xref: /titanic_44/usr/src/man/man9f/gld.9f (revision 5ee6ac27d4fd4c9412183aa8cc1143f36ae04a8c)
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Copyright (c) 2003, Sun Microsystems, Inc.
All Rights Reserved
The contents of this file are subject to the terms of the Common Development and Distribution License (the "License"). You may not use this file except in compliance with the License.
You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE or http://www.opensolaris.org/os/licensing. See the License for the specific language governing permissions and limitations under the License.
When distributing Covered Code, include this CDDL HEADER in each file and include the License file at usr/src/OPENSOLARIS.LICENSE. If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner]
GLD 9F "Aug 28, 2003"
NAME
gld, gld_mac_alloc, gld_mac_free, gld_register, gld_unregister, gld_recv, gld_sched, gld_intr - Generic LAN Driver service routines
SYNOPSIS

#include <sys/gld.h>

gld_mac_info_t *gld_mac_alloc(dev_info_t *dip);

void gld_mac_free(gld_mac_info_t *macinfo);

int gld_register(dev_info_t *dip, char *name, gld_mac_info_t *macinfo);

int gld_unregister(gld_mac_info_t *macinfo);

void gld_recv(gld_mac_info_t *macinfo, mblk_t *mp);

void gld_sched(gld_mac_info_t *macinfo);

uint_t gld_intr(caddr_t);

void gld_linkstate(gld_mac_info_t *macinfo, int32_t newstate);
INTERFACE LEVEL

Solaris architecture specific (Solaris DDI).

PARAMETERS
macinfo

Pointer to a gld_mac_info(9S) structure.

dip

Pointer to dev_info structure.

name

Device interface name.

mp

Pointer to a message block containing a received packet.

newstate

Media link state.

DESCRIPTION

gld_mac_alloc(\|) allocates a new gld_mac_info(9S) structure and returns a pointer to it. Some of the GLD-private elements of the structure may be initialized before gld_mac_alloc(\|) returns; all other elements are initialized to zero. The device driver must initialize some structure members, as described in gld_mac_info(9S), before passing the mac_info pointer to gld_register(\|).

gld_mac_free(\|) frees a gld_mac_info(9S) structure previously allocated by gld_mac_alloc(\|).

gld_register(\|) is called from the device driver's attach(9E) routine, and is used to link the GLD-based device driver with the GLD framework. Before calling gld_register(\|) the device driver's attach(9E) routine must first use gld_mac_alloc(\|) to allocate a gld_mac_info(9S) structure, and initialize several of its structure elements. See gld_mac_info(9S) for more information. A successful call to gld_register(\|) performs the following actions:

links the device-specific driver with the GLD system;

sets the device-specific driver's private data pointer (using ddi_set_driver_private(9F)) to point to the macinfo structure;

creates the minor device node.

The device interface name passed to gld_register(\|) must exactly match the name of the driver module as it exists in the filesystem.

The driver's attach(9E) routine should return DDI_SUCCESS if gld_register(\|) succeeds. If gld_register(\|) returns DDI_FAILURE, the attach(9E) routine should deallocate any resources it allocated before calling gld_register(\|) and then also return DDI_FAILURE.

gld_unregister(\|) is called by the device driver's detach(9E) function, and if successful, performs the following tasks:

ensures the device's interrupts are stopped, calling the driver's gldm_stop(\|) routine if necessary;

removes the minor device node;

unlinks the device-specific driver from the GLD system.

If gld_unregister(\|) returns DDI_SUCCESS, the detach(9E) routine should deallocate any data structures allocated in the attach(9E) routine, using gld_mac_free(\|) to deallocate the macinfo structure, and return DDI_SUCCESS. If gld_unregister(\|) returns DDI_FAILURE, the driver's detach(9E) routine must leave the device operational and return DDI_FAILURE.

gld_recv(\|) is called by the driver's interrupt handler to pass a received packet upstream. The driver must construct and pass a STREAMS M_DATA message containing the raw packet. gld_recv(\|) determines which STREAMS queues, if any, should receive a copy of the packet, duplicating it if necessary. It then formats a DL_UNITDATA_IND message, if required, and passes the data up all appropriate streams.

The driver should avoid holding mutex or other locks during the call to gld_recv(\|). In particular, locks that could be taken by a transmit thread may not be held during a call to gld_recv(\|): the interrupt thread that calls gld_recv(\|) may in some cases carry out processing that includes sending an outgoing packet, resulting in a call to the driver's gldm_send(\|) routine. If the gldm_send(\|) routine were to try to acquire a mutex being held by the gldm_intr(\|) routine at the time it calls gld_recv(\|), this could result in a panic due to recursive mutex entry.

gld_sched(\|) is called by the device driver to reschedule stalled outbound packets. Whenever the driver's gldm_send(\|) routine has returned GLD_NORESOURCES, the driver must later call gld_sched(\|) to inform the GLD framework that it should retry the packets that previously could not be sent. gld_sched(\|) should be called as soon as possible after resources are again available, to ensure that GLD resumes passing outbound packets to the driver's gldm_send(\|) routine in a timely way. (If the driver's gldm_stop(\|) routine is called, the driver is absolved from this obligation until it later again returns GLD_NORESOURCES from its gldm_send(\|) routine; however, extra calls to gld_sched(\|) will not cause incorrect operation.)

gld_intr(\|) is GLD's main interrupt handler. Normally it is specified as the interrupt routine in the device driver's call to ddi_add_intr(9F). The argument to the interrupt handler (specified as int_handler_arg in the call to ddi_add_intr(9F)) must be a pointer to the gld_mac_info(9S) structure. gld_intr(\|) will, when appropriate, call the device driver's gldm_intr(\|) function, passing that pointer to the gld_mac_info(9S) structure. However, if the driver uses a high-level interrupt, it must provide its own high-level interrupt handler, and trigger a soft interrupt from within that. In this case, gld_intr(\|) may be specified as the soft interrupt handler in the call to ddi_add_softintr(\|).

gld_linkstate() is called by the device driver to notify GLD of changes in the media link state. The newstate argument should be set to one of the following: GLD_LINKSTATE_DOWN

The media link is unavailable.

GLD_LINKSTATE_UP

The media link is unavailable.

GLD_LINKSTATE_UNKNOWN

The status of the media link is unknown.

If a driver calls gld_linkstate(), it must also set the GLD_CAP_LINKSTATE bit in the gldm_capabilties field of the gld_mac_info(9S) structure.

RETURN VALUES

gld_mac_alloc(\|) returns a pointer to a new gld_mac_info(9S) structure.

gld_register(\|) and gld_unregister(\|) return: DDI_SUCCESS

on success.

DDI_FAILURE

on failure.

gld_intr(\|) returns a value appropriate for an interrupt handler.

SEE ALSO

gld(7D), gld(9E), gld_mac_info(9S), gld_stats(9S), dlpi(7P), attach(9E), ddi_add_intr(9F).

Writing Device Drivers