blackfin architecture
This adds support for the Analog Devices Blackfin processor architecture, and
currently supports the BF533, BF532, BF531, BF537, BF536, BF534, and BF561
(Dual Core) devices, with a variety of development platforms including those
avaliable from Analog Devices (BF533-EZKit, BF533-STAMP, BF537-STAMP,
BF561-EZKIT), and Bluetechnix! Tinyboards.
The Blackfin architecture was jointly developed by Intel and Analog Devices
Inc. (ADI) as the Micro Signal Architecture (MSA) core and introduced it in
December of 2000. Since then ADI has put this core into its Blackfin
processor family of devices. The Blackfin core has the advantages of a clean,
orthogonal,RISC-like microprocessor instruction set. It combines a dual-MAC
(Multiply/Accumulate), state-of-the-art signal processing engine and
single-instruction, multiple-data (SIMD) multimedia capabilities into a single
instruction-set architecture.
The Blackfin architecture, including the instruction set, is described by the
ADSP-BF53x/BF56x Blackfin Processor Programming Reference
http://blackfin.uclinux.org/gf/download/frsrelease/29/2549/Blackfin_PRM.pdf
The Blackfin processor is already supported by major releases of gcc, and
there are binary and source rpms/tarballs for many architectures at:
http://blackfin.uclinux.org/gf/project/toolchain/frs There is complete
documentation, including "getting started" guides available at:
http://docs.blackfin.uclinux.org/ which provides links to the sources and
patches you will need in order to set up a cross-compiling environment for
bfin-linux-uclibc
This patch, as well as the other patches (toolchain, distribution,
uClibc) are actively supported by Analog Devices Inc, at:
http://blackfin.uclinux.org/
We have tested this on LTP, and our test plan (including pass/fails) can
be found at:
http://docs.blackfin.uclinux.org/doku.php?id=testing_the_linux_kernel
[m.kozlowski@tuxland.pl: balance parenthesis in blackfin header files]
Signed-off-by: Bryan Wu <bryan.wu@analog.com>
Signed-off-by: Mariusz Kozlowski <m.kozlowski@tuxland.pl>
Signed-off-by: Aubrey Li <aubrey.li@analog.com>
Signed-off-by: Jie Zhang <jie.zhang@analog.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-05-07 05:50:22 +08:00
|
|
|
/*
|
2010-10-27 11:46:22 +08:00
|
|
|
* Copyright 2005-2010 Analog Devices Inc.
|
blackfin architecture
This adds support for the Analog Devices Blackfin processor architecture, and
currently supports the BF533, BF532, BF531, BF537, BF536, BF534, and BF561
(Dual Core) devices, with a variety of development platforms including those
avaliable from Analog Devices (BF533-EZKit, BF533-STAMP, BF537-STAMP,
BF561-EZKIT), and Bluetechnix! Tinyboards.
The Blackfin architecture was jointly developed by Intel and Analog Devices
Inc. (ADI) as the Micro Signal Architecture (MSA) core and introduced it in
December of 2000. Since then ADI has put this core into its Blackfin
processor family of devices. The Blackfin core has the advantages of a clean,
orthogonal,RISC-like microprocessor instruction set. It combines a dual-MAC
(Multiply/Accumulate), state-of-the-art signal processing engine and
single-instruction, multiple-data (SIMD) multimedia capabilities into a single
instruction-set architecture.
The Blackfin architecture, including the instruction set, is described by the
ADSP-BF53x/BF56x Blackfin Processor Programming Reference
http://blackfin.uclinux.org/gf/download/frsrelease/29/2549/Blackfin_PRM.pdf
The Blackfin processor is already supported by major releases of gcc, and
there are binary and source rpms/tarballs for many architectures at:
http://blackfin.uclinux.org/gf/project/toolchain/frs There is complete
documentation, including "getting started" guides available at:
http://docs.blackfin.uclinux.org/ which provides links to the sources and
patches you will need in order to set up a cross-compiling environment for
bfin-linux-uclibc
This patch, as well as the other patches (toolchain, distribution,
uClibc) are actively supported by Analog Devices Inc, at:
http://blackfin.uclinux.org/
We have tested this on LTP, and our test plan (including pass/fails) can
be found at:
http://docs.blackfin.uclinux.org/doku.php?id=testing_the_linux_kernel
[m.kozlowski@tuxland.pl: balance parenthesis in blackfin header files]
Signed-off-by: Bryan Wu <bryan.wu@analog.com>
Signed-off-by: Mariusz Kozlowski <m.kozlowski@tuxland.pl>
Signed-off-by: Aubrey Li <aubrey.li@analog.com>
Signed-off-by: Jie Zhang <jie.zhang@analog.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-05-07 05:50:22 +08:00
|
|
|
*
|
2009-09-24 22:11:24 +08:00
|
|
|
* Licensed under the GPL-2 or later
|
blackfin architecture
This adds support for the Analog Devices Blackfin processor architecture, and
currently supports the BF533, BF532, BF531, BF537, BF536, BF534, and BF561
(Dual Core) devices, with a variety of development platforms including those
avaliable from Analog Devices (BF533-EZKit, BF533-STAMP, BF537-STAMP,
BF561-EZKIT), and Bluetechnix! Tinyboards.
The Blackfin architecture was jointly developed by Intel and Analog Devices
Inc. (ADI) as the Micro Signal Architecture (MSA) core and introduced it in
December of 2000. Since then ADI has put this core into its Blackfin
processor family of devices. The Blackfin core has the advantages of a clean,
orthogonal,RISC-like microprocessor instruction set. It combines a dual-MAC
(Multiply/Accumulate), state-of-the-art signal processing engine and
single-instruction, multiple-data (SIMD) multimedia capabilities into a single
instruction-set architecture.
The Blackfin architecture, including the instruction set, is described by the
ADSP-BF53x/BF56x Blackfin Processor Programming Reference
http://blackfin.uclinux.org/gf/download/frsrelease/29/2549/Blackfin_PRM.pdf
The Blackfin processor is already supported by major releases of gcc, and
there are binary and source rpms/tarballs for many architectures at:
http://blackfin.uclinux.org/gf/project/toolchain/frs There is complete
documentation, including "getting started" guides available at:
http://docs.blackfin.uclinux.org/ which provides links to the sources and
patches you will need in order to set up a cross-compiling environment for
bfin-linux-uclibc
This patch, as well as the other patches (toolchain, distribution,
uClibc) are actively supported by Analog Devices Inc, at:
http://blackfin.uclinux.org/
We have tested this on LTP, and our test plan (including pass/fails) can
be found at:
http://docs.blackfin.uclinux.org/doku.php?id=testing_the_linux_kernel
[m.kozlowski@tuxland.pl: balance parenthesis in blackfin header files]
Signed-off-by: Bryan Wu <bryan.wu@analog.com>
Signed-off-by: Mariusz Kozlowski <m.kozlowski@tuxland.pl>
Signed-off-by: Aubrey Li <aubrey.li@analog.com>
Signed-off-by: Jie Zhang <jie.zhang@analog.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-05-07 05:50:22 +08:00
|
|
|
*/
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#ifndef _CDEF_BF537_H
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#define _CDEF_BF537_H
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/* Include MMRs Common to BF534 */
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#include "cdefBF534.h"
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/* Include Macro "Defines" For EMAC (Unique to BF536/BF537 */
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/* 10/100 Ethernet Controller (0xFFC03000 - 0xFFC031FF) */
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#define bfin_read_EMAC_OPMODE() bfin_read32(EMAC_OPMODE)
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#define bfin_write_EMAC_OPMODE(val) bfin_write32(EMAC_OPMODE,val)
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#define bfin_read_EMAC_ADDRLO() bfin_read32(EMAC_ADDRLO)
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#define bfin_write_EMAC_ADDRLO(val) bfin_write32(EMAC_ADDRLO,val)
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#define bfin_read_EMAC_ADDRHI() bfin_read32(EMAC_ADDRHI)
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#define bfin_write_EMAC_ADDRHI(val) bfin_write32(EMAC_ADDRHI,val)
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#define bfin_read_EMAC_HASHLO() bfin_read32(EMAC_HASHLO)
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#define bfin_write_EMAC_HASHLO(val) bfin_write32(EMAC_HASHLO,val)
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#define bfin_read_EMAC_HASHHI() bfin_read32(EMAC_HASHHI)
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#define bfin_write_EMAC_HASHHI(val) bfin_write32(EMAC_HASHHI,val)
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#define bfin_read_EMAC_STAADD() bfin_read32(EMAC_STAADD)
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#define bfin_write_EMAC_STAADD(val) bfin_write32(EMAC_STAADD,val)
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#define bfin_read_EMAC_STADAT() bfin_read32(EMAC_STADAT)
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#define bfin_write_EMAC_STADAT(val) bfin_write32(EMAC_STADAT,val)
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#define bfin_read_EMAC_FLC() bfin_read32(EMAC_FLC)
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#define bfin_write_EMAC_FLC(val) bfin_write32(EMAC_FLC,val)
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#define bfin_read_EMAC_VLAN1() bfin_read32(EMAC_VLAN1)
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#define bfin_write_EMAC_VLAN1(val) bfin_write32(EMAC_VLAN1,val)
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#define bfin_read_EMAC_VLAN2() bfin_read32(EMAC_VLAN2)
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#define bfin_write_EMAC_VLAN2(val) bfin_write32(EMAC_VLAN2,val)
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#define bfin_read_EMAC_WKUP_CTL() bfin_read32(EMAC_WKUP_CTL)
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#define bfin_write_EMAC_WKUP_CTL(val) bfin_write32(EMAC_WKUP_CTL,val)
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#define bfin_read_EMAC_WKUP_FFMSK0() bfin_read32(EMAC_WKUP_FFMSK0)
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#define bfin_write_EMAC_WKUP_FFMSK0(val) bfin_write32(EMAC_WKUP_FFMSK0,val)
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#define bfin_read_EMAC_WKUP_FFMSK1() bfin_read32(EMAC_WKUP_FFMSK1)
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#define bfin_write_EMAC_WKUP_FFMSK1(val) bfin_write32(EMAC_WKUP_FFMSK1,val)
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#define bfin_read_EMAC_WKUP_FFMSK2() bfin_read32(EMAC_WKUP_FFMSK2)
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#define bfin_write_EMAC_WKUP_FFMSK2(val) bfin_write32(EMAC_WKUP_FFMSK2,val)
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#define bfin_read_EMAC_WKUP_FFMSK3() bfin_read32(EMAC_WKUP_FFMSK3)
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#define bfin_write_EMAC_WKUP_FFMSK3(val) bfin_write32(EMAC_WKUP_FFMSK3,val)
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#define bfin_read_EMAC_WKUP_FFCMD() bfin_read32(EMAC_WKUP_FFCMD)
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#define bfin_write_EMAC_WKUP_FFCMD(val) bfin_write32(EMAC_WKUP_FFCMD,val)
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#define bfin_read_EMAC_WKUP_FFOFF() bfin_read32(EMAC_WKUP_FFOFF)
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#define bfin_write_EMAC_WKUP_FFOFF(val) bfin_write32(EMAC_WKUP_FFOFF,val)
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#define bfin_read_EMAC_WKUP_FFCRC0() bfin_read32(EMAC_WKUP_FFCRC0)
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#define bfin_write_EMAC_WKUP_FFCRC0(val) bfin_write32(EMAC_WKUP_FFCRC0,val)
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#define bfin_read_EMAC_WKUP_FFCRC1() bfin_read32(EMAC_WKUP_FFCRC1)
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#define bfin_write_EMAC_WKUP_FFCRC1(val) bfin_write32(EMAC_WKUP_FFCRC1,val)
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#define bfin_read_EMAC_SYSCTL() bfin_read32(EMAC_SYSCTL)
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#define bfin_write_EMAC_SYSCTL(val) bfin_write32(EMAC_SYSCTL,val)
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#define bfin_read_EMAC_SYSTAT() bfin_read32(EMAC_SYSTAT)
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#define bfin_write_EMAC_SYSTAT(val) bfin_write32(EMAC_SYSTAT,val)
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#define bfin_read_EMAC_RX_STAT() bfin_read32(EMAC_RX_STAT)
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#define bfin_write_EMAC_RX_STAT(val) bfin_write32(EMAC_RX_STAT,val)
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#define bfin_read_EMAC_RX_STKY() bfin_read32(EMAC_RX_STKY)
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#define bfin_write_EMAC_RX_STKY(val) bfin_write32(EMAC_RX_STKY,val)
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#define bfin_read_EMAC_RX_IRQE() bfin_read32(EMAC_RX_IRQE)
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#define bfin_write_EMAC_RX_IRQE(val) bfin_write32(EMAC_RX_IRQE,val)
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#define bfin_read_EMAC_TX_STAT() bfin_read32(EMAC_TX_STAT)
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#define bfin_write_EMAC_TX_STAT(val) bfin_write32(EMAC_TX_STAT,val)
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#define bfin_read_EMAC_TX_STKY() bfin_read32(EMAC_TX_STKY)
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#define bfin_write_EMAC_TX_STKY(val) bfin_write32(EMAC_TX_STKY,val)
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#define bfin_read_EMAC_TX_IRQE() bfin_read32(EMAC_TX_IRQE)
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#define bfin_write_EMAC_TX_IRQE(val) bfin_write32(EMAC_TX_IRQE,val)
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#define bfin_read_EMAC_MMC_CTL() bfin_read32(EMAC_MMC_CTL)
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#define bfin_write_EMAC_MMC_CTL(val) bfin_write32(EMAC_MMC_CTL,val)
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#define bfin_read_EMAC_MMC_RIRQS() bfin_read32(EMAC_MMC_RIRQS)
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#define bfin_write_EMAC_MMC_RIRQS(val) bfin_write32(EMAC_MMC_RIRQS,val)
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#define bfin_read_EMAC_MMC_RIRQE() bfin_read32(EMAC_MMC_RIRQE)
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#define bfin_write_EMAC_MMC_RIRQE(val) bfin_write32(EMAC_MMC_RIRQE,val)
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#define bfin_read_EMAC_MMC_TIRQS() bfin_read32(EMAC_MMC_TIRQS)
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#define bfin_write_EMAC_MMC_TIRQS(val) bfin_write32(EMAC_MMC_TIRQS,val)
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#define bfin_read_EMAC_MMC_TIRQE() bfin_read32(EMAC_MMC_TIRQE)
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#define bfin_write_EMAC_MMC_TIRQE(val) bfin_write32(EMAC_MMC_TIRQE,val)
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#define bfin_read_EMAC_RXC_OK() bfin_read32(EMAC_RXC_OK)
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#define bfin_write_EMAC_RXC_OK(val) bfin_write32(EMAC_RXC_OK,val)
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#define bfin_read_EMAC_RXC_FCS() bfin_read32(EMAC_RXC_FCS)
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#define bfin_write_EMAC_RXC_FCS(val) bfin_write32(EMAC_RXC_FCS,val)
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#define bfin_read_EMAC_RXC_ALIGN() bfin_read32(EMAC_RXC_ALIGN)
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#define bfin_write_EMAC_RXC_ALIGN(val) bfin_write32(EMAC_RXC_ALIGN,val)
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#define bfin_read_EMAC_RXC_OCTET() bfin_read32(EMAC_RXC_OCTET)
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#define bfin_write_EMAC_RXC_OCTET(val) bfin_write32(EMAC_RXC_OCTET,val)
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#define bfin_read_EMAC_RXC_DMAOVF() bfin_read32(EMAC_RXC_DMAOVF)
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#define bfin_write_EMAC_RXC_DMAOVF(val) bfin_write32(EMAC_RXC_DMAOVF,val)
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#define bfin_read_EMAC_RXC_UNICST() bfin_read32(EMAC_RXC_UNICST)
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#define bfin_write_EMAC_RXC_UNICST(val) bfin_write32(EMAC_RXC_UNICST,val)
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#define bfin_read_EMAC_RXC_MULTI() bfin_read32(EMAC_RXC_MULTI)
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#define bfin_write_EMAC_RXC_MULTI(val) bfin_write32(EMAC_RXC_MULTI,val)
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#define bfin_read_EMAC_RXC_BROAD() bfin_read32(EMAC_RXC_BROAD)
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#define bfin_write_EMAC_RXC_BROAD(val) bfin_write32(EMAC_RXC_BROAD,val)
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#define bfin_read_EMAC_RXC_LNERRI() bfin_read32(EMAC_RXC_LNERRI)
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#define bfin_write_EMAC_RXC_LNERRI(val) bfin_write32(EMAC_RXC_LNERRI,val)
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#define bfin_read_EMAC_RXC_LNERRO() bfin_read32(EMAC_RXC_LNERRO)
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#define bfin_write_EMAC_RXC_LNERRO(val) bfin_write32(EMAC_RXC_LNERRO,val)
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#define bfin_read_EMAC_RXC_LONG() bfin_read32(EMAC_RXC_LONG)
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#define bfin_write_EMAC_RXC_LONG(val) bfin_write32(EMAC_RXC_LONG,val)
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#define bfin_read_EMAC_RXC_MACCTL() bfin_read32(EMAC_RXC_MACCTL)
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#define bfin_write_EMAC_RXC_MACCTL(val) bfin_write32(EMAC_RXC_MACCTL,val)
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#define bfin_read_EMAC_RXC_OPCODE() bfin_read32(EMAC_RXC_OPCODE)
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#define bfin_write_EMAC_RXC_OPCODE(val) bfin_write32(EMAC_RXC_OPCODE,val)
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#define bfin_read_EMAC_RXC_PAUSE() bfin_read32(EMAC_RXC_PAUSE)
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#define bfin_write_EMAC_RXC_PAUSE(val) bfin_write32(EMAC_RXC_PAUSE,val)
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#define bfin_read_EMAC_RXC_ALLFRM() bfin_read32(EMAC_RXC_ALLFRM)
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#define bfin_write_EMAC_RXC_ALLFRM(val) bfin_write32(EMAC_RXC_ALLFRM,val)
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#define bfin_read_EMAC_RXC_ALLOCT() bfin_read32(EMAC_RXC_ALLOCT)
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#define bfin_write_EMAC_RXC_ALLOCT(val) bfin_write32(EMAC_RXC_ALLOCT,val)
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#define bfin_read_EMAC_RXC_TYPED() bfin_read32(EMAC_RXC_TYPED)
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#define bfin_write_EMAC_RXC_TYPED(val) bfin_write32(EMAC_RXC_TYPED,val)
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#define bfin_read_EMAC_RXC_SHORT() bfin_read32(EMAC_RXC_SHORT)
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#define bfin_write_EMAC_RXC_SHORT(val) bfin_write32(EMAC_RXC_SHORT,val)
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#define bfin_read_EMAC_RXC_EQ64() bfin_read32(EMAC_RXC_EQ64)
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#define bfin_write_EMAC_RXC_EQ64(val) bfin_write32(EMAC_RXC_EQ64,val)
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#define bfin_read_EMAC_RXC_LT128() bfin_read32(EMAC_RXC_LT128)
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#define bfin_write_EMAC_RXC_LT128(val) bfin_write32(EMAC_RXC_LT128,val)
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#define bfin_read_EMAC_RXC_LT256() bfin_read32(EMAC_RXC_LT256)
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#define bfin_write_EMAC_RXC_LT256(val) bfin_write32(EMAC_RXC_LT256,val)
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#define bfin_read_EMAC_RXC_LT512() bfin_read32(EMAC_RXC_LT512)
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#define bfin_write_EMAC_RXC_LT512(val) bfin_write32(EMAC_RXC_LT512,val)
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#define bfin_read_EMAC_RXC_LT1024() bfin_read32(EMAC_RXC_LT1024)
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#define bfin_write_EMAC_RXC_LT1024(val) bfin_write32(EMAC_RXC_LT1024,val)
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#define bfin_read_EMAC_RXC_GE1024() bfin_read32(EMAC_RXC_GE1024)
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#define bfin_write_EMAC_RXC_GE1024(val) bfin_write32(EMAC_RXC_GE1024,val)
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#define bfin_read_EMAC_TXC_OK() bfin_read32(EMAC_TXC_OK)
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#define bfin_write_EMAC_TXC_OK(val) bfin_write32(EMAC_TXC_OK,val)
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#define bfin_read_EMAC_TXC_1COL() bfin_read32(EMAC_TXC_1COL)
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#define bfin_write_EMAC_TXC_1COL(val) bfin_write32(EMAC_TXC_1COL,val)
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#define bfin_read_EMAC_TXC_GT1COL() bfin_read32(EMAC_TXC_GT1COL)
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#define bfin_write_EMAC_TXC_GT1COL(val) bfin_write32(EMAC_TXC_GT1COL,val)
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#define bfin_read_EMAC_TXC_OCTET() bfin_read32(EMAC_TXC_OCTET)
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#define bfin_write_EMAC_TXC_OCTET(val) bfin_write32(EMAC_TXC_OCTET,val)
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#define bfin_read_EMAC_TXC_DEFER() bfin_read32(EMAC_TXC_DEFER)
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#define bfin_write_EMAC_TXC_DEFER(val) bfin_write32(EMAC_TXC_DEFER,val)
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#define bfin_read_EMAC_TXC_LATECL() bfin_read32(EMAC_TXC_LATECL)
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#define bfin_write_EMAC_TXC_LATECL(val) bfin_write32(EMAC_TXC_LATECL,val)
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#define bfin_read_EMAC_TXC_XS_COL() bfin_read32(EMAC_TXC_XS_COL)
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#define bfin_write_EMAC_TXC_XS_COL(val) bfin_write32(EMAC_TXC_XS_COL,val)
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#define bfin_read_EMAC_TXC_DMAUND() bfin_read32(EMAC_TXC_DMAUND)
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#define bfin_write_EMAC_TXC_DMAUND(val) bfin_write32(EMAC_TXC_DMAUND,val)
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#define bfin_read_EMAC_TXC_CRSERR() bfin_read32(EMAC_TXC_CRSERR)
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#define bfin_write_EMAC_TXC_CRSERR(val) bfin_write32(EMAC_TXC_CRSERR,val)
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#define bfin_read_EMAC_TXC_UNICST() bfin_read32(EMAC_TXC_UNICST)
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#define bfin_write_EMAC_TXC_UNICST(val) bfin_write32(EMAC_TXC_UNICST,val)
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#define bfin_read_EMAC_TXC_MULTI() bfin_read32(EMAC_TXC_MULTI)
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#define bfin_write_EMAC_TXC_MULTI(val) bfin_write32(EMAC_TXC_MULTI,val)
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#define bfin_read_EMAC_TXC_BROAD() bfin_read32(EMAC_TXC_BROAD)
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#define bfin_write_EMAC_TXC_BROAD(val) bfin_write32(EMAC_TXC_BROAD,val)
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#define bfin_read_EMAC_TXC_XS_DFR() bfin_read32(EMAC_TXC_XS_DFR)
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#define bfin_write_EMAC_TXC_XS_DFR(val) bfin_write32(EMAC_TXC_XS_DFR,val)
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#define bfin_read_EMAC_TXC_MACCTL() bfin_read32(EMAC_TXC_MACCTL)
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#define bfin_write_EMAC_TXC_MACCTL(val) bfin_write32(EMAC_TXC_MACCTL,val)
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#define bfin_read_EMAC_TXC_ALLFRM() bfin_read32(EMAC_TXC_ALLFRM)
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#define bfin_write_EMAC_TXC_ALLFRM(val) bfin_write32(EMAC_TXC_ALLFRM,val)
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#define bfin_read_EMAC_TXC_ALLOCT() bfin_read32(EMAC_TXC_ALLOCT)
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#define bfin_write_EMAC_TXC_ALLOCT(val) bfin_write32(EMAC_TXC_ALLOCT,val)
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#define bfin_read_EMAC_TXC_EQ64() bfin_read32(EMAC_TXC_EQ64)
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#define bfin_write_EMAC_TXC_EQ64(val) bfin_write32(EMAC_TXC_EQ64,val)
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#define bfin_read_EMAC_TXC_LT128() bfin_read32(EMAC_TXC_LT128)
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#define bfin_write_EMAC_TXC_LT128(val) bfin_write32(EMAC_TXC_LT128,val)
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#define bfin_read_EMAC_TXC_LT256() bfin_read32(EMAC_TXC_LT256)
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#define bfin_write_EMAC_TXC_LT256(val) bfin_write32(EMAC_TXC_LT256,val)
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#define bfin_read_EMAC_TXC_LT512() bfin_read32(EMAC_TXC_LT512)
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#define bfin_write_EMAC_TXC_LT512(val) bfin_write32(EMAC_TXC_LT512,val)
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#define bfin_read_EMAC_TXC_LT1024() bfin_read32(EMAC_TXC_LT1024)
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#define bfin_write_EMAC_TXC_LT1024(val) bfin_write32(EMAC_TXC_LT1024,val)
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#define bfin_read_EMAC_TXC_GE1024() bfin_read32(EMAC_TXC_GE1024)
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#define bfin_write_EMAC_TXC_GE1024(val) bfin_write32(EMAC_TXC_GE1024,val)
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#define bfin_read_EMAC_TXC_ABORT() bfin_read32(EMAC_TXC_ABORT)
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#define bfin_write_EMAC_TXC_ABORT(val) bfin_write32(EMAC_TXC_ABORT,val)
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#endif /* _CDEF_BF537_H */
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