
TNF_PROBE_0(hci1394_isr_self_id_pw_fail,
HCI1394_TNF_HAL_ERROR, "");
} else {
/*
* Re-enable PHY interrupt. We disable the PHY interrupt
* when we get one so that we do not get stuck in the
* ISR.
*/
hci1394_ohci_intr_enable(soft_state->ohci,
OHCI_INTR_PHY);
}
}
/* See if either AT active bit is set */
if (hci1394_ohci_at_active(soft_state->ohci) == B_TRUE) {
TNF_PROBE_1(hci1394_isr_self_id_as_fail, HCI1394_TNF_HAL_ERROR,
"", tnf_string, errmsg, "AT ACTIVE still set");
saw_error = B_TRUE;
}
/* Clear busReset and selfIdComplete interrupts */
hci1394_ohci_intr_clear(soft_state->ohci, (OHCI_INTR_BUS_RESET |
OHCI_INTR_SELFID_CMPLT));
/* Read node info and test for Invalid Node ID */
hci1394_ohci_nodeid_info(soft_state->ohci, &node_id, &nodeid_error);
if (nodeid_error == B_TRUE) {
TNF_PROBE_1(hci1394_isr_self_id_ni_fail, HCI1394_TNF_HAL_ERROR,
"", tnf_string, errmsg, "saw invalid NodeID");
saw_error = B_TRUE;
}
/* Sync Selfid Buffer */
hci1394_ohci_selfid_sync(soft_state->ohci);
/* store away selfid info */
hci1394_ohci_selfid_info(soft_state->ohci,
&soft_state->drvinfo.di_gencnt, &selfid_size, &selfid_error);
/* Test for selfid error */
if (selfid_error == B_TRUE) {
TNF_PROBE_1(hci1394_isr_self_id_si_fail, HCI1394_TNF_HAL_ERROR,
"", tnf_string, errmsg, "saw invalid SelfID");
saw_error = B_TRUE;
}
/*
* selfid size could be 0 if a bus reset has occurred. If this occurs,
* we should have another selfid int coming later.
*/
if ((saw_error == B_FALSE) && (selfid_size == 0)) {
TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit,
HCI1394_TNF_HAL_STACK, "");
return;
}
/*
* make sure generation count in buffer matches generation
* count in register.
*/
if (hci1394_ohci_selfid_buf_current(soft_state->ohci) == B_FALSE) {
TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit,
HCI1394_TNF_HAL_STACK, "");
return;
}
/*
* Skip over first quadlet in selfid buffer, this is OpenHCI specific
* data.
*/
selfid_size = selfid_size - IEEE1394_QUADLET;
quadlet_count = selfid_size >> 2;
/* Copy selfid buffer to Services Layer buffer */
for (index = 0; index < quadlet_count; index++) {
hci1394_ohci_selfid_read(soft_state->ohci, index + 1,
&soft_state->sl_selfid_buf[index]);
}
/*
* Put our selfID info into the Services Layer's selfid buffer if we
* have a 1394-1995 PHY.
*/
if (soft_state->halinfo.phy == H1394_PHY_1995) {
selfid_buf_p = (uint32_t *)(
(uintptr_t)soft_state->sl_selfid_buf +
(uintptr_t)selfid_size);
status = hci1394_ohci_phy_info(soft_state->ohci,
&selfid_buf_p[0]);
if (status != DDI_SUCCESS) {
/*
* If we fail reading from PHY, put invalid data into
* the selfid buffer so the SL will reset the bus again.
*/
TNF_PROBE_0(hci1394_isr_self_id_pi_fail,
HCI1394_TNF_HAL_ERROR, "");
selfid_buf_p[0] = 0xFFFFFFFF;
selfid_buf_p[1] = 0xFFFFFFFF;
} else {
selfid_buf_p[1] = ~selfid_buf_p[0];
}
selfid_size = selfid_size + 8;
}
/* Flush out async DMA Q's */
hci1394_async_flush(soft_state->async);
/*
* Make sure generation count is still valid. i.e. we have not gotten
* another bus reset since the last time we checked. If we have gotten
* another bus reset, we should have another selfid interrupt coming.
*/
if (soft_state->drvinfo.di_gencnt !=
hci1394_ohci_current_busgen(soft_state->ohci)) {
TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit,
HCI1394_TNF_HAL_STACK, "");
return;
}
/*
* do whatever CSR register processing that needs to be done.
*/
hci1394_csr_bus_reset(soft_state->csr);
/*
* do whatever management may be necessary for the CYCLE_LOST and
* CYCLE_INCONSISTENT interrupts.
*/
hci1394_isoch_error_ints_enable(soft_state);
/*
* See if we saw an error. If we did, tell the services layer that we
* finished selfid processing and give them an illegal selfid buffer
* size of 0. The Services Layer will try to reset the bus again to
* see if we can recover from this problem. It will threshold after
* a finite number of errors.
*/
if (saw_error == B_TRUE) {
h1394_self_ids(soft_state->drvinfo.di_sl_private,
soft_state->sl_selfid_buf, 0, node_id,
soft_state->drvinfo.di_gencnt);
/*
* Take ourself out of Bus Reset processing mode
*
* Set the driver state to normal. If we cannot, we have been
* shutdown. The only way we can get in this code is if we have
* a multi-processor machine and the HAL is shutdown by one
* processor running in base context while this interrupt
* handler runs in another processor. We will disable all
* interrupts and just return. We shouldn't have to disable
* the interrupts, but we will just in case.
*/
status = hci1394_state_set(&soft_state->drvinfo,
HCI1394_NORMAL);
if (status != DDI_SUCCESS) {
hci1394_ohci_intr_master_disable(soft_state->ohci);
return;
}
} else if (IEEE1394_NODE_NUM(node_id) != 63) {
/*
* Notify services layer about self-id-complete. Don't notify
* the services layer if there are too many devices on the bus.
*/
h1394_self_ids(soft_state->drvinfo.di_sl_private,
soft_state->sl_selfid_buf, selfid_size,
node_id, soft_state->drvinfo.di_gencnt);
/*
* Take ourself out of Bus Reset processing mode
*
* Set the driver state to normal. If we cannot, we have been
* shutdown. The only way we can get in this code is if we have
* a multi-processor machine and the HAL is shutdown by one
* processor running in base context while this interrupt
* handler runs in another processor. We will disable all
* interrupts and just return. We shouldn't have to disable
* the interrupts, but we will just in case.
*/
status = hci1394_state_set(&soft_state->drvinfo,
HCI1394_NORMAL);
if (status != DDI_SUCCESS) {
hci1394_ohci_intr_master_disable(soft_state->ohci);
return;
}
} else {
cmn_err(CE_NOTE, "hci1394(%d): Too many devices on the 1394 "
"bus", soft_state->drvinfo.di_instance);
}
/* enable bus reset interrupt */
hci1394_ohci_intr_enable(soft_state->ohci, OHCI_INTR_BUS_RESET);
TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit, HCI1394_TNF_HAL_STACK, "");
}
