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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>
249 lines
9.2 KiB
C
249 lines
9.2 KiB
C
/*
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* linux/include/asm/dma.h: Defines for using and allocating dma channels.
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* Written by Hennus Bergman, 1992.
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* High DMA channel support & info by Hannu Savolainen
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* and John Boyd, Nov. 1992.
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*/
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#ifndef _ASM_APOLLO_DMA_H
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#define _ASM_APOLLO_DMA_H
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#include <asm/apollohw.h> /* need byte IO */
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#include <linux/spinlock.h> /* And spinlocks */
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#include <linux/delay.h>
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#define dma_outb(val,addr) (*((volatile unsigned char *)(addr+IO_BASE)) = (val))
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#define dma_inb(addr) (*((volatile unsigned char *)(addr+IO_BASE)))
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/*
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* NOTES about DMA transfers:
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*
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* controller 1: channels 0-3, byte operations, ports 00-1F
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* controller 2: channels 4-7, word operations, ports C0-DF
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*
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* - ALL registers are 8 bits only, regardless of transfer size
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* - channel 4 is not used - cascades 1 into 2.
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* - channels 0-3 are byte - addresses/counts are for physical bytes
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* - channels 5-7 are word - addresses/counts are for physical words
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* - transfers must not cross physical 64K (0-3) or 128K (5-7) boundaries
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* - transfer count loaded to registers is 1 less than actual count
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* - controller 2 offsets are all even (2x offsets for controller 1)
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* - page registers for 5-7 don't use data bit 0, represent 128K pages
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* - page registers for 0-3 use bit 0, represent 64K pages
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*
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* DMA transfers are limited to the lower 16MB of _physical_ memory.
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* Note that addresses loaded into registers must be _physical_ addresses,
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* not logical addresses (which may differ if paging is active).
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*
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* Address mapping for channels 0-3:
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*
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* A23 ... A16 A15 ... A8 A7 ... A0 (Physical addresses)
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* | ... | | ... | | ... |
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* | ... | | ... | | ... |
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* | ... | | ... | | ... |
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* P7 ... P0 A7 ... A0 A7 ... A0
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* | Page | Addr MSB | Addr LSB | (DMA registers)
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*
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* Address mapping for channels 5-7:
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*
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* A23 ... A17 A16 A15 ... A9 A8 A7 ... A1 A0 (Physical addresses)
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* | ... | \ \ ... \ \ \ ... \ \
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* | ... | \ \ ... \ \ \ ... \ (not used)
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* | ... | \ \ ... \ \ \ ... \
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* P7 ... P1 (0) A7 A6 ... A0 A7 A6 ... A0
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* | Page | Addr MSB | Addr LSB | (DMA registers)
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*
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* Again, channels 5-7 transfer _physical_ words (16 bits), so addresses
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* and counts _must_ be word-aligned (the lowest address bit is _ignored_ at
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* the hardware level, so odd-byte transfers aren't possible).
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*
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* Transfer count (_not # bytes_) is limited to 64K, represented as actual
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* count - 1 : 64K => 0xFFFF, 1 => 0x0000. Thus, count is always 1 or more,
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* and up to 128K bytes may be transferred on channels 5-7 in one operation.
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*
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*/
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#define MAX_DMA_CHANNELS 8
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/* The maximum address that we can perform a DMA transfer to on this platform */#define MAX_DMA_ADDRESS (PAGE_OFFSET+0x1000000)
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/* 8237 DMA controllers */
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#define IO_DMA1_BASE 0x10C00 /* 8 bit slave DMA, channels 0..3 */
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#define IO_DMA2_BASE 0x10D00 /* 16 bit master DMA, ch 4(=slave input)..7 */
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/* DMA controller registers */
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#define DMA1_CMD_REG (IO_DMA1_BASE+0x08) /* command register (w) */
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#define DMA1_STAT_REG (IO_DMA1_BASE+0x08) /* status register (r) */
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#define DMA1_REQ_REG (IO_DMA1_BASE+0x09) /* request register (w) */
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#define DMA1_MASK_REG (IO_DMA1_BASE+0x0A) /* single-channel mask (w) */
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#define DMA1_MODE_REG (IO_DMA1_BASE+0x0B) /* mode register (w) */
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#define DMA1_CLEAR_FF_REG (IO_DMA1_BASE+0x0C) /* clear pointer flip-flop (w) */
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#define DMA1_TEMP_REG (IO_DMA1_BASE+0x0D) /* Temporary Register (r) */
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#define DMA1_RESET_REG (IO_DMA1_BASE+0x0D) /* Master Clear (w) */
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#define DMA1_CLR_MASK_REG (IO_DMA1_BASE+0x0E) /* Clear Mask */
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#define DMA1_MASK_ALL_REG (IO_DMA1_BASE+0x0F) /* all-channels mask (w) */
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#define DMA2_CMD_REG (IO_DMA2_BASE+0x10) /* command register (w) */
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#define DMA2_STAT_REG (IO_DMA2_BASE+0x10) /* status register (r) */
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#define DMA2_REQ_REG (IO_DMA2_BASE+0x12) /* request register (w) */
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#define DMA2_MASK_REG (IO_DMA2_BASE+0x14) /* single-channel mask (w) */
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#define DMA2_MODE_REG (IO_DMA2_BASE+0x16) /* mode register (w) */
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#define DMA2_CLEAR_FF_REG (IO_DMA2_BASE+0x18) /* clear pointer flip-flop (w) */
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#define DMA2_TEMP_REG (IO_DMA2_BASE+0x1A) /* Temporary Register (r) */
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#define DMA2_RESET_REG (IO_DMA2_BASE+0x1A) /* Master Clear (w) */
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#define DMA2_CLR_MASK_REG (IO_DMA2_BASE+0x1C) /* Clear Mask */
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#define DMA2_MASK_ALL_REG (IO_DMA2_BASE+0x1E) /* all-channels mask (w) */
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#define DMA_ADDR_0 (IO_DMA1_BASE+0x00) /* DMA address registers */
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#define DMA_ADDR_1 (IO_DMA1_BASE+0x02)
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#define DMA_ADDR_2 (IO_DMA1_BASE+0x04)
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#define DMA_ADDR_3 (IO_DMA1_BASE+0x06)
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#define DMA_ADDR_4 (IO_DMA2_BASE+0x00)
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#define DMA_ADDR_5 (IO_DMA2_BASE+0x04)
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#define DMA_ADDR_6 (IO_DMA2_BASE+0x08)
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#define DMA_ADDR_7 (IO_DMA2_BASE+0x0C)
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#define DMA_CNT_0 (IO_DMA1_BASE+0x01) /* DMA count registers */
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#define DMA_CNT_1 (IO_DMA1_BASE+0x03)
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#define DMA_CNT_2 (IO_DMA1_BASE+0x05)
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#define DMA_CNT_3 (IO_DMA1_BASE+0x07)
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#define DMA_CNT_4 (IO_DMA2_BASE+0x02)
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#define DMA_CNT_5 (IO_DMA2_BASE+0x06)
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#define DMA_CNT_6 (IO_DMA2_BASE+0x0A)
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#define DMA_CNT_7 (IO_DMA2_BASE+0x0E)
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#define DMA_MODE_READ 0x44 /* I/O to memory, no autoinit, increment, single mode */
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#define DMA_MODE_WRITE 0x48 /* memory to I/O, no autoinit, increment, single mode */
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#define DMA_MODE_CASCADE 0xC0 /* pass thru DREQ->HRQ, DACK<-HLDA only */
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#define DMA_AUTOINIT 0x10
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#define DMA_8BIT 0
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#define DMA_16BIT 1
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#define DMA_BUSMASTER 2
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extern spinlock_t dma_spin_lock;
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static __inline__ unsigned long claim_dma_lock(void)
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{
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unsigned long flags;
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spin_lock_irqsave(&dma_spin_lock, flags);
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return flags;
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}
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static __inline__ void release_dma_lock(unsigned long flags)
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{
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spin_unlock_irqrestore(&dma_spin_lock, flags);
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}
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/* enable/disable a specific DMA channel */
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static __inline__ void enable_dma(unsigned int dmanr)
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{
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if (dmanr<=3)
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dma_outb(dmanr, DMA1_MASK_REG);
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else
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dma_outb(dmanr & 3, DMA2_MASK_REG);
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}
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static __inline__ void disable_dma(unsigned int dmanr)
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{
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if (dmanr<=3)
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dma_outb(dmanr | 4, DMA1_MASK_REG);
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else
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dma_outb((dmanr & 3) | 4, DMA2_MASK_REG);
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}
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/* Clear the 'DMA Pointer Flip Flop'.
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* Write 0 for LSB/MSB, 1 for MSB/LSB access.
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* Use this once to initialize the FF to a known state.
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* After that, keep track of it. :-)
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* --- In order to do that, the DMA routines below should ---
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* --- only be used while holding the DMA lock ! ---
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*/
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static __inline__ void clear_dma_ff(unsigned int dmanr)
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{
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if (dmanr<=3)
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dma_outb(0, DMA1_CLEAR_FF_REG);
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else
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dma_outb(0, DMA2_CLEAR_FF_REG);
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}
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/* set mode (above) for a specific DMA channel */
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static __inline__ void set_dma_mode(unsigned int dmanr, char mode)
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{
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if (dmanr<=3)
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dma_outb(mode | dmanr, DMA1_MODE_REG);
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else
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dma_outb(mode | (dmanr&3), DMA2_MODE_REG);
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}
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/* Set transfer address & page bits for specific DMA channel.
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* Assumes dma flipflop is clear.
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*/
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static __inline__ void set_dma_addr(unsigned int dmanr, unsigned int a)
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{
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if (dmanr <= 3) {
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dma_outb( a & 0xff, ((dmanr&3)<<1) + IO_DMA1_BASE );
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dma_outb( (a>>8) & 0xff, ((dmanr&3)<<1) + IO_DMA1_BASE );
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} else {
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dma_outb( (a>>1) & 0xff, ((dmanr&3)<<2) + IO_DMA2_BASE );
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dma_outb( (a>>9) & 0xff, ((dmanr&3)<<2) + IO_DMA2_BASE );
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}
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}
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/* Set transfer size (max 64k for DMA1..3, 128k for DMA5..7) for
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* a specific DMA channel.
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* You must ensure the parameters are valid.
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* NOTE: from a manual: "the number of transfers is one more
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* than the initial word count"! This is taken into account.
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* Assumes dma flip-flop is clear.
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* NOTE 2: "count" represents _bytes_ and must be even for channels 5-7.
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*/
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static __inline__ void set_dma_count(unsigned int dmanr, unsigned int count)
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{
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count--;
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if (dmanr <= 3) {
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dma_outb( count & 0xff, ((dmanr&3)<<1) + 1 + IO_DMA1_BASE );
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dma_outb( (count>>8) & 0xff, ((dmanr&3)<<1) + 1 + IO_DMA1_BASE );
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} else {
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dma_outb( (count>>1) & 0xff, ((dmanr&3)<<2) + 2 + IO_DMA2_BASE );
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dma_outb( (count>>9) & 0xff, ((dmanr&3)<<2) + 2 + IO_DMA2_BASE );
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}
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}
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/* Get DMA residue count. After a DMA transfer, this
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* should return zero. Reading this while a DMA transfer is
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* still in progress will return unpredictable results.
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* If called before the channel has been used, it may return 1.
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* Otherwise, it returns the number of _bytes_ left to transfer.
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*
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* Assumes DMA flip-flop is clear.
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*/
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static __inline__ int get_dma_residue(unsigned int dmanr)
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{
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unsigned int io_port = (dmanr<=3)? ((dmanr&3)<<1) + 1 + IO_DMA1_BASE
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: ((dmanr&3)<<2) + 2 + IO_DMA2_BASE;
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/* using short to get 16-bit wrap around */
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unsigned short count;
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count = 1 + dma_inb(io_port);
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count += dma_inb(io_port) << 8;
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return (dmanr<=3)? count : (count<<1);
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}
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/* These are in kernel/dma.c: */
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extern int request_dma(unsigned int dmanr, const char * device_id); /* reserve a DMA channel */
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extern void free_dma(unsigned int dmanr); /* release it again */
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/* These are in arch/m68k/apollo/dma.c: */
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extern unsigned short dma_map_page(unsigned long phys_addr,int count,int type);
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extern void dma_unmap_page(unsigned short dma_addr);
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#endif /* _ASM_APOLLO_DMA_H */
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