2000-03-14 02:52:25 +03:00
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/* $NetBSD: bsd_openprom.h,v 1.2 2000/03/13 23:52:34 soren Exp $ */
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1998-06-20 08:58:50 +04:00
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/*
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* Copyright (c) 1992, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* This code is derived from software contributed to Berkeley by
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* Jan-Simon Pendry.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)bsd_openprom.h 8.1 (Berkeley) 6/11/93
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*/
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/*
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* Sun4m support by Aaron Brown, Harvard University.
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* Changes Copyright (c) 1995 The President and Fellows of Harvard College.
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* All rights reserved.
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*/
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/*
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* This file defines the interface between the kernel and the Openboot PROM.
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* N.B.: this has been tested only on interface versions 0 and 2 (we have
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* never seen interface version 1).
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*/
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/*
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* The v0 interface tells us what virtual memory to scan to avoid PMEG
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* conflicts, but the v2 interface fails to do so, and we must `magically'
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* know where the OPENPROM lives in virtual space.
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*/
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#define OPENPROM_STARTVADDR 0xffd00000
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#define OPENPROM_ENDVADDR 0xfff00000
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#define OPENPROM_MAGIC 0x10010407
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/*
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* Version 0 PROM vector device operations (collected here to emphasise that
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* they are deprecated). Open and close are obvious. Read and write are
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* segregated according to the device type (block, network, or character);
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* this is unnecessary and was eliminated from the v2 device operations, but
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* we are stuck with it.
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*
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* Seek is probably only useful on tape devices, since the only character
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* devices are the serial ports.
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*
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* Note that a v0 device name is always exactly two characters ("sd", "le",
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* and so forth).
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*/
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struct v0devops {
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int (*v0_open) __P((char *dev));
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int (*v0_close) __P((int d));
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int (*v0_rbdev) __P((int d, int nblks, int blkno, void *addr));
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int (*v0_wbdev) __P((int d, int nblks, int blkno, void *addr));
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int (*v0_wnet) __P((int d, int nbytes, void *addr));
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int (*v0_rnet) __P((int d, int nbytes, void *addr));
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int (*v0_rcdev) __P((int d, int nbytes, int, void *addr));
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int (*v0_wcdev) __P((int d, int nbytes, int, void *addr));
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int (*v0_seek) __P((int d, long offset, int whence));
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};
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/*
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* Version 2 device operations. Open takes a device `path' such as
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* /sbus/le@0,c00000,0 or /sbus/esp@.../sd@0,0, which means it can open
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* anything anywhere, without any magic translation.
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*
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* The memory allocator and map functions are included here even though
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* they relate only indirectly to devices (e.g., mmap is good for mapping
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* device memory, and drivers need to allocate space in which to record
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* the device state).
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*/
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struct v2devops {
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/*
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* Convert an `instance handle' (acquired through v2_open()) to
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* a `package handle', a.k.a. a `node'.
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*/
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int (*v2_fd_phandle) __P((int d));
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/* Memory allocation and release. */
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void *(*v2_malloc) __P((caddr_t va, u_int sz));
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void (*v2_free) __P((caddr_t va, u_int sz));
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/* Device memory mapper. */
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caddr_t (*v2_mmap) __P((caddr_t va, int asi, u_int pa, u_int sz));
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void (*v2_munmap) __P((caddr_t va, u_int sz));
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/* Device open, close, etc. */
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int (*v2_open) __P((char *devpath));
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void (*v2_close) __P((int d));
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int (*v2_read) __P((int d, void *buf, int nbytes));
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int (*v2_write) __P((int d, void *buf, int nbytes));
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void (*v2_seek) __P((int d, int hi, int lo));
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void (*v2_chain) __P((void)); /* ??? */
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void (*v2_release) __P((void)); /* ??? */
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};
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/*
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* The v0 interface describes memory regions with these linked lists.
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* (The !$&@#+ v2 interface reformats these as properties, so that we
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* have to extract them into local temporary memory and reinterpret them.)
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*/
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struct v0mlist {
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struct v0mlist *next;
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caddr_t addr;
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u_int nbytes;
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};
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/*
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* V0 gives us three memory lists: Total physical memory, VM reserved to
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* the PROM, and available physical memory (which, presumably, is just the
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* total minus any pages mapped in the PROM's VM region). We can find the
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* reserved PMEGs by scanning the taken VM. Unfortunately, the V2 prom
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* forgot to provide taken VM, and we are stuck with scanning ``magic''
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* addresses.
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*/
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struct v0mem {
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struct v0mlist **v0_phystot; /* physical memory */
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struct v0mlist **v0_vmprom; /* VM used by PROM */
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struct v0mlist **v0_physavail; /* available physical memory */
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};
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/*
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* The version 0 PROM breaks up the string given to the boot command and
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* leaves the decoded version behind.
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*/
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struct v0bootargs {
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char *ba_argv[8]; /* argv format for boot string */
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char ba_args[100]; /* string space */
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char ba_bootdev[2]; /* e.g., "sd" for `b sd(...' */
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int ba_ctlr; /* controller # */
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int ba_unit; /* unit # */
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int ba_part; /* partition # */
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char *ba_kernel; /* kernel to boot, e.g., "vmunix" */
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void *ba_spare0; /* not decoded here XXX */
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};
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/*
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* The version 2 PROM interface uses the more general, if less convenient,
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* approach of passing the boot strings unchanged. We also get open file
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* numbers for stdin and stdout (keyboard and screen, or whatever), for use
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* with the v2 device ops.
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*/
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struct v2bootargs {
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char **v2_bootpath; /* V2: Path to boot device */
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char **v2_bootargs; /* V2: Boot args */
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int *v2_fd0; /* V2: Stdin descriptor */
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int *v2_fd1; /* V2: Stdout descriptor */
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};
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/*
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* The following structure defines the primary PROM vector interface.
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* The Boot PROM hands the kernel a pointer to this structure in %o0.
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* There are numerous substructures defined below.
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*/
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struct promvec {
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/* Version numbers. */
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u_int pv_magic; /* Magic number */
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u_int pv_romvec_vers; /* interface version (0, 2) */
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u_int pv_plugin_vers; /* ??? */
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u_int pv_printrev; /* PROM rev # (* 10, e.g 1.9 = 19) */
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/* Version 0 memory descriptors (see below). */
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struct v0mem pv_v0mem; /* V0: Memory description lists. */
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/* Node operations (see below). */
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struct nodeops *pv_nodeops; /* node functions */
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char **pv_bootstr; /* Boot command, eg sd(0,0,0)vmunix */
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struct v0devops pv_v0devops; /* V0: device ops */
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/*
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* PROMDEV_* cookies. I fear these may vanish in lieu of fd0/fd1
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* (see below) in future PROMs, but for now they work fine.
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*/
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char *pv_stdin; /* stdin cookie */
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char *pv_stdout; /* stdout cookie */
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#define PROMDEV_KBD 0 /* input from keyboard */
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#define PROMDEV_SCREEN 0 /* output to screen */
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#define PROMDEV_TTYA 1 /* in/out to ttya */
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#define PROMDEV_TTYB 2 /* in/out to ttyb */
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/* Blocking getchar/putchar. NOT REENTRANT! (grr) */
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int (*pv_getchar) __P((void));
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void (*pv_putchar) __P((int ch));
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/* Non-blocking variants that return -1 on error. */
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int (*pv_nbgetchar) __P((void));
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int (*pv_nbputchar) __P((int ch));
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/* Put counted string (can be very slow). */
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void (*pv_putstr) __P((char *str, int len));
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/* Miscellany. */
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void (*pv_reboot) __P((char *bootstr));
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void (*pv_printf) __P((const char *fmt, ...));
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void (*pv_abort) __P((void)); /* L1-A abort */
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int *pv_ticks; /* Ticks since last reset */
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__dead void (*pv_halt) __P((void)) __attribute__((noreturn));/* Halt! */
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void (**pv_synchook) __P((void)); /* "sync" command hook */
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/*
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* This eval's a FORTH string. Unfortunately, its interface
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* changed between V0 and V2, which gave us much pain.
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*/
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union {
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void (*v0_eval) __P((int len, char *str));
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void (*v2_eval) __P((char *str));
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} pv_fortheval;
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struct v0bootargs **pv_v0bootargs; /* V0: Boot args */
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/* Extract Ethernet address from network device. */
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u_int (*pv_enaddr) __P((int d, char *enaddr));
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struct v2bootargs pv_v2bootargs; /* V2: Boot args + std in/out */
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struct v2devops pv_v2devops; /* V2: device operations */
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int pv_spare[15];
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/*
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* The following is machine-dependent.
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*
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* The sun4c needs a PROM function to set a PMEG for another
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* context, so that the kernel can map itself in all contexts.
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* It is not possible simply to set the context register, because
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* contexts 1 through N may have invalid translations for the
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* current program counter. The hardware has a mode in which
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* all memory references go to the PROM, so the PROM can do it
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* easily.
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*/
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void (*pv_setctxt) __P((int ctxt, caddr_t va, int pmeg));
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#if defined(SUN4M) && defined(notyet)
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/*
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* The following are V3 ROM functions to handle MP machines in the
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* Sun4m series. They have undefined results when run on a uniprocessor!
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*/
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int (*pv_v3cpustart) __P((u_int module, u_int ctxtbl,
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int context, caddr_t pc));
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int (*pv_v3cpustop) __P((u_int module));
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int (*pv_v3cpuidle) __P((u_int module));
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int (*pv_v3cpuresume) __P((u_int module));
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#endif
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};
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/*
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* In addition to the global stuff defined in the PROM vectors above,
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* the PROM has quite a collection of `nodes'. A node is described by
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* an integer---these seem to be internal pointers, actually---and the
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* nodes are arranged into an N-ary tree. Each node implements a fixed
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* set of functions, as described below. The first two deal with the tree
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* structure, allowing traversals in either breadth- or depth-first fashion.
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* The rest deal with `properties'.
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*
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* A node property is simply a name/value pair. The names are C strings
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* (NUL-terminated); the values are arbitrary byte strings (counted strings).
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* Many values are really just C strings. Sometimes these are NUL-terminated,
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2000-03-14 02:52:25 +03:00
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* sometimes not, depending on the interface version; v0 seems to terminate
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* and v2 not. Many others are simply integers stored as four bytes in
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* machine order: you just get them and go. The third popular format is
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* an `address', which is made up of one or more sets of three integers
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* as defined below.
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1998-06-20 08:58:50 +04:00
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*
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* N.B.: for the `next' functions, next(0) = first, and next(last) = 0.
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* Whoever designed this part had good taste. On the other hand, these
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* operation vectors are global, rather than per-node, yet the pointers
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* are not in the openprom vectors but rather found by indirection from
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* there. So the taste balances out.
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*/
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struct openprom_addr {
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int oa_space; /* address space (may be relative) */
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u_int oa_base; /* address within space */
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u_int oa_size; /* extent (number of bytes) */
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};
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struct nodeops {
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/*
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* Tree traversal.
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*/
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int (*no_nextnode) __P((int node)); /* next(node) */
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int (*no_child) __P((int node)); /* first child */
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/*
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* Property functions. Proper use of getprop requires calling
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* proplen first to make sure it fits. Kind of a pain, but no
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* doubt more convenient for the PROM coder.
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*/
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int (*no_proplen) __P((int node, caddr_t name));
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int (*no_getprop) __P((int node, caddr_t name, caddr_t val));
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int (*no_setprop) __P((int node, caddr_t name, caddr_t val,
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int len));
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caddr_t (*no_nextprop) __P((int node, caddr_t name));
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};
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void romhalt __P((void))
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__attribute__((__noreturn__));
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void romboot __P((char *))
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__attribute__((__noreturn__));
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extern struct promvec *promvec;
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