b7b8ffa7b7
interrupts.
dev/sinic.cc:
- The prepareRead function sets all the variables in the register
file that depend on various state bits that change on the fly.
Includes RxDone, RxWait, TxDone, and TxWait
- Use the new register information accessor functions to grab
validity and size information for the read and write functions
- read all registers directly from the register space by offset
and size, not by actual name (less code)
- The side effect of reading the interrupt status (clearing it) now
happens outside the actual chunk of code where the value is loaded.
- Add an iprRead function for when we may want speculative access
to device registers through an ipr or special instruction.
- When RxData or TxData are written, their busy flag is set to
indicate that they have an outstanding transaction.
- The RxHigh and TxLow interrupts are special, they only interrupt
if the rxEmpty or txFull limits were hit
- Move reset to the command register
- Update more registers on reset, clear rxEmpty and txFull
- Data dumps only happen if EthernetData trace flag set
- When a DMA completes, kick the other engine if it was waiting
- implement all of the new interrupts
- serialize the new stuff
dev/sinic.hh:
- Put all registers with their proper size and alignment into
the regs struct so that we can copy multiple at a time.
- Provide accessor functions for accessing the registers with
different sizes.
- Flags to track when the rx fifo hit empty and the tx fifo became
full. These flags are used to determine what to do when below
the watermarks, and are reset when crossing the watermark.
- the txDmaEvent should actually trigger the txDmaDone function
- Add an iprRead function for when we may want speculative access
to device registers through an ipr or special instruction.
- The prepareRead function sets all the variables in the register
file that depend on various state bits that change on the fly.
- add rx_max_intr and dedicated (for dedicated thread) config params
dev/sinicreg.hh:
Add some new registers: Command, RxMaxIntr, RxFifoSize, TxFifoSize,
rename XxThreshold to XxFifoMark
Move Reset to the Command register
Add Thread to the Config register
New interrupts, better names
More info in RxDone and TxDone
Easier access to information on each register (size, read, write, name)
python/m5/objects/Ethernet.py:
Both sinic and nsgige have the dedicated thread
Add a parameter to configure the maximum number for receive
packets per interrupt
--HG--
extra : convert_revision : 407c5a993b6fb17326b4c623ee5d4b25fd69ac80
190 lines
8.4 KiB
C++
190 lines
8.4 KiB
C++
/*
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* Copyright (c) 2004-2005 The Regents of The University of Michigan
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met: redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer;
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* redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution;
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* neither the name of the copyright holders nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef __DEV_SINICREG_HH__
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#define __DEV_SINICREG_HH__
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#define __SINIC_REG32(NAME, VAL) static const uint32_t NAME = (VAL)
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#define __SINIC_REG64(NAME, VAL) static const uint64_t NAME = (VAL)
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#define __SINIC_VAL32(NAME, OFFSET, WIDTH) \
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static const uint32_t NAME##_width = WIDTH; \
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static const uint32_t NAME##_offset = OFFSET; \
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static const uint32_t NAME##_mask = (1 << WIDTH) - 1; \
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static const uint32_t NAME = ((1 << WIDTH) - 1) << OFFSET; \
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static inline uint32_t get_##NAME(uint32_t reg) \
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{ return (reg & NAME) >> OFFSET; } \
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static inline uint32_t set_##NAME(uint32_t reg, uint32_t val) \
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{ return (reg & ~NAME) | ((val << OFFSET) & NAME); }
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#define __SINIC_VAL64(NAME, OFFSET, WIDTH) \
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static const uint64_t NAME##_width = WIDTH; \
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static const uint64_t NAME##_offset = OFFSET; \
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static const uint64_t NAME##_mask = (ULL(1) << WIDTH) - 1; \
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static const uint64_t NAME = ((ULL(1) << WIDTH) - 1) << OFFSET; \
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static inline uint64_t get_##NAME(uint64_t reg) \
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{ return (reg & NAME) >> OFFSET; } \
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static inline uint64_t set_##NAME(uint64_t reg, uint64_t val) \
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{ return (reg & ~NAME) | ((val << OFFSET) & NAME); }
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namespace Sinic {
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namespace Regs {
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// Registers
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__SINIC_REG32(Config, 0x00); // 32: configuration register
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__SINIC_REG32(Command, 0x04); // 32: command register
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__SINIC_REG32(IntrStatus, 0x08); // 32: interrupt status
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__SINIC_REG32(IntrMask, 0x0c); // 32: interrupt mask
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__SINIC_REG32(RxMaxCopy, 0x10); // 32: max bytes per rx copy
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__SINIC_REG32(TxMaxCopy, 0x14); // 32: max bytes per tx copy
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__SINIC_REG32(RxMaxIntr, 0x18); // 32: max receives per interrupt
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__SINIC_REG32(Reserved0, 0x1c); // 32: reserved
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__SINIC_REG32(RxFifoSize, 0x20); // 32: rx fifo capacity in bytes
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__SINIC_REG32(TxFifoSize, 0x24); // 32: tx fifo capacity in bytes
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__SINIC_REG32(RxFifoMark, 0x28); // 32: rx fifo high watermark
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__SINIC_REG32(TxFifoMark, 0x2c); // 32: tx fifo low watermark
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__SINIC_REG32(RxData, 0x30); // 64: receive data
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__SINIC_REG32(RxDone, 0x38); // 64: receive done
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__SINIC_REG32(RxWait, 0x40); // 64: receive done (busy wait)
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__SINIC_REG32(TxData, 0x48); // 64: transmit data
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__SINIC_REG32(TxDone, 0x50); // 64: transmit done
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__SINIC_REG32(TxWait, 0x58); // 64: transmit done (busy wait)
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__SINIC_REG32(HwAddr, 0x60); // 64: mac address
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__SINIC_REG32(Size, 0x68); // register addres space size
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// Config register bits
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__SINIC_VAL32(Config_Thread, 8, 1); // enable receive filter
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__SINIC_VAL32(Config_Filter, 7, 1); // enable receive filter
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__SINIC_VAL32(Config_Vlan, 6, 1); // enable vlan tagging
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__SINIC_VAL32(Config_Virtual, 5, 1); // enable virtual addressing
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__SINIC_VAL32(Config_Desc, 4, 1); // enable tx/rx descriptors
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__SINIC_VAL32(Config_Poll, 3, 1); // enable polling
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__SINIC_VAL32(Config_IntEn, 2, 1); // enable interrupts
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__SINIC_VAL32(Config_TxEn, 1, 1); // enable transmit
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__SINIC_VAL32(Config_RxEn, 0, 1); // enable receive
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// Command register bits
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__SINIC_VAL32(Command_Reset, 0, 1); // reset chip
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// Interrupt register bits
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__SINIC_VAL32(Intr_TxLow, 7, 1); // tx fifo dropped below watermark
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__SINIC_VAL32(Intr_TxFull, 6, 1); // tx fifo full
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__SINIC_VAL32(Intr_TxDMA, 5, 1); // tx dma completed w/ interrupt
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__SINIC_VAL32(Intr_TxPacket, 4, 1); // packet transmitted
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__SINIC_VAL32(Intr_RxHigh, 3, 1); // rx fifo above high watermark
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__SINIC_VAL32(Intr_RxEmpty, 2, 1); // rx fifo empty
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__SINIC_VAL32(Intr_RxDMA, 1, 1); // rx dma completed w/ interrupt
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__SINIC_VAL32(Intr_RxPacket, 0, 1); // packet received
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__SINIC_REG32(Intr_All, 0xff); // all valid interrupts
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__SINIC_REG32(Intr_NoDelay, 0xcc); // interrupts that shouldn't be coalesced
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__SINIC_REG32(Intr_Res, ~0xff); // reserved interrupt bits
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// RX Data Description
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__SINIC_VAL64(RxData_Len, 40, 20); // 0 - 1M
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__SINIC_VAL64(RxData_Addr, 0, 40); // Address 1TB
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// TX Data Description
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__SINIC_VAL64(TxData_More, 63, 1); // Packet not complete (will dma more)
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__SINIC_VAL64(TxData_Checksum, 62, 1); // do checksum
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__SINIC_VAL64(TxData_Len, 40, 20); // 0 - 1M
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__SINIC_VAL64(TxData_Addr, 0, 40); // Address 1TB
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// RX Done/Busy Information
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__SINIC_VAL64(RxDone_Packets, 32, 16); // number of packets in rx fifo
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__SINIC_VAL64(RxDone_Busy, 31, 1); // receive dma busy copying
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__SINIC_VAL64(RxDone_Complete, 30, 1); // valid data (packet complete)
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__SINIC_VAL64(RxDone_More, 29, 1); // Packet has more data (dma again)
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__SINIC_VAL64(RxDone_TcpError, 25, 1); // TCP packet error (bad checksum)
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__SINIC_VAL64(RxDone_UdpError, 24, 1); // UDP packet error (bad checksum)
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__SINIC_VAL64(RxDone_IpError, 23, 1); // IP packet error (bad checksum)
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__SINIC_VAL64(RxDone_TcpPacket, 22, 1); // this is a TCP packet
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__SINIC_VAL64(RxDone_UdpPacket, 21, 1); // this is a UDP packet
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__SINIC_VAL64(RxDone_IpPacket, 20, 1); // this is an IP packet
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__SINIC_VAL64(RxDone_CopyLen, 0, 20); // up to 256k
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// TX Done/Busy Information
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__SINIC_VAL64(TxDone_Packets, 32, 16); // number of packets in tx fifo
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__SINIC_VAL64(TxDone_Busy, 31, 1); // transmit dma busy copying
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__SINIC_VAL64(TxDone_Complete, 30, 1); // valid data (packet complete)
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__SINIC_VAL64(TxDone_Full, 29, 1); // tx fifo is full
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__SINIC_VAL64(TxDone_Low, 28, 1); // tx fifo is below the watermark
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__SINIC_VAL64(TxDone_CopyLen, 0, 20); // up to 256k
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struct Info
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{
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uint8_t size;
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bool read;
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bool write;
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const char *name;
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};
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/* namespace Regs */ }
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inline const Regs::Info&
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regInfo(Addr daddr)
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{
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static Regs::Info info [] = {
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{ 4, true, true, "Config" },
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{ 4, false, true, "Command" },
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{ 4, true, true, "IntrStatus" },
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{ 4, true, true, "IntrMask" },
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{ 4, true, false, "RxMaxCopy" },
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{ 4, true, false, "TxMaxCopy" },
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{ 4, true, false, "RxMaxIntr" },
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{ 0, false, false, "invalid" },
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{ 4, true, false, "RxFifoSize" },
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{ 4, true, false, "TxFifoSize" },
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{ 4, true, false, "RxFifoMark" },
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{ 4, true, false, "TxFifoMark" },
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{ 8, true, true, "RxData" }, { 0, false, false, "invalid" },
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{ 8, true, false, "RxDone" }, { 0, false, false, "invalid" },
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{ 8, true, false, "RxWait" }, { 0, false, false, "invalid" },
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{ 8, true, true, "TxData" }, { 0, false, false, "invalid" },
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{ 8, true, false, "TxDone" }, { 0, false, false, "invalid" },
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{ 8, true, false, "TxWait" }, { 0, false, false, "invalid" },
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{ 8, true, false, "HwAddr" }, { 0, false, false, "invalid" }
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};
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return info[daddr / 4];
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}
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inline bool
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regValid(Addr daddr)
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{
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if (daddr > Regs::Size)
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return false;
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if (regInfo(daddr).size == 0)
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return false;
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return true;
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}
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/* namespace Sinic */ }
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#endif // __DEV_SINICREG_HH__
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