man/man9e/csx_event_handler.9e

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 Copyright (c) 1996, 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]
 CSX_EVENT_HANDLER 9E "Nov 22, 1996"
 NAME
csx_event_handler - PC Card driver event handler
 SYNOPSIS

#include <sys/pccard.h>


int32_t prefixevent_handler(event_t event, int32_t priority,
 event_callback_args_t *args);


 INTERFACE LEVEL

Solaris architecture specific (Solaris DDI)
 PARAMETERS
event

The event.


priority

The priority of the event.


args

A pointer to the event_callback_t structure.


 DESCRIPTION

Each instance of a PC Card driver must register an event handler to
manage events associated with its PC Card. The driver event handler is
registered using the event_handler field of the client_req_t
structure passed to csx_RegisterClient(9F). The driver may also supply a
parameter to be passed to its event handler function using the
event_callback_args.client_data field. Typically, this argument is the
driver instance's soft state pointer. The driver also registers which events it
is interested in receiving through the EventMask field of the
client_req_t structure.

Each event is delivered to the driver with a priority, priority. High
priority events with CS_EVENT_PRI_HIGH set in priority are
delivered above lock level, and the driver must use its high-level event mutex
initialized with the iblk_cookie returned by csx_RegisterClient(9F)
to protect such events. Low priority events with CS_EVENT_PRI_LOW set in
priority are delivered below lock level, and the driver must use its
low-level event mutex initialized with a NULL interrupt cookie to protect
these events.

csx_RegisterClient(9F) registers the driver's event handler, but no
events begin to be delivered to the driver until after a successful call to
csx_RequestSocketMask(9F).

In all cases, Card Services delivers an event to each driver instance
associated with a function on a multiple function PC Card.
 "Event Indications"

The events and their indications are listed below; they are always delivered as
low priority unless otherwise noted:
CS_EVENT_REGISTRATION_COMPLETE

A registration request processed in the background has been completed.


CS_EVENT_CARD_INSERTION

A PC Card has been inserted in a socket.


CS_EVENT_CARD_READY

A PC Card's READY line has transitioned from the busy to ready
state.


CS_EVENT_CARD_REMOVAL

A PC Card has been removed from a socket. This event is delivered twice;
first as a high priority event, followed by delivery as a low priority event.
As a high priority event, the event handler should only note that the PC
Card is no longer present to prevent accesses to the hardware from
occurring. As a low priority event, the event handler should release the
configuration and free all I/O, window and IRQ resources for use by
other PC Cards.


CS_EVENT_BATTERY_LOW

The battery on a PC Card is weak and is in need of replacement.


CS_EVENT_BATTERY_DEAD

The battery on a PC Card is no longer providing operational voltage.


CS_EVENT_PM_RESUME

Card Services has received a resume notification from the system's Power
Management software.


CS_EVENT_PM_SUSPEND

Card Services has received a suspend notification from the system's Power
Management software.


CS_EVENT_CARD_LOCK

A mechanical latch has been manipulated preventing the removal of the PC
Card from the socket.


CS_EVENT_CARD_UNLOCK

A mechanical latch has been manipulated allowing the removal of the PC
Card from the socket.


CS_EVENT_EJECTION_REQUEST

A request that the PC Card be ejected from a socket using a motor-driven
mechanism.


CS_EVENT_EJECTION_COMPLETE

A motor has completed ejecting a PC Card from a socket.


CS_EVENT_ERASE_COMPLETE

A queued erase request that is processed in the background has been completed.


CS_EVENT_INSERTION_REQUEST

A request that a PC Card be inserted into a socket using a motor-driven
mechanism.


CS_EVENT_INSERTION_COMPLETE

A motor has completed inserting a PC Card in a socket.


CS_EVENT_CARD_RESET

A hardware reset has occurred.


CS_EVENT_RESET_REQUEST

A request for a physical reset by a client.


CS_EVENT_RESET_COMPLETE

A reset request that is processed in the background has been completed.


CS_EVENT_RESET_PHYSICAL

A reset is about to occur.


CS_EVENT_CLIENT_INFO

A request that the client return its client information data. If
GET_CLIENT_INFO_SUBSVC(args->client_info.Attributes) is equal to
CS_CLIENT_INFO_SUBSVC_CS, the driver should fill in the other fields in
the client_info structure as described below, and return
CS_SUCCESS. Otherwise, it should return CS_UNSUPPORTED_EVENT.
args->client_data.Attributes

Must be OR'ed with CS_CLIENT_INFO_VALID.


args->client_data.Revision

Must be set to a driver-private version number.


args->client_data.CSLevel

Must be set to CS_VERSION.


args->client_data.RevDate

Must be set to the revision date of the PC Card driver, using
CS_CLIENT_INFO_MAKE_DATE(day, month, year). day
must be the day of the month, month must be the month of the year, and
year must be the year, offset from a base of 1980. For example, this
field could be set to a revision date of July 4 1997 with
CS_CLIENT_INFO_MAKE_DATE(4, 7, 17).


args->client_data.ClientName

A string describing the PC Card driver should be copied into this space.


args->client_data.VendorName

A string supplying the name of the PC Card driver vendor should be copied
into this space.


args->client_data.DriverName

A string supplying the name of the PC Card driver will be copied into
this space by Card Services after the PC Card driver has successfully
processed this event; the driver does not need to initialize this field.


CS_EVENT_WRITE_PROTECT

The write protect status of the PC Card in the indicated socket has
changed. The current write protect state of the PC Card is in the
args->info field:
CS_EVENT_WRITE_PROTECT_WPOFF

Card is not write protected.


CS_EVENT_WRITE_PROTECT_WPON

Card is write protected.


 STRUCTURE MEMBERS

The structure members of event_callback_args_t are:
void *info; /* event-specific information */
void *client_data; /* driver-private data */
client_info_t client_info; /* client information*/


The structure members of client_info_t are:
unit32_t Attributes; /* attributes */
unit32_t Revisions; /* version number */
uint32_t CSLevel; /* Card Services version */
uint32_t RevDate; /* revision date */
char ClientName[CS_CLIENT_INFO_MAX_NAME_LEN];
 /*PC Card driver description */
char VendorName[CS_CLIENT_INFO_MAX_NAME_LEN];
 /*PC Card driver vendor name */
char DriverName[MODMAXNAMELEN];
 /* PC Card driver name */


 RETURN VALUES
CS_SUCCESS

The event was handled successfully.


CS_UNSUPPORTED_EVENT

Driver does not support this event.


CS_FAILURE

Error occurred while handling this event.


 CONTEXT

This function is called from high-level interrupt context in the case of high
priority events, and from kernel context in the case of low priority events.
 EXAMPLES
static int
xx_event(event_t event, int priority, event_callback_args_t *args)
{
 int rval;
 struct xxx *xxx = args->client_data;
 client_info_t *info = &args->client_info;

 switch (event) {
 case CS_EVENT_REGISTRATION_COMPLETE:
 ASSERT(priority & CS_EVENT_PRI_LOW);
 mutex_enter(&xxx->event_mutex);
 xxx->card_state |= XX_REGISTRATION_COMPLETE;
 mutex_exit(&xxx->event_mutex);
 rval = CS_SUCCESS;
 break;

 case CS_EVENT_CARD_READY:
 ASSERT(priority & CS_EVENT_PRI_LOW);
 rval = xx_card_ready(xxx);
 mutex_exit(&xxx->event_mutex);
 break;

 case CS_EVENT_CARD_INSERTION:
 ASSERT(priority & CS_EVENT_PRI_LOW);
 mutex_enter(&xxx->event_mutex);
 rval = xx_card_insertion(xxx);
 mutex_exit(&xxx->event_mutex);
 break;

 case CS_EVENT_CARD_REMOVAL:
 if (priority & CS_EVENT_PRI_HIGH) {
 mutex_enter(&xxx->hi_event_mutex);
 xxx->card_state &= ~XX_CARD_PRESENT;
 mutex_exit(&xxx->hi_event_mutex);
 } else {
 mutex_enter(&xxx->event_mutex);
 rval = xx_card_removal(xxx);
 mutex_exit(&xxx->event_mutex);
 }
 break;

 case CS_EVENT_CLIENT_INFO:
 ASSERT(priority & CS_EVENT_PRI_LOW);
 if (GET_CLIENT_INFO_SUBSVC_CS(info->Attributes) ==
 CS_CLIENT_INFO_SUBSVC_CS) {
 info->Attributes |= CS_CLIENT_INFO_VALID;
 info->Revision = 4;
 info->CSLevel = CS_VERSION;
 info->RevDate = CS_CLIENT_INFO_MAKE_DATE(4, 7, 17);
 (void)strncpy(info->ClientName,
 "WhizBang Ultra Zowie PC card driver",
 CS_CLIENT_INFO_MAX_NAME_LEN)

 "ACME PC card drivers, Inc.",
 CS_CLIENT_INFO_MAX_NAME_LEN);
 rval = CS_SUCCESS;
 } else {
 rval = CS_UNSUPPORTED_EVENT;
 }
 break;


 case CS_EVENT_WRITE_PROTECT:
 ASSERT(priority & CS_EVENT_PRI_LOW);
 mutex_enter(&xxx->event_mutex);
 if (args->info == CS_EVENT_WRITE_PROTECT_WPOFF) {
 xxx->card_state &= ~XX_WRITE_PROTECTED;
 } else {
 xxx->card_state |= XX_WRITE_PROTECTED;
 }
 mutex_exit(&xxx->event_mutex);
 rval = CS_SUCCESS;
 break;

 default:
 rval = CS_UNSUPPORTED_EVENT;
 break;
 }

 return (rval);
}


 SEE ALSO

csx_Event2Text(9F), csx_RegisterClient(9F),
csx_RequestSocketMask(9F)

PC Card 95 Standard, PCMCIA/JEIDA