/* $NetBSD: bsd_openprom.h,v 1.25 2007/12/24 15:46:45 perry Exp $ */ /* * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Jan-Simon Pendry. * * 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. 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. * * @(#)bsd_openprom.h 8.1 (Berkeley) 6/11/93 */ /* * Sun4m support by Aaron Brown, Harvard University. * Changes Copyright (c) 1995 The President and Fellows of Harvard College. * All rights reserved. */ #ifndef _BSD_OPENPROM_H_ #define _BSD_OPENPROM_H_ /* * This file defines the interface between the kernel and the Openboot PROM. * N.B.: this has been tested only on interface versions 0 and 2 (we have * never seen interface version 1). */ /* * The v0 interface tells us what virtual memory to scan to avoid PMEG * conflicts, but the v2 interface fails to do so, and we must `magically' * know where the OPENPROM lives in virtual space. */ #define OPENPROM_STARTVADDR 0xffd00000 #define OPENPROM_ENDVADDR 0xfff00000 #define OPENPROM_MAGIC 0x10010407 /* * Version 0 PROM vector device operations (collected here to emphasise that * they are deprecated). Open and close are obvious. Read and write are * segregated according to the device type (block, network, or character); * this is unnecessary and was eliminated from the v2 device operations, but * we are stuck with it. * * Seek is probably only useful on tape devices, since the only character * devices are the serial ports. * * Note that a v0 device name is always exactly two characters ("sd", "le", * and so forth). */ struct v0devops { int (*v0_open)(const char *); int (*v0_close)(int); int (*v0_rbdev)(int, int, int, void *); int (*v0_wbdev)(int, int, int, void *); int (*v0_wnet)(int, int, void *); int (*v0_rnet)(int, int, void *); int (*v0_rcdev)(int, int, int, void *); int (*v0_wcdev)(int, int, int, void *); int (*v0_seek)(int, long, int); }; /* * Version 2 device operations. Open takes a device `path' such as * /sbus/le@0,c00000,0 or /sbus/esp@.../sd@0,0, which means it can open * anything anywhere, without any magic translation. * * The memory allocator and map functions are included here even though * they relate only indirectly to devices (e.g., mmap is good for mapping * device memory, and drivers need to allocate space in which to record * the device state). */ struct v2devops { /* * Convert an `instance handle' (acquired through v2_open()) to * a `package handle', a.k.a. a `node'. */ int (*v2_fd_phandle)(int); /* Memory allocation and release. */ void *(*v2_malloc)(void *, u_int); void (*v2_free)(void *, u_int); /* Device memory mapper. */ void * (*v2_mmap)(void *, int, u_int, u_int); void (*v2_munmap)(void *, u_int); /* Device open, close, etc. */ int (*v2_open)(const char *); void (*v2_close)(int); int (*v2_read)(int, void *, int); int (*v2_write)(int, const void *, int); void (*v2_seek)(int, int, int); void (*v2_chain)(void); /* ??? */ void (*v2_release)(void); /* ??? */ }; /* * The v0 interface describes memory regions with these linked lists. * (The !$&@#+ v2 interface reformats these as properties, so that we * have to extract them into local temporary memory and reinterpret them.) */ struct v0mlist { struct v0mlist *next; void * addr; u_int nbytes; }; /* * V0 gives us three memory lists: Total physical memory, VM reserved to * the PROM, and available physical memory (which, presumably, is just the * total minus any pages mapped in the PROM's VM region). We can find the * reserved PMEGs by scanning the taken VM. Unfortunately, the V2 prom * forgot to provide taken VM, and we are stuck with scanning ``magic'' * addresses. */ struct v0mem { struct v0mlist **v0_phystot; /* physical memory */ struct v0mlist **v0_vmprom; /* VM used by PROM */ struct v0mlist **v0_physavail; /* available physical memory */ }; /* * The version 0 PROM breaks up the string given to the boot command and * leaves the decoded version behind. */ struct v0bootargs { char *ba_argv[8]; /* argv format for boot string */ char ba_args[100]; /* string space */ char ba_bootdev[2]; /* e.g., "sd" for `b sd(...' */ int ba_ctlr; /* controller # */ int ba_unit; /* unit # */ int ba_part; /* partition # */ char *ba_kernel; /* kernel to boot, e.g., "vmunix" */ void *ba_spare0; /* not decoded here XXX */ }; /* * The version 2 PROM interface uses the more general, if less convenient, * approach of passing the boot strings unchanged. We also get open file * numbers for stdin and stdout (keyboard and screen, or whatever), for use * with the v2 device ops. */ struct v2bootargs { char **v2_bootpath; /* V2: Path to boot device */ char **v2_bootargs; /* V2: Boot args */ int *v2_fd0; /* V2: Stdin descriptor */ int *v2_fd1; /* V2: Stdout descriptor */ }; /* * The format used by the PROM to describe a physical address. These * are typically found in a "reg" property. */ struct openprom_addr { int oa_space; /* address space (may be relative) */ u_int oa_base; /* address within space */ u_int oa_size; /* extent (number of bytes) */ }; /* * The format used by the PROM to describe an address space window. These * are typically found in a "range" property. */ struct openprom_range { int or_child_space; /* address space of child */ u_int or_child_base; /* offset in child's view of bus */ int or_parent_space; /* address space of parent */ u_int or_parent_base; /* offset in parent's view of bus */ u_int or_size; /* extent (number of bytes) */ }; /* * The format used by the PROM to describe an interrupt. These are * typically found in an "intr" property. */ struct openprom_intr { int oi_pri; /* interrupt priority */ int oi_vec; /* interrupt vector */ }; /* * The following structure defines the primary PROM vector interface. * The Boot PROM hands the kernel a pointer to this structure in %o0. * There are numerous substructures defined below. */ struct promvec { /* Version numbers. */ u_int pv_magic; /* Magic number */ #define OBP_MAGIC 0x10010407 u_int pv_romvec_vers; /* interface version (0, 2) */ u_int pv_plugin_vers; /* ??? */ u_int pv_printrev; /* PROM rev # (* 10, e.g 1.9 = 19) */ /* Version 0 memory descriptors (see below). */ struct v0mem pv_v0mem; /* V0: Memory description lists. */ /* Node operations (see below). */ struct nodeops *pv_nodeops; /* node functions */ char **pv_bootstr; /* Boot command, eg sd(0,0,0)vmunix */ struct v0devops pv_v0devops; /* V0: device ops */ /* * PROMDEV_* cookies. I fear these may vanish in lieu of fd0/fd1 * (see below) in future PROMs, but for now they work fine. */ char *pv_stdin; /* stdin cookie */ char *pv_stdout; /* stdout cookie */ #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 */ /* Blocking getchar/putchar. NOT REENTRANT! (grr) */ int (*pv_getchar)(void); void (*pv_putchar)(int); /* Non-blocking variants that return -1 on error. */ int (*pv_nbgetchar)(void); int (*pv_nbputchar)(int); /* Put counted string (can be very slow). */ void (*pv_putstr)(const char *, int); /* Miscellany. */ void (*pv_reboot)(const char *) __attribute__((__noreturn__)); void (*pv_printf)(const char *, ...); void (*pv_abort)(void); /* L1-A abort */ int *pv_ticks; /* Ticks since last reset */ __dead void (*pv_halt)(void); /* Halt! */ void (**pv_synchook)(void); /* "sync" command hook */ /* * This eval's a FORTH string. Unfortunately, its interface * changed between V0 and V2, which gave us much pain. */ union { void (*v0_eval)(int, const char *); void (*v2_eval)(const char *); } pv_fortheval; struct v0bootargs **pv_v0bootargs; /* V0: Boot args */ /* Extract Ethernet address from network device. */ u_int (*pv_enaddr)(int, char *); struct v2bootargs pv_v2bootargs; /* V2: Boot args + std in/out */ struct v2devops pv_v2devops; /* V2: device operations */ int pv_spare[15]; /* * The following is machine-dependent. * * The sun4c needs a PROM function to set a PMEG for another * context, so that the kernel can map itself in all contexts. * It is not possible simply to set the context register, because * contexts 1 through N may have invalid translations for the * current program counter. The hardware has a mode in which * all memory references go to the PROM, so the PROM can do it * easily. */ void (*pv_setctxt)(int, void *, int); /* * The following are V3 ROM functions to handle MP machines in the * Sun4m series. They have undefined results when run on a uniprocessor! */ int (*pv_v3cpustart)(int, struct openprom_addr *, int, void *); int (*pv_v3cpustop)(int); int (*pv_v3cpuidle)(int); int (*pv_v3cpuresume)(int); }; /* * In addition to the global stuff defined in the PROM vectors above, * the PROM has quite a collection of `nodes'. A node is described by * an integer---these seem to be internal pointers, actually---and the * nodes are arranged into an N-ary tree. Each node implements a fixed * set of functions, as described below. The first two deal with the tree * structure, allowing traversals in either breadth- or depth-first fashion. * The rest deal with `properties'. * * A node property is simply a name/value pair. The names are C strings * (NUL-terminated); the values are arbitrary byte strings (counted strings). * Many values are really just C strings. Sometimes these are NUL-terminated, * sometimes not, depending on the interface version; v0 seems to terminate * and v2 not. Many others are simply integers stored as four bytes in * machine order: you just get them and go. The third popular format is * an `physical address', which is made up of one or more sets of three * integers as defined above. * * N.B.: for the `next' functions, next(0) = first, and next(last) = 0. * Whoever designed this part had good taste. On the other hand, these * operation vectors are global, rather than per-node, yet the pointers * are not in the openprom vectors but rather found by indirection from * there. So the taste balances out. */ struct nodeops { /* * Tree traversal. */ int (*no_nextnode)(int); /* next(node) */ int (*no_child)(int); /* first child */ /* * Property functions. Proper use of getprop requires calling * proplen first to make sure it fits. Kind of a pain, but no * doubt more convenient for the PROM coder. */ int (*no_proplen)(int, const char *); int (*no_getprop)(int, const char *, void *); int (*no_setprop)(int, const char *, const void *, int); char *(*no_nextprop)(int, const char *); }; /* * OBP Module mailbox messages for multi processor machines. * * 00..7F : power-on self test * 80..8F : active in boot prom (at the "ok" prompt) * 90..EF : idle in boot prom * F0 : active in application * F1..FA : reserved for future use * * FB : pv_v3cpustop(node) was called for this CPU, * respond by calling pv_v3cpustop(0). * * FC : pv_v3cpuidle(node) was called for this CPU, * respond by calling pv_v3cpuidle(0). * * FD : One processor hit a BREAKPOINT, call pv_v3cpuidle(0). * [According to SunOS4 header; but what breakpoint?] * * FE : One processor got a WATCHDOG RESET, call pv_v3cpustop(0). * [According to SunOS4 header; never seen this, although * I've had plenty of watchdogs already] * * FF : This processor is not available. */ #define OPENPROM_MBX_STOP 0xfb #define OPENPROM_MBX_ABORT 0xfc #define OPENPROM_MBX_BPT 0xfd #define OPENPROM_MBX_WD 0xfe #endif /* _BSD_OPENPROM_H_ */