freebsd-nq/sys/i386/eisa/eisaconf.c

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/*
* EISA bus probe and attach routines
*
* Copyright (c) 1995, 1996 Justin T. Gibbs.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice immediately at the beginning of the file, without modification,
* this list of conditions, and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Absolutely no warranty of function or purpose is made by the author
* Justin T. Gibbs.
* 4. Modifications may be freely made to this file if the above conditions
* are met.
*
* $Id: eisaconf.c,v 1.17 1996/03/10 07:04:27 gibbs Exp $
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/devconf.h>
#include <sys/kernel.h>
#include <sys/sysctl.h>
#include <sys/conf.h> /* For kdc_isa */
#include <sys/malloc.h>
#include <i386/eisa/eisaconf.h>
#include <i386/isa/icu.h> /* Hmmm. Interrupt stuff? */
struct eisa_device_node{
struct eisa_device dev;
struct eisa_device_node *next;
};
extern struct kern_devconf kdc_cpu0;
struct kern_devconf kdc_eisa0 = {
0, 0, 0, /* filled in by dev_attach */
"eisa", 0, { MDDT_BUS, 0 },
0, 0, 0, BUS_EXTERNALLEN,
&kdc_cpu0, /* parent is the CPU */
0, /* no parentdata */
DC_BUSY, /* busses are always busy */
NULL,
DC_CLS_BUS /* class */
};
/*
* This should probably be a list of "struct device" once it exists.
* A struct device will incorperate ioconf and driver entry point data
* regardless of how its attached to the system (via unions) as well
* as more generic information that all device types should support (unit
* number, if its installed, etc).
*/
static struct eisa_device_node *eisa_dev_list;
static struct eisa_device_node **eisa_dev_list_tail = &eisa_dev_list;
static u_long eisa_unit;
static struct eisa_driver mainboard_drv = {
"eisa",
NULL,
NULL,
NULL,
&eisa_unit
};
/*
* Add the mainboard_drv to the eisa driver linkerset so that it is
* defined even if no EISA drivers are linked into the kernel.
*/
DATA_SET (eisadriver_set, mainboard_drv);
/*
* Local function declarations and static variables
*/
void eisa_reg_print __P((struct eisa_device *e_dev, char *string,
char *separator));
static int eisa_add_resvaddr __P((struct eisa_device *e_dev,
struct resvlist *head, u_long base,
u_long size, int flags));
static int eisa_reg_resvaddr __P((struct eisa_device *e_dev,
struct resvlist *head, resvaddr_t *resvaddr,
int *reg_count));
/*
* Keep some state about what we've printed so far
* to make probe output pretty.
*/
static struct {
int in_registration;/* reg_start has been called */
int num_interrupts;
int num_ioaddrs;
int num_maddrs;
int column; /* How much we have output so far. */
#define MAX_COL 80
} reg_state;
/*
** probe for EISA devices
*/
void
eisa_configure()
{
int i,slot;
char *id_string;
struct eisa_device_node *dev_node;
struct eisa_driver **e_drvp;
struct eisa_driver *e_drv;
struct eisa_device *e_dev;
int eisaBase = 0xc80;
eisa_id_t eisa_id;
e_drvp = (struct eisa_driver**)eisadriver_set.ls_items;
for (slot = 0; slot < EISA_SLOTS; eisaBase+=0x1000, slot++) {
int id_size = sizeof(eisa_id);
eisa_id = 0;
for( i = 0; i < id_size; i++ ) {
outb(eisaBase,0x80 + i); /*Some cards require priming*/
eisa_id |= inb(eisaBase+i) << ((id_size-i-1)*CHAR_BIT);
}
if (eisa_id & 0x80000000)
continue; /* no EISA card in slot */
/* Prepare an eisa_device_node for this slot */
dev_node = (struct eisa_device_node *)malloc(sizeof(*dev_node),
M_DEVBUF, M_NOWAIT);
if (!dev_node) {
printf("eisa0: cannot malloc eisa_device_node");
break; /* Try to attach what we have already */
}
bzero(dev_node, sizeof(*dev_node));
e_dev = &(dev_node->dev);
e_dev->id = eisa_id;
/*
* Add an EISA ID based descriptive name incase we don't
* have a driver for it. We do this now instead of after all
* probes because in the future, the eisa module will only
* be responsible for creating the list of devices in the system
* for the configuration manager to use.
*/
e_dev->full_name = (char *)malloc(8*sizeof(char),
M_DEVBUF, M_NOWAIT);
if (!e_dev->full_name) {
panic("Eisa probe unable to malloc");
}
sprintf(e_dev->full_name, "%c%c%c%x%x",
EISA_MFCTR_CHAR0(e_dev->id),
EISA_MFCTR_CHAR1(e_dev->id),
EISA_MFCTR_CHAR2(e_dev->id),
EISA_PRODUCT_ID(e_dev->id),
EISA_REVISION_ID(e_dev->id));
e_dev->ioconf.slot = slot;
/* Initialize our lists of reserved addresses */
LIST_INIT(&(e_dev->ioconf.ioaddrs));
LIST_INIT(&(e_dev->ioconf.maddrs));
*eisa_dev_list_tail = dev_node;
eisa_dev_list_tail = &dev_node->next;
}
dev_node = eisa_dev_list;
/*
* "Attach" the system board
*/
/* The first will be the motherboard in a true EISA system */
if (dev_node && (dev_node->dev.ioconf.slot == 0)) {
e_dev = &dev_node->dev;
e_dev->driver = &mainboard_drv;
e_dev->unit = (*e_dev->driver->unit)++;
id_string = e_dev->full_name;
e_dev->full_name = (char *)malloc(strlen(e_dev->full_name)
+ sizeof(" (System Board)")
+ 1, M_DEVBUF, M_NOWAIT);
if (!e_dev->full_name) {
panic("Eisa probe unable to malloc");
}
sprintf(e_dev->full_name, "%s (System Board)", id_string);
free(id_string, M_DEVBUF);
printf("%s%ld: <%s>\n",
e_dev->driver->name,
e_dev->unit,
e_dev->full_name);
/* Should set the iosize, but I don't have a spec handy */
kdc_eisa0.kdc_description =
(char *)malloc(strlen(e_dev->full_name)
+ sizeof("EISA bus <>")
+ 1, M_DEVBUF, M_NOWAIT);
if (!kdc_eisa0.kdc_description) {
panic("Eisa probe unable to malloc");
}
sprintf((char *)kdc_eisa0.kdc_description, "EISA bus <%s>",
e_dev->full_name);
dev_attach(&kdc_eisa0);
printf("Probing for devices on the EISA bus\n");
dev_node = dev_node->next;
}
if (!eisa_dev_list) {
/*
* No devices.
*/
return;
}
/*
* See what devices we recognize.
*/
while((e_drv = *e_drvp++)) {
if (e_drv->probe)
(*e_drv->probe)();
}
/*
* Attach the devices we found in slot order
*/
for (; dev_node; dev_node=dev_node->next) {
e_dev = &dev_node->dev;
e_drv = e_dev->driver;
if (e_drv) {
/*
* Determine the proper unit number for this device.
* Here we should look in the device table generated
* by config to see if this type of device is enabled
* either generically or for this particular address
* as well as determine if a reserved unit number
* should be used. We should also ensure that the
* "next availible unit number" skips over "wired" unit
* numbers. This will be done after config is fixed or
* some other configuration method is chosen.
*/
e_dev->unit = (*e_drv->unit)++;
if ((*e_drv->attach)(e_dev) < 0) {
/* Ensure registration has ended */
reg_state.in_registration = 0;
printf("\n%s0:%d <%s> attach failed\n",
mainboard_drv.name,
e_dev->ioconf.slot,
e_dev->full_name);
continue;
}
/* Ensure registration has ended */
reg_state.in_registration = 0;
e_dev->kdc->kdc_unit = e_dev->unit;
}
else {
/* Announce unattached device */
printf("%s0:%d <%s=0x%x> unknown device\n",
mainboard_drv.name,
e_dev->ioconf.slot,
e_dev->full_name,
e_dev->id);
}
}
}
struct eisa_device *
eisa_match_dev(e_dev, match_func)
struct eisa_device *e_dev;
char* (*match_func)(eisa_id_t);
{
struct eisa_device_node *e_node = eisa_dev_list;
if (e_dev) {
/* Start our search from the last successful match */
e_node = ((struct eisa_device_node *)e_dev)->next;
}
for(; e_node; e_node = e_node->next) {
char *result;
if (e_node->dev.driver) {
/* Already claimed */
continue;
}
result = (*match_func)(e_node->dev.id);
if (result) {
free(e_node->dev.full_name, M_DEVBUF);
e_node->dev.full_name = result;
return (&(e_node->dev));
}
}
return NULL;
}
/* Interrupt and I/O space registration facitlities */
void
eisa_reg_start(e_dev)
struct eisa_device *e_dev;
{
/*
* Announce the device.
*/
char *string;
reg_state.in_registration = 1;
reg_state.num_interrupts = 0;
reg_state.num_ioaddrs = 0;
reg_state.num_maddrs = 0;
reg_state.column = 0;
string = malloc(strlen(e_dev->full_name) + sizeof(" <>") + /*NULL*/1,
M_TEMP, M_NOWAIT);
if(!string) {
printf("eisa0: cannot malloc device description string\n");
return;
}
sprintf(string, " <%s>", e_dev->full_name);
eisa_reg_print(e_dev, string, /*separator=*/NULL);
free(string, M_TEMP);
}
/*
* Output registration information mindfull of screen wrap.
* Output an optional character separator before the string
* if the line does not wrap.
*/
void
eisa_reg_print(e_dev, string, separator)
struct eisa_device *e_dev;
char *string;
char *separator;
{
int len = strlen(string);
if(separator)
len++;
if(reg_state.column + len > MAX_COL) {
printf("\n");
reg_state.column = 0;
}
else if(separator) {
printf("%c", *separator);
reg_state.column++;
}
if(reg_state.column == 0)
reg_state.column += printf("%s%ld:%s",
e_dev->driver->name,
e_dev->unit,
string);
else
reg_state.column += printf("%s", string);
}
/* Interrupt and I/O space registration facitlities */
void
eisa_reg_end(e_dev)
struct eisa_device *e_dev;
{
if( reg_state.in_registration )
{
/*
* The device should have called eisa_registerdev()
* during its probe. So hopefully we can use the kdc
* to weed out ISA/VL devices that use EISA id registers.
*/
char string[25];
if (e_dev->kdc && (e_dev->kdc->kdc_parent == &kdc_isa0)) {
sprintf(string, " on isa");
}
else {
sprintf(string, " on %s0 slot %d",
mainboard_drv.name,
e_dev->ioconf.slot);
}
eisa_reg_print(e_dev, string, NULL);
printf("\n");
reg_state.in_registration = 0;
}
else
printf("eisa_reg_end called outside of a "
"registration session\n");
}
int
eisa_add_intr(e_dev, irq)
struct eisa_device *e_dev;
int irq;
{
e_dev->ioconf.irq |= 1ul << irq;
return 0;
}
int
eisa_reg_intr(e_dev, irq, func, arg, maskptr, shared)
struct eisa_device *e_dev;
int irq;
void (*func)(void *);
void *arg;
u_int *maskptr;
int shared;
{
int result;
int s;
char string[25];
char separator = ',';
#if NOT_YET
/*
* Punt on conflict detection for the moment.
* I want to develop a generic routine to do
* this for all device types.
*/
int checkthese = CC_IRQ;
if (haveseen_dev(dev, checkthese))
return 1;
#endif
if (reg_state.in_registration) {
s = splhigh();
/*
* This should really go to a routine that can optionally
* handle shared interrupts.
*/
result = register_intr(irq, /* isa irq */
0, /* deviced?? */
0, /* flags? */
(inthand2_t*) func, /* handler */
maskptr, /* mask pointer */
(int)arg); /* handler arg */
if (result) {
printf ("\neisa_reg_int: result=%d\n", result);
splx(s);
return (result);
};
update_intr_masks();
splx(s);
}
else
return EPERM;
e_dev->ioconf.irq |= 1ul << irq;
sprintf(string, " irq %d", irq);
eisa_reg_print(e_dev, string, reg_state.num_interrupts ?
&separator : NULL);
reg_state.num_interrupts++;
return (0);
}
int
eisa_release_intr(e_dev, irq, func)
struct eisa_device *e_dev;
int irq;
void (*func)(void *);
{
int result;
int s;
if (!(e_dev->ioconf.irq & (1ul << irq))) {
printf("%s%ld: Attempted to release an interrupt (%d) "
"it doesn't own\n", e_dev->driver->name,
e_dev->unit, irq);
return (-1);
}
s = splhigh();
INTRDIS ((1ul<<irq));
result = unregister_intr (irq, (inthand2_t*)func);
if (result)
printf ("eisa_release_intr: result=%d\n", result);
update_intr_masks();
splx(s);
return (result);
}
int
eisa_enable_intr(e_dev, irq)
struct eisa_device *e_dev;
int irq;
{
int s;
if (!(e_dev->ioconf.irq & (1ul << irq))) {
printf("%s%ld: Attempted to enable an interrupt (%d) "
"it doesn't own\n", e_dev->driver->name,
e_dev->unit, irq);
return (-1);
}
s = splhigh();
INTREN((1ul << irq));
splx(s);
return 0;
}
static int
eisa_add_resvaddr(e_dev, head, base, size, flags)
struct eisa_device *e_dev;
struct resvlist *head;
u_long base;
u_long size;
int flags;
{
resvaddr_t *reservation;
reservation = (resvaddr_t *)malloc(sizeof(resvaddr_t),
M_DEVBUF, M_NOWAIT);
if(!reservation)
return (ENOMEM);
reservation->addr = base;
reservation->size = size;
reservation->flags = flags;
if (!head->lh_first) {
LIST_INSERT_HEAD(head, reservation, links);
}
else {
resvaddr_t *node;
for(node = head->lh_first; node; node = node->links.le_next) {
if (node->addr > reservation->addr) {
/*
* List is sorted in increasing
* address order.
*/
LIST_INSERT_BEFORE(node, reservation, links);
break;
}
if (node->addr == reservation->addr) {
/*
* If the entry we want to add
* matches any already in here,
* fail.
*/
free(reservation, M_DEVBUF);
return (EEXIST);
}
if (!node->links.le_next) {
LIST_INSERT_AFTER(node, reservation, links);
break;
}
}
}
return (0);
}
int
eisa_add_mspace(e_dev, mbase, msize, flags)
struct eisa_device *e_dev;
u_long mbase;
u_long msize;
int flags;
{
return eisa_add_resvaddr(e_dev, &(e_dev->ioconf.maddrs), mbase, msize,
flags);
}
int
eisa_add_iospace(e_dev, iobase, iosize, flags)
struct eisa_device *e_dev;
u_long iobase;
u_long iosize;
int flags;
{
return eisa_add_resvaddr(e_dev, &(e_dev->ioconf.ioaddrs), iobase,
iosize, flags);
}
static int
eisa_reg_resvaddr(e_dev, head, resvaddr, reg_count)
struct eisa_device *e_dev;
struct resvlist *head;
resvaddr_t *resvaddr;
int *reg_count;
{
if (reg_state.in_registration) {
resvaddr_t *node;
/*
* Ensure that this resvaddr is actually in the devices'
* reservation list.
*/
for(node = head->lh_first; node;
node = node->links.le_next) {
if (node == resvaddr) {
char buf[35];
char separator = ',';
char *string = buf;
if (*reg_count == 0) {
/* First time */
string += sprintf(string, " at");
}
if (node->size == 1
|| (node->flags & RESVADDR_BITMASK))
sprintf(string, " 0x%lx", node->addr);
else
sprintf(string, " 0x%lx-0x%lx",
node->addr,
node->addr + node->size - 1);
eisa_reg_print(e_dev, buf,
*reg_count ? &separator : NULL);
(*reg_count)++;
e_dev->kdc->kdc_datalen += sizeof(resvaddr_t);
return (0);
}
}
return (ENOENT);
}
return EPERM;
}
int
eisa_reg_mspace(e_dev, resvaddr)
struct eisa_device *e_dev;
resvaddr_t *resvaddr;
{
#ifdef NOT_YET
/*
* Punt on conflict detection for the moment.
* I want to develop a generic routine to do
* this for all device types.
*/
int checkthese = CC_MADDR;
if (haveseen_dev(dev, checkthese))
return -1;
#endif
return (eisa_reg_resvaddr(e_dev, &(e_dev->ioconf.maddrs), resvaddr,
&(reg_state.num_maddrs)));
}
int
eisa_reg_iospace(e_dev, resvaddr)
struct eisa_device *e_dev;
resvaddr_t *resvaddr;
{
#ifdef NOT_YET
/*
* Punt on conflict detection for the moment.
* I want to develop a generic routine to do
* this for all device types.
*/
int checkthese = CC_IOADDR;
if (haveseen_dev(dev, checkthese))
return -1;
#endif
return (eisa_reg_resvaddr(e_dev, &(e_dev->ioconf.ioaddrs), resvaddr,
&(reg_state.num_ioaddrs)));
}
int
eisa_registerdev(e_dev, driver, kdc_template)
struct eisa_device *e_dev;
struct eisa_driver *driver;
struct kern_devconf *kdc_template;
{
resvaddr_t *node;
e_dev->driver = driver; /* Driver now owns this device */
e_dev->kdc = (struct kern_devconf *)malloc(sizeof(struct kern_devconf),
M_DEVBUF, M_NOWAIT);
if (!e_dev->kdc) {
printf("WARNING: eisa_registerdev unable to malloc! "
"Device kdc will not be registerd\n");
return 1;
}
bcopy(kdc_template, e_dev->kdc, sizeof(*kdc_template));
e_dev->kdc->kdc_description = e_dev->full_name;
e_dev->kdc->kdc_parentdata = e_dev;
dev_attach(e_dev->kdc);
return (0);
}
int
eisa_generic_externalize(struct kern_devconf *kdc, struct sysctl_req *req)
{
struct eisa_device *e_dev;
resvaddr_t *node;
void *buf; /* Temporary externalizing buffer */
void *bufp; /* Current offset in the buffer */
void *offset; /* Offset relative to target address space */
void *ioa_prev; /* Prev Node entries relative to target address space */
void *ma_prev; /* Prev Node entries relative to target address space */
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int retval;
offset = req->oldptr + req->oldidx;
buf = malloc(kdc->kdc_datalen, M_TEMP, M_NOWAIT);
if (!buf)
return 0;
bufp = buf;
bcopy(kdc->kdc_eisa, bufp, sizeof(struct eisa_device));
e_dev = bufp;
/* Calculate initial prev nodes */
ioa_prev = offset + ((void *)&(e_dev->ioconf.ioaddrs.lh_first)
- (void *)e_dev);
ma_prev = offset + ((void *)&(e_dev->ioconf.maddrs.lh_first)
- (void *)e_dev);
offset += sizeof(*e_dev);
bufp += sizeof(*e_dev);
if (e_dev->ioconf.ioaddrs.lh_first) {
node = e_dev->ioconf.ioaddrs.lh_first;
e_dev->ioconf.ioaddrs.lh_first = offset;
for(;node;node = node->links.le_next) {
resvaddr_t *out_node;
bcopy(node, bufp, sizeof(resvaddr_t));
out_node = (resvaddr_t *)bufp;
bufp += sizeof(resvaddr_t);
offset += sizeof(resvaddr_t);
out_node->links.le_prev = ioa_prev;
ioa_prev += sizeof(resvaddr_t);
if (out_node->links.le_next)
out_node->links.le_next = offset;
}
}
if (e_dev->ioconf.maddrs.lh_first) {
node = e_dev->ioconf.maddrs.lh_first;
e_dev->ioconf.maddrs.lh_first = offset;
for(;node;node = node->links.le_next) {
resvaddr_t *out_node;
bcopy(node, bufp, sizeof(resvaddr_t));
out_node = (resvaddr_t *)bufp;
bufp += sizeof(resvaddr_t);
offset += sizeof(resvaddr_t);
out_node->links.le_prev = ma_prev;
ma_prev += sizeof(resvaddr_t);
if (out_node->links.le_next)
out_node->links.le_next = offset;
}
}
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retval = SYSCTL_OUT(req, buf, kdc->kdc_datalen);
free(buf, M_TEMP);
return retval;
}