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NAME

     iflibdi — Device Independent Configuration Functions

SYNOPSIS

     #include <ifdi_if.h>

   Device Independent Functions
     int
     iflib_device_attach(device_t dev);

     int
     iflib_device_detach(device_t dev);

     int
     iflib_device_suspend(device_t dev);

     int
     iflib_device_resume(device_t dev);

     int
     iflib_device_register(device_t dev, void *softc, if_shared_ctx_t sctx, if_ctx_t *ctxp);

     int
     iflib_device_deregister(if_ctx_t ctx);

     int
     iflib_irq_alloc(if_ctx_t ctx, if_irq_t irq_info, int rid, driver_filter_t filter,
         void *filter_arg, driver_intr_t handler, void *arg, char *name);

     int
     iflib_irq_alloc_generic(if_ctx_t ctx, if_irq_t irq, int rid, intr_type_t type,
         driver_filter_t *filter, void *filter_arg, int qid, char *name);

     void
     iflib_led_create(if_ctx_t ctx);

     void
     iflib_tx_intr_deferred(if_ctx_t ctx, int txqid);

     void
     iflib_rx_intr_deferred(if_ctx_t ctx, int rxqid);

     void
     iflib_link_intr_deferred(if_ctx_t ctx);

     void
     iflib_link_state_change(if_ctx_t ctx, int linkstate);

     void
     iflib_add_int_delay_sysctl(if_ctx_t ctx, const char *, const char *, if_int_delay_info_t,
         int, int);

   Global Variables
     extern struct if_txrx

DATA STRUCTURES

     The if_ctx_t Structure is the device independent data structure that contains statistics and
     identifying information used to transmit and receive data packets.  The interface is
     associated with an array of queues assigned sequentially.  Each queue has its own transmit
     (iflib_txq_t) and receive (iflib_rxq_t) queue.  The transmit queue is used to hold packets
     while the interface is in the process of sending another.  The receive queue is used to
     receive packets that are awaiting processing.

   The if_ctx_t Structure
     The fields of struct if_ctx_t are as follows:

           if_softc         (void) A pointer to the driver's private state block.

           ifc_dev          (device_t) The underlying device structure.

           ifc_ip           (if_t) A link back to the interface structure

           ifc_cpus         (cpuset_t)

           ifc_mutex        (struct mtx) Mutex lock used to maintain data integrity

           ifc_mtx_name     (char *) The name of the mutex

           ifc_txqs         (iflib_txq_t) Device independent transmit queue maintained internally
                            by iflib

           ifc_rxqs         (iflib_rxq_t) Device independent receive queue maintained internally
                            by iflib

           ifc_qsets        (iflib_qset_t) Output queue that contains a single transmit
                            (ifc_txq_t) and receive (ifc_rxq_t) queue

           ifc_if_flags     (uint32_t) Flags describing the operational parameter of the
                            interface

           ifc_in_detach    (int)

           ifc_link_state   (int) Describes the current link state of the Ethernet interface.
                            Its possible values are either active or inactive.

           ifc_link_irq     (int)

           ifc_vlan_attach_event
                            (eventhandler_tag)

           ifc_vlan_detach_event
                            (eventhandler_tag)

           ifc_pause_frames
                            (int)

           ifc_watchdog_events
                            (int)

           ifc_mac          (uint8_t)

           ifc_msix_mem     (struct resource *)

           ifc_legacy_irq   (struct if_irq)

           ifc_admin_task   (struct grouptask) Taskqueue task scheduled for link state change
                            events of the interface

           ifc_filter_info  (struct iflib_filter_info) Statistics and information relating to the
                            interface device filter

           ifc_media        (struct ifmedia)

           ifc_txrx         (struct if_txrx)

FUNCTIONS

     The above named functions are found exclusively in iflib.  They are independent of the
     underlying hardware type or configuration.

   Device Independent Functions
           iflib_device_attach()
           Function initiates a device registration with the iflib framework.  It calls the
           iflib_register function, which is responsible for allocating and initializing the
           if_ctx_t structure.

           iflib_device_detach()
           Shutdown and detach the device.  Unregister vlan events, drain any dependent tasks,
           and release irq, pci, and msix memory.

           iflib_device_suspend()
           Suspend a device by calling the device dependent suspend function and
           bus_generic_suspend.

           iflib_device_resume()
           Resume a device by calling the device dependent resume function, the iflib_init_locked
           function, and bus_generic_resume.

           iflib_device_register()
           Register a device with the iflib framework.  Allocate and initialize the if_ctx_t
           structure.  Setup and initialize the MSI or MSI/X interrupt queues if necessary.
           Allocate memory for queues and qset structure setup.

           iflib_device_irq_alloc()
           Allocate an interrupt resource for a given rid value with an associated filter and
           handler function.

           iflib_device_irq_alloc_generic()
           Performs the same function as iflib_device_irq_alloc along with the additional
           functionality of adding a taskgroup.  The data fields and callback function are
           determined by the type of interrupt, such as IFLIB_INTR_TX, IFLIB_INTR_RX, and
           IFLIB_INTR_ADMIN.

           iflib_led_create()
           Calls led_create to initialize the ctx->ifc_led_dev field

           iflib_tx_intr_deferred()
           Calls GROUPTASK_ENQUEUE to enqueue the transfer queues ift_task.

           iflib_rx_intr_deferred()
           Calls GROUPTASK_ENQUEUE to enqueue the receive queues ifr_task.

           iflib_link_intr_deferred()
           Calls GROUPTASK_ENQUEUE to enqueue the link task

           iflib_link_state_change()
           Change the interface link status to either LINK_STATE_UP or LINK_STATE_DOWN as
           specified by the second argument to the function.

           Interface Link States The following link states are currently defined:

           LINK_STATE_UP
           The link is up.

           LINK_STATE_DOWN
           The link is down.

           iflib_add_int_delay_sysctl()
           Modifies settings to user defined values for a given set of variables.

SEE ALSO

     iflibdd(9), iflibtxrx(9)

AUTHORS

     This manual page was written by Nicole Graziano