/* $NetBSD: oldmon.h,v 1.1.1.1 1998/06/20 04:58:51 eeh Exp $ */ /* * Copyright (C) 1985 Regents of the University of California * Copyright (c) 1993 Adam Glass * 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, 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 Adam Glass. * 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 Adam Glass ``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. * * from: Sprite /cdrom/src/kernel/Cvsroot/kernel/mach/sun3.md/machMon.h,v * 9.1 90/10/03 13:52:34 mgbaker Exp SPRITE (Berkeley) */ #ifndef _MACHINE_OLDMON_H #define _MACHINE_OLDMON_H /* * Structures, constants and defines for access to the sun monitor. * These are translated from the sun monitor header file "sunromvec.h". * * The memory addresses for the PROM, and the EEPROM. * On the sun2 these addresses are actually 0x00EF??00 * but only the bottom 24 bits are looked at so these still * work ok. */ #define PROM_BASE 0xffe81000 enum maptypes { /* Page map entry types. */ MAP_MAINMEM, MAP_OBIO, MAP_MBMEM, MAP_MBIO, MAP_VME16A16D, MAP_VME16A32D, MAP_VME24A16D, MAP_VME24A32D, MAP_VME32A16D, MAP_VME32A32D }; /* * This table gives information about the resources needed by a device. */ struct devinfo { unsigned int d_devbytes; /* Bytes occupied by device in IO space.*/ unsigned int d_dmabytes; /* Bytes needed by device in DMA memory.*/ unsigned int d_localbytes;/* Bytes needed by device for local info.*/ unsigned int d_stdcount; /* How many standard addresses. */ unsigned long *d_stdaddrs; /* The vector of standard addresses. */ enum maptypes d_devtype; /* What map space device is in. */ unsigned int d_maxiobytes;/* Size to break big I/O's into. */ }; /* * A "stand alone I/O request". * This is passed as the main argument to the PROM I/O routines * in the `om_boottable' structure. */ struct saioreq { char si_flgs; struct om_boottable *si_boottab;/* Points to boottab entry if any */ char *si_devdata; /* Device-specific data pointer */ int si_ctlr; /* Controller number or address */ int si_unit; /* Unit number within controller */ long si_boff; /* Partition number within unit */ long si_cyloff; long si_offset; long si_bn; /* Block number to R/W */ char *si_ma; /* Memory address to R/W */ int si_cc; /* Character count to R/W */ struct saif *si_sif; /* net if. pointer (set by b_open) */ char *si_devaddr; /* Points to mapped in device */ char *si_dmaaddr; /* Points to allocated DMA space */ }; #define SAIO_F_READ 0x01 #define SAIO_F_WRITE 0x02 #define SAIO_F_ALLOC 0x04 #define SAIO_F_FILE 0x08 #define SAIO_F_EOF 0x10 /* EOF on device */ #define SAIO_F_AJAR 0x20 /* Descriptor "ajar" (stopped but not closed) */ /* * The table entry that describes a device. It exists in the PROM; a * pointer to it is passed in MachMonBootParam. It can be used to locate * PROM subroutines for opening, reading, and writing the device. * * When using this interface, only one device can be open at once. * * NOTE: I am not sure what arguments boot, open, close, and strategy take. * What is here is just translated verbatim from the sun monitor code. We * should figure this out eventually if we need it. */ struct om_boottable { char b_devname[2]; /* The name of the device */ int (*b_probe) __P((void)); /* probe() --> -1 or found controller number */ int (*b_boot) __P((void)); /* boot(bp) --> -1 or start address */ int (*b_open) __P((struct saioreq *));/* open(iobp) --> -1 or 0 */ int (*b_close) __P((struct saioreq *));/* close(iobp) --> -1 or 0 */ int (*b_strategy) __P((struct saioreq *, int));/* strategy(iobp,rw) --> -1 or 0 */ char *b_desc; /* Printable string describing dev */ struct devinfo *b_devinfo; /* info to configure device. */ }; /* * Structure set up by the boot command to pass arguments to the program that * is booted. */ struct om_bootparam { char *argPtr[8]; /* String arguments */ char strings[100]; /* String table for string arguments */ char devName[2]; /* Device name */ int ctlrNum; /* Controller number */ int unitNum; /* Unit number */ int partNum; /* Partition/file number */ char *fileName; /* File name, points into strings */ struct om_boottable *bootTable; /* Points to table entry for device */ }; /* * Here is the structure of the vector table which is at the front of the boot * rom. The functions defined in here are explained below. * * NOTE: This struct has references to the structures keybuf and globram which * I have not translated. If anyone needs to use these they should * translate these structs into Sprite format. */ struct om_vector { char *initSp; /* Initial system stack ptr for hardware */ int (*startMon) __P((void));/* Initial PC for hardware */ int *diagberr; /* Bus err handler for diags */ /* Monitor and hardware revision and identification */ struct om_bootparam **bootParam; /* Info for bootstrapped pgm */ u_long *memorySize; /* Usable memory in bytes */ /* Single-character input and output */ int (*getChar) __P((void)); /* Get char from input source */ void (*putChar) __P((int)); /* Put char to output sink */ int (*mayGet) __P((void)); /* Maybe get char, or -1 */ int (*mayPut) __P((int)); /* Maybe put char, or -1 */ u_char *echo; /* Should getchar echo? */ u_char *inSource; /* Input source selector */ u_char *outSink; /* Output sink selector */ #define PROMDEV_KBD 0 /* input from keyboard */ #define PROMDEV_SCREEN 0 /* output to screen */ #define PROMDEV_TTYA 1 /* in/out to ttya */ #define PROMDEV_TTYB 2 /* in/out to ttyb */ /* Keyboard input (scanned by monitor nmi routine) */ int (*getKey) __P((void)); /* Get next key if one exists */ int (*initGetKey) __P((void));/* Initialize get key */ u_int *translation; /* Kbd translation selector */ u_char *keyBid; /* Keyboard ID byte */ int *screen_x; /* V2: Screen x pos (R/O) */ int *screen_y; /* V2: Screen y pos (R/O) */ struct keybuf *keyBuf; /* Up/down keycode buffer */ /* Monitor revision level. */ char *monId; /* Frame buffer output and terminal emulation */ int (*fbWriteChar) __P((void));/* Write a character to FB */ int *fbAddr; /* Address of frame buffer */ char **font; /* Font table for FB */ void (*fbWriteStr) __P((char *, int)); /* Quickly write string to FB */ /* Reboot interface routine -- resets and reboots system. */ void (*reBoot) __P((char *)); /* e.g. reBoot("xy()vmunix") */ /* Line input and parsing */ u_char *lineBuf; /* The line input buffer */ u_char **linePtr; /* Cur pointer into linebuf */ int *lineSize; /* length of line in linebuf */ int (*getLine) __P((void)); /* Get line from user */ u_char (*getNextChar) __P((void));/* Get next char from linebuf */ u_char (*peekNextChar) __P((void));/* Peek at next char */ int *fbThere; /* =1 if frame buffer there */ int (*getNum) __P((void)); /* Grab hex num from line */ /* Print formatted output to current output sink */ int (*printf) __P((void)); /* Similar to "Kernel printf" */ int (*printHex) __P((void));/* Format N digits in hex */ /* Led stuff */ u_char *leds; /* RAM copy of LED register */ int (*setLeds) __P((void)); /* Sets LED's and RAM copy */ /* Non-maskable interrupt (nmi) information */ int (*nmiAddr) __P((void)); /* Addr for level 7 vector */ void (*abortEntry) __P((void));/* Entry for keyboard abort */ int *nmiClock; /* Counts up in msec */ /* Frame buffer type: see */ int *fbType; /* Assorted other things */ u_long romvecVersion; /* Version # of Romvec */ struct globram *globRam; /* monitor global variables */ caddr_t kbdZscc; /* Addr of keyboard in use */ int *keyrInit; /* ms before kbd repeat */ u_char *keyrTick; /* ms between repetitions */ u_long *memoryAvail; /* V1: Main mem usable size */ long *resetAddr; /* where to jump on a reset */ long *resetMap; /* pgmap entry for resetaddr */ /* Really struct pgmapent * */ __dead void (*exitToMon) __P((void)) __attribute__((noreturn));/* Exit from user program */ u_char **memorybitmap; /* V1: &{0 or &bits} */ void (*setcxsegmap) /* Set seg in any context */ __P((int, caddr_t, int)); void (**vector_cmd) __P((u_long, char *));/* V2: Handler for 'v' cmd */ u_long *ExpectedTrapSig; u_long *TrapVectorTable; int dummy1z; int dummy2z; int dummy3z; int dummy4z; }; #define romVectorPtr ((struct om_vector *)PROM_BASE) #define mon_printf (romVectorPtr->printf) #define mon_putchar (romVectorPtr->putChar) #define mon_may_getchar (romVectorPtr->mayGet) #define mon_exit_to_mon (romVectorPtr->exitToMon) #define mon_reboot (romVectorPtr->exitToMon) #define mon_panic(x) { mon_printf(x); mon_exit_to_mon();} #define mon_setcxsegmap(context, va, sme) \ romVectorPtr->setcxsegmap(context, va, sme) #define romp (romVectorPtr) /* * OLDMON_STARTVADDR and OLDMON_ENDVADDR denote the range of the damn monitor. * * supposedly you can steal pmegs within this range that do not contain * valid pages. */ #define OLDMON_STARTVADDR 0xFFD00000 #define OLDMON_ENDVADDR 0xFFF00000 /* * These describe the monitor's short segment which it basically uses to map * one stupid page that it uses for storage. MONSHORTPAGE is the page, * and MONSHORTSEG is the segment that it is in. If this sounds dumb to * you, it is. I can change the pmeg, but not the virtual address. * Sun defines these with the high nibble set to 0xF. I believe this was * for the monitor source which accesses this piece of memory with addressing * limitations or some such crud. I haven't replicated this here, because * it is confusing, and serves no obvious purpose if you aren't the monitor. * */ #define MONSHORTPAGE 0x0FFFE000 #define MONSHORTSEG 0x0FFE0000 /* * Ethernet interface descriptor * First, set: saiop->si_devaddr, saiop->si_dmaaddr, etc. * Then: saiop->si_boottab->b_open() will set: * saiop->si_sif; * saiop->si_devdata; * The latter is the first arg to the following functions. * Note that the buffer must be in DVMA space... */ struct saif { /* transmit packet, returns zero on success. */ int (*sif_xmit)(void *devdata, char *buf, int len); /* wait for packet, zero if none arrived */ int (*sif_poll)(void *devdata, char *buf); /* reset interface, set addresses, etc. */ int (*sif_reset)(void *devdata, struct saioreq *sip); /* Later (sun4 only) proms have more stuff here. */ }; #if defined(SUN4) void oldmon_w_trace __P((u_long)); void oldmon_w_cmd __P((u_long, char *)); #endif #endif /* _MACHINE_OLDMON_H */