freebsd-nq/sys/pc98/i386/userconfig.c
Satoshi Asami 6b2f48440f Re-sync with -current. Should be in 2.2.
Submitted by:	The FreeBSD(98) Development Team
1996-11-09 00:39:59 +00:00

3007 lines
77 KiB
C

/**
** Copyright (c) 1995
** Michael Smith, msmith@atrad.adelaide.edu.au. All rights reserved.
**
** This code contains a module marked :
* Copyright (c) 1991 Regents of the University of California.
* All rights reserved.
* Copyright (c) 1994 Jordan K. Hubbard
* All rights reserved.
* Copyright (c) 1994 David Greenman
* All rights reserved.
*
* Many additional changes by Bruce Evans
*
* This code is derived from software contributed by the
* University of California Berkeley, Jordan K. Hubbard,
* David Greenman and Bruce Evans.
** As such, it contains code subject to the above copyrights.
** The module and its copyright can be found below.
**
** 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, this list of conditions and the following disclaimer as
** the first lines of this file unmodified.
** 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. All advertising materials mentioning features or use of this software
** must display the following acknowledgment:
** This product includes software developed by Michael Smith.
** 4. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY MICHAEL SMITH ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL MICHAEL SMITH BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**
** $Id: userconfig.c,v 1.11 1996/11/02 10:39:03 asami Exp $
**/
/**
** USERCONFIG
**
** Kernel boot-time configuration manipulation tool for FreeBSD.
**
** Two modes of operation are supported : the default is the line-editor mode,
** the command "visual" invokes the fullscreen mode.
**
** The line-editor mode is the old favorite from FreeBSD 2.0/20.05 &c., the
** fullscreen mode requires syscons or a minimal-ansi serial console.
**/
/**
** USERCONFIG, visual mode.
**
** msmith@atrad.adelaide.edu.au
**
** Look for "EDIT THIS LIST" to add to the list of known devices
**
**
** There are a number of assumptions made in this code.
**
** - That the console supports a minimal set of ANSI escape sequences
** (See the screen manipulation section for a summary)
** and has at least 24 rows.
** - That values less than or equal to zero for any of the device
** parameters indicate that the driver does not use the parameter.
** - That the only tunable parameter for PCI devices are their flags.
** - That flags are _always_ editable.
**
** Devices marked as disabled are imported as such. PCI devices are
** listed under a seperate heading for informational purposes only.
** To date, there is no means for changing the behaviour of PCI drivers
** from UserConfig.
**
** Note that some EISA devices probably fall into this category as well,
** and in fact the actual bus supported by some drivers is less than clear.
** A longer-term goal might be to list drivers by instance rather than
** per bus-presence.
**
** For this tool to be useful, the list of devices below _MUST_ be updated
** when a new driver is brought into the kernel. It is not possible to
** extract this information from the drivers in the kernel.
**
** XXX - TODO:
**
** - Display _what_ a device conflicts with.
** - Implement page up/down (as what?)
** - Wizard mode (no restrictions)
** - Find out how to put syscons back into low-intensity mode so that the
** !b escape is useful on the console.
**
** - Only display headings with devices under them. (difficult)
**/
/*
* PC-9801 port by KATO Takenori <kato@eclogite.eps.nagoya-u.ac.jp>
*/
#include "opt_userconfig.h"
#include "pci.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <machine/cons.h>
#include <machine/md_var.h>
#include <i386/isa/isa_device.h>
#include <pci/pcivar.h>
static struct isa_device *isa_devlist; /* list read by dset to extract changes */
#ifdef USERCONFIG_BOOT
char userconfig_from_boot[512] = "";
static int
getchar(void)
{
static char *next = userconfig_from_boot;
if (next == userconfig_from_boot) {
if (strncmp(next, "USERCONFIG\n", 11)) {
next++;
strcpy(next, "quit\n");
} else {
next += 11;
}
}
if (*next) {
return (*next++);
} else {
return cngetc();
}
}
#else /* !USERCONFIG_BOOT */
#define getchar() cngetc()
#endif /* USERCONFIG_BOOT */
#define putchar(x) cnputc(x)
#ifdef VISUAL_USERCONFIG
static struct isa_device *devtabs[] = { isa_devtab_bio, isa_devtab_tty, isa_devtab_net,
isa_devtab_null, NULL };
#ifndef FALSE
#define FALSE (0)
#define TRUE (!FALSE)
#endif
typedef struct
{
char dev[16]; /* device basename */
char name[60]; /* long name */
int attrib; /* things to do with the device */
int class; /* device classification */
} DEV_INFO;
#define FLG_INVISIBLE (1<<0) /* device should not be shown */
#define FLG_MANDATORY (1<<1) /* device can be edited but not disabled */
#define FLG_FIXIRQ (1<<2) /* device IRQ cannot be changed */
#define FLG_FIXIOBASE (1<<3) /* device iobase cannot be changed */
#define FLG_FIXMADDR (1<<4) /* device maddr cannot be changed */
#define FLG_FIXMSIZE (1<<5) /* device msize cannot be changed */
#define FLG_FIXDRQ (1<<6) /* device DRQ cannot be changed */
#define FLG_FIXED (FLG_FIXIRQ|FLG_FIXIOBASE|FLG_FIXMADDR|FLG_FIXMSIZE|FLG_FIXDRQ)
#define FLG_IMMUTABLE (FLG_FIXED|FLG_MANDATORY)
#define CLS_STORAGE 1 /* storage devices */
#define CLS_NETWORK 2 /* network interfaces */
#define CLS_COMMS 3 /* serial, parallel ports */
#define CLS_INPUT 4 /* user input : mice, keyboards, joysticks etc */
#define CLS_MMEDIA 5 /* "multimedia" devices (sound, video, etc) */
#define CLS_PCI 254 /* PCI devices */
#define CLS_MISC 255 /* none of the above */
typedef struct
{
char name[60];
int number;
} DEVCLASS_INFO;
static DEVCLASS_INFO devclass_names[] = {
{ "Storage : ", CLS_STORAGE},
{ "Network : ", CLS_NETWORK},
{ "Communications : ", CLS_COMMS},
{ "Input : ", CLS_INPUT},
{ "Multimedia : ", CLS_MMEDIA},
{ "PCI : ", CLS_PCI},
{ "Miscellaneous : ", CLS_MISC},
{ "",0}};
/********************* EDIT THIS LIST **********************/
/** Notes :
**
** - PCI devices should be marked FLG_IMMUTABLE. They should not be movable
** or editable, and have no attributes. This is handled in getdevs() and
** devinfo(), so drivers that have a presence on busses other than PCI
** should have appropriate flags set below.
** - Devices that shouldn't be seen or removed should be marked FLG_INVISIBLE.
** - XXX The list below should be reviewed by the driver authors to verify
** that the correct flags have been set for each driver, and that the
** descriptions are accurate.
**/
static DEV_INFO device_info[] = {
/*---Name----- ---Description---------------------------------------------- */
#ifdef PC98
{"sbic", "PC-9801-55 SCSI Interface", 0, CLS_STORAGE},
{"bs", "PC-9801-55 SCSI Interface", 0, CLS_STORAGE},
{"ahc", "Adaptec 274x/284x/294x SCSI controller", 0, CLS_STORAGE},
{"aic", "Adaptec 152x SCSI and compatible sound cards", 0, CLS_STORAGE},
{"ncr", "NCR 53C810 SCSI controller", FLG_FIXED, CLS_STORAGE},
{"wdc", "IDE/ESDI/MFM disk controller", 0, CLS_STORAGE},
{"fdc", "Floppy disk controller", FLG_FIXED, CLS_STORAGE},
{"mcd", "Mitsumi CD-ROM", 0, CLS_STORAGE},
{"scd", "Sony CD-ROM", 0, CLS_STORAGE},
{"matcdc", "Matsushita/Panasonic/Creative CDROM", 0, CLS_STORAGE},
#else
{"bt", "Buslogic SCSI controller", 0, CLS_STORAGE},
{"ahc", "Adaptec 274x/284x/294x SCSI controller", 0, CLS_STORAGE},
{"ahb", "Adaptec 174x SCSI controller", 0, CLS_STORAGE},
{"aha", "Adaptec 154x SCSI controller", 0, CLS_STORAGE},
{"uha", "Ultrastor 14F/24F/34F SCSI controller",0, CLS_STORAGE},
{"aic", "Adaptec 152x SCSI and compatible sound cards", 0, CLS_STORAGE},
{"nca", "ProAudio Spectrum SCSI and compatibles", 0, CLS_STORAGE},
{"sea", "Seagate ST01/ST02 SCSI and compatibles", 0, CLS_STORAGE},
{"wds", "Western Digitial WD7000 SCSI controller", 0, CLS_STORAGE},
{"ncr", "NCR 53C810 SCSI controller", FLG_FIXED, CLS_STORAGE},
{"wdc", "IDE/ESDI/MFM disk controller", 0, CLS_STORAGE},
{"fdc", "Floppy disk controller", FLG_FIXED, CLS_STORAGE},
{"mcd", "Mitsumi CD-ROM", 0, CLS_STORAGE},
{"scd", "Sony CD-ROM", 0, CLS_STORAGE},
{"matcdc", "Matsushita/Panasonic/Creative CDROM", 0, CLS_STORAGE},
{"wt", "Wangtek/Archive QIC-02 Tape drive", 0, CLS_STORAGE},
#endif
#ifdef PC98
{"ed", "NS8390 Ethernet adapters", 0, CLS_NETWORK},
#else
{"ed", "NE1000,NE2000,3C503,WD/SMC80xx Ethernet adapters",0, CLS_NETWORK},
#endif
{"el", "3C501 Ethernet adapter", 0, CLS_NETWORK},
{"ep", "3C509 Ethernet adapter", 0, CLS_NETWORK},
{"fe", "Fujitsu MD86960A/MB869685A Ethernet adapters", 0, CLS_NETWORK},
{"fea", "DEC DEFEA EISA FDDI adapter", 0, CLS_NETWORK},
{"fxp", "Intel EtherExpress Pro/100B Ethernet adapter", 0, CLS_NETWORK},
{"ie", "AT&T Starlan 10 and EN100, 3C507, NI5210 Ethernet adapters",0,CLS_NETWORK},
{"ix", "Intel EtherExpress Ethernet adapter", 0, CLS_NETWORK},
{"le", "DEC Etherworks 2 and 3 Ethernet adapters", 0, CLS_NETWORK},
{"lnc", "Isolan, Novell NE2100/NE32-VL Ethernet adapters", 0,CLS_NETWORK},
{"vx", "3COM 3C590/3C595 Ethernet adapters", 0, CLS_NETWORK},
{"ze", "IBM/National Semiconductor PCMCIA Ethernet adapter",0, CLS_NETWORK},
{"zp", "3COM PCMCIA Etherlink III Ethernet adapter", 0, CLS_NETWORK},
{"de", "DEC DC21040 Ethernet adapter", FLG_FIXED, CLS_NETWORK},
{"fpa", "DEC DEFPA PCI FDDI adapter", FLG_FIXED, CLS_NETWORK},
{"sio", "8250/16450/16550 Serial port", 0, CLS_COMMS},
#ifndef PC98
{"cx", "Cronyx/Sigma multiport sync/async adapter",0, CLS_COMMS},
{"rc", "RISCom/8 multiport async adapter", 0, CLS_COMMS},
{"cy", "Cyclades multiport async adapter", 0, CLS_COMMS},
#endif
{"lpt", "Parallel printer port", 0, CLS_COMMS},
#ifndef PC98
{"gp", "National Instruments AT-GPIB/TNT driver", 0, CLS_COMMS},
#endif
#ifdef PC98
{"mse", "Bus Mouse", 0, CLS_INPUT},
#else
{"mse", "Microsoft Bus Mouse", 0, CLS_INPUT},
{"psm", "PS/2 Mouse", 0, CLS_INPUT},
#endif
{"joy", "Joystick", FLG_FIXED, CLS_INPUT},
{"vt", "PCVT console driver", FLG_FIXED, CLS_INPUT},
{"sc", "Syscons console driver", FLG_FIXED, CLS_INPUT},
#ifdef PC98
{"pcm", "PC-9801-86 Sound Board", 0, CLS_MMEDIA},
#endif
{"sb", "Soundblaster PCM (SB, SBPro, SB16, ProAudio Spectrum)",0,CLS_MMEDIA},
{"sbxvi", "Soundblaster 16", 0, CLS_MMEDIA},
{"sbmidi", "Soundblaster MIDI interface", 0, CLS_MMEDIA},
{"pas", "ProAudio Spectrum PCM and MIDI", 0, CLS_MMEDIA},
{"gus", "Gravis Ultrasound, Ultrasound 16 and Ultrasound MAX",0,CLS_MMEDIA},
{"gusxvi", "Gravis Ultrasound 16-bit PCM", 0, CLS_MMEDIA},
{"gusmax", "Gravis Ultrasound MAX", 0, CLS_MMEDIA},
{"mss", "Microsoft Sound System", 0, CLS_MMEDIA},
{"opl", "OPL-2/3 FM, Soundblaster, SBPro, SB16, ProAudio Spectrum",0,CLS_MMEDIA},
{"mpu", "Roland MPU401 MIDI", 0, CLS_MMEDIA},
{"uart", "6850 MIDI UART", 0, CLS_MMEDIA},
{"pca", "PC speaker PCM audio driver", FLG_FIXED, CLS_MMEDIA},
{"ctx", "Coretex-I frame grabber", 0, CLS_MMEDIA},
{"spigot", "Creative Labs Video Spigot video capture", 0, CLS_MMEDIA},
{"gsc", "Genius GS-4500 hand scanner", 0, CLS_MMEDIA},
{"qcam", "QuickCam parallel port camera", 0, CLS_MMEDIA},
{"apm", "Advanced Power Management", FLG_FIXED, CLS_MISC},
{"labpc", "National Instruments Lab-PC/Lab-PC+", 0, CLS_MISC},
{"npx", "Math coprocessor", FLG_INVISIBLE, CLS_MISC},
{"lkm", "Loadable PCI driver support", FLG_INVISIBLE, CLS_MISC},
{"vga", "Catchall PCI VGA driver", FLG_INVISIBLE, CLS_MISC},
{"chip", "PCI chipset support", FLG_INVISIBLE, CLS_MISC},
{"piix", "Intel 82371 Bus-master IDE controller", FLG_INVISIBLE, CLS_MISC},
{"","",0,0}};
typedef struct _devlist_struct
{
char name[80];
int attrib; /* flag values as per the FLG_* defines above */
int class; /* disk, etc as per the CLS_* defines above */
char dev[16];
int iobase,irq,drq,maddr,msize,unit,flags,conflict_ok,id;
int comment; /* 0 = device, 1 = comment, 2 = collapsed comment */
int conflicts; /* set/reset by findconflict, count of conflicts */
int changed; /* nonzero if the device has been edited */
struct isa_device *device;
struct _devlist_struct *prev,*next;
} DEV_LIST;
#define DEV_DEVICE 0
#define DEV_COMMENT 1
#define DEV_ZOOMED 2
#define LIST_CURRENT (1<<0)
#define LIST_SELECTED (1<<1)
#define KEY_EXIT 0 /* return codes from dolist() and friends */
#define KEY_DO 1
#define KEY_DEL 2
#define KEY_TAB 3
#define KEY_REDRAW 4
#define KEY_UP 5 /* these only returned from editval() */
#define KEY_DOWN 6
#define KEY_LEFT 7
#define KEY_RIGHT 8
#define KEY_NULL 9 /* this allows us to spin & redraw */
#define KEY_ZOOM 10 /* these for zoom all/collapse all */
#define KEY_UNZOOM 11
static void redraw(void);
static void insdev(DEV_LIST *dev, DEV_LIST *list);
static int devinfo(DEV_LIST *dev);
static int visuserconfig(void);
static DEV_LIST *active = NULL,*inactive = NULL; /* driver lists */
static DEV_LIST *alist,*ilist; /* visible heads of the driver lists */
static DEV_LIST scratch; /* scratch record */
static int conflicts; /* total conflict count */
static char lines[] = "--------------------------------------------------------------------------------";
static char spaces[] = " ";
/**
** Device manipulation stuff : find, describe, configure.
**/
/**
** setdev
**
** Sets the device referenced by (*dev) to the parameters in the struct,
** and the enable flag according to (enabled)
**/
static void
setdev(DEV_LIST *dev, int enabled)
{
if (dev->iobase == -2) /* PCI device */
return;
dev->device->id_iobase = dev->iobase; /* copy happy */
dev->device->id_irq = (u_short)(dev->irq < 16 ? 1<<dev->irq : 0); /* IRQ is bitfield */
dev->device->id_drq = (short)dev->drq;
dev->device->id_maddr = (caddr_t)dev->maddr;
dev->device->id_msize = dev->msize;
dev->device->id_flags = dev->flags;
dev->device->id_enabled = enabled;
}
/**
** getdevs
**
** Walk the kernel device tables and build the active and inactive lists
**/
static void
getdevs(void)
{
int i,j;
struct isa_device *ap;
for (j = 0; devtabs[j]; j++) /* ISA devices */
{
ap = devtabs[j]; /* pointer to array of devices */
for (i = 0; ap[i].id_id; i++) /* for each device in this table */
{
scratch.unit = ap[i].id_unit; /* device parameters */
strcpy(scratch.dev,ap[i].id_driver->name);
scratch.iobase = ap[i].id_iobase;
scratch.irq = ffs(ap[i].id_irq)-1;
scratch.drq = ap[i].id_drq;
scratch.maddr = (int)ap[i].id_maddr;
scratch.msize = ap[i].id_msize;
scratch.flags = ap[i].id_flags;
scratch.conflict_ok = ap[i].id_conflicts;
scratch.comment = DEV_DEVICE; /* admin stuff */
scratch.conflicts = 0;
scratch.device = &ap[i]; /* save pointer for later reference */
scratch.changed = 0;
if (!devinfo(&scratch)) /* get more info on the device */
insdev(&scratch,ap[i].id_enabled?active:inactive);
}
}
#if NPCI > 0
for (i = 0; i < pcidevice_set.ls_length; i++)
{
if (pcidevice_set.ls_items[i])
{
if (((const struct pci_device *)pcidevice_set.ls_items[i])->pd_name)
{
strcpy(scratch.dev,((const struct pci_device *)pcidevice_set.ls_items[i])->pd_name);
scratch.iobase = -2; /* mark as PCI for future reference */
scratch.irq = -2;
scratch.drq = -2;
scratch.maddr = -2;
scratch.msize = -2;
scratch.flags = 0;
scratch.conflict_ok = 0; /* shouldn't conflict */
scratch.comment = DEV_DEVICE; /* is a device */
scratch.unit = 0; /* arbitrary number of them */
scratch.conflicts = 0;
scratch.device = NULL;
scratch.changed = 0;
if (!devinfo(&scratch)) /* look up name, set class and flags */
insdev(&scratch,active); /* always active */
}
}
}
#endif /* NPCI > 0 */
}
/**
** Devinfo
**
** Fill in (dev->name), (dev->attrib) and (dev->type) from the device_info array.
** If the device is unknown, put it in the CLS_MISC class, with no flags.
**
** If the device is marked "invisible", return nonzero; the caller should
** not insert any such device into either list.
**
** PCI devices are always inserted into CLS_PCI, regardless of the class associated
** with the driver type.
**/
static int
devinfo(DEV_LIST *dev)
{
int i;
for (i = 0; device_info[i].class; i++)
{
if (!strcmp(dev->dev,device_info[i].dev))
{
if (device_info[i].attrib & FLG_INVISIBLE) /* forget we ever saw this one */
return(1);
strcpy(dev->name,device_info[i].name); /* get the name */
if (dev->iobase == -2) { /* is this a PCI device? */
dev->attrib = FLG_IMMUTABLE; /* dark green ones up the back... */
dev->class = CLS_PCI;
} else {
dev->attrib = device_info[i].attrib; /* light green ones up the front */
dev->class = device_info[i].class;
}
return(0);
}
}
strcpy(dev->name,"Unknown device");
dev->attrib = 0;
dev->class = CLS_MISC;
return(0);
}
/**
** List manipulation stuff : add, move, initialise, free, traverse
**
** Note that there are assumptions throughout this code that
** the first entry in a list will never move. (assumed to be
** a comment).
**/
/**
** Adddev
**
** appends a copy of (dev) to the end of (*list)
**/
static void
addev(DEV_LIST *dev, DEV_LIST **list)
{
DEV_LIST *lp,*ap;
lp = (DEV_LIST *)malloc(sizeof(DEV_LIST),M_DEVL,M_WAITOK);
bcopy(dev,lp,sizeof(DEV_LIST)); /* create copied record */
if (*list) /* list exists */
{
ap = *list;
while(ap->next)
ap = ap->next; /* scoot to end of list */
lp->prev = ap;
lp->next = NULL;
ap->next = lp;
}else{ /* list does not yet exist */
*list = lp;
lp->prev = lp->next = NULL; /* list now exists */
}
}
/**
** Findspot
**
** Finds the 'appropriate' place for (dev) in (list)
**
** 'Appropriate' means in numeric order with other devices of the same type,
** or in alphabetic order following a comment of the appropriate type.
** or at the end of the list if an appropriate comment is not found. (this should
** never happen)
** (Note that the appropriate point is never the top, but may be the bottom)
**/
static DEV_LIST *
findspot(DEV_LIST *dev, DEV_LIST *list)
{
DEV_LIST *ap = NULL;
/* search for a previous instance of the same device */
if (dev->iobase != -2) /* avoid PCI devices grouping with non-PCI devices */
{
for (ap = list; ap; ap = ap->next)
{
if (ap->comment != DEV_DEVICE) /* ignore comments */
continue;
if (!strcmp(dev->dev,ap->dev)) /* same base device */
{
if ((dev->unit <= ap->unit) /* belongs before (equal is bad) */
|| !ap->next) /* or end of list */
{
ap = ap->prev; /* back up one */
break; /* done here */
}
if (ap->next) /* if the next item exists */
{
if (ap->next->comment != DEV_DEVICE) /* next is a comment */
break;
if (strcmp(dev->dev,ap->next->dev)) /* next is a different device */
break;
}
}
}
}
if (!ap) /* not sure yet */
{
/* search for a class that the device might belong to */
for (ap = list; ap; ap = ap->next)
{
if (ap->comment != DEV_DEVICE) /* look for simlar devices */
continue;
if (dev->class != ap->class) /* of same class too 8) */
continue;
if (strcmp(dev->dev,ap->dev) < 0) /* belongs before the current entry */
{
ap = ap->prev; /* back up one */
break; /* done here */
}
if (ap->next) /* if the next item exists */
if (ap->next->comment != DEV_DEVICE) /* next is a comment, go here */
break;
}
}
if (!ap) /* didn't find a match */
{
for (ap = list; ap->next; ap = ap->next) /* try for a matching comment */
if ((ap->comment != DEV_DEVICE)
&& (ap->class == dev->class)) /* appropriate place? */
break;
} /* or just put up with last */
return(ap);
}
/**
** Insdev
**
** Inserts a copy of (dev) at the appropriate point in (list)
**/
static void
insdev(DEV_LIST *dev, DEV_LIST *list)
{
DEV_LIST *lp,*ap;
lp = (DEV_LIST *)malloc(sizeof(DEV_LIST),M_DEVL,M_WAITOK);
bcopy(dev,lp,sizeof(DEV_LIST)); /* create copied record */
ap = findspot(lp,list); /* find appropriate spot */
lp->next = ap->next; /* point to next */
if (ap->next)
ap->next->prev = lp; /* point next to new */
lp->prev = ap; /* point new to current */
ap->next = lp; /* and current to new */
}
/**
** Movedev
**
** Moves (dev) from its current list to an appropriate place in (list)
** (dev) may not come from the top of a list, but it may from the bottom.
**/
static void
movedev(DEV_LIST *dev, DEV_LIST *list)
{
DEV_LIST *ap;
ap = findspot(dev,list);
dev->prev->next = dev->next; /* remove from old list */
if (dev->next)
dev->next->prev = dev->prev;
dev->next = ap->next; /* insert in new list */
if (ap->next)
ap->next->prev = dev; /* point next to new */
dev->prev = ap; /* point new to current */
ap->next = dev; /* and current to new */
}
/**
** Initlist
**
** Initialises (*list) with the basic headings
**/
static void
initlist(DEV_LIST **list)
{
int i;
for(i = 0; devclass_names[i].name[0]; i++) /* for each devtype name */
{
strcpy(scratch.name,devclass_names[i].name);
scratch.comment = DEV_ZOOMED;
scratch.class = devclass_names[i].number;
scratch.attrib = FLG_MANDATORY; /* can't be moved */
addev(&scratch,list); /* add to the list */
}
}
/**
** savelist
**
** Walks (list) and saves the settings of any entry marked as changed.
**
** The device's active field is set according to (active).
**
** Builds the isa_devlist used by dset to extract the changed device information.
** The code for this was taken almost verbatim from the original module.
**/
static void
savelist(DEV_LIST *list, int active)
{
struct isa_device *id_p,*id_pn;
while (list)
{
if ((list->comment == DEV_DEVICE) && list->changed)
{
if ((list->iobase == -2) || /* is a PCI device; can't save */
(list->device == NULL)) /* no isa_device associated at all?! */
continue;
setdev(list,active); /* set the device itself */
id_pn = NULL;
for (id_p=isa_devlist; id_p; id_p=id_p->id_next)
{ /* look on the list for it */
if (id_p->id_id == list->device->id_id)
{
id_pn = id_p->id_next;
bcopy(list->device,id_p,sizeof(struct isa_device));
id_p->id_next = id_pn;
break;
}
}
if (!id_pn) /* not already on the list */
{
id_pn = malloc(sizeof(struct isa_device),M_DEVL,M_WAITOK);
bcopy(list->device,id_pn,sizeof(struct isa_device));
id_pn->id_next = isa_devlist;
isa_devlist = id_pn; /* park at top of list */
}
}
list = list->next;
}
}
/**
** nukelist
**
** Frees all storage in use by a (list).
**/
static void
nukelist(DEV_LIST *list)
{
DEV_LIST *dp;
if (!list)
return;
while(list->prev) /* walk to head of list */
list = list->prev;
while(list)
{
dp = list;
list = list->next;
free(dp,M_DEVL);
}
}
/**
** prevent
**
** Returns the previous entry in (list), skipping zoomed regions. Returns NULL
** if there is no previous entry. (Only possible if list->prev == NULL given the
** premise that there is always a comment at the head of the list)
**/
static DEV_LIST *
prevent(DEV_LIST *list)
{
DEV_LIST *dp;
if (!list)
return(NULL);
dp = list->prev; /* start back one */
while(dp)
{
if (dp->comment == DEV_ZOOMED) /* previous section is zoomed */
return(dp); /* so skip to comment */
if (dp->comment == DEV_COMMENT) /* not zoomed */
return(list->prev); /* one back as normal */
dp = dp->prev; /* backpedal */
}
return(dp); /* NULL, we can assume */
}
/**
** nextent
**
** Returns the next entry in (list), skipping zoomed regions. Returns NULL
** if there is no next entry. (Possible if the current entry is last, or
** if the current entry is the last heading and it's collapsed)
**/
static DEV_LIST *
nextent(DEV_LIST *list)
{
DEV_LIST *dp;
if (!list)
return(NULL);
if (list->comment != DEV_ZOOMED) /* no reason to skip */
return(list->next);
dp = list->next;
while(dp)
{
if (dp->comment != DEV_DEVICE) /* found another heading */
break;
dp = dp->next;
}
return(dp); /* back we go */
}
/**
** ofsent
**
** Returns the (ofs)th entry down from (list), or NULL if it doesn't exist
**/
static DEV_LIST *
ofsent(int ofs, DEV_LIST *list)
{
while (ofs-- && list)
list = nextent(list);
return(list);
}
/**
** findconflict
**
** Scans every element of (list) and sets the conflict tags appropriately
** Returns the number of conflicts found.
**/
static int
findconflict(DEV_LIST *list)
{
int count = 0; /* number of conflicts found */
DEV_LIST *dp,*sp;
for (dp = list; dp; dp = dp->next) /* over the whole list */
{
if (dp->comment != DEV_DEVICE) /* comments don't usually conflict */
continue;
if (dp->iobase == -2) /* it's a PCI device, not interested */
continue;
dp->conflicts = 0; /* assume the best */
for (sp = list; sp; sp = sp->next) /* scan the entire list for conflicts */
{
if (sp->comment != DEV_DEVICE) /* likewise */
continue;
if (dp->iobase == -2) /* it's a PCI device, not interested */
continue;
if (sp == dp) /* always conflict with itself */
continue;
if (sp->conflict_ok && dp->conflict_ok)
continue; /* both allowed to conflict */
if ((dp->iobase > 0) && /* iobase conflict? */
(dp->iobase == sp->iobase))
dp->conflicts = 1;
if ((dp->irq > 0) && /* irq conflict? */
(dp->irq == sp->irq))
dp->conflicts = 1;
if ((dp->drq > 0) && /* drq conflict? */
(dp->drq == sp->drq))
dp->conflicts = 1;
if ((dp->maddr > 0) && /* maddr conflict? */
(dp->maddr == sp->maddr))
dp->conflicts = 1;
if ((dp->msize > 0) && /* msize conflict? */
(dp->msize == sp->msize))
dp->conflicts = 1;
}
count += dp->conflicts; /* count conflicts */
}
return(count);
}
/**
** expandlist
**
** Unzooms all headings in (list)
**/
static void
expandlist(DEV_LIST *list)
{
while(list)
{
if (list->comment == DEV_COMMENT)
list->comment = DEV_ZOOMED;
list = list->next;
}
}
/**
** collapselist
**
** Zooms all headings in (list)
**/
static void
collapselist(DEV_LIST *list)
{
while(list)
{
if (list->comment == DEV_ZOOMED)
list->comment = DEV_COMMENT;
list = list->next;
}
}
/**
** Screen-manipulation stuff
**
** This is the basic screen layout :
**
** 0 5 10 15 20 25 30 35 40 45 50 55 60 67 70 75
** |....|....|....|....|....|....|....|....|....|....|....|....|....|....|....|....
** +--------------------------------------------------------------------------------+
** 0 -|---Active Drivers----------------------------xx Conflicts------Dev---IRQ--Port--|
** 1 -| ........................ ....... .. 0x....|
** 2 -| ........................ ....... .. 0x....|
** 3 -| ........................ ....... .. 0x....|
** 4 -| ........................ ....... .. 0x....|
** 5 -| ........................ ....... .. 0x....|
** 6 -| ........................ ....... .. 0x....|
** 7 -| ........................ ....... .. 0x....|
** 8 -| ........................ ....... .. 0x....|
** 9 -|---Inactive Drivers--------------------------------------------Dev--------------|
** 10-| ........................ ....... |
** 11-| ........................ ....... |
** 12-| ........................ ....... |
** 13-| ........................ ....... |
** 14-| ........................ ....... |
** 15-| ........................ ....... |
** 16-| ........................ ....... |
** 17-|------------------------------------------------------UP-DOWN-------------------|
** 18-| Relevant parameters for the current device |
** 19-| |
** 20-| |
** 21-|--------------------------------------------------------------------------------|
** 22-| Help texts go here |
** 23-| |
** +--------------------------------------------------------------------------------+
**
** Help texts
**
** On a collapsed comment :
**
** [Enter] Expand device list [z] Expand all lists
** [TAB] Change fields [Q] Save and Exit
**
** On an expanded comment :
**
** [Enter] Collapse device list [Z] Collapse all lists
** [TAB] Change fields [Q] Save and Exit
**
** On a comment with no followers
**
**
** [TAB] Change fields [Q] Save and Exit
**
** On a device in the active list
**
** [Enter] Edit device parameters [DEL] Disable device
** [TAB] Change fields [Q] Save and Exit
**
** On a device in the inactive list
**
** [Enter] Enable device
** [TAB] Change fields [Q] Save and Exit
**
** While editing parameters
**
** <parameter-specific help here>
** [TAB] Change fields [Q] Save device parameters
**/
/**
**
** The base-level screen primitives :
**
** bold() - enter bold mode \E[1m (md)
** inverse() - enter inverse mode \E[7m (so)
** normal() - clear bold/inverse mode \E[m (se)
** clear() - clear the screen \E[H\E[J (ce)
** move(x,y) - move the cursor to x,y \E[y;xH: (cm)
**/
static void
bold(void)
{
printf("\033[1m");
}
static void
inverse(void)
{
printf("\033[7m");
}
static void
normal(void)
{
printf("\033[m");
}
static void
clear(void)
{
normal();
printf("\033[H\033[J");
}
static void
move(int x, int y)
{
printf("\033[%d;%dH",y+1,x+1);
}
/**
**
** High-level screen primitives :
**
** putxyl(x,y,str,len) - put (len) bytes of (str) at (x,y), supports embedded formatting
** putxy(x,y,str) - put (str) at (x,y), supports embedded formatting
** erase(x,y,w,h) - clear the box (x,y,w,h)
** txtbox(x,y,w,y,str) - put (str) in a region at (x,y,w,h)
** putmsg(str) - put (str) in the message area
** puthelp(str) - put (str) in the upper helpline
** pad(str,len) - pad (str) to (len) with spaces
** drawline(row,detail,list,inverse,*dhelp)
** - draws a line for (*list) at (row) onscreen. If (detail) is
** nonzero, include port, IRQ and maddr, if (inverse) is nonzero,
** draw the line in inverse video, and display (*dhelp) on the
** helpline.
** drawlist(row,num,detail,list)
** - draw (num) entries from (list) at (row) onscreen, passile (detail)
** through to drawline().
** showparams(dev) - displays the relevant parameters for (dev) below the lists onscreen.
** yesno(str) - displays (str) in the message area, and returns nonzero on 'y' or 'Y'
** redraw(); - Redraws the entire screen layout, including the
** - two list panels.
**/
/**
** putxy
** writes (str) at x,y onscreen
** putxyl
** writes up to (len) of (str) at x,y onscreen.
**
** Supports embedded formatting :
** !i - inverse mode.
** !b - bold mode.
** !n - normal mode.
**/
static void
putxyl(int x, int y, char *str, int len)
{
move(x,y);
normal();
while((*str) && (len--))
{
if (*str == '!') /* format escape? */
{
switch(*(str+1)) /* depending on the next character */
{
case 'i':
inverse();
str +=2; /* skip formatting */
len++; /* doesn't count for length */
break;
case 'b':
bold();
str +=2; /* skip formatting */
len++; /* doesn't count for length */
break;
case 'n':
normal();
str +=2; /* skip formatting */
len++; /* doesn't count for length */
break;
default:
putchar(*str++); /* not an escape */
}
}else{
putchar(*str++); /* emit the character */
}
}
}
#define putxy(x,y,str) putxyl(x,y,str,-1)
/**
** erase
**
** Erases the region (x,y,w,h)
**/
static void
erase(int x, int y, int w, int h)
{
int i;
normal();
for (i = 0; i < h; i++)
putxyl(x,y++,spaces,w);
}
/**
** txtbox
**
** Writes (str) into the region (x,y,w,h), supports embedded formatting using
** putxy. Lines are not wrapped, newlines must be forced with \n.
**/
static void
txtbox(int x, int y, int w, int h, char *str)
{
int i = 0;
h--;
while((str[i]) && h)
{
if (str[i] == '\n') /* newline */
{
putxyl(x,y,str,(i<w)?i:w); /* write lesser of i or w */
y++; /* move down */
h--; /* room for one less */
str += (i+1); /* skip first newline */
i = 0; /* zero offset */
}else{
i++; /* next character */
}
}
if (h) /* end of string, not region */
putxyl(x,y,str,w);
}
/**
** putmsg
**
** writes (msg) in the helptext area
**/
static void
putmsg(char *msg)
{
erase(0,18,80,3); /* clear area */
txtbox(0,18,80,3,msg);
}
/**
** puthelp
**
** Writes (msg) in the helpline area
**/
static void
puthelp(char *msg)
{
erase(0,22,80,1);
putxy(0,22,msg);
}
/**
** masterhelp
**
** Draws the help message at the bottom of the screen
**/
static void
masterhelp(char *msg)
{
erase(0,23,80,1);
putxy(0,23,msg);
}
/**
** pad
**
** space-pads a (str) to (len) characters
**/
static void
pad(char *str, int len)
{
int i;
for (i = 0; str[i]; i++) /* find the end of the string */
;
if (i >= len) /* no padding needed */
return;
while(i < len) /* pad */
str[i++] = ' ';
str[i] = '\0';
}
/**
** drawline
**
** Displays entry (ofs) of (list) in region at (row) onscreen, optionally displaying
** the port and IRQ fields if (detail) is nonzero. If (inverse), in inverse video.
**
** The text (dhelp) is displayed if the item is a normal device, otherwise
** help is shown for normal or zoomed comments
**/
static void
drawline(int row, int detail, DEV_LIST *list, int inverse, char *dhelp)
{
char lbuf[90],nb[70],db[20],ib[16],pb[16];
if (list->comment == DEV_DEVICE)
{
nb[0] = ' ';
strncpy(nb+1,list->name,57);
}else{
strncpy(nb,list->name,58);
if ((list->comment == DEV_ZOOMED) && (list->next))
if (list->next->comment == DEV_DEVICE) /* only mention if there's something hidden */
strcat(nb," (Collapsed)");
}
nb[58] = '\0';
pad(nb,60);
if (list->conflicts) /* device in conflict? */
if (inverse)
{
strcpy(nb+54," !nCONF!i "); /* tag conflict, careful of length */
}else{
strcpy(nb+54," !iCONF!n "); /* tag conflict, careful of length */
}
if (list->comment == DEV_DEVICE)
{
sprintf(db,"%s%d",list->dev,list->unit);
pad(db,8);
}else{
strcpy(db," ");
}
if ((list->irq > 0) && detail && (list->comment == DEV_DEVICE))
{
sprintf(ib," %d",list->irq);
pad(ib,4);
}else{
strcpy(ib," ");
}
if ((list->iobase > 0) && detail && (list->comment == DEV_DEVICE))
{
sprintf(pb,"0x%x",list->iobase);
pad(pb,7);
}else{
strcpy(pb," ");
}
sprintf(lbuf," %s%s%s%s%s",inverse?"!i":"",nb,db,ib,pb);
putxyl(0,row,lbuf,80);
if (dhelp)
{
switch(list->comment)
{
case DEV_DEVICE: /* ordinary device */
puthelp(dhelp);
break;
case DEV_COMMENT:
puthelp("");
if (list->next)
if (list->next->comment == DEV_DEVICE)
puthelp(" [!bEnter!n] Collapse device list [!bC!n] Collapse all lists");
break;
case DEV_ZOOMED:
puthelp("");
if (list->next)
if (list->next->comment == DEV_DEVICE)
puthelp(" [!bEnter!n] Expand device list [!bX!n] Expand all lists");
break;
default:
puthelp(" WARNING: This list entry corrupted!");
break;
}
}
move(0,row); /* put the cursor somewhere relevant */
}
/**
** drawlist
**
** Displays (num) lines of the contents of (list) at (row), optionally displaying the
** port and IRQ fields as well if (detail) is nonzero
**
** printf in the kernel is essentially useless, so we do most of the hard work ourselves here.
**/
static void
drawlist(int row, int num, int detail, DEV_LIST *list)
{
int ofs;
for(ofs = 0; ofs < num; ofs++)
{
if (list)
{
drawline(row+ofs,detail,list,0,"");
list = nextent(list); /* move down visible list */
}else{
erase(0,row+ofs,80,1);
}
}
}
/**
** redrawactive
**
** Redraws the active list
**/
static void
redrawactive(void)
{
char cbuf[16];
if (conflicts)
{
sprintf(cbuf,"!i%d conflict%s",conflicts,(conflicts>1)?"s":"");
putxy(45,0,cbuf);
}else{
putxyl(45,0,lines,16);
}
drawlist(1,8,1,alist); /* draw device lists */
}
/**
** redrawinactive
**
** Redraws the inactive list
**/
static void
redrawinactive(void)
{
drawlist(10,7,0,ilist); /* draw device lists */
}
/**
** redraw
**
** Clear the screen and redraw the entire layout
**/
static void
redraw(void)
{
clear();
putxy(0,0,lines);
putxy(3,0,"!bActive!n-!bDrivers");
putxy(63,0,"!bDev!n---!bIRQ!n--!bPort");
putxy(0,9,lines);
putxy(3,9,"!bInactive!n-!bDrivers");
putxy(63,9,"!bDev");
putxy(0,17,lines);
putxy(0,21,lines);
masterhelp(" [!bTAB!n] Change fields [!bQ!n] Save and Exit");
redrawactive();
redrawinactive();
}
/**
** yesnocancel
**
** Put (str) in the message area, and return 1 if the user hits 'y' or 'Y',
** 2 if they hit 'c' or 'C', or 0 for 'n' or 'N'.
**/
static int
yesnocancel(char *str)
{
putmsg(str);
for(;;)
switch(getchar())
{
case -1:
case 'n':
case 'N':
return(0);
case 'y':
case 'Y':
return(1);
case 'c':
case 'C':
return(2);
}
}
/**
** showparams
**
** Show device parameters in the region below the lists
**
** 0 5 10 15 20 25 30 35 40 45 50 55 60 67 70 75
** |....|....|....|....|....|....|....|....|....|....|....|....|....|....|....|....
** +--------------------------------------------------------------------------------+
** 17-|--------------------------------------------------------------------------------|
** 18-| Port address : 0x0000 Memory address : 0x00000 Conflict allowed |
** 19-| IRQ number : 00 Memory size : 0x0000 |
** 20-| Flags : 0x0000 DRQ number : 00 |
** 21-|--------------------------------------------------------------------------------|
**/
static void
showparams(DEV_LIST *dev)
{
char buf[80];
erase(0,18,80,3); /* clear area */
if (!dev)
return;
if (dev->comment != DEV_DEVICE)
return;
if (dev->iobase > 0)
{
sprintf(buf,"Port address : 0x%x",dev->iobase);
putxy(1,18,buf);
} else {
if (dev->iobase == -2) /* a PCI device */
putmsg(" PCI devices are automatically configured.");
}
if (dev->irq > 0)
{
sprintf(buf,"IRQ number : %d",dev->irq);
putxy(1,19,buf);
}
sprintf(buf,"Flags : 0x%x",dev->flags);
putxy(1,20,buf);
if (dev->maddr > 0)
{
sprintf(buf,"Memory address : 0x%x",dev->maddr);
putxy(26,18,buf);
}
if (dev->msize > 0)
{
sprintf(buf,"Memory size : 0x%x",dev->msize);
putxy(26,19,buf);
}
if (dev->drq > 0)
{
sprintf(buf,"DRQ number : %d",dev->drq);
putxy(26,20,buf);
}
if (dev->conflict_ok)
putxy(54,18,"Conflict allowed");
}
/**
** Editing functions for device parameters
**
** editval(x,y,width,hex,min,max,val) - Edit (*val) in a field (width) wide at (x,y)
** onscreen. Refuse values outsise (min) and (max).
** editparams(dev) - Edit the parameters for (dev)
**/
#define VetRet(code) \
{ \
if ((i >= min) && (i <= max)) /* legit? */ \
{ \
*val = i; \
sprintf(buf,hex?"0x%x":"%d",i); \
putxy(hex?x-2:x,y,buf); \
return(code); /* all done and exit */ \
} \
i = *val; /* restore original value */ \
delta = 1; /* restore other stuff */ \
}
/**
** editval
**
** Edit (*val) at (x,y) in (hex)?hex:decimal mode, allowing values between (min) and (max)
** in a field (width) wide. (Allow one space)
** If (ro) is set, we're in "readonly" mode, so disallow edits.
**
** Return KEY_TAB on \t, KEY_EXIT on 'q'
**/
static int
editval(int x, int y, int width, int hex, int min, int max, int *val, int ro)
{
int i = *val; /* work with copy of the value */
char buf[10],tc[8]; /* display buffer, text copy */
int xp = 0; /* cursor offset into text copy */
int delta = 1; /* force redraw first time in */
int c;
int extended = 0; /* stage counter for extended key sequences */
if (hex) /* we presume there's a leading 0x onscreen */
putxy(x-2,y,"!i0x"); /* coz there sure is now */
for (;;)
{
if (delta) /* only update if necessary */
{
sprintf(tc,hex?"%x":"%d",i); /* make a text copy of the value */
sprintf(buf,"!i%s",tc); /* format for printing */
erase(x,y,width,1); /* clear the area */
putxy(x,y,buf); /* write */
xp = strlen(tc); /* cursor always at end */
move(x+xp,y); /* position the cursor */
}
c = getchar();
switch(extended) /* escape handling */
{
case 0:
if (c == 0x1b) /* esc? */
{
extended = 1; /* flag and spin */
continue;
}
extended = 0;
break; /* nope, drop through */
case 1: /* there was an escape prefix */
if (c == '[' || c == 'O') /* second character in sequence */
{
extended = 2;
continue;
}
if (c == 0x1b)
return(KEY_EXIT); /* double esc exits */
extended = 0;
break; /* nup, not a sequence. */
case 2:
extended = 0;
switch(c) /* looks like the real McCoy */
{
case 'A':
VetRet(KEY_UP); /* leave if OK */
continue;
case 'B':
VetRet(KEY_DOWN); /* leave if OK */
continue;
case 'C':
VetRet(KEY_RIGHT); /* leave if OK */
continue;
case 'D':
VetRet(KEY_LEFT); /* leave if OK */
continue;
default:
continue;
}
}
switch(c)
{
case '\t': /* trying to tab off */
VetRet(KEY_TAB); /* verify and maybe return */
break;
case -1:
case 'q':
case 'Q':
VetRet(KEY_EXIT);
break;
case '\b':
case '\177': /* BS or DEL */
if (ro) /* readonly? */
{
puthelp(" !iThis value cannot be edited (Press ESC)");
while(getchar() != 0x1b); /* wait for key */
return(KEY_NULL); /* spin */
}
if (xp) /* still something left to delete */
{
i = i / (hex?0x10:10); /* strip last digit */
delta = 1; /* force update */
}
break;
case 588:
VetRet(KEY_UP);
break;
case '\r':
case '\n':
case 596:
VetRet(KEY_DOWN);
break;
case 591:
VetRet(KEY_LEFT);
break;
case 593:
VetRet(KEY_RIGHT);
break;
default:
if (ro) /* readonly? */
{
puthelp(" !iThis value cannot be edited (Press ESC)");
while(getchar() != 0x1b); /* wait for key */
return(KEY_NULL); /* spin */
}
if (xp >= width) /* no room for more characters anyway */
break;
if (hex)
{
if ((c >= '0') && (c <= '9'))
{
i = i*0x10 + (c-'0'); /* update value */
delta = 1;
break;
}
if ((c >= 'a') && (c <= 'f'))
{
i = i*0x10 + (c-'a'+0xa);
delta = 1;
break;
}
if ((c >= 'A') && (c <= 'F'))
{
i = i*0x10 + (c-'A'+0xa);
delta = 1;
break;
}
}else{
if ((c >= '0') && (c <= '9'))
{
i = i*10 + (c-'0'); /* update value */
delta = 1; /* force redraw */
break;
}
}
break;
}
}
}
/**
** editparams
**
** Edit the parameters for (dev)
**
** Note that it's _always_ possible to edit the flags, otherwise it might be
** possible for this to spin in an endless loop...
** 0 5 10 15 20 25 30 35 40 45 50 55 60 67 70 75
** |....|....|....|....|....|....|....|....|....|....|....|....|....|....|....|....
** +--------------------------------------------------------------------------------+
** 17-|--------------------------------------------------------------------------------|
** 18-| Port address : 0x0000 Memory address : 0x00000 Conflict allowed |
** 19-| IRQ number : 00 Memory size : 0x0000 |
** 20-| Flags : 0x0000 DRQ number : 00 |
** 21-|--------------------------------------------------------------------------------|
**
** The "intelligence" in this function that hops around based on the directional
** returns from editval isn't very smart, and depends on the layout above.
**/
static void
editparams(DEV_LIST *dev)
{
int ret;
char buf[16]; /* needs to fit the device name */
putxy(2,17,"!bParameters!n-!bfor!n-!bdevice!n-");
sprintf(buf,"!b%s",dev->dev);
putxy(24,17,buf);
erase(1,22,80,1);
for (;;)
{
ep_iobase:
if (dev->iobase > 0)
{
#ifdef PC98
puthelp(" IO Port address (Hexadecimal, 0x1-0xffff)");
ret = editval(18,18,5,1,0x1,0xffff,&(dev->iobase),(dev->attrib & FLG_FIXIOBASE));
#else
puthelp(" IO Port address (Hexadecimal, 0x1-0x2000)");
ret = editval(18,18,5,1,0x1,0x2000,&(dev->iobase),(dev->attrib & FLG_FIXIOBASE));
#endif
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_RIGHT:
if (dev->maddr > 0)
goto ep_maddr;
break;
case KEY_TAB:
case KEY_DOWN:
goto ep_irq;
}
goto ep_iobase;
}
ep_irq:
if (dev->irq > 0)
{
puthelp(" Interrupt number (Decimal, 1-15)");
ret = editval(16,19,3,0,1,15,&(dev->irq),(dev->attrib & FLG_FIXIRQ));
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_RIGHT:
if (dev->msize > 0)
goto ep_msize;
break;
case KEY_UP:
if (dev->iobase > 0)
goto ep_iobase;
break;
case KEY_TAB:
case KEY_DOWN:
goto ep_flags;
}
goto ep_irq;
}
ep_flags:
puthelp(" Device-specific flag values.");
ret = editval(18,20,5,1,0x0,0xffff,&(dev->flags),0);
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_RIGHT:
if (dev->drq > 0)
goto ep_drq;
break;
case KEY_UP:
if (dev->irq > 0)
goto ep_irq;
if (dev->iobase > 0)
goto ep_iobase;
break;
case KEY_DOWN:
if (dev->maddr > 0)
goto ep_maddr;
if (dev->msize > 0)
goto ep_msize;
if (dev->drq > 0)
goto ep_drq;
break;
case KEY_TAB:
goto ep_maddr;
}
goto ep_flags;
ep_maddr:
if (dev->maddr > 0)
{
puthelp(" Device memory start address (Hexadecimal, 0x1-0xfffff)");
ret = editval(45,18,6,1,0x1,0xfffff,&(dev->maddr),(dev->attrib & FLG_FIXMADDR));
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_LEFT:
if (dev->iobase > 0)
goto ep_iobase;
break;
case KEY_UP:
goto ep_flags;
case KEY_DOWN:
if (dev->msize > 0)
goto ep_msize;
if (dev->drq > 0)
goto ep_drq;
break;
case KEY_TAB:
goto ep_msize;
}
goto ep_maddr;
}
ep_msize:
if (dev->msize > 0)
{
puthelp(" Device memory size (Hexadecimal, 0x1-0x10000)");
ret = editval(45,19,5,1,0x1,0x10000,&(dev->msize),(dev->attrib & FLG_FIXMSIZE));
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_LEFT:
if (dev->irq > 0)
goto ep_irq;
break;
case KEY_UP:
if (dev->maddr > 0)
goto ep_maddr;
goto ep_flags;
case KEY_DOWN:
if (dev->drq > 0)
goto ep_drq;
break;
case KEY_TAB:
goto ep_drq;
}
goto ep_msize;
}
ep_drq:
if (dev->drq > 0)
{
puthelp(" Device DMA request number (Decimal, 1-7)");
ret = editval(43,20,2,0,1,7,&(dev->drq),(dev->attrib & FLG_FIXDRQ));
switch(ret)
{
case KEY_EXIT:
goto ep_exit;
case KEY_LEFT:
goto ep_flags;
case KEY_UP:
if (dev->msize > 0)
goto ep_msize;
if (dev->maddr > 0)
goto ep_maddr;
goto ep_flags;
case KEY_TAB:
goto ep_iobase;
}
goto ep_drq;
}
}
ep_exit:
dev->changed = 1; /* mark as changed */
}
/**
** High-level control functions
**/
/**
** dolist
**
** Handle user movement within (*list) in the region starting at (row) onscreen with
** (num) lines, starting at (*ofs) offset from row onscreen.
** Pass (detail) on to drawing routines.
**
** If the user hits a key other than a cursor key, maybe return a code.
**
** (*list) points to the device at the top line in the region, (*ofs) is the
** position of the highlight within the region. All routines below
** this take only a device and an absolute row : use ofsent() to find the
** device, and add (*ofs) to (row) to find the absolute row.
**/
static int
dolist(int row, int num, int detail, int *ofs, DEV_LIST **list, char *dhelp)
{
int extended = 0;
int c;
DEV_LIST *lp;
int delta = 1;
for(;;)
{
if (delta)
{
showparams(ofsent(*ofs,*list)); /* show device parameters */
drawline(row+*ofs,detail,ofsent(*ofs,*list),1,dhelp); /* highlight current line */
delta = 0;
}
c = getchar(); /* get a character */
if ((extended == 2) || (c==588) || (c==596)) /* console gives "alternative" codes */
{
extended = 0; /* no longer */
switch(c)
{
case 588: /* syscons' idea of 'up' */
case 'A': /* up */
if (*ofs) /* just a move onscreen */
{
drawline(row+*ofs,detail,ofsent(*ofs,*list),0,dhelp);/* unhighlight current line */
(*ofs)--; /* move up */
}else{
lp = prevent(*list); /* can we go up? */
if (!lp) /* no */
break;
*list = lp; /* yes, move up list */
drawlist(row,num,detail,*list);
}
delta = 1;
break;
case 596: /* dooby-do */
case 'B': /* down */
lp = ofsent(*ofs,*list); /* get current item */
if (!nextent(lp))
break; /* nothing more to move to */
drawline(row+*ofs,detail,ofsent(*ofs,*list),0,dhelp); /* unhighlight current line */
if (*ofs < (num-1)) /* room to move onscreen? */
{
(*ofs)++;
}else{
*list = nextent(*list); /* scroll region down */
drawlist(row,num,detail,*list);
}
delta = 1;
break;
}
}else{
switch(c)
{
case '\033':
extended=1;
break;
case '[': /* cheat : always preceeds cursor move */
case 'O': /* ANSI application key mode */
if (extended==1)
extended=2;
else
extended=0;
break;
case 'Q':
case 'q':
return(KEY_EXIT); /* user requests exit */
case '\r':
case '\n':
return(KEY_DO); /* "do" something */
case '\b':
case '\177':
case 599:
return(KEY_DEL); /* "delete" response */
case 'X':
case 'x':
return(KEY_UNZOOM); /* expand everything */
case 'C':
case 'c':
return(KEY_ZOOM); /* collapse everything */
case '\t':
drawline(row+*ofs,detail,ofsent(*ofs,*list),0,dhelp); /* unhighlight current line */
return(KEY_TAB); /* "move" response */
case '\014': /* ^L, redraw */
return(KEY_REDRAW);
}
}
}
}
/**
** visuserconfig
**
** Do the fullscreen config thang
**/
static int
visuserconfig(void)
{
int actofs = 0, inactofs = 0, mode = 0, ret = -1, i;
DEV_LIST *dp;
initlist(&active);
initlist(&inactive);
alist = active;
ilist = inactive;
getdevs();
conflicts = findconflict(active); /* find conflicts in the active list only */
redraw();
for(;;)
{
switch(mode)
{
case 0: /* active devices */
ret = dolist(1,8,1,&actofs,&alist,
" [!bEnter!n] Edit device parameters [!bDEL!n] Disable device");
switch(ret)
{
case KEY_TAB:
mode = 1; /* swap lists */
break;
case KEY_REDRAW:
redraw();
break;
case KEY_ZOOM:
alist = active;
actofs = 0;
expandlist(active);
redrawactive();
break;
case KEY_UNZOOM:
alist = active;
actofs = 0;
collapselist(active);
redrawactive();
break;
case KEY_DEL:
dp = ofsent(actofs,alist); /* get current device */
if (dp) /* paranoia... */
{
if (dp->attrib & FLG_MANDATORY) /* can't be deleted */
break;
if (dp == alist) /* moving top item on list? */
{
if (dp->next)
{
alist = dp->next; /* point list to non-moving item */
}else{
alist = dp->prev; /* end of list, go back instead */
}
}else{
if (!dp->next) /* moving last item on list? */
actofs--;
}
dp->conflicts = 0; /* no conflicts on the inactive list */
movedev(dp,inactive); /* shift to inactive list */
conflicts = findconflict(active); /* update conflict tags */
dp->changed = 1;
redrawactive(); /* redraw */
redrawinactive();
}
break;
case KEY_DO: /* edit device parameters */
dp = ofsent(actofs,alist); /* get current device */
if (dp) /* paranoia... */
{
if (dp->comment == DEV_DEVICE) /* can't edit comments, zoom? */
{
if (dp->iobase != -2) /* can't edit PCI devices */
{
masterhelp(" [!bTAB!n] Change fields [!bQ!n] Save device parameters");
editparams(dp);
masterhelp(" [!bTAB!n] Change fields [!bQ!n] Save and Exit");
putxy(0,17,lines);
conflicts = findconflict(active); /* update conflict tags */
}
}else{ /* DO on comment = zoom */
switch(dp->comment) /* Depends on current state */
{
case DEV_COMMENT: /* not currently zoomed */
dp->comment = DEV_ZOOMED;
break;
case DEV_ZOOMED:
dp->comment = DEV_COMMENT;
break;
}
}
redrawactive();
}
break;
}
break;
case 1: /* inactive devices */
ret = dolist(10,7,0,&inactofs,&ilist,
" [!bEnter!n] Enable device ");
switch(ret)
{
case KEY_TAB:
mode = 0;
break;
case KEY_REDRAW:
redraw();
break;
case KEY_ZOOM:
ilist = inactive;
inactofs = 0;
expandlist(inactive);
redrawinactive();
break;
case KEY_UNZOOM:
ilist = inactive;
inactofs = 0;
collapselist(inactive);
redrawinactive();
break;
case KEY_DO:
dp = ofsent(inactofs,ilist); /* get current device */
if (dp) /* paranoia... */
{
if (dp->comment == DEV_DEVICE) /* can't move comments, zoom? */
{
if (dp == ilist) /* moving top of list? */
{
if (dp->next)
{
ilist = dp->next; /* point list to non-moving item */
}else{
ilist = dp->prev; /* can't go down, go up instead */
}
}else{
if (!dp->next) /* last entry on list? */
inactofs--; /* shift cursor up one */
}
movedev(dp,active); /* shift to active list */
conflicts = findconflict(active); /* update conflict tags */
dp->changed = 1;
alist = dp; /* put at top and current */
actofs = 0;
while(dp->comment == DEV_DEVICE)
dp = dp->prev; /* forcibly unzoom section */
dp ->comment = DEV_COMMENT;
mode = 0; /* and swap modes to follow it */
}else{ /* DO on comment = zoom */
switch(dp->comment) /* Depends on current state */
{
case DEV_COMMENT: /* not currently zoomed */
dp->comment = DEV_ZOOMED;
break;
case DEV_ZOOMED:
dp->comment = DEV_COMMENT;
break;
}
}
redrawactive(); /* redraw */
redrawinactive();
}
break;
default: /* nothing else relevant here */
break;
}
break;
default:
mode = 0; /* shouldn't happen... */
}
if (ret == KEY_EXIT)
{
i = yesnocancel(" Save these parameters before exiting? (Yes/No/Cancel) ");
switch(i)
{
case 2: /* cancel */
redraw();
break;
case 1: /* save and exit */
savelist(active,1);
savelist(inactive,0);
case 0: /* exit */
nukelist(active); /* clean up after ourselves */
nukelist(inactive);
normal();
clear();
return(1);
}
}
}
}
#endif /* VISUAL_USERCONFIG */
/*
* Copyright (c) 1991 Regents of the University of California.
* All rights reserved.
* Copyright (c) 1994 Jordan K. Hubbard
* All rights reserved.
* Copyright (c) 1994 David Greenman
* All rights reserved.
*
* Many additional changes by Bruce Evans
*
* This code is derived from software contributed by the
* University of California Berkeley, Jordan K. Hubbard,
* David Greenman and Bruce Evans.
*
* 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, 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. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $Id: userconfig.c,v 1.11 1996/11/02 10:39:03 asami Exp $
*/
#include "scbus.h"
#include <scsi/scsiconf.h>
#define PARM_DEVSPEC 0x1
#define PARM_INT 0x2
#define PARM_ADDR 0x3
typedef struct _cmdparm {
int type;
union {
struct isa_device *dparm;
int iparm;
void *aparm;
} parm;
} CmdParm;
typedef int (*CmdFunc)(CmdParm *);
typedef struct _cmd {
char *name;
CmdFunc handler;
CmdParm *parms;
} Cmd;
#if NSCBUS > 0
static void lsscsi(void);
static int list_scsi(CmdParm *);
#endif
static int lsdevtab(struct isa_device *);
static struct isa_device *find_device(char *, int);
static struct isa_device *search_devtable(struct isa_device *, char *, int);
static void cngets(char *, int);
static Cmd *parse_cmd(char *);
static int parse_args(char *, CmdParm *);
static unsigned long strtoul(const char *, char **, int);
static int save_dev(struct isa_device *);
static int list_devices(CmdParm *);
static int set_device_ioaddr(CmdParm *);
static int set_device_irq(CmdParm *);
static int set_device_drq(CmdParm *);
static int set_device_iosize(CmdParm *);
static int set_device_mem(CmdParm *);
static int set_device_flags(CmdParm *);
static int set_device_enable(CmdParm *);
static int set_device_disable(CmdParm *);
static int quitfunc(CmdParm *);
static int helpfunc(CmdParm *);
#if defined(USERCONFIG_BOOT) && defined(VISUAL_USERCONFIG)
static int introfunc(CmdParm *);
#endif
static int lineno;
static CmdParm addr_parms[] = {
{ PARM_DEVSPEC, {} },
{ PARM_ADDR, {} },
{ -1, {} },
};
static CmdParm int_parms[] = {
{ PARM_DEVSPEC, {} },
{ PARM_INT, {} },
{ -1, {} },
};
static CmdParm dev_parms[] = {
{ PARM_DEVSPEC, {} },
{ -1, {} },
};
static Cmd CmdList[] = {
{ "?", helpfunc, NULL }, /* ? (help) */
{ "di", set_device_disable, dev_parms }, /* disable dev */
{ "dr", set_device_drq, int_parms }, /* drq dev # */
{ "en", set_device_enable, dev_parms }, /* enable dev */
{ "ex", quitfunc, NULL }, /* exit (quit) */
{ "f", set_device_flags, int_parms }, /* flags dev mask */
{ "h", helpfunc, NULL }, /* help */
#if defined(USERCONFIG_BOOT) && defined(VISUAL_USERCONFIG)
{ "intro", introfunc, NULL }, /* intro screen */
#endif
{ "iom", set_device_mem, addr_parms }, /* iomem dev addr */
{ "ios", set_device_iosize, int_parms }, /* iosize dev size */
{ "ir", set_device_irq, int_parms }, /* irq dev # */
{ "l", list_devices, NULL }, /* ls, list */
{ "po", set_device_ioaddr, int_parms }, /* port dev addr */
{ "res", (CmdFunc)cpu_reset, NULL }, /* reset CPU */
{ "q", quitfunc, NULL }, /* quit */
#if NSCBUS > 0
{ "s", list_scsi, NULL }, /* scsi */
#endif
#ifdef VISUAL_USERCONFIG
{ "v", (CmdFunc)visuserconfig, NULL }, /* visual mode */
#endif
{ NULL, NULL, NULL },
};
void
userconfig(void)
{
char input[80];
int rval;
Cmd *cmd;
printf("\nFreeBSD Kernel Configuration Utility - Version 1.1\n"
" Type \"help\" for help"
#ifdef VISUAL_USERCONFIG
" or \"visual\" to go to the visual\n"
" configuration interface (requires MGA/VGA display or\n"
" serial terminal capable of displaying ANSI graphics)"
#endif
".\n");
while (1) {
printf("config> ");
cngets(input, 80);
if (input[0] == '\0')
continue;
cmd = parse_cmd(input);
if (!cmd) {
printf("Invalid command or syntax. Type `?' for help.\n");
continue;
}
rval = (*cmd->handler)(cmd->parms);
if (rval)
return;
}
}
static Cmd *
parse_cmd(char *cmd)
{
Cmd *cp;
for (cp = CmdList; cp->name; cp++) {
int len = strlen(cp->name);
if (!strncmp(cp->name, cmd, len)) {
while (*cmd && *cmd != ' ' && *cmd != '\t')
++cmd;
if (parse_args(cmd, cp->parms))
return NULL;
else
return cp;
}
}
return NULL;
}
static int
parse_args(char *cmd, CmdParm *parms)
{
while (1) {
char *ptr;
if (*cmd == ' ' || *cmd == '\t') {
++cmd;
continue;
}
if (parms == NULL || parms->type == -1) {
if (*cmd == '\0')
return 0;
printf("Extra arg(s): %s\n", cmd);
return 1;
}
if (parms->type == PARM_DEVSPEC) {
int i = 0;
char devname[64];
int unit = 0;
while (*cmd && !(*cmd == ' ' || *cmd == '\t' ||
(*cmd >= '0' && *cmd <= '9')))
devname[i++] = *(cmd++);
devname[i] = '\0';
if (*cmd >= '0' && *cmd <= '9') {
unit = strtoul(cmd, &ptr, 10);
if (cmd == ptr) {
printf("Invalid device number\n");
/* XXX should print invalid token here and elsewhere. */
return 1;
}
/* XXX else should require end of token. */
cmd = ptr;
}
if ((parms->parm.dparm = find_device(devname, unit)) == NULL) {
printf("No such device: %s%d\n", devname, unit);
return 1;
}
++parms;
continue;
}
if (parms->type == PARM_INT) {
parms->parm.iparm = strtoul(cmd, &ptr, 0);
if (cmd == ptr) {
printf("Invalid numeric argument\n");
return 1;
}
cmd = ptr;
++parms;
continue;
}
if (parms->type == PARM_ADDR) {
parms->parm.aparm = (void *)strtoul(cmd, &ptr, 0);
if (cmd == ptr) {
printf("Invalid address argument\n");
return 1;
}
cmd = ptr;
++parms;
continue;
}
}
return 0;
}
static int
list_devices(CmdParm *parms)
{
lineno = 0;
if (lsdevtab(&isa_devtab_bio[0])) return 0;
if (lsdevtab(&isa_devtab_tty[0])) return 0;
if (lsdevtab(&isa_devtab_net[0])) return 0;
if (lsdevtab(&isa_devtab_null[0])) return 0;
return 0;
}
static int
set_device_ioaddr(CmdParm *parms)
{
parms[0].parm.dparm->id_iobase = parms[1].parm.iparm;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_irq(CmdParm *parms)
{
unsigned irq;
irq = parms[1].parm.iparm;
#ifndef PC98
if (irq == 2) {
printf("Warning: Remapping IRQ 2 to IRQ 9 - see config(8)\n");
irq = 9;
}
else if (irq != -1 && irq > 15) {
#else
if (irq != -1 && irq > 15) {
#endif
printf("An IRQ > 15 would be invalid.\n");
return 0;
}
parms[0].parm.dparm->id_irq = (irq < 16 ? 1 << irq : 0);
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_drq(CmdParm *parms)
{
unsigned drq;
/*
* The bounds checking is just to ensure that the value can be printed
* in 5 characters. 32768 gets converted to -32768 and doesn't fit.
*/
drq = parms[1].parm.iparm;
parms[0].parm.dparm->id_drq = (drq < 32768 ? drq : -1);
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_iosize(CmdParm *parms)
{
parms[0].parm.dparm->id_msize = parms[1].parm.iparm;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_mem(CmdParm *parms)
{
parms[0].parm.dparm->id_maddr = parms[1].parm.aparm;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_flags(CmdParm *parms)
{
parms[0].parm.dparm->id_flags = parms[1].parm.iparm;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_enable(CmdParm *parms)
{
parms[0].parm.dparm->id_enabled = TRUE;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
set_device_disable(CmdParm *parms)
{
parms[0].parm.dparm->id_enabled = FALSE;
save_dev(parms[0].parm.dparm);
return 0;
}
static int
quitfunc(CmdParm *parms)
{
return 1;
}
static int
helpfunc(CmdParm *parms)
{
printf("Command\t\t\tDescription\n");
printf("-------\t\t\t-----------\n");
printf("ls\t\t\tList currently configured devices\n");
printf("port <devname> <addr>\tSet device port (i/o address)\n");
printf("irq <devname> <number>\tSet device irq\n");
printf("drq <devname> <number>\tSet device drq\n");
printf("iomem <devname> <addr>\tSet device maddr (memory address)\n");
printf("iosize <devname> <size>\tSet device memory size\n");
printf("flags <devname> <mask>\tSet device flags\n");
printf("enable <devname>\tEnable device\n");
printf("disable <devname>\tDisable device (will not be probed)\n");
printf("quit\t\t\tExit this configuration utility\n");
printf("reset\t\t\tReset CPU\n");
#ifdef VISUAL_USERCONFIG
printf("visual\t\t\tGo to fullscreen mode.\n");
#endif
printf("help\t\t\tThis message\n\n");
printf("Commands may be abbreviated to a unique prefix\n");
return 0;
}
#if defined(USERCONFIG_BOOT) && defined(VISUAL_USERCONFIG)
static void
center(int y, char *str)
{
putxy((80 - strlen(str)) / 2, y, str);
}
static int
introfunc(CmdParm *parms)
{
int curr_item, first_time;
static char *choices[] = {
" Skip kernel configuration and continue with installation ",
" Start kernel configuration in Visual mode ",
" Start kernel configuration in CLI mode (experts only) ",
};
clear();
center(2, "!bKernel Configuration Menu!n");
curr_item = 0;
first_time = 1;
while (1) {
char tmp[80];
int c, i, extended = 0;
for (i = 0; i < 3; i++) {
tmp[0] = '\0';
if (curr_item == i)
strcpy(tmp, "!i");
strcat(tmp, choices[i]);
if (curr_item == i)
strcat(tmp, "!n");
putxy(10, 5 + i, tmp);
}
if (first_time) {
putxy(2, 10, "Here you have the chance to go into kernel configuration mode, making");
putxy(2, 11, "any changes which may be necessary to properly adjust the kernel to");
putxy(2, 12, "match your hardware configuration.");
putxy(2, 14, "If you are installing FreeBSD for the first time, select Visual Mode");
putxy(2, 15, "(press Down-Arrow then ENTER).");
putxy(2, 17, "If you need to do more specialized kernel configuration and are an");
putxy(2, 18, "experienced FreeBSD user, select CLI mode.");
putxy(2, 20, "If you are !icertain!n that you do not need to configure your kernel");
putxy(2, 21, "then simply press ENTER or Q now.");
first_time = 0;
}
move(0, 0); /* move the cursor out of the way */
c = getchar();
if ((extended == 2) || (c == 588) || (c == 596)) { /* console gives "alternative" codes */
extended = 0; /* no longer */
switch (c) {
case 588:
case 'A': /* up */
if (curr_item > 0)
--curr_item;
break;
case 596:
case 'B': /* down */
if (curr_item < 2)
++curr_item;
break;
}
}
else {
switch(c) {
case '\033':
extended = 1;
break;
case '[': /* cheat : always preceeds cursor move */
case 'O': /* ANSI application key mode */
if (extended == 1)
extended = 2;
else
extended = 0;
break;
case -1:
case 'Q':
case 'q':
clear();
return 1; /* user requests exit */
case '\r':
case '\n':
clear();
if (!curr_item)
return 1;
else if (curr_item == 1)
return visuserconfig();
else {
putxy(0, 1, "Type \"help\" for help or \"quit\" to exit.");
move (0, 3);
return 0;
}
break;
}
}
}
}
#endif
static int
lsdevtab(struct isa_device *dt)
{
for (; dt->id_id != 0; dt++) {
int i;
char line[80];
if (lineno >= 23) {
printf("<More> ");
if (getchar() == 'q') {
printf("quit\n");
return (1);
}
printf("\n");
lineno = 0;
}
if (lineno == 0) {
printf(
"Device port irq drq iomem iosize unit flags enabled\n");
++lineno;
}
/*
* printf() doesn't support %#, %- or even field widths for strings,
* so formatting is not straightforward.
*/
bzero(line, sizeof line);
sprintf(line, "%s%d", dt->id_driver->name, dt->id_unit);
/* Missing: id_id (don't need it). */
/* Missing: id_driver (useful if we could show it by name). */
sprintf(line + 9, "0x%x", dt->id_iobase);
sprintf(line + 20, "%d", ffs(dt->id_irq) - 1);
sprintf(line + 26, "%d", dt->id_drq);
sprintf(line + 32, "0x%x", dt->id_maddr);
sprintf(line + 40, "%d", dt->id_msize);
/* Missing: id_msize (0 at start, useful if we can get here later). */
/* Missing: id_intr (useful if we could show it by name). */
/* Display only: id_unit. */
sprintf(line + 49, "%d", dt->id_unit);
sprintf(line + 55, "0x%x", dt->id_flags);
/* Missing: id_scsiid, id_alive, id_ri_flags, id_reconfig (0 now...) */
sprintf(line + 66, "%s", dt->id_enabled ? "Yes" : "No");
for (i = 0; i < 66; ++i)
if (line[i] == '\0')
line[i] = ' ';
printf("%s\n", line);
++lineno;
}
return(0);
}
static struct isa_device *
find_device(char *devname, int unit)
{
struct isa_device *ret;
if ((ret = search_devtable(&isa_devtab_bio[0], devname, unit)) != NULL)
return ret;
if ((ret = search_devtable(&isa_devtab_tty[0], devname, unit)) != NULL)
return ret;
if ((ret = search_devtable(&isa_devtab_net[0], devname, unit)) != NULL)
return ret;
if ((ret = search_devtable(&isa_devtab_null[0], devname, unit)) != NULL)
return ret;
return NULL;
}
static struct isa_device *
search_devtable(struct isa_device *dt, char *devname, int unit)
{
int i;
for (i = 0; dt->id_id != 0; dt++)
if (!strcmp(dt->id_driver->name, devname) && dt->id_unit == unit)
return dt;
return NULL;
}
static void
cngets(char *input, int maxin)
{
int c, nchars = 0;
while (1) {
c = getchar();
/* Treat ^H or ^? as backspace */
if ((c == '\010' || c == '\177')) {
if (nchars) {
printf("\010 \010");
*--input = '\0', --nchars;
}
continue;
}
/* Treat ^U or ^X as kill line */
else if ((c == '\025' || c == '\030')) {
while (nchars) {
printf("\010 \010");
*--input = '\0', --nchars;
}
continue;
}
printf("%c", c);
if ((++nchars == maxin) || (c == '\n') || (c == '\r') || ( c == -1)) {
*input = '\0';
break;
}
*input++ = (u_char)c;
}
}
/*
* Kludges to get the library sources of strtoul.c to work in our
* environment. isdigit() and isspace() could be used above too.
*/
#define isalpha(c) (((c) >= 'A' && (c) <= 'Z') \
|| ((c) >= 'a' && (c) <= 'z')) /* unsafe */
#define isdigit(c) ((unsigned)((c) - '0') <= '9' - '0')
#define isspace(c) ((c) == ' ' || (c) == '\t') /* unsafe */
#define isupper(c) ((unsigned)((c) - 'A') <= 'Z' - 'A')
static int errno;
/*
* The following should be identical with the library sources for strtoul.c.
*/
/*
* Convert a string to an unsigned long integer.
*
* Ignores `locale' stuff. Assumes that the upper and lower case
* alphabets and digits are each contiguous.
*/
static unsigned long
strtoul(nptr, endptr, base)
const char *nptr;
char **endptr;
register int base;
{
register const char *s = nptr;
register unsigned long acc;
register int c;
register unsigned long cutoff;
register int neg = 0, any, cutlim;
/*
* See strtol for comments as to the logic used.
*/
do {
c = *s++;
} while (isspace(c));
if (c == '-') {
neg = 1;
c = *s++;
} else if (c == '+')
c = *s++;
if ((base == 0 || base == 16) &&
c == '0' && (*s == 'x' || *s == 'X')) {
c = s[1];
s += 2;
base = 16;
}
if (base == 0)
base = c == '0' ? 8 : 10;
cutoff = (unsigned long)ULONG_MAX / (unsigned long)base;
cutlim = (unsigned long)ULONG_MAX % (unsigned long)base;
for (acc = 0, any = 0;; c = *s++) {
if (isdigit(c))
c -= '0';
else if (isalpha(c))
c -= isupper(c) ? 'A' - 10 : 'a' - 10;
else
break;
if (c >= base)
break;
if (any < 0 || acc > cutoff || acc == cutoff && c > cutlim)
any = -1;
else {
any = 1;
acc *= base;
acc += c;
}
}
if (any < 0) {
acc = ULONG_MAX;
errno = ERANGE;
} else if (neg)
acc = -acc;
if (endptr != 0)
*endptr = (char *)(any ? s - 1 : nptr);
return (acc);
}
#if NSCBUS > 0
/* scsi: Support for displaying configured SCSI devices.
* There is no way to edit them, and this is inconsistent
* with the ISA method. This is here as a basis for further work.
*/
static char *
type_text(char *name) /* XXX: This is bogus */
{
if (strcmp(name, "sd") == 0)
return "disk";
if (strcmp(name, "st") == 0)
return "tape";
return "device";
}
static void
id_put(char *desc, int id)
{
if (id != SCCONF_UNSPEC)
{
if (desc)
printf("%s", desc);
if (id == SCCONF_ANY)
printf("?");
else
printf("%d", id);
}
}
static void
lsscsi(void)
{
int i;
printf("scsi: (can't be edited):\n");
for (i = 0; scsi_cinit[i].driver; i++)
{
id_put("controller scbus", scsi_cinit[i].bus);
if (scsi_cinit[i].unit != -1)
{
printf(" at ");
id_put(scsi_cinit[i].driver, scsi_cinit[i].unit);
}
printf("\n");
}
for (i = 0; scsi_dinit[i].name; i++)
{
printf("%s ", type_text(scsi_dinit[i].name));
id_put(scsi_dinit[i].name, scsi_dinit[i].unit);
id_put(" at scbus", scsi_dinit[i].cunit);
id_put(" target ", scsi_dinit[i].target);
id_put(" lun ", scsi_dinit[i].lun);
if (scsi_dinit[i].flags)
printf("flags 0x%x\n", scsi_dinit[i].flags);
printf("\n");
}
}
static int
list_scsi(CmdParm *parms)
{
lineno = 0;
lsscsi();
return 0;
}
#endif
static int
save_dev(idev)
struct isa_device *idev;
{
struct isa_device *id_p,*id_pn;
for (id_p=isa_devlist;
id_p;
id_p=id_p->id_next) {
if (id_p->id_id == idev->id_id) {
id_pn = id_p->id_next;
bcopy(idev,id_p,sizeof(struct isa_device));
id_p->id_next = id_pn;
return 1;
}
}
id_pn = malloc(sizeof(struct isa_device),M_DEVL,M_WAITOK);
bcopy(idev,id_pn,sizeof(struct isa_device));
id_pn->id_next = isa_devlist;
isa_devlist = id_pn;
return 0;
}