File: [local] / sys / arch / sparc / sparc / cache.h (download)
Revision 1.1.1.1 (vendor branch), Tue Mar 4 16:07:54 2008 UTC (16 years, 3 months ago) by nbrk
Branch: OPENBSD_4_2_BASE, MAIN
CVS Tags: jornada-partial-support-wip, HEAD Changes since 1.1: +0 -0 lines
Import of OpenBSD 4.2 release kernel tree with initial code to support
Jornada 720/728, StrongARM 1110-based handheld PC.
At this point kernel roots on NFS and boots into vfs_mountroot() and traps.
What is supported:
- glass console, Jornada framebuffer (jfb) works in 16bpp direct color mode
(needs some palette tweaks for non black/white/blue colors, i think)
- saic, SA11x0 interrupt controller (needs cleanup)
- sacom, SA11x0 UART (supported only as boot console for now)
- SA11x0 GPIO controller fully supported (but can't handle multiple interrupt
handlers on one gpio pin)
- sassp, SSP port on SA11x0 that attaches spibus
- Jornada microcontroller (jmcu) to control kbd, battery, etc throught
the SPI bus (wskbd attaches on jmcu, but not tested)
- tod functions seem work
- initial code for SA-1111 (chip companion) : this is TODO
Next important steps, i think:
- gpio and intc on sa1111
- pcmcia support for sa11x0 (and sa1111 help logic)
- REAL root on nfs when we have PCMCIA support (we may use any of supported pccard NICs)
- root on wd0! (using already supported PCMCIA-ATA)
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/* $OpenBSD: cache.h,v 1.10 2007/01/22 19:39:33 miod Exp $ */
/* $NetBSD: cache.h,v 1.16 1997/07/06 21:15:14 pk Exp $ */
/*
* Copyright (c) 1996
* The President and Fellows of Harvard College. All rights reserved.
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* 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 Aaron Brown and
* Harvard University.
* 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.
*
* @(#)cache.h 8.1 (Berkeley) 6/11/93
*/
#ifndef SPARC_CACHE_H
#define SPARC_CACHE_H
/*
* Sun-4 and Sun-4c virtual address cache.
*
* Sun-4 virtual caches come in two flavors, write-through (Sun-4c)
* and write-back (Sun-4). The write-back caches are much faster
* but require a bit more care.
*
*/
enum vactype { VAC_UNKNOWN, VAC_NONE, VAC_WRITETHROUGH, VAC_WRITEBACK };
/*
* Cache tags can be written in control space, and must be set to 0
* (or invalid anyway) before turning on the cache. The tags are
* addressed as an array of 32-bit structures of the form:
*
* struct cache_tag {
* u_int :7, (unused; must be zero)
* ct_cid:3, (context ID)
* ct_w:1, (write flag from PTE)
* ct_s:1, (supervisor flag from PTE)
* ct_v:1, (set => cache entry is valid)
* :3, (unused; must be zero)
* ct_tid:14, (cache tag ID)
* :2; (unused; must be zero)
* };
*
* The SPARCstation 1 cache sees virtual addresses as:
*
* struct cache_va {
* u_int :2, (unused; probably copies of va_tid<13>)
* cva_tid:14, (tag ID)
* cva_line:12, (cache line number)
* cva_byte:4; (byte in cache line)
* };
*
* (The SS2 cache is similar but has half as many lines, each twice as long.)
*
* Note that, because the 12-bit line ID is `wider' than the page offset,
* it is possible to have one page map to two different cache lines.
* This can happen whenever two different physical pages have the same bits
* in the part of the virtual address that overlaps the cache line ID, i.e.,
* bits <15:12>. In order to prevent cache duplication, we have to
* make sure that no one page has more than one virtual address where
* (va1 & 0xf000) != (va2 & 0xf000). (The cache hardware turns off ct_v
* when a cache miss occurs on a write, i.e., if va1 is in the cache and
* va2 is not, and you write to va2, va1 goes out of the cache. If va1
* is in the cache and va2 is not, reading va2 also causes va1 to become
* uncached, and the [same] data is then read from main memory into the
* cache.)
*
* The other alternative, of course, is to disable caching of aliased
* pages. (In a few cases this might be faster anyway, but we do it
* only when forced.)
*
* The Sun4, since it has an 8K pagesize instead of 4K, needs to check
* bits that are one position higher.
*/
/* Some more well-known values: */
#define CACHE_ALIAS_DIST_SUN4 0x20000
#define CACHE_ALIAS_DIST_SUN4C 0x10000
#define CACHE_ALIAS_BITS_SUN4 0x1e000
#define CACHE_ALIAS_BITS_SUN4C 0xf000
#define CACHE_ALIAS_DIST_HS128k 0x20000
#define CACHE_ALIAS_BITS_HS128k 0x1f000
#define CACHE_ALIAS_DIST_HS256k 0x40000
#define CACHE_ALIAS_BITS_HS256k 0x3f000
extern int cache_alias_dist;
extern int cache_alias_bits;
/* Optimize cache alias macros on single architecture kernels */
#if defined(SUN4) && !defined(SUN4C) && !defined(SUN4M)
#define CACHE_ALIAS_DIST CACHE_ALIAS_DIST_SUN4
#define CACHE_ALIAS_BITS CACHE_ALIAS_BITS_SUN4
#elif !defined(SUN4) && defined(SUN4C) && !defined(SUN4M)
#define CACHE_ALIAS_DIST CACHE_ALIAS_DIST_SUN4C
#define CACHE_ALIAS_BITS CACHE_ALIAS_BITS_SUN4C
#else
#define CACHE_ALIAS_DIST cache_alias_dist
#define CACHE_ALIAS_BITS cache_alias_bits
#endif
/*
* True iff a1 and a2 are `bad' aliases (will cause cache duplication).
*/
#define BADALIAS(a1, a2) (((int)(a1) ^ (int)(a2)) & CACHE_ALIAS_BITS)
/*
* Routines for dealing with the cache.
*/
void sun4_cache_enable(void); /* turn it on */
void ms1_cache_enable(void); /* turn it on */
void viking_cache_enable(void); /* turn it on */
void hypersparc_cache_enable(void); /* turn it on */
void swift_cache_enable(void); /* turn it on */
void cypress_cache_enable(void); /* turn it on */
void turbosparc_cache_enable(void); /* turn it on */
void kap_cache_enable(void); /* turn it on */
void sun4_vcache_flush_context(void); /* flush current context */
void sun4_vcache_flush_region(int); /* flush region in cur ctx */
void sun4_vcache_flush_segment(int, int); /* flush seg in cur ctx */
void sun4_vcache_flush_page(int va); /* flush page in cur ctx */
void sun4_cache_flush(caddr_t, u_int); /* flush region */
void srmmu_vcache_flush_context(void); /* flush current context */
void srmmu_vcache_flush_region(int); /* flush region in cur ctx */
void srmmu_vcache_flush_segment(int, int); /* flush seg in cur ctx */
void srmmu_vcache_flush_page(int va); /* flush page in cur ctx */
void srmmu_cache_flush(caddr_t, u_int); /* flush region */
void hypersparc_pure_vcache_flush(void);
void ms1_cache_flush_all(void);
void srmmu_cache_flush_all(void);
void cypress_cache_flush_all(void);
void hypersparc_cache_flush_all(void);
void ms1_cache_flush(caddr_t, u_int);
void viking_cache_flush(caddr_t, u_int);
void viking_pcache_flush_line(int, int);
void srmmu_pcache_flush_line(int, int);
void kap_vcache_flush_context(void); /* flush current context */
void kap_vcache_flush_page(int va); /* flush page in cur ctx */
void kap_cache_flush(caddr_t, u_int); /* flush region */
extern void sparc_noop(void);
#define noop_vcache_flush_context \
(void (*)(void)) sparc_noop
#define noop_vcache_flush_region \
(void (*)(int)) sparc_noop
#define noop_vcache_flush_segment \
(void (*)(int,int)) sparc_noop
#define noop_vcache_flush_page \
(void (*)(int)) sparc_noop
#define noop_cache_flush \
(void (*)(caddr_t, u_int)) sparc_noop
#define noop_pcache_flush_line \
(void (*)(int, int)) sparc_noop
#define noop_pure_vcache_flush \
(void (*)(void)) sparc_noop
#define noop_cache_flush_all \
(void (*)(void)) sparc_noop
#define cache_flush_page(va) cpuinfo.vcache_flush_page(va)
#define cache_flush_segment(vr,vs) cpuinfo.vcache_flush_segment(vr,vs)
#define cache_flush_region(vr) cpuinfo.vcache_flush_region(vr)
#define cache_flush_context() cpuinfo.vcache_flush_context()
/*
* Cache control information.
*/
struct cacheinfo {
int c_totalsize; /* total size, in bytes */
/* if split, MAX(icache,dcache) */
int c_enabled; /* true => cache is enabled */
int c_hwflush; /* true => have hardware flush */
int c_linesize; /* line size, in bytes */
int c_l2linesize; /* log2(linesize) */
int c_nlines; /* number of cache lines */
int c_physical; /* true => cache has physical
address tags */
int c_associativity; /* # of "buckets" in cache line */
int c_split; /* true => cache is split */
int ic_totalsize; /* instruction cache */
int ic_enabled;
int ic_linesize;
int ic_l2linesize;
int ic_nlines;
int ic_associativity;
int dc_totalsize; /* data cache */
int dc_enabled;
int dc_linesize;
int dc_l2linesize;
int dc_nlines;
int dc_associativity;
int ec_totalsize; /* external cache info */
int ec_enabled;
int ec_linesize;
int ec_l2linesize;
int ec_nlines;
int ec_associativity;
enum vactype c_vactype;
};
#define CACHEINFO cpuinfo.cacheinfo
/*
* Cache control statistics.
*/
struct cachestats {
int cs_npgflush; /* # page flushes */
int cs_nsgflush; /* # seg flushes */
int cs_nrgflush; /* # seg flushes */
int cs_ncxflush; /* # context flushes */
int cs_nraflush; /* # range flushes */
#ifdef notyet
int cs_ra[65]; /* pages/range */
#endif
};
#endif /* SPARC_CACHE_H */