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/* SPDX-License-Identifier: BSD-3-Clause
*
* Copyright (c) 2016-2018 Solarflare Communications Inc.
* All rights reserved.
*
* This software was jointly developed between OKTET Labs (under contract
* for Solarflare) and Solarflare Communications, Inc.
*/
/*
* At the momemt of writing DPDK v16.07 has notion of two types of
* interrupts: LSC (link status change) and RXQ (receive indication).
* It allows to register interrupt callback for entire device which is
* not intended to be used for receive indication (i.e. link status
* change indication only). The handler has no information which HW
* interrupt has triggered it, so we don't know which event queue should
* be polled/reprimed (except qmask in the case of legacy line interrupt).
*/
#include <rte_common.h>
#include <rte_interrupts.h>
#include "efx.h"
#include "sfc.h"
#include "sfc_log.h"
#include "sfc_ev.h"
static void
sfc_intr_handle_mgmt_evq(struct sfc_adapter *sa)
{
struct sfc_evq *evq;
rte_spinlock_lock(&sa->mgmt_evq_lock);
evq = sa->mgmt_evq;
if (!sa->mgmt_evq_running) {
sfc_log_init(sa, "interrupt on not running management EVQ %u",
evq->evq_index);
} else {
sfc_ev_qpoll(evq);
if (sfc_ev_qprime(evq) != 0)
sfc_err(sa, "cannot prime EVQ %u", evq->evq_index);
}
rte_spinlock_unlock(&sa->mgmt_evq_lock);
}
static void
sfc_intr_line_handler(void *cb_arg)
{
struct sfc_adapter *sa = (struct sfc_adapter *)cb_arg;
efx_nic_t *enp = sa->nic;
boolean_t fatal;
uint32_t qmask;
unsigned int lsc_seq = sa->port.lsc_seq;
struct rte_pci_device *pci_dev = RTE_ETH_DEV_TO_PCI(sa->eth_dev);
sfc_log_init(sa, "entry");
if (sa->state != SFC_ADAPTER_STARTED &&
sa->state != SFC_ADAPTER_STARTING &&
sa->state != SFC_ADAPTER_STOPPING) {
sfc_log_init(sa,
"interrupt on stopped adapter, don't reenable");
goto exit;
}
efx_intr_status_line(enp, &fatal, &qmask);
if (fatal) {
(void)efx_intr_disable(enp);
(void)efx_intr_fatal(enp);
sfc_err(sa, "fatal, interrupts disabled");
goto exit;
}
if (qmask & (1 << sa->mgmt_evq_index))
sfc_intr_handle_mgmt_evq(sa);
if (rte_intr_enable(&pci_dev->intr_handle) != 0)
sfc_err(sa, "cannot reenable interrupts");
sfc_log_init(sa, "done");
exit:
if (lsc_seq != sa->port.lsc_seq) {
sfc_notice(sa, "link status change event: link %s",
sa->eth_dev->data->dev_link.link_status ?
"UP" : "DOWN");
_rte_eth_dev_callback_process(sa->eth_dev,
RTE_ETH_EVENT_INTR_LSC,
NULL);
}
}
static void
sfc_intr_message_handler(void *cb_arg)
{
struct sfc_adapter *sa = (struct sfc_adapter *)cb_arg;
efx_nic_t *enp = sa->nic;
boolean_t fatal;
unsigned int lsc_seq = sa->port.lsc_seq;
struct rte_pci_device *pci_dev = RTE_ETH_DEV_TO_PCI(sa->eth_dev);
sfc_log_init(sa, "entry");
if (sa->state != SFC_ADAPTER_STARTED &&
sa->state != SFC_ADAPTER_STARTING &&
sa->state != SFC_ADAPTER_STOPPING) {
sfc_log_init(sa, "adapter not-started, don't reenable");
goto exit;
}
efx_intr_status_message(enp, sa->mgmt_evq_index, &fatal);
if (fatal) {
(void)efx_intr_disable(enp);
(void)efx_intr_fatal(enp);
sfc_err(sa, "fatal, interrupts disabled");
goto exit;
}
sfc_intr_handle_mgmt_evq(sa);
if (rte_intr_enable(&pci_dev->intr_handle) != 0)
sfc_err(sa, "cannot reenable interrupts");
sfc_log_init(sa, "done");
exit:
if (lsc_seq != sa->port.lsc_seq) {
sfc_notice(sa, "link status change event");
_rte_eth_dev_callback_process(sa->eth_dev,
RTE_ETH_EVENT_INTR_LSC,
NULL);
}
}
int
sfc_intr_start(struct sfc_adapter *sa)
{
struct sfc_intr *intr = &sa->intr;
struct rte_intr_handle *intr_handle;
struct rte_pci_device *pci_dev;
int rc;
sfc_log_init(sa, "entry");
/*
* The EFX common code event queue module depends on the interrupt
* module. Ensure that the interrupt module is always initialized
* (even if interrupts are not used). Status memory is required
* for Siena only and may be NULL for EF10.
*/
sfc_log_init(sa, "efx_intr_init");
rc = efx_intr_init(sa->nic, intr->type, NULL);
if (rc != 0)
goto fail_intr_init;
pci_dev = RTE_ETH_DEV_TO_PCI(sa->eth_dev);
intr_handle = &pci_dev->intr_handle;
if (intr->handler != NULL) {
sfc_log_init(sa, "rte_intr_callback_register");
rc = rte_intr_callback_register(intr_handle, intr->handler,
(void *)sa);
if (rc != 0) {
sfc_err(sa,
"cannot register interrupt handler (rc=%d)",
rc);
/*
* Convert error code from negative returned by RTE API
* to positive used in the driver.
*/
rc = -rc;
goto fail_rte_intr_cb_reg;
}
sfc_log_init(sa, "rte_intr_enable");
rc = rte_intr_enable(intr_handle);
if (rc != 0) {
sfc_err(sa, "cannot enable interrupts (rc=%d)", rc);
/*
* Convert error code from negative returned by RTE API
* to positive used in the driver.
*/
rc = -rc;
goto fail_rte_intr_enable;
}
sfc_log_init(sa, "efx_intr_enable");
efx_intr_enable(sa->nic);
}
sfc_log_init(sa, "done type=%u max_intr=%d nb_efd=%u vec=%p",
intr_handle->type, intr_handle->max_intr,
intr_handle->nb_efd, intr_handle->intr_vec);
return 0;
fail_rte_intr_enable:
rte_intr_callback_unregister(intr_handle, intr->handler, (void *)sa);
fail_rte_intr_cb_reg:
efx_intr_fini(sa->nic);
fail_intr_init:
sfc_log_init(sa, "failed %d", rc);
return rc;
}
void
sfc_intr_stop(struct sfc_adapter *sa)
{
struct sfc_intr *intr = &sa->intr;
struct rte_pci_device *pci_dev = RTE_ETH_DEV_TO_PCI(sa->eth_dev);
sfc_log_init(sa, "entry");
if (intr->handler != NULL) {
struct rte_intr_handle *intr_handle;
int rc;
efx_intr_disable(sa->nic);
intr_handle = &pci_dev->intr_handle;
if (rte_intr_disable(intr_handle) != 0)
sfc_err(sa, "cannot disable interrupts");
while ((rc = rte_intr_callback_unregister(intr_handle,
intr->handler, (void *)sa)) == -EAGAIN)
;
if (rc != 1)
sfc_err(sa,
"cannot unregister interrupt handler %d",
rc);
}
efx_intr_fini(sa->nic);
sfc_log_init(sa, "done");
}
int
sfc_intr_configure(struct sfc_adapter *sa)
{
struct sfc_intr *intr = &sa->intr;
sfc_log_init(sa, "entry");
intr->handler = NULL;
intr->lsc_intr = (sa->eth_dev->data->dev_conf.intr_conf.lsc != 0);
if (!intr->lsc_intr) {
sfc_notice(sa, "LSC tracking using interrupts is disabled");
goto done;
}
switch (intr->type) {
case EFX_INTR_MESSAGE:
intr->handler = sfc_intr_message_handler;
break;
case EFX_INTR_LINE:
intr->handler = sfc_intr_line_handler;
break;
case EFX_INTR_INVALID:
sfc_warn(sa, "interrupts are not supported");
break;
default:
sfc_panic(sa, "unexpected EFX interrupt type %u\n", intr->type);
break;
}
done:
sfc_log_init(sa, "done");
return 0;
}
void
sfc_intr_close(struct sfc_adapter *sa)
{
sfc_log_init(sa, "entry");
sfc_log_init(sa, "done");
}
int
sfc_intr_attach(struct sfc_adapter *sa)
{
struct sfc_intr *intr = &sa->intr;
struct rte_pci_device *pci_dev = RTE_ETH_DEV_TO_PCI(sa->eth_dev);
sfc_log_init(sa, "entry");
switch (pci_dev->intr_handle.type) {
#ifdef RTE_EXEC_ENV_LINUXAPP
case RTE_INTR_HANDLE_UIO_INTX:
case RTE_INTR_HANDLE_VFIO_LEGACY:
intr->type = EFX_INTR_LINE;
break;
case RTE_INTR_HANDLE_UIO:
case RTE_INTR_HANDLE_VFIO_MSI:
case RTE_INTR_HANDLE_VFIO_MSIX:
intr->type = EFX_INTR_MESSAGE;
break;
#endif
default:
intr->type = EFX_INTR_INVALID;
break;
}
sfc_log_init(sa, "done");
return 0;
}
void
sfc_intr_detach(struct sfc_adapter *sa)
{
sfc_log_init(sa, "entry");
sa->intr.type = EFX_INTR_INVALID;
sfc_log_init(sa, "done");
}
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