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|
/* $OpenBSD: bus.h,v 1.2 2001/11/05 17:25:58 art Exp $ */
/*
* Copyright (c) 1997 Per Fogelstrom. All rights reserved.
* Copyright (c) 1996 Niklas Hallqvist. 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 Christopher G. Demetriou
* for the NetBSD Project.
* 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 THE AUTHOR ``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 AUTHOR 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.
*/
#ifndef _MACHINE_BUS_H_
#define _MACHINE_BUS_H_
#include <machine/pio.h>
#ifdef __STDC__
#define CAT(a,b) a##b
#define CAT3(a,b,c) a##b##c
#else
#define CAT(a,b) a/**/b
#define CAT3(a,b,c) a/**/b/**/c
#endif
/*
* Bus access types.
*/
typedef u_long bus_addr_t;
typedef u_int32_t bus_size_t;
typedef u_int32_t bus_space_handle_t;
typedef struct ppc_bus_space *bus_space_tag_t;
struct ppc_bus_space {
u_int32_t bus_base;
u_int32_t bus_size;
u_int8_t bus_reverse; /* Reverse bytes */
};
#define POWERPC_BUS_TAG_BASE(x) ((x)->bus_base)
extern struct ppc_bus_space ppc_isa_io, ppc_isa_mem;
/*
* Access methods for bus resources
*/
int bus_space_map __P((bus_space_tag_t t, bus_addr_t addr,
bus_size_t size, int cacheable, bus_space_handle_t *bshp));
void bus_space_unmap __P((bus_space_tag_t t, bus_space_handle_t bsh,
bus_size_t size));
int bus_space_subregion __P((bus_space_tag_t t, bus_space_handle_t bsh,
bus_size_t offset, bus_size_t size, bus_space_handle_t *nbshp));
int bus_space_alloc __P((bus_space_tag_t tag, bus_addr_t rstart,
bus_addr_t rend, bus_size_t size, bus_size_t alignment,
bus_size_t boundary, int cacheable, bus_addr_t *addrp,
bus_space_handle_t *handlep));
void bus_space_free __P((bus_space_tag_t tag, bus_space_handle_t handle,
bus_size_t size));
#define bus_space_read(n,m) \
static __inline CAT3(u_int,m,_t) \
CAT(bus_space_read_,n)(bus_space_tag_t bst, bus_space_handle_t bsh, \
bus_addr_t ba) \
{ \
if(bst->bus_reverse) \
return CAT3(in,m,rb)((volatile CAT3(u_int,m,_t) *)(bsh + (ba))); \
else \
return CAT(in,m)((volatile CAT3(u_int,m,_t) *)(bsh + (ba))); \
}
bus_space_read(1,8)
bus_space_read(2,16)
bus_space_read(4,32)
#define bus_space_read_8 !!! bus_space_read_8 unimplemented !!!
#define bus_space_write(n,m) \
static __inline void \
CAT(bus_space_write_,n)(bus_space_tag_t bst, bus_space_handle_t bsh, \
bus_addr_t ba, CAT3(u_int,m,_t) x) \
{ \
if(bst->bus_reverse) \
CAT3(out,m,rb)((volatile CAT3(u_int,m,_t) *)(bsh + (ba)), x); \
else \
CAT(out,m)((volatile CAT3(u_int,m,_t) *)(bsh + (ba)), x); \
}
bus_space_write(1,8)
bus_space_write(2,16)
bus_space_write(4,32)
#define bus_space_write_8 !!! bus_space_write_8 unimplemented !!!
#define bus_space_read_multi(n, m) \
static __inline void \
CAT(bus_space_read_multi_,n)(bus_space_tag_t bst, bus_space_handle_t bsh, \
bus_size_t ba, CAT3(u_int,m,_t) *buf, bus_size_t cnt) \
{ \
while (cnt--) \
*buf++ = CAT(bus_space_read_,n)(bst, bsh, ba); \
}
bus_space_read_multi(1,8)
bus_space_read_multi(2,16)
bus_space_read_multi(4,32)
#define bus_space_read_multi_8 !!! bus_space_read_multi_8 not implemented !!!
#define bus_space_write_multi_8 !!! bus_space_write_multi_8 not implemented !!!
#define bus_space_write_multi(n, m) \
static __inline void \
CAT(bus_space_write_multi_,n)(bus_space_tag_t bst, bus_space_handle_t bsh, \
bus_size_t ba, const CAT3(u_int,m,_t) *buf, bus_size_t cnt) \
{ \
while (cnt--) \
CAT(bus_space_write_,n)(bst, bsh, ba, *buf++); \
}
bus_space_write_multi(1,8)
bus_space_write_multi(2,16)
bus_space_write_multi(4,32)
#define bus_space_write_multi_8 !!! bus_space_write_multi_8 not implemented !!!
/*
* void bus_space_read_region_N __P((bus_space_tag_t tag,
* bus_space_handle_t bsh, bus_size_t offset,
* u_intN_t *addr, size_t count));
*
* Read `count' 1, 2, 4, or 8 byte quantities from bus space
* described by tag/handle and starting at `offset' and copy into
* buffer provided.
*/
#define __BA(t, h, o) ((void *)((h) + (o)))
static __inline void
bus_space_read_region_1(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, u_int8_t *addr, size_t count)
{
volatile u_int8_t *s = __BA(tag, bsh, offset);
while (count--)
*addr++ = *s++;
__asm __volatile("eieio; sync");
}
static __inline void
bus_space_read_region_2(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, u_int16_t *addr, size_t count)
{
volatile u_int16_t *s = __BA(tag, bsh, offset);
while (count--)
__asm __volatile("lhbrx %0, 0, %1" :
"=r"(*addr++) : "r"(s++));
__asm __volatile("eieio; sync");
}
static __inline void
bus_space_read_region_4(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, u_int32_t *addr, size_t count)
{
volatile u_int32_t *s = __BA(tag, bsh, offset);
while (count--)
__asm __volatile("lwbrx %0, 0, %1" :
"=r"(*addr++) : "r"(s++));
__asm __volatile("eieio; sync");
}
#if 0 /* Cause a link error for bus_space_read_region_8 */
#define bus_space_read_region_8 !!! unimplemented !!!
#endif
/*
* void bus_space_write_region_N __P((bus_space_tag_t tag,
* bus_space_handle_t bsh, bus_size_t offset,
* const u_intN_t *addr, size_t count));
*
* Write `count' 1, 2, 4, or 8 byte quantities from the buffer provided
* to bus space described by tag/handle starting at `offset'.
*/
static __inline void
bus_space_write_region_1(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, const u_int8_t *addr, size_t count)
{
volatile u_int8_t *d = __BA(tag, bsh, offset);
while (count--)
*d++ = *addr++;
__asm __volatile("eieio; sync");
}
static __inline void
bus_space_write_region_2(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, const u_int16_t *addr, size_t count)
{
volatile u_int16_t *d = __BA(tag, bsh, offset);
while (count--)
__asm __volatile("sthbrx %0, 0, %1" ::
"r"(*addr++), "r"(d++));
__asm __volatile("eieio; sync");
}
static __inline void
bus_space_write_region_4(bus_space_tag_t tag, bus_space_handle_t bsh,
bus_size_t offset, const u_int32_t *addr, size_t count)
{
volatile u_int32_t *d = __BA(tag, bsh, offset);
while (count--)
__asm __volatile("stwbrx %0, 0, %1" ::
"r"(*addr++), "r"(d++));
__asm __volatile("eieio; sync");
}
#if 0
#define bus_space_write_region_8 !!! bus_space_write_region_8 unimplemented !!!
#endif
/*
* void bus_space_set_multi_N __P((bus_space_tag_t tag,
* bus_space_handle_t bsh, bus_size_t offset, u_intN_t val,
* size_t count));
*
* Write the 1, 2, 4, or 8 byte value `val' to bus space described
* by tag/handle/offset `count' times.
*/
static __inline void bus_space_set_multi_1 __P((bus_space_tag_t,
bus_space_handle_t, bus_size_t, u_int8_t, size_t));
static __inline void bus_space_set_multi_2 __P((bus_space_tag_t,
bus_space_handle_t, bus_size_t, u_int16_t, size_t));
static __inline void bus_space_set_multi_4 __P((bus_space_tag_t,
bus_space_handle_t, bus_size_t, u_int32_t, size_t));
static __inline void
bus_space_set_multi_1(tag, bsh, offset, val, count)
bus_space_tag_t tag;
bus_space_handle_t bsh;
bus_size_t offset;
u_int8_t val;
size_t count;
{
volatile u_int8_t *d = __BA(tag, bsh, offset);
while (count--)
*d = val;
__asm__ volatile("eieio; sync");
}
static __inline void
bus_space_set_multi_2(tag, bsh, offset, val, count)
bus_space_tag_t tag;
bus_space_handle_t bsh;
bus_size_t offset;
u_int16_t val;
size_t count;
{
volatile u_int16_t *d = __BA(tag, bsh, offset);
while (count--)
__asm__ volatile("sthbrx %0, 0, %1" ::
"r"(val), "r"(d));
__asm__ volatile("eieio; sync");
}
static __inline void
bus_space_set_multi_4(tag, bsh, offset, val, count)
bus_space_tag_t tag;
bus_space_handle_t bsh;
bus_size_t offset;
u_int32_t val;
size_t count;
{
volatile u_int32_t *d = __BA(tag, bsh, offset);
while (count--)
__asm__ volatile("stwbrx %0, 0, %1" ::
"r"(val), "r"(d));
__asm__ volatile("eieio; sync");
}
#define bus_space_set_multi_8 !!! bus_space_set_multi_8 unimplemented !!!
/* These are OpenBSD extensions to the general NetBSD bus interface. */
void
bus_space_read_raw_multi_1(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, u_int8_t *dst, bus_size_t size);
void
bus_space_read_raw_multi_2(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, u_int8_t *dst, bus_size_t size);
void
bus_space_read_raw_multi_4(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, u_int8_t *dst, bus_size_t size);
#define bus_space_read_raw_multi_8 \
!!! bus_space_read_raw_multi_8 not implemented !!!
void
bus_space_write_raw_multi_1(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, const u_int8_t *src, bus_size_t size);
void
bus_space_write_raw_multi_2(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, const u_int8_t *src, bus_size_t size);
void
bus_space_write_raw_multi_4(bus_space_tag_t bst, bus_space_handle_t bsh,
bus_addr_t ba, const u_int8_t *src, bus_size_t size);
#define bus_space_write_raw_multi_8 \
!!! bus_space_write_raw_multi_8 not implemented !!!
void
bus_space_set_region_1 __P((void *v, bus_space_handle_t h, bus_size_t o,
u_int8_t val, bus_size_t c));
void
bus_space_set_region_2 __P((void *v, bus_space_handle_t h, bus_size_t o,
u_int16_t val, bus_size_t c));
void
bus_space_set_region_4 __P((void *v, bus_space_handle_t h, bus_size_t o,
u_int32_t val, bus_size_t c));
#define bus_space_set_region_8 \
!!! bus_space_write_raw_multi_8 not implemented !!!
void
bus_space_copy_1 __P((void *v, bus_space_handle_t h1, bus_space_handle_t h2,
bus_size_t o1, bus_size_t o2, bus_size_t c));
void
bus_space_copy_2 __P((void *v, bus_space_handle_t h1, bus_space_handle_t h2,
bus_size_t o1, bus_size_t o2, bus_size_t c));
void
bus_space_copy_4 __P((void *v, bus_space_handle_t h1, bus_space_handle_t h2,
bus_size_t o1, bus_size_t o2, bus_size_t c));
#define bus_space_copy_8 \
!!! bus_space_write_raw_multi_8 not implemented !!!
/*
* Bus read/write barrier methods.
*
* void bus_space_barrier __P((bus_space_tag_t tag,
* bus_space_handle_t bsh, bus_size_t offset,
* bus_size_t len, int flags));
*
* Note: powerpc does not currently implement barriers, but we must
* provide the flags to MI code.
* the processor does have eieio which is effectively the barrier
* operator, however due to how memory is mapped this should? not
* be required.
*/
#define bus_space_barrier(t, h, o, l, f) \
((void)((void)(t), (void)(h), (void)(o), (void)(l), (void)(f)))
#define BUS_SPACE_BARRIER_READ 0x01 /* force read barrier */
#define BUS_SPACE_BARRIER_WRITE 0x02 /* force write barrier */
/* Compatibility defines */
#define BUS_BARRIER_READ BUS_SPACE_BARRIER_READ
#define BUS_BARRIER_WRITE BUS_SPACE_BARRIER_WRITE
#define BUS_DMA_WAITOK 0x00
#define BUS_DMA_NOWAIT 0x01
#define BUS_DMA_ALLOCNOW 0x02
#define BUS_DMAMEM_NOSYNC 0x04
#define BUS_DMA_COHERENT 0x08
#define BUS_DMA_BUS1 0x10 /* placeholders for bus functions... */
#define BUS_DMA_BUS2 0x20
#define BUS_DMA_BUS3 0x40
#define BUS_DMA_BUS4 0x80
/* Forwards needed by prototypes below. */
struct mbuf;
struct proc;
struct uio;
#define BUS_DMASYNC_POSTREAD 0x01
#define BUS_DMASYNC_POSTWRITE 0x02
#define BUS_DMASYNC_PREREAD 0x04
#define BUS_DMASYNC_PREWRITE 0x08
typedef struct powerpc_bus_dma_tag *bus_dma_tag_t;
typedef struct powerpc_bus_dmamap *bus_dmamap_t;
/*
* bus_dma_segment_t
*
* Describes a single contiguous DMA transaction. Values
* are suitable for programming into DMA registers.
*/
struct powerpc_bus_dma_segment {
bus_addr_t ds_addr; /* DMA address */
bus_size_t ds_len; /* length of transfer */
};
typedef struct powerpc_bus_dma_segment bus_dma_segment_t;
/*
* bus_dma_tag_t
*
* A machine-dependent opaque type describing the implementation of
* DMA for a given bus.
*/
struct powerpc_bus_dma_tag {
void *_cookie; /* cookie used in the guts */
/*
* DMA mapping methods.
*/
int (*_dmamap_create) __P((bus_dma_tag_t , bus_size_t, int,
bus_size_t, bus_size_t, int, bus_dmamap_t *));
void (*_dmamap_destroy) __P((bus_dma_tag_t , bus_dmamap_t));
int (*_dmamap_load) __P((bus_dma_tag_t , bus_dmamap_t, void *,
bus_size_t, struct proc *, int));
int (*_dmamap_load_mbuf) __P((bus_dma_tag_t , bus_dmamap_t,
struct mbuf *, int));
int (*_dmamap_load_uio) __P((bus_dma_tag_t , bus_dmamap_t,
struct uio *, int));
int (*_dmamap_load_raw) __P((bus_dma_tag_t , bus_dmamap_t,
bus_dma_segment_t *, int, bus_size_t, int));
void (*_dmamap_unload) __P((bus_dma_tag_t , bus_dmamap_t));
void (*_dmamap_sync) __P((bus_dma_tag_t , bus_dmamap_t,
bus_addr_t, bus_size_t, int));
/*
* DMA memory utility functions.
*/
int (*_dmamem_alloc) __P((bus_dma_tag_t, bus_size_t, bus_size_t,
bus_size_t, bus_dma_segment_t *, int, int *, int));
void (*_dmamem_free) __P((bus_dma_tag_t, bus_dma_segment_t *, int));
int (*_dmamem_map) __P((bus_dma_tag_t, bus_dma_segment_t *,
int, size_t, caddr_t *, int));
void (*_dmamem_unmap) __P((bus_dma_tag_t, caddr_t, size_t));
paddr_t (*_dmamem_mmap) __P((bus_dma_tag_t, bus_dma_segment_t *,
int, off_t, int, int));
};
#define bus_dmamap_create(t, s, n, m, b, f, p) \
(*(t)->_dmamap_create)((t), (s), (n), (m), (b), (f), (p))
#define bus_dmamap_destroy(t, p) \
(*(t)->_dmamap_destroy)((t), (p))
#define bus_dmamap_load(t, m, b, s, p, f) \
(*(t)->_dmamap_load)((t), (m), (b), (s), (p), (f))
#define bus_dmamap_load_mbuf(t, m, b, f) \
(*(t)->_dmamap_load_mbuf)((t), (m), (b), (f))
#define bus_dmamap_load_uio(t, m, u, f) \
(*(t)->_dmamap_load_uio)((t), (m), (u), (f))
#define bus_dmamap_load_raw(t, m, sg, n, s, f) \
(*(t)->_dmamap_load_raw)((t), (m), (sg), (n), (s), (f))
#define bus_dmamap_unload(t, p) \
(*(t)->_dmamap_unload)((t), (p))
#define bus_dmamap_sync(t, p, a, l, o) \
(void)((t)->_dmamap_sync ? \
(*(t)->_dmamap_sync)((t), (p), (a), (l), (o)) : (void)0)
#define bus_dmamem_alloc(t, s, a, b, sg, n, r, f) \
(*(t)->_dmamem_alloc)((t)->_cookie, (s), (a), (b), (sg), (n), (r), (f))
#define bus_dmamem_free(t, sg, n) \
(*(t)->_dmamem_free)((t)->_cookie, (sg), (n))
#define bus_dmamem_map(t, sg, n, s, k, f) \
(*(t)->_dmamem_map)((t)->_cookie, (sg), (n), (s), (k), (f))
#define bus_dmamem_unmap(t, k, s) \
(*(t)->_dmamem_unmap)((t)->_cookie, (k), (s))
#define bus_dmamem_mmap(t, sg, n, o, p, f) \
(*(t)->_dmamem_mmap)((t)->_cookie, (sg), (n), (o), (p), (f))
int _dmamap_create __P((bus_dma_tag_t, bus_size_t, int,
bus_size_t, bus_size_t, int, bus_dmamap_t *));
void _dmamap_destroy __P((bus_dma_tag_t, bus_dmamap_t));
int _dmamap_load __P((bus_dma_tag_t, bus_dmamap_t, void *,
bus_size_t, struct proc *, int));
int _dmamap_load_mbuf __P((bus_dma_tag_t, bus_dmamap_t, struct mbuf *, int));
int _dmamap_load_uio __P((bus_dma_tag_t, bus_dmamap_t, struct uio *, int));
int _dmamap_load_raw __P((bus_dma_tag_t, bus_dmamap_t,
bus_dma_segment_t *, int, bus_size_t, int));
void _dmamap_unload __P((bus_dma_tag_t, bus_dmamap_t));
void _dmamap_sync __P((bus_dma_tag_t, bus_dmamap_t, bus_addr_t, bus_size_t,
int));
int _dmamem_alloc __P((bus_dma_tag_t, bus_size_t, bus_size_t,
bus_size_t, bus_dma_segment_t *, int, int *, int));
void _dmamem_free __P((bus_dma_tag_t, bus_dma_segment_t *, int));
int _dmamem_map __P((bus_dma_tag_t, bus_dma_segment_t *,
int, size_t, caddr_t *, int));
void _dmamem_unmap __P((bus_dma_tag_t, caddr_t, size_t));
paddr_t _dmamem_mmap __P((bus_dma_tag_t, bus_dma_segment_t *, int, off_t, int, int));
/*
* bus_dmamap_t
*
* Describes a DMA mapping.
*/
struct powerpc_bus_dmamap {
/*
* PRIVATE MEMBERS: not for use by machine-independent code.
*/
bus_size_t _dm_size; /* largest DMA transfer mappable */
int _dm_segcnt; /* number of segs this map can map */
bus_size_t _dm_maxsegsz; /* largest possible segment */
bus_size_t _dm_boundary; /* don't cross this */
int _dm_flags; /* misc. flags */
void *_dm_cookie; /* cookie for bus-specific functions */
/*
* PUBLIC MEMBERS: these are used by machine-independent code.
*/
bus_size_t dm_mapsize; /* size of the mapping */
int dm_nsegs; /* # valid segments in mapping */
bus_dma_segment_t dm_segs[1]; /* segments; variable length */
};
#endif /* _MACHINE_BUS_H_ */
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