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xNBA/src/drivers/bus/isapnp.c

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/**************************************************************************
*
* isapnp.c -- Etherboot isapnp support for the 3Com 3c515
* Written 2002-2003 by Timothy Legge <tlegge@rogers.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
* Portions of this code:
* Copyright (C) 2001 P.J.H.Fox (fox@roestock.demon.co.uk)
*
*
* REVISION HISTORY:
* ================
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* Version 0.1 April 26, 2002 TJL
* Version 0.2 01/08/2003 TJL Moved outside the 3c515.c driver file
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* Version 0.3 Sept 23, 2003 timlegge Change delay to currticks
*
*
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* Generalised into an ISAPnP bus that can be used by more than just
* the 3c515 by Michael Brown <mbrown@fensystems.co.uk>
*
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***************************************************************************/
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#include "string.h"
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#include "timer.h"
#include "io.h"
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#include "console.h"
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#include "isapnp.h"
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/*
* We can have only one ISAPnP bus in a system. Once the read port is
* known and all cards have been allocated CSNs, there's nothing to be
* gained by re-scanning for cards.
*
* However, we shouldn't make scanning the ISAPnP bus an INIT_FN(),
* because even ISAPnP probing can still screw up other devices on the
* ISA bus. We therefore probe only when we are first asked to find
* an ISAPnP device.
*
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* External code (e.g. the ISAPnP ROM prefix) may already know the
* read port address, in which case it can initialise this value.
* Note that setting the read port address will prevent further
* isolation from taking place; you should set the read port address
* only if you know that devices have already been allocated CSNs.
*
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*/
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uint16_t isapnp_read_port;
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/*
* ISAPnP utility functions
*
*/
#define ISAPNP_CARD_ID_FMT "ID %hx:%hx (\"%s\") serial %x"
#define ISAPNP_CARD_ID_DATA(identifier) \
(identifier)->vendor_id, (identifier)->prod_id, \
isa_id_string ( (identifier)->vendor_id, (identifier)->prod_id ), \
(identifier)->serial
#define ISAPNP_DEV_ID_FMT "ID %hx:%hx (\"%s\")"
#define ISAPNP_DEV_ID_DATA(isapnp) \
(isapnp)->vendor_id, (isapnp)->prod_id, \
isa_id_string ( (isapnp)->vendor_id, (isapnp)->prod_id )
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static inline void isapnp_write_address ( uint8_t address ) {
outb ( address, ISAPNP_ADDRESS );
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}
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static inline void isapnp_write_data ( uint8_t data ) {
outb ( data, ISAPNP_WRITE_DATA );
}
static inline uint8_t isapnp_read_data ( void ) {
return inb ( isapnp_read_port );
}
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static inline void isapnp_write_byte ( uint8_t address, uint8_t value ) {
isapnp_write_address ( address );
isapnp_write_data ( value );
}
static inline uint8_t isapnp_read_byte ( uint8_t address ) {
isapnp_write_address ( address );
return isapnp_read_data ();
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}
static inline uint16_t isapnp_read_word ( uint8_t address ) {
/* Yes, they're in big-endian order */
return ( ( isapnp_read_byte ( address ) << 8 )
+ isapnp_read_byte ( address + 1 ) );
}
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static inline void isapnp_set_read_port ( void ) {
isapnp_write_byte ( ISAPNP_READPORT, isapnp_read_port >> 2 );
}
static inline void isapnp_serialisolation ( void ) {
isapnp_write_address ( ISAPNP_SERIALISOLATION );
}
static inline void isapnp_wait_for_key ( void ) {
isapnp_write_byte ( ISAPNP_CONFIGCONTROL, ISAPNP_CONFIG_WAIT_FOR_KEY );
}
static inline void isapnp_reset_csn ( void ) {
isapnp_write_byte ( ISAPNP_CONFIGCONTROL, ISAPNP_CONFIG_RESET_CSN );
}
static inline void isapnp_wake ( uint8_t csn ) {
isapnp_write_byte ( ISAPNP_WAKE, csn );
}
static inline uint8_t isapnp_read_resourcedata ( void ) {
return isapnp_read_byte ( ISAPNP_RESOURCEDATA );
}
static inline uint8_t isapnp_read_status ( void ) {
return isapnp_read_byte ( ISAPNP_STATUS );
}
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static inline void isapnp_write_csn ( uint8_t csn ) {
isapnp_write_byte ( ISAPNP_CARDSELECTNUMBER, csn );
}
static inline void isapnp_logicaldevice ( uint8_t logdev ) {
isapnp_write_byte ( ISAPNP_LOGICALDEVICENUMBER, logdev );
}
static inline void isapnp_activate ( uint8_t logdev ) {
isapnp_logicaldevice ( logdev );
isapnp_write_byte ( ISAPNP_ACTIVATE, 1 );
}
static inline void isapnp_deactivate ( uint8_t logdev ) {
isapnp_logicaldevice ( logdev );
isapnp_write_byte ( ISAPNP_ACTIVATE, 0 );
}
static inline uint16_t isapnp_read_iobase ( unsigned int index ) {
return isapnp_read_word ( ISAPNP_IOBASE ( index ) );
}
static inline uint8_t isapnp_read_irqno ( unsigned int index ) {
return isapnp_read_byte ( ISAPNP_IRQNO ( index ) );
}
static void isapnp_delay ( void ) {
udelay ( 1000 );
}
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/*
* The linear feedback shift register as described in Appendix B of
* the PnP ISA spec. The hardware implementation uses eight D-type
* latches and two XOR gates. I think this is probably the smallest
* possible implementation in software. Six instructions when input_bit
* is a constant 0 (for isapnp_send_key). :)
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*
*/
static inline uint8_t isapnp_lfsr_next ( uint8_t lfsr, int input_bit ) {
register uint8_t lfsr_next;
lfsr_next = lfsr >> 1;
lfsr_next |= ( ( ( lfsr ^ lfsr_next ) ^ input_bit ) ) << 7;
return lfsr_next;
}
/*
* Send the ISAPnP initiation key
*
*/
static void isapnp_send_key ( void ) {
unsigned int i;
uint8_t lfsr;
isapnp_delay();
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isapnp_write_address ( 0x00 );
isapnp_write_address ( 0x00 );
lfsr = ISAPNP_LFSR_SEED;
for ( i = 0 ; i < 32 ; i++ ) {
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isapnp_write_address ( lfsr );
lfsr = isapnp_lfsr_next ( lfsr, 0 );
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}
}
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/*
* Compute ISAPnP identifier checksum
*
*/
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static uint8_t isapnp_checksum ( struct isapnp_identifier *identifier ) {
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int i, j;
uint8_t lfsr;
uint8_t byte;
lfsr = ISAPNP_LFSR_SEED;
for ( i = 0 ; i < 8 ; i++ ) {
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byte = ( (char *) identifier )[i];
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for ( j = 0 ; j < 8 ; j++ ) {
lfsr = isapnp_lfsr_next ( lfsr, byte );
byte >>= 1;
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}
}
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return lfsr;
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}
/*
* Read a byte of resource data from the current location
*
*/
static inline uint8_t isapnp_peek_byte ( void ) {
int i;
/* Wait for data to be ready */
for ( i = 0 ; i < 20 ; i ++ ) {
if ( isapnp_read_status() & 0x01 ) {
/* Byte ready - read it */
return isapnp_read_resourcedata();
}
isapnp_delay ();
}
/* Data never became ready - return 0xff */
return 0xff;
}
/*
* Read n bytes of resource data from the current location. If buf is
* NULL, discard data.
*
*/
static void isapnp_peek ( uint8_t *buf, size_t bytes ) {
unsigned int i;
uint8_t byte;
for ( i = 0 ; i < bytes ; i++) {
byte = isapnp_peek_byte();
if ( buf ) {
buf[i] = byte;
}
}
}
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/*
* Scan through the resource data until we find a particular tag, and
* read its contents into a buffer.
*
* It is the caller's responsibility to ensure that buf is large
* enough to contain a tag of the requested size.
*
*/
static int isapnp_find_tag ( uint8_t wanted_tag, uint8_t *buf ) {
uint8_t tag;
uint16_t len;
DBG ( "ISAPnP read tag" );
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do {
tag = isapnp_peek_byte();
if ( ISAPNP_IS_SMALL_TAG ( tag ) ) {
len = ISAPNP_SMALL_TAG_LEN ( tag );
tag = ISAPNP_SMALL_TAG_NAME ( tag );
} else {
len = isapnp_peek_byte() + ( isapnp_peek_byte() << 8 );
tag = ISAPNP_LARGE_TAG_NAME ( tag );
}
DBG ( " %hhx (%hhx)", tag, len );
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if ( tag == wanted_tag ) {
isapnp_peek ( buf, len );
DBG ( "\n" );
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return 1;
} else {
isapnp_peek ( NULL, len );
}
} while ( tag != ISAPNP_TAG_END );
DBG ( "\n" );
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return 0;
}
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/*
* Try isolating ISAPnP cards at the current read port. Return the
* number of ISAPnP cards found.
*
* The state diagram on page 18 (PDF page 24) of the PnP ISA spec
* gives the best overview of what happens here.
*
*/
static int isapnp_try_isolate ( void ) {
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struct isapnp_identifier identifier;
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unsigned int i, j, seen55aa;
unsigned int csn = 0;
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uint16_t data;
uint8_t byte;
DBG ( "ISAPnP attempting isolation at read port %hx\n",
isapnp_read_port );
/* Place all cards into the Sleep state, whatever state
* they're currently in.
*/
isapnp_wait_for_key ();
isapnp_send_key ();
/* Reset all assigned CSNs */
isapnp_reset_csn ();
isapnp_delay();
isapnp_delay();
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/* Place all cards into the Isolation state */
isapnp_wait_for_key ();
isapnp_send_key ();
isapnp_wake ( 0x00 );
/* Set the read port */
isapnp_set_read_port ();
isapnp_delay();
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while ( 1 ) {
/* All cards that do not have assigned CSNs are
* currently in the Isolation state, each time we go
* through this loop.
*/
/* Initiate serial isolation */
isapnp_serialisolation ();
isapnp_delay();
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/* Read identifier serially via the ISAPnP read port. */
memset ( &identifier, 0, sizeof ( identifier ) );
seen55aa = 0;
for ( i = 0 ; i < 9 ; i++ ) {
byte = 0;
for ( j = 0 ; j < 8 ; j++ ) {
data = isapnp_read_data ();
isapnp_delay();
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data = ( data << 8 ) | isapnp_read_data ();
isapnp_delay();
byte >>= 1;
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if ( data == 0x55aa ) {
byte |= 0x80;
seen55aa = 1;
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}
}
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( (char *) &identifier )[i] = byte;
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}
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/* If we didn't see any 55aa patterns, stop here */
if ( ! seen55aa ) {
DBG ( "ISAPnP saw %s signs of life\n",
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csn ? "no futher" : "no" );
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break;
}
/* If the checksum was invalid stop here */
if ( identifier.checksum != isapnp_checksum ( &identifier) ) {
DBG ( "ISAPnP found malformed card "
ISAPNP_CARD_ID_FMT "\n with checksum %hhx "
"(should be %hhx), abandoning isolation\n",
ISAPNP_CARD_ID_DATA ( &identifier ),
identifier.checksum,
isapnp_checksum ( &identifier) );
/* break; */
}
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/* Give the device a CSN */
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csn++;
DBG ( "ISAPnP found card " ISAPNP_CARD_ID_FMT
", assigning CSN %hhx\n",
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ISAPNP_CARD_ID_DATA ( &identifier ), csn );
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isapnp_write_csn ( csn );
isapnp_delay();
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/* Send this card back to Sleep and force all cards
* without a CSN into Isolation state
*/
isapnp_wake ( 0x00 );
isapnp_delay();
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}
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/* Place all cards in Wait for Key state */
isapnp_wait_for_key ();
/* Return number of cards found */
DBG ( "ISAPnP found %d cards at read port %hx\n",
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csn, isapnp_read_port );
return csn;
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}
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/*
* Isolate all ISAPnP cards, locating a valid read port in the process.
*
*/
static void isapnp_isolate ( void ) {
for ( isapnp_read_port = ISAPNP_READ_PORT_MIN ;
isapnp_read_port <= ISAPNP_READ_PORT_MAX ;
isapnp_read_port += ISAPNP_READ_PORT_STEP ) {
/* Avoid problematic locations such as the NE2000
* probe space
*/
if ( ( isapnp_read_port >= 0x280 ) &&
( isapnp_read_port <= 0x380 ) )
continue;
/* If we detect any ISAPnP cards at this location, stop */
if ( isapnp_try_isolate () )
return;
}
}
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/*
* Increment a bus_loc structure to the next possible ISAPnP location.
* Leave the structure zeroed and return 0 if there are no more valid
* locations.
*
*/
static int isapnp_next_location ( struct bus_loc *bus_loc ) {
struct isapnp_loc *isapnp_loc = ( struct isapnp_loc * ) bus_loc;
/*
* Ensure that there is sufficient space in the shared bus
* structures for a struct isapnp_loc and a struct isapnp_dev,
* as mandated by bus.h.
*
*/
BUS_LOC_CHECK ( struct isapnp_loc );
BUS_DEV_CHECK ( struct isapnp_device );
return ( ++isapnp_loc->logdev ? 1 : ++isapnp_loc->csn );
}
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/*
* Fill in parameters for an ISAPnP device based on CSN
*
* Return 1 if device present, 0 otherwise
*
*/
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static int isapnp_fill_device ( struct bus_dev *bus_dev,
struct bus_loc *bus_loc ) {
struct isapnp_device *isapnp = ( struct isapnp_device * ) bus_dev;
struct isapnp_loc *isapnp_loc = ( struct isapnp_loc * ) bus_loc;
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unsigned int i;
struct isapnp_identifier identifier;
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struct isapnp_logdevid logdevid;
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static struct {
uint8_t csn;
uint8_t first_nonexistent_logdev;
} cache = { 0, 0 };
/* Copy CSN and logdev to isapnp_device, set default values */
isapnp->csn = isapnp_loc->csn;
isapnp->logdev = isapnp_loc->logdev;
isapnp->name = "?";
/* CSN 0 is never valid, but may be passed in */
if ( ! isapnp->csn )
return 0;
/* Check cache to see if we are already past the highest
* logical device of this CSN
*/
if ( ( isapnp->csn == cache.csn ) &&
( isapnp->logdev >= cache.first_nonexistent_logdev ) )
return 0;
/* Perform isolation if it hasn't yet been done */
if ( ! isapnp_read_port )
isapnp_isolate();
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/* Wake the card */
isapnp_wait_for_key ();
isapnp_send_key ();
isapnp_wake ( isapnp->csn );
/* Read the card identifier */
isapnp_peek ( ( char * ) &identifier, sizeof ( identifier ) );
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/* Need to return 0 if no device exists at this CSN */
if ( identifier.vendor_id & 0x80 ) {
DBG ( "ISAPnP found no card %hhx\n", isapnp->csn );
cache.csn = isapnp->csn;
cache.first_nonexistent_logdev = 0;
return 0;
}
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/* Find the Logical Device ID tag corresponding to this device */
for ( i = 0 ; i <= isapnp->logdev ; i++ ) {
if ( ! isapnp_find_tag ( ISAPNP_TAG_LOGDEVID,
( char * ) &logdevid ) ) {
/* No tag for this device */
DBG ( "ISAPnP found no device %hhx.%hhx on "
"card " ISAPNP_CARD_ID_FMT "\n",
isapnp->csn, isapnp->logdev,
ISAPNP_CARD_ID_DATA ( &identifier ) );
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cache.csn = isapnp->csn;
cache.first_nonexistent_logdev = isapnp->logdev;
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return 0;
}
}
/* Read information from logdevid structure */
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isapnp->vendor_id = logdevid.vendor_id;
isapnp->prod_id = logdevid.prod_id;
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/* Select the logical device */
isapnp_logicaldevice ( isapnp->logdev );
/* Read the current ioaddr and irqno */
isapnp->ioaddr = isapnp_read_iobase ( 0 );
isapnp->irqno = isapnp_read_irqno ( 0 );
/* Return all cards to Wait for Key state */
isapnp_wait_for_key ();
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DBG ( "ISAPnP found device %hhx.%hhx " ISAPNP_DEV_ID_FMT
", base %hx irq %d\n", isapnp->csn, isapnp->logdev,
ISAPNP_DEV_ID_DATA ( isapnp ), isapnp->ioaddr, isapnp->irqno );
DBG ( " on card " ISAPNP_CARD_ID_FMT "\n",
ISAPNP_CARD_ID_DATA ( &identifier ) );
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return 1;
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}
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/*
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* Test whether or not a driver is capable of driving the device.
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*
*/
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static int isapnp_check_driver ( struct bus_dev *bus_dev,
struct device_driver *device_driver ) {
struct isapnp_device *isapnp = ( struct isapnp_device * ) bus_dev;
struct isapnp_driver *driver
= ( struct isapnp_driver * ) device_driver->bus_driver_info;
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unsigned int i;
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/* Compare against driver's ID list */
for ( i = 0 ; i < driver->id_count ; i++ ) {
struct isapnp_id *id = &driver->ids[i];
if ( ( isapnp->vendor_id == id->vendor_id ) &&
( ISA_PROD_ID ( isapnp->prod_id ) ==
ISA_PROD_ID ( id->prod_id ) ) ) {
DBG ( "ISAPnP found ID %hx:%hx "
"(\"%s\") (device %s) "
"matching driver %s\n",
isapnp->vendor_id,
isapnp->prod_id,
isa_id_string( isapnp->vendor_id,
isapnp->prod_id ),
id->name, driver->name );
isapnp->name = id->name;
return 1;
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}
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}
return 0;
}
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/*
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* Describe an ISAPnP device
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*
*/
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static char * isapnp_describe ( struct bus_dev *bus_dev ) {
struct isapnp_device *isapnp = ( struct isapnp_device * ) bus_dev;
static char isapnp_description[] = "ISAPnP 00:00";
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sprintf ( isapnp_description + 7, "%hhx:%hhx",
isapnp->csn, isapnp->logdev );
return isapnp_description;
}
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/*
* Name an ISAPnP device
*
*/
static const char * isapnp_name ( struct bus_dev *bus_dev ) {
struct isapnp_device *isapnp = ( struct isapnp_device * ) bus_dev;
return isapnp->name;
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}
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/*
* ISAPnP bus operations table
*
*/
struct bus_driver isapnp_driver __bus_driver = {
.next_location = isapnp_next_location,
.fill_device = isapnp_fill_device,
.check_driver = isapnp_check_driver,
.describe = isapnp_describe,
.name = isapnp_name,
};
/*
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* Activate or deactivate an ISAPnP device
*
* This routine simply activates the device in its current
* configuration. It does not attempt any kind of resource
* arbitration.
*
*/
void isapnp_device_activation ( struct isapnp_device *isapnp,
int activation ) {
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/* Wake the card and select the logical device */
isapnp_wait_for_key ();
isapnp_send_key ();
isapnp_wake ( isapnp->csn );
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isapnp_logicaldevice ( isapnp->logdev );
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/* Activate/deactivate the logical device */
isapnp_activate ( activation );
isapnp_delay();
/* Return all cards to Wait for Key state */
isapnp_wait_for_key ();
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DBG ( "ISAPnP activated device %hhx.%hhx\n",
isapnp->csn, isapnp->logdev );
}
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/*
* Fill in a nic structure
*
*/
void isapnp_fill_nic ( struct nic *nic, struct isapnp_device *isapnp ) {
/* Fill in ioaddr and irqno */
nic->ioaddr = isapnp->ioaddr;
nic->irqno = isapnp->irqno;
/* Fill in DHCP device ID structure */
nic->dhcp_dev_id.bus_type = ISA_BUS_TYPE;
nic->dhcp_dev_id.vendor_id = htons ( isapnp->vendor_id );
nic->dhcp_dev_id.device_id = htons ( isapnp->prod_id );
}