/*
* Split out into 3c509.c and 3c5x9.c, to make it possible to build a
* 3c529 module without including ISA, ISAPnP and EISA code.
*
*/
FILE_LICENCE ( BSD2 );
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <gpxe/io.h>
#include <unistd.h>
#include <gpxe/device.h>
#include <gpxe/isa.h>
#include "3c509.h"
/*
* 3c509 cards have their own method of contention resolution; this
* effectively defines another bus type similar to ISAPnP. Even the
* original ISA cards can be programatically mapped to any I/O address
* in the range 0x200-0x3e0.
*
* However, there is a small problem: once you've activated a card,
* the only ways to deactivate it will also wipe its tag, meaning that
* you won't be able to subsequently reactivate it without going
* through the whole ID sequence again. The solution we adopt is to
* isolate and tag all cards at the start, and to immediately
* re-isolate and re-tag a card after disabling it.
*
*/
static void t509bus_remove ( struct root_device *rootdev );
static unsigned int t509_id_port = 0;
static unsigned int t509_max_tag = 0;
/** A 3c509 device */
struct t509_device {
/** Generic device */
struct device dev;
/** Tag */
unsigned int tag;
/** I/O address */
uint16_t ioaddr;
/** Driver-private data
*
* Use t509_set_drvdata() and t509_get_drvdata() to access
* this field.
*/
void *priv;
};
/**
* Set 3c509 driver-private data
*
* @v t509 3c509 device
* @v priv Private data
*/
static inline void t509_set_drvdata ( struct t509_device *t509, void *priv ) {
t509->priv = priv;
}
/**
* Get 3c509 driver-private data
*
* @v t509 3c509 device
* @ret priv Private data
*/
static inline void * t509_get_drvdata ( struct t509_device *t509 ) {
return t509->priv;
}
/*
* t509 utility functions
*
*/
static inline void t509_set_id_port ( void ) {
outb ( 0x00, t509_id_port );
}
static inline void t509_wait_for_id_sequence ( void ) {
outb ( 0x00, t509_id_port );
}
static inline void t509_global_reset ( void ) {
outb ( 0xc0, t509_id_port );
}
static inline void t509_reset_tag ( void ) {
outb ( 0xd0, t509_id_port );
}
static inline void t509_set_tag ( uint8_t tag ) {
outb ( 0xd0 | tag, t509_id_port );
}
static inline void t509_select_tag ( uint8_t tag ) {
outb ( 0xd8 | tag, t509_id_port );
}
static inline void t509_activate ( uint16_t ioaddr ) {
outb ( 0xe0 | ( ioaddr >> 4 ), t509_id_port );
}
static inline void t509_deactivate_and_reset_tag ( uint16_t ioaddr ) {
outb ( GLOBAL_RESET, ioaddr + EP_COMMAND );
}
static inline void t509_load_eeprom_word ( uint8_t offset ) {
outb ( 0x80 | offset, t509_id_port );
}
/*
* Find a suitable ID port
*
*/
static inline int t509_find_id_port ( void ) {
for ( t509_id_port = EP_ID_PORT_START ;
t509_id_port < EP_ID_PORT_END ;
t509_id_port += EP_ID_PORT_INC ) {
t509_set_id_port ();
/* See if anything's listening */
outb ( 0xff, t509_id_port );
if ( inb ( t509_id_port ) & 0x01 ) {
/* Found a suitable port */
DBG ( "T509 using ID port at %04x\n", t509_id_port );
return 0;
}
}
/* No id port available */
DBG ( "T509 found no available ID port\n" );
return -ENOENT;
}
/*
* Send ID sequence to the ID port
*
*/
static void t509_send_id_sequence ( void ) {
unsigned short lrs_state, i;
t509_set_id_port ();
/* Reset IDS on cards */
t509_wait_for_id_sequence ();
lrs_state = 0xff;
for ( i = 0; i < 255; i++ ) {
outb ( lrs_state, t509_id_port );
lrs_state <<= 1;
lrs_state = lrs_state & 0x100 ? lrs_state ^ 0xcf : lrs_state;
}
}
/*
* We get eeprom data from the id_port given an offset into the eeprom.
* Basically; after the ID_sequence is sent to all of the cards; they enter
* the ID_CMD state where they will accept command requests. 0x80-0xbf loads
* the eeprom data. We then read the port 16 times and with every read; the
* cards check for contention (ie: if one card writes a 0 bit and another
* writes a 1 bit then the host sees a 0. At the end of the cycle; each card
* compares the data on the bus; if there is a difference then that card goes
* into ID_WAIT state again). In the meantime; one bit of data is returned in
* the AX register which is conveniently returned to us by inb(). Hence; we
* read 16 times getting one bit of data with each read.
*/
static uint16_t t509_id_read_eeprom ( int offset ) {
int i, data = 0;
t509_load_eeprom_word ( offset );
/* Do we really need this wait? Won't be noticeable anyway */
udelay(10000);
for ( i = 0; i < 16; i++ ) {
data = ( data << 1 ) | ( inw ( t509_id_port ) & 1 );
}
return data;
}
/*
* Isolate and tag all t509 cards
*
*/
static int t509_isolate ( void ) {
unsigned int i;
uint16_t contend[3];
int rc;
/* Find a suitable ID port */
if ( ( rc = t509_find_id_port() ) != 0 )
return rc;
while ( 1 ) {
/* All cards are in ID_WAIT state each time we go
* through this loop.
*/
/* Send the ID sequence */
t509_send_id_sequence();
/* First time through, reset all tags. On subsequent
* iterations, kill off any already-tagged cards
*/
if ( t509_max_tag == 0 ) {
t509_reset_tag();
} else {
t509_select_tag ( 0 );
}
/* Read the manufacturer ID, to see if there are any
* more cards
*/
if ( t509_id_read_eeprom ( EEPROM_MFG_ID ) != MFG_ID ) {
DBG ( "T509 saw %s signs of life\n",
t509_max_tag ? "no further" : "no" );
break;
}
/* Perform contention selection on the MAC address */
for ( i = 0 ; i < 3 ; i++ ) {
contend[i] = t509_id_read_eeprom ( i );
}
/* Only one device will still be left alive. Tag it. */
++t509_max_tag;
DBG ( "T509 found card %04x%04x%04x, assigning tag %02x\n",
contend[0], contend[1], contend[2], t509_max_tag );
t509_set_tag ( t509_max_tag );
/* Return all cards back to ID_WAIT state */
t509_wait_for_id_sequence();
}
DBG ( "T509 found %d cards using ID port %04x\n",
t509_max_tag, t509_id_port );
return 0;
}
/*
* Activate a T509 device
*
* The device will be enabled at whatever ioaddr is specified in the
* struct t509_device; there is no need to stick with the default
* ioaddr read from the EEPROM.
*
*/
static inline void activate_t509_device ( struct t509_device *t509 ) {
t509_send_id_sequence ();
t509_select_tag ( t509->tag );
t509_activate ( t509->ioaddr );
DBG ( "T509 activated device %02x at ioaddr %04x\n",
t509->tag, t509->ioaddr );
}
/*
* Deactivate a T509 device
*
* Disabling also clears the tag, so we immediately isolate and re-tag
* this card.
*
*/
static inline void deactivate_t509_device ( struct t509_device *t509 ) {
t509_deactivate_and_reset_tag ( t509->ioaddr );
udelay ( 1000 );
t509_send_id_sequence ();
t509_select_tag ( 0 );
t509_set_tag ( t509->tag );
t509_wait_for_id_sequence ();
DBG ( "T509 deactivated device at %04x and re-tagged as %02x\n",
t509->ioaddr, t509->tag );
}
/*
* The ISA probe function
*
*/
static int legacy_t509_probe ( struct nic *nic, void *hwdev ) {
struct t509_device *t509 = hwdev;
/* We could change t509->ioaddr if we wanted to */
activate_t509_device ( t509 );
nic->ioaddr = t509->ioaddr;
/* Hand off to generic t5x9 probe routine */
return t5x9_probe ( nic, ISA_PROD_ID ( PROD_ID ), ISA_PROD_ID_MASK );
}
static void legacy_t509_disable ( struct nic *nic, void *hwdev ) {
struct t509_device *t509 = hwdev;
t5x9_disable ( nic );
deactivate_t509_device ( t509 );
}
static inline void legacy_t509_set_drvdata ( void *hwdev, void *priv ) {
t509_set_drvdata ( hwdev, priv );
}
static inline void * legacy_t509_get_drvdata ( void *hwdev ) {
return t509_get_drvdata ( hwdev );
}
/**
* Probe a 3c509 device
*
* @v t509 3c509 device
* @ret rc Return status code
*
* Searches for a driver for the 3c509 device. If a driver is found,
* its probe() routine is called.
*/
static int t509_probe ( struct t509_device *t509 ) {
DBG ( "Adding 3c509 device %02x (I/O %04x)\n",
t509->tag, t509->ioaddr );
return legacy_probe ( t509, legacy_t509_set_drvdata, &t509->dev,
legacy_t509_probe, legacy_t509_disable );
}
/**
* Remove a 3c509 device
*
* @v t509 3c509 device
*/
static void t509_remove ( struct t509_device *t509 ) {
legacy_remove ( t509, legacy_t509_get_drvdata, legacy_t509_disable );
DBG ( "Removed 3c509 device %02x\n", t509->tag );
}
/**
* Probe 3c509 root bus
*
* @v rootdev 3c509 bus root device
*
* Scans the 3c509 bus for devices and registers all devices it can
* find.
*/
static int t509bus_probe ( struct root_device *rootdev ) {
struct t509_device *t509 = NULL;
unsigned int tag;
unsigned int iobase;
int rc;
/* Perform isolation and tagging */
if ( ( rc = t509_isolate() ) != 0 )
return rc;
for ( tag = 1 ; tag <= t509_max_tag ; tag++ ) {
/* Allocate struct t509_device */
if ( ! t509 )
t509 = malloc ( sizeof ( *t509 ) );
if ( ! t509 ) {
rc = -ENOMEM;
goto err;
}
memset ( t509, 0, sizeof ( *t509 ) );
t509->tag = tag;
/* Send the ID sequence */
t509_send_id_sequence ();
/* Select the specified tag */
t509_select_tag ( t509->tag );
/* Read the default I/O address */
iobase = t509_id_read_eeprom ( EEPROM_ADDR_CFG );
t509->ioaddr = 0x200 + ( ( iobase & 0x1f ) << 4 );
/* Send card back to ID_WAIT */
t509_wait_for_id_sequence();
/* Add to device hierarchy */
snprintf ( t509->dev.name, sizeof ( t509->dev.name ),
"t509%02x", tag );
t509->dev.desc.bus_type = BUS_TYPE_ISA;
t509->dev.desc.vendor = MFG_ID;
t509->dev.desc.device = PROD_ID;
t509->dev.parent = &rootdev->dev;
list_add ( &t509->dev.siblings, &rootdev->dev.children );
INIT_LIST_HEAD ( &t509->dev.children );
/* Look for a driver */
if ( t509_probe ( t509 ) == 0 ) {
/* t509dev registered, we can drop our ref */
t509 = NULL;
} else {
/* Not registered; re-use struct */
list_del ( &t509->dev.siblings );
}
}
free ( t509 );
return 0;
err:
free ( t509 );
t509bus_remove ( rootdev );
return rc;
}
/**
* Remove 3c509 root bus
*
* @v rootdev 3c509 bus root device
*/
static void t509bus_remove ( struct root_device *rootdev ) {
struct t509_device *t509;
struct t509_device *tmp;
list_for_each_entry_safe ( t509, tmp, &rootdev->dev.children,
dev.siblings ) {
t509_remove ( t509 );
list_del ( &t509->dev.siblings );
free ( t509 );
}
}
/** 3c509 bus root device driver */
static struct root_driver t509_root_driver = {
.probe = t509bus_probe,
.remove = t509bus_remove,
};
/** 3c509 bus root device */
struct root_device t509_root_device __root_device = {
.dev = { .name = "3c509" },
.driver = &t509_root_driver,
};
ISA_ROM ( "3c509", "3c509" );