gem5/src/dev/sinicreg.hh
Nathan Binkert 886c5f8fe5 SINIC: Commit old code from ASPLOS 2006 studies.
NOTE: This code was written by Nathan Binkert in 2006 and is properly copyright
"The Regents of the University of Michigan"
2008-10-09 04:58:23 -07:00

239 lines
10 KiB
C++

/*
* Copyright (c) 2004-2005 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* 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;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "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 COPYRIGHT
* OWNER OR CONTRIBUTORS 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.
*
* Authors: Nathan Binkert
*/
#ifndef __DEV_SINICREG_HH__
#define __DEV_SINICREG_HH__
#define __SINIC_REG32(NAME, VAL) static const uint32_t NAME = (VAL)
#define __SINIC_REG64(NAME, VAL) static const uint64_t NAME = (VAL)
#define __SINIC_VAL32(NAME, OFFSET, WIDTH) \
static const uint32_t NAME##_width = WIDTH; \
static const uint32_t NAME##_offset = OFFSET; \
static const uint32_t NAME##_mask = (1 << WIDTH) - 1; \
static const uint32_t NAME = ((1 << WIDTH) - 1) << OFFSET; \
static inline uint32_t get_##NAME(uint32_t reg) \
{ return (reg & NAME) >> OFFSET; } \
static inline uint32_t set_##NAME(uint32_t reg, uint32_t val) \
{ return (reg & ~NAME) | ((val << OFFSET) & NAME); }
#define __SINIC_VAL64(NAME, OFFSET, WIDTH) \
static const uint64_t NAME##_width = WIDTH; \
static const uint64_t NAME##_offset = OFFSET; \
static const uint64_t NAME##_mask = (ULL(1) << WIDTH) - 1; \
static const uint64_t NAME = ((ULL(1) << WIDTH) - 1) << OFFSET; \
static inline uint64_t get_##NAME(uint64_t reg) \
{ return (reg & NAME) >> OFFSET; } \
static inline uint64_t set_##NAME(uint64_t reg, uint64_t val) \
{ return (reg & ~NAME) | ((val << OFFSET) & NAME); }
namespace Sinic {
namespace Regs {
static const int VirtualShift = 8;
static const int VirtualMask = 0xff;
// Registers
__SINIC_REG32(Config, 0x00); // 32: configuration register
__SINIC_REG32(Command, 0x04); // 32: command register
__SINIC_REG32(IntrStatus, 0x08); // 32: interrupt status
__SINIC_REG32(IntrMask, 0x0c); // 32: interrupt mask
__SINIC_REG32(RxMaxCopy, 0x10); // 32: max bytes per rx copy
__SINIC_REG32(TxMaxCopy, 0x14); // 32: max bytes per tx copy
__SINIC_REG32(ZeroCopySize, 0x18); // 32: bytes to copy if below threshold
__SINIC_REG32(ZeroCopyMark, 0x1c); // 32: only zero-copy above this threshold
__SINIC_REG32(VirtualCount, 0x20); // 32: number of virutal NICs
__SINIC_REG32(RxMaxIntr, 0x24); // 32: max receives per interrupt
__SINIC_REG32(RxFifoSize, 0x28); // 32: rx fifo capacity in bytes
__SINIC_REG32(TxFifoSize, 0x2c); // 32: tx fifo capacity in bytes
__SINIC_REG32(RxFifoLow, 0x30); // 32: rx fifo low watermark
__SINIC_REG32(TxFifoLow, 0x34); // 32: tx fifo low watermark
__SINIC_REG32(RxFifoHigh, 0x38); // 32: rx fifo high watermark
__SINIC_REG32(TxFifoHigh, 0x3c); // 32: tx fifo high watermark
__SINIC_REG32(RxData, 0x40); // 64: receive data
__SINIC_REG32(RxDone, 0x48); // 64: receive done
__SINIC_REG32(RxWait, 0x50); // 64: receive done (busy wait)
__SINIC_REG32(TxData, 0x58); // 64: transmit data
__SINIC_REG32(TxDone, 0x60); // 64: transmit done
__SINIC_REG32(TxWait, 0x68); // 64: transmit done (busy wait)
__SINIC_REG32(HwAddr, 0x70); // 64: mac address
__SINIC_REG32(RxStatus, 0x78);
__SINIC_REG32(Size, 0x80); // register addres space size
// Config register bits
__SINIC_VAL32(Config_ZeroCopy, 12, 1); // enable zero copy
__SINIC_VAL32(Config_DelayCopy,11, 1); // enable delayed copy
__SINIC_VAL32(Config_RSS, 10, 1); // enable receive side scaling
__SINIC_VAL32(Config_RxThread, 9, 1); // enable receive threads
__SINIC_VAL32(Config_TxThread, 8, 1); // enable transmit thread
__SINIC_VAL32(Config_Filter, 7, 1); // enable receive filter
__SINIC_VAL32(Config_Vlan, 6, 1); // enable vlan tagging
__SINIC_VAL32(Config_Vaddr, 5, 1); // enable virtual addressing
__SINIC_VAL32(Config_Desc, 4, 1); // enable tx/rx descriptors
__SINIC_VAL32(Config_Poll, 3, 1); // enable polling
__SINIC_VAL32(Config_IntEn, 2, 1); // enable interrupts
__SINIC_VAL32(Config_TxEn, 1, 1); // enable transmit
__SINIC_VAL32(Config_RxEn, 0, 1); // enable receive
// Command register bits
__SINIC_VAL32(Command_Intr, 1, 1); // software interrupt
__SINIC_VAL32(Command_Reset, 0, 1); // reset chip
// Interrupt register bits
__SINIC_VAL32(Intr_Soft, 8, 1); // software interrupt
__SINIC_VAL32(Intr_TxLow, 7, 1); // tx fifo dropped below watermark
__SINIC_VAL32(Intr_TxFull, 6, 1); // tx fifo full
__SINIC_VAL32(Intr_TxDMA, 5, 1); // tx dma completed w/ interrupt
__SINIC_VAL32(Intr_TxPacket, 4, 1); // packet transmitted
__SINIC_VAL32(Intr_RxHigh, 3, 1); // rx fifo above high watermark
__SINIC_VAL32(Intr_RxEmpty, 2, 1); // rx fifo empty
__SINIC_VAL32(Intr_RxDMA, 1, 1); // rx dma completed w/ interrupt
__SINIC_VAL32(Intr_RxPacket, 0, 1); // packet received
__SINIC_REG32(Intr_All, 0x01ff); // all valid interrupts
__SINIC_REG32(Intr_NoDelay, 0x01cc); // interrupts that aren't coalesced
__SINIC_REG32(Intr_Res, ~0x01ff); // reserved interrupt bits
// RX Data Description
__SINIC_VAL64(RxData_NoDelay, 61, 1); // Don't Delay this copy
__SINIC_VAL64(RxData_Vaddr, 60, 1); // Addr is virtual
__SINIC_VAL64(RxData_Len, 40, 20); // 0 - 256k
__SINIC_VAL64(RxData_Addr, 0, 40); // Address 1TB
// TX Data Description
__SINIC_VAL64(TxData_More, 63, 1); // Packet not complete (will dma more)
__SINIC_VAL64(TxData_Checksum, 62, 1); // do checksum
__SINIC_VAL64(TxData_Vaddr, 60, 1); // Addr is virtual
__SINIC_VAL64(TxData_Len, 40, 20); // 0 - 256k
__SINIC_VAL64(TxData_Addr, 0, 40); // Address 1TB
// RX Done/Busy Information
__SINIC_VAL64(RxDone_Packets, 32, 16); // number of packets in rx fifo
__SINIC_VAL64(RxDone_Busy, 31, 1); // receive dma busy copying
__SINIC_VAL64(RxDone_Complete, 30, 1); // valid data (packet complete)
__SINIC_VAL64(RxDone_More, 29, 1); // Packet has more data (dma again)
__SINIC_VAL64(RxDone_Empty, 28, 1); // rx fifo is empty
__SINIC_VAL64(RxDone_High, 27, 1); // rx fifo is above the watermark
__SINIC_VAL64(RxDone_NotHigh, 26, 1); // rxfifo never hit the high watermark
__SINIC_VAL64(RxDone_TcpError, 25, 1); // TCP packet error (bad checksum)
__SINIC_VAL64(RxDone_UdpError, 24, 1); // UDP packet error (bad checksum)
__SINIC_VAL64(RxDone_IpError, 23, 1); // IP packet error (bad checksum)
__SINIC_VAL64(RxDone_TcpPacket, 22, 1); // this is a TCP packet
__SINIC_VAL64(RxDone_UdpPacket, 21, 1); // this is a UDP packet
__SINIC_VAL64(RxDone_IpPacket, 20, 1); // this is an IP packet
__SINIC_VAL64(RxDone_CopyLen, 0, 20); // up to 256k
// TX Done/Busy Information
__SINIC_VAL64(TxDone_Packets, 32, 16); // number of packets in tx fifo
__SINIC_VAL64(TxDone_Busy, 31, 1); // transmit dma busy copying
__SINIC_VAL64(TxDone_Complete, 30, 1); // valid data (packet complete)
__SINIC_VAL64(TxDone_Full, 29, 1); // tx fifo is full
__SINIC_VAL64(TxDone_Low, 28, 1); // tx fifo is below the watermark
__SINIC_VAL64(TxDone_Res0, 27, 1); // reserved
__SINIC_VAL64(TxDone_Res1, 26, 1); // reserved
__SINIC_VAL64(TxDone_Res2, 25, 1); // reserved
__SINIC_VAL64(TxDone_Res3, 24, 1); // reserved
__SINIC_VAL64(TxDone_Res4, 23, 1); // reserved
__SINIC_VAL64(TxDone_Res5, 22, 1); // reserved
__SINIC_VAL64(TxDone_Res6, 21, 1); // reserved
__SINIC_VAL64(TxDone_Res7, 20, 1); // reserved
__SINIC_VAL64(TxDone_CopyLen, 0, 20); // up to 256k
__SINIC_VAL64(RxStatus_Dirty, 48, 16);
__SINIC_VAL64(RxStatus_Mapped, 32, 16);
__SINIC_VAL64(RxStatus_Busy, 16, 16);
__SINIC_VAL64(RxStatus_Head, 0, 16);
struct Info
{
uint8_t size;
bool read;
bool write;
const char *name;
};
/* namespace Regs */ }
inline const Regs::Info&
regInfo(Addr daddr)
{
static Regs::Info invalid = { 0, false, false, "invalid" };
static Regs::Info info [] = {
{ 4, true, true, "Config" },
{ 4, false, true, "Command" },
{ 4, true, true, "IntrStatus" },
{ 4, true, true, "IntrMask" },
{ 4, true, false, "RxMaxCopy" },
{ 4, true, false, "TxMaxCopy" },
{ 4, true, false, "ZeroCopySize" },
{ 4, true, false, "ZeroCopyMark" },
{ 4, true, false, "VirtualCount" },
{ 4, true, false, "RxMaxIntr" },
{ 4, true, false, "RxFifoSize" },
{ 4, true, false, "TxFifoSize" },
{ 4, true, false, "RxFifoLow" },
{ 4, true, false, "TxFifoLow" },
{ 4, true, false, "RxFifoHigh" },
{ 4, true, false, "TxFifoHigh" },
{ 8, true, true, "RxData" },
invalid,
{ 8, true, false, "RxDone" },
invalid,
{ 8, true, false, "RxWait" },
invalid,
{ 8, true, true, "TxData" },
invalid,
{ 8, true, false, "TxDone" },
invalid,
{ 8, true, false, "TxWait" },
invalid,
{ 8, true, false, "HwAddr" },
invalid,
{ 8, true, false, "RxStatus" },
invalid,
};
return info[daddr / 4];
}
inline bool
regValid(Addr daddr)
{
if (daddr > Regs::Size)
return false;
if (regInfo(daddr).size == 0)
return false;
return true;
}
/* namespace Sinic */ }
#endif // __DEV_SINICREG_HH__