/* * 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: Ali Saidi * Andrew Schultz */ /** @file * Tsunami PChip (pci) */ #include "dev/alpha/tsunami_pchip.hh" #include #include #include #include "base/trace.hh" #include "config/the_isa.hh" #include "debug/Tsunami.hh" #include "dev/alpha/tsunami.hh" #include "dev/alpha/tsunami_cchip.hh" #include "dev/alpha/tsunamireg.h" #include "dev/pci/device.hh" #include "mem/packet.hh" #include "mem/packet_access.hh" #include "sim/system.hh" using namespace std; //Should this be AlphaISA? using namespace TheISA; TsunamiPChip::TsunamiPChip(const Params *p) : GenericPciHost(p), pioRange(RangeSize(p->pio_addr, 0x1000)), pioDelay(p->pio_latency) { for (int i = 0; i < 4; i++) { wsba[i] = 0; wsm[i] = 0; tba[i] = 0; } // initialize pchip control register pctl = (ULL(0x1) << 20) | (ULL(0x1) << 32) | (ULL(0x2) << 36); //Set back pointer in tsunami p->tsunami->pchip = this; } Tick TsunamiPChip::read(PacketPtr pkt) { // We only need to handle our own configuration registers, pass // unknown addresses to the generic code. if (!pioRange.contains(pkt->getAddr())) return GenericPciHost::read(pkt); Addr daddr = (pkt->getAddr() - pioRange.start()) >> 6;; assert(pkt->getSize() == sizeof(uint64_t)); DPRINTF(Tsunami, "read va=%#x size=%d\n", pkt->getAddr(), pkt->getSize()); switch(daddr) { case TSDEV_PC_WSBA0: pkt->setLE(wsba[0]); break; case TSDEV_PC_WSBA1: pkt->setLE(wsba[1]); break; case TSDEV_PC_WSBA2: pkt->setLE(wsba[2]); break; case TSDEV_PC_WSBA3: pkt->setLE(wsba[3]); break; case TSDEV_PC_WSM0: pkt->setLE(wsm[0]); break; case TSDEV_PC_WSM1: pkt->setLE(wsm[1]); break; case TSDEV_PC_WSM2: pkt->setLE(wsm[2]); break; case TSDEV_PC_WSM3: pkt->setLE(wsm[3]); break; case TSDEV_PC_TBA0: pkt->setLE(tba[0]); break; case TSDEV_PC_TBA1: pkt->setLE(tba[1]); break; case TSDEV_PC_TBA2: pkt->setLE(tba[2]); break; case TSDEV_PC_TBA3: pkt->setLE(tba[3]); break; case TSDEV_PC_PCTL: pkt->setLE(pctl); break; case TSDEV_PC_PLAT: panic("PC_PLAT not implemented\n"); case TSDEV_PC_RES: panic("PC_RES not implemented\n"); case TSDEV_PC_PERROR: pkt->setLE((uint64_t)0x00); break; case TSDEV_PC_PERRMASK: pkt->setLE((uint64_t)0x00); break; case TSDEV_PC_PERRSET: panic("PC_PERRSET not implemented\n"); case TSDEV_PC_TLBIV: panic("PC_TLBIV not implemented\n"); case TSDEV_PC_TLBIA: pkt->setLE((uint64_t)0x00); // shouldn't be readable, but linux break; case TSDEV_PC_PMONCTL: panic("PC_PMONCTL not implemented\n"); case TSDEV_PC_PMONCNT: panic("PC_PMONCTN not implemented\n"); default: panic("Default in PChip Read reached reading 0x%x\n", daddr); } pkt->makeAtomicResponse(); return pioDelay; } Tick TsunamiPChip::write(PacketPtr pkt) { // We only need to handle our own configuration registers, pass // unknown addresses to the generic code. if (!pioRange.contains(pkt->getAddr())) return GenericPciHost::write(pkt); Addr daddr = (pkt->getAddr() - pioRange.start()) >> 6; assert(pkt->getSize() == sizeof(uint64_t)); DPRINTF(Tsunami, "write - va=%#x size=%d \n", pkt->getAddr(), pkt->getSize()); switch(daddr) { case TSDEV_PC_WSBA0: wsba[0] = pkt->getLE(); break; case TSDEV_PC_WSBA1: wsba[1] = pkt->getLE(); break; case TSDEV_PC_WSBA2: wsba[2] = pkt->getLE(); break; case TSDEV_PC_WSBA3: wsba[3] = pkt->getLE(); break; case TSDEV_PC_WSM0: wsm[0] = pkt->getLE(); break; case TSDEV_PC_WSM1: wsm[1] = pkt->getLE(); break; case TSDEV_PC_WSM2: wsm[2] = pkt->getLE(); break; case TSDEV_PC_WSM3: wsm[3] = pkt->getLE(); break; case TSDEV_PC_TBA0: tba[0] = pkt->getLE(); break; case TSDEV_PC_TBA1: tba[1] = pkt->getLE(); break; case TSDEV_PC_TBA2: tba[2] = pkt->getLE(); break; case TSDEV_PC_TBA3: tba[3] = pkt->getLE(); break; case TSDEV_PC_PCTL: pctl = pkt->getLE(); break; case TSDEV_PC_PLAT: panic("PC_PLAT not implemented\n"); case TSDEV_PC_RES: panic("PC_RES not implemented\n"); case TSDEV_PC_PERROR: break; case TSDEV_PC_PERRMASK: panic("PC_PERRMASK not implemented\n"); case TSDEV_PC_PERRSET: panic("PC_PERRSET not implemented\n"); case TSDEV_PC_TLBIV: panic("PC_TLBIV not implemented\n"); case TSDEV_PC_TLBIA: break; // value ignored, supposted to invalidate SG TLB case TSDEV_PC_PMONCTL: panic("PC_PMONCTL not implemented\n"); case TSDEV_PC_PMONCNT: panic("PC_PMONCTN not implemented\n"); default: panic("Default in PChip write reached reading 0x%x\n", daddr); } // uint64_t pkt->makeAtomicResponse(); return pioDelay; } AddrRangeList TsunamiPChip::getAddrRanges() const { return AddrRangeList({ RangeSize(confBase, confSize), pioRange }); } #define DMA_ADDR_MASK ULL(0x3ffffffff) Addr TsunamiPChip::dmaAddr(const PciBusAddr &dev, Addr busAddr) const { // compare the address to the window base registers uint64_t tbaMask = 0; uint64_t baMask = 0; uint64_t windowMask = 0; uint64_t windowBase = 0; uint64_t pteEntry = 0; Addr pteAddr; Addr dmaAddr; for (int i = 0; i < 4; i++) { windowBase = wsba[i]; windowMask = ~wsm[i] & (ULL(0xfff) << 20); if ((busAddr & windowMask) == (windowBase & windowMask)) { if (wsba[i] & 0x1) { // see if enabled if (wsba[i] & 0x2) { // see if SG bit is set /** @todo This currently is faked by just doing a direct read from memory, however, to be realistic, this needs to actually do a bus transaction. The process is explained in the tsunami documentation on page 10-12 and basically munges the address to look up a PTE from a table in memory and then uses that mapping to create an address for the SG page */ tbaMask = ~(((wsm[i] & (ULL(0xfff) << 20)) >> 10) | ULL(0x3ff)); baMask = (wsm[i] & (ULL(0xfff) << 20)) | (ULL(0x7f) << 13); pteAddr = (tba[i] & tbaMask) | ((busAddr & baMask) >> 10); sys->physProxy.readBlob(pteAddr, &pteEntry, sizeof(uint64_t)); dmaAddr = ((pteEntry & ~ULL(0x1)) << 12) | (busAddr & ULL(0x1fff)); } else { baMask = (wsm[i] & (ULL(0xfff) << 20)) | ULL(0xfffff); tbaMask = ~baMask; dmaAddr = (tba[i] & tbaMask) | (busAddr & baMask); } return (dmaAddr & DMA_ADDR_MASK); } } } // if no match was found, then return the original address return busAddr; } void TsunamiPChip::serialize(CheckpointOut &cp) const { SERIALIZE_SCALAR(pctl); SERIALIZE_ARRAY(wsba, 4); SERIALIZE_ARRAY(wsm, 4); SERIALIZE_ARRAY(tba, 4); } void TsunamiPChip::unserialize(CheckpointIn &cp) { UNSERIALIZE_SCALAR(pctl); UNSERIALIZE_ARRAY(wsba, 4); UNSERIALIZE_ARRAY(wsm, 4); UNSERIALIZE_ARRAY(tba, 4); } TsunamiPChip * TsunamiPChipParams::create() { return new TsunamiPChip(this); }