linux/arch/m68k/include/asm/mac_psc.h
Sam Ravnborg 49148020bc m68k,m68knommu: merge header files
Merge header files for m68k and m68knommu to the single location:

    arch/m68k/include/asm

The majority of this patch was the result of the
script that is included in the changelog below.

The script was originally written by Arnd Bergman and
exten by me to cover a few more files.

When the header files differed the script uses the following:

The original m68k file is named <file>_mm.h  [mm for memory manager]
The m68knommu file is named <file>_no.h [no for no memory manager]

The files uses the following include guard:

This include gaurd works as the m68knommu toolchain set
the __uClinux__ symbol - so this should work in userspace too.

Merging the header files for m68k and m68knommu exposes the
(unexpected?) ABI differences thus it is easier to actually
identify these and thus to fix them.

The commit has been build tested with both a m68k and
a m68knommu toolchain - with success.

The commit has also been tested with "make headers_check"
and this patch fixes make headers_check for m68knommu.

The script used:
TARGET=arch/m68k/include/asm
SOURCE=arch/m68knommu/include/asm

INCLUDE="cachectl.h errno.h fcntl.h hwtest.h ioctls.h ipcbuf.h \
linkage.h math-emu.h md.h mman.h movs.h msgbuf.h openprom.h \
oplib.h poll.h posix_types.h resource.h rtc.h sembuf.h shmbuf.h \
shm.h shmparam.h socket.h sockios.h spinlock.h statfs.h stat.h \
termbits.h termios.h tlb.h types.h user.h"

EQUAL="auxvec.h cputime.h device.h emergency-restart.h futex.h \
ioctl.h irq_regs.h kdebug.h local.h mutex.h percpu.h \
sections.h topology.h"

NOMUUFILES="anchor.h bootstd.h coldfire.h commproc.h dbg.h \
elia.h flat.h m5206sim.h m520xsim.h m523xsim.h m5249sim.h \
m5272sim.h m527xsim.h m528xsim.h m5307sim.h m532xsim.h \
m5407sim.h m68360_enet.h m68360.h m68360_pram.h m68360_quicc.h \
m68360_regs.h MC68328.h MC68332.h MC68EZ328.h MC68VZ328.h \
mcfcache.h mcfdma.h mcfmbus.h mcfne.h mcfpci.h mcfpit.h \
mcfsim.h mcfsmc.h mcftimer.h mcfuart.h mcfwdebug.h \
nettel.h quicc_simple.h smp.h"

FILES="atomic.h bitops.h bootinfo.h bug.h bugs.h byteorder.h cache.h \
cacheflush.h checksum.h current.h delay.h div64.h \
dma-mapping.h dma.h elf.h entry.h fb.h fpu.h hardirq.h hw_irq.h io.h \
irq.h kmap_types.h machdep.h mc146818rtc.h mmu.h mmu_context.h \
module.h page.h page_offset.h param.h pci.h pgalloc.h \
pgtable.h processor.h ptrace.h scatterlist.h segment.h \
setup.h sigcontext.h siginfo.h signal.h string.h system.h swab.h \
thread_info.h timex.h tlbflush.h traps.h uaccess.h ucontext.h \
unaligned.h unistd.h"

mergefile() {
	BASE=${1%.h}
	git mv ${SOURCE}/$1 ${TARGET}/${BASE}_no.h
	git mv ${TARGET}/$1 ${TARGET}/${BASE}_mm.h

cat << EOF > ${TARGET}/$1
EOF

	git add ${TARGET}/$1
}

set -e

mkdir -p ${TARGET}

git mv include/asm-m68k/* ${TARGET}
rmdir include/asm-m68k

git rm ${SOURCE}/Kbuild
for F in $INCLUDE $EQUAL; do
	git rm ${SOURCE}/$F
done

for F in $NOMUUFILES; do
	git mv ${SOURCE}/$F ${TARGET}/$F
done

for F in $FILES ; do
	mergefile $F
done

rmdir arch/m68knommu/include/asm
rmdir arch/m68knommu/include

Cc: Arnd Bergmann <arnd@arndb.de>
Cc: Geert Uytterhoeven <geert@linux-m68k.org>
Signed-off-by: Sam Ravnborg <sam@ravnborg.org>
Signed-off-by: Greg Ungerer <gerg@uclinux.org>
2009-01-16 21:58:10 +10:00

249 lines
7.1 KiB
C

/*
* Apple Peripheral System Controller (PSC)
*
* The PSC is used on the AV Macs to control IO functions not handled
* by the VIAs (Ethernet, DSP, SCC, Sound). This includes nine DMA
* channels.
*
* The first seven DMA channels appear to be "one-shot" and are actually
* sets of two channels; one member is active while the other is being
* configured, and then you flip the active member and start all over again.
* The one-shot channels are grouped together and are:
*
* 1. SCSI
* 2. Ethernet Read
* 3. Ethernet Write
* 4. Floppy Disk Controller
* 5. SCC Channel A Receive
* 6. SCC Channel B Receive
* 7. SCC Channel A Transmit
*
* The remaining two channels are handled somewhat differently. They appear
* to be closely tied and share one set of registers. They also seem to run
* continuously, although how you keep the buffer filled in this scenario is
* not understood as there seems to be only one input and one output buffer
* pointer.
*
* Much of this was extrapolated from what was known about the Ethernet
* registers and subsequently confirmed using MacsBug (ie by pinging the
* machine with easy-to-find patterns and looking for them in the DMA
* buffers, or by sending a file over the serial ports and finding the
* file in the buffers.)
*
* 1999-05-25 (jmt)
*/
#define PSC_BASE (0x50F31000)
/*
* The IER/IFR registers work like the VIA, except that it has 4
* of them each on different interrupt levels, and each register
* set only seems to handle four interrupts instead of seven.
*
* To access a particular set of registers, add 0xn0 to the base
* where n = 3,4,5 or 6.
*/
#define pIFRbase 0x100
#define pIERbase 0x104
/*
* One-shot DMA control registers
*/
#define PSC_MYSTERY 0x804
#define PSC_CTL_BASE 0xC00
#define PSC_SCSI_CTL 0xC00
#define PSC_ENETRD_CTL 0xC10
#define PSC_ENETWR_CTL 0xC20
#define PSC_FDC_CTL 0xC30
#define PSC_SCCA_CTL 0xC40
#define PSC_SCCB_CTL 0xC50
#define PSC_SCCATX_CTL 0xC60
/*
* DMA channels. Add +0x10 for the second channel in the set.
* You're supposed to use one channel while the other runs and
* then flip channels and do the whole thing again.
*/
#define PSC_ADDR_BASE 0x1000
#define PSC_LEN_BASE 0x1004
#define PSC_CMD_BASE 0x1008
#define PSC_SET0 0x00
#define PSC_SET1 0x10
#define PSC_SCSI_ADDR 0x1000 /* confirmed */
#define PSC_SCSI_LEN 0x1004 /* confirmed */
#define PSC_SCSI_CMD 0x1008 /* confirmed */
#define PSC_ENETRD_ADDR 0x1020 /* confirmed */
#define PSC_ENETRD_LEN 0x1024 /* confirmed */
#define PSC_ENETRD_CMD 0x1028 /* confirmed */
#define PSC_ENETWR_ADDR 0x1040 /* confirmed */
#define PSC_ENETWR_LEN 0x1044 /* confirmed */
#define PSC_ENETWR_CMD 0x1048 /* confirmed */
#define PSC_FDC_ADDR 0x1060 /* strongly suspected */
#define PSC_FDC_LEN 0x1064 /* strongly suspected */
#define PSC_FDC_CMD 0x1068 /* strongly suspected */
#define PSC_SCCA_ADDR 0x1080 /* confirmed */
#define PSC_SCCA_LEN 0x1084 /* confirmed */
#define PSC_SCCA_CMD 0x1088 /* confirmed */
#define PSC_SCCB_ADDR 0x10A0 /* confirmed */
#define PSC_SCCB_LEN 0x10A4 /* confirmed */
#define PSC_SCCB_CMD 0x10A8 /* confirmed */
#define PSC_SCCATX_ADDR 0x10C0 /* confirmed */
#define PSC_SCCATX_LEN 0x10C4 /* confirmed */
#define PSC_SCCATX_CMD 0x10C8 /* confirmed */
/*
* Free-running DMA registers. The only part known for sure are the bits in
* the control register, the buffer addresses and the buffer length. Everything
* else is anybody's guess.
*
* These registers seem to be mirrored every thirty-two bytes up until offset
* 0x300. It's safe to assume then that a new set of registers starts there.
*/
#define PSC_SND_CTL 0x200 /*
* [ 16-bit ]
* Sound (Singer?) control register.
*
* bit 0 : ????
* bit 1 : ????
* bit 2 : Set to one to enable sound
* output. Possibly a mute flag.
* bit 3 : ????
* bit 4 : ????
* bit 5 : ????
* bit 6 : Set to one to enable pass-thru
* audio. In this mode the audio data
* seems to appear in both the input
* buffer and the output buffer.
* bit 7 : Set to one to activate the
* sound input DMA or zero to
* disable it.
* bit 8 : Set to one to activate the
* sound output DMA or zero to
* disable it.
* bit 9 : \
* bit 11 : |
* These two bits control the sample
* rate. Usually set to binary 10 and
* MacOS 8.0 says I'm at 48 KHz. Using
* a binary value of 01 makes things
* sound about 1/2 speed (24 KHz?) and
* binary 00 is slower still (22 KHz?)
*
* Setting this to 0x0000 is a good way to
* kill all DMA at boot time so that the
* PSC won't overwrite the kernel image
* with sound data.
*/
/*
* 0x0202 - 0x0203 is unused. Writing there
* seems to clobber the control register.
*/
#define PSC_SND_SOURCE 0x204 /*
* [ 32-bit ]
* Controls input source and volume:
*
* bits 12-15 : input source volume, 0 - F
* bits 16-19 : unknown, always 0x5
* bits 20-23 : input source selection:
* 0x3 = CD Audio
* 0x4 = External Audio
*
* The volume is definitely not the general
* output volume as it doesn't affect the
* alert sound volume.
*/
#define PSC_SND_STATUS1 0x208 /*
* [ 32-bit ]
* Appears to be a read-only status register.
* The usual value is 0x00400002.
*/
#define PSC_SND_HUH3 0x20C /*
* [ 16-bit ]
* Unknown 16-bit value, always 0x0000.
*/
#define PSC_SND_BITS2GO 0x20E /*
* [ 16-bit ]
* Counts down to zero from some constant
* value. The value appears to be the
* number of _bits_ remaining before the
* buffer is full, which would make sense
* since Apple's docs say the sound DMA
* channels are 1 bit wide.
*/
#define PSC_SND_INADDR 0x210 /*
* [ 32-bit ]
* Address of the sound input DMA buffer
*/
#define PSC_SND_OUTADDR 0x214 /*
* [ 32-bit ]
* Address of the sound output DMA buffer
*/
#define PSC_SND_LEN 0x218 /*
* [ 16-bit ]
* Length of both buffers in eight-byte units.
*/
#define PSC_SND_HUH4 0x21A /*
* [ 16-bit ]
* Unknown, always 0x0000.
*/
#define PSC_SND_STATUS2 0x21C /*
* [ 16-bit ]
* Appears to e a read-only status register.
* The usual value is 0x0200.
*/
#define PSC_SND_HUH5 0x21E /*
* [ 16-bit ]
* Unknown, always 0x0000.
*/
#ifndef __ASSEMBLY__
extern volatile __u8 *psc;
extern int psc_present;
/*
* Access functions
*/
static inline void psc_write_byte(int offset, __u8 data)
{
*((volatile __u8 *)(psc + offset)) = data;
}
static inline void psc_write_word(int offset, __u16 data)
{
*((volatile __u16 *)(psc + offset)) = data;
}
static inline void psc_write_long(int offset, __u32 data)
{
*((volatile __u32 *)(psc + offset)) = data;
}
static inline u8 psc_read_byte(int offset)
{
return *((volatile __u8 *)(psc + offset));
}
static inline u16 psc_read_word(int offset)
{
return *((volatile __u16 *)(psc + offset));
}
static inline u32 psc_read_long(int offset)
{
return *((volatile __u32 *)(psc + offset));
}
#endif /* __ASSEMBLY__ */