/* * 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: Gabe Black */ #include "dev/x86/i8259.hh" #include "base/bitfield.hh" #include "debug/I8259.hh" #include "dev/x86/i82094aa.hh" #include "mem/packet.hh" #include "mem/packet_access.hh" X86ISA::I8259::I8259(Params * p) : BasicPioDevice(p, 2), IntDevice(this), latency(p->pio_latency), output(p->output), mode(p->mode), slave(p->slave), IRR(0), ISR(0), IMR(0), readIRR(true), initControlWord(0), autoEOI(false) { for (int i = 0; i < NumLines; i++) pinStates[i] = false; } Tick X86ISA::I8259::read(PacketPtr pkt) { assert(pkt->getSize() == 1); switch(pkt->getAddr() - pioAddr) { case 0x0: if (readIRR) { DPRINTF(I8259, "Reading IRR as %#x.\n", IRR); pkt->setLE(IRR); } else { DPRINTF(I8259, "Reading ISR as %#x.\n", ISR); pkt->setLE(ISR); } break; case 0x1: DPRINTF(I8259, "Reading IMR as %#x.\n", IMR); pkt->setLE(IMR); break; } pkt->makeAtomicResponse(); return latency; } Tick X86ISA::I8259::write(PacketPtr pkt) { assert(pkt->getSize() == 1); uint8_t val = pkt->getLE(); switch (pkt->getAddr() - pioAddr) { case 0x0: if (bits(val, 4)) { DPRINTF(I8259, "Received initialization command word 1.\n"); IMR = 0; edgeTriggered = bits(val, 3); DPRINTF(I8259, "%s triggered mode.\n", edgeTriggered ? "Edge" : "Level"); cascadeMode = !bits(val, 1); DPRINTF(I8259, "%s mode.\n", cascadeMode ? "Cascade" : "Single"); expectICW4 = bits(val, 0); if (!expectICW4) { autoEOI = false; } initControlWord = 1; DPRINTF(I8259, "Expecting %d more bytes.\n", expectICW4 ? 3 : 2); } else if (bits(val, 4, 3) == 0) { DPRINTF(I8259, "Received operation command word 2.\n"); switch (bits(val, 7, 5)) { case 0x0: DPRINTF(I8259, "Subcommand: Rotate in auto-EOI mode (clear).\n"); break; case 0x1: { int line = findMsbSet(ISR); DPRINTF(I8259, "Subcommand: Nonspecific EOI on line %d.\n", line); handleEOI(line); } break; case 0x2: DPRINTF(I8259, "Subcommand: No operation.\n"); break; case 0x3: { int line = bits(val, 2, 0); DPRINTF(I8259, "Subcommand: Specific EIO on line %d.\n", line); handleEOI(line); } break; case 0x4: DPRINTF(I8259, "Subcommand: Rotate in auto-EOI mode (set).\n"); break; case 0x5: DPRINTF(I8259, "Subcommand: Rotate on nonspecific EOI.\n"); break; case 0x6: DPRINTF(I8259, "Subcommand: Set priority command.\n"); DPRINTF(I8259, "Lowest: IRQ%d Highest IRQ%d.\n", bits(val, 2, 0), (bits(val, 2, 0) + 1) % 8); break; case 0x7: DPRINTF(I8259, "Subcommand: Rotate on specific EOI.\n"); DPRINTF(I8259, "Lowest: IRQ%d Highest IRQ%d.\n", bits(val, 2, 0), (bits(val, 2, 0) + 1) % 8); break; } } else if (bits(val, 4, 3) == 1) { DPRINTF(I8259, "Received operation command word 3.\n"); if (bits(val, 7)) { DPRINTF(I8259, "%s special mask mode.\n", bits(val, 6) ? "Set" : "Clear"); } if (bits(val, 1)) { readIRR = bits(val, 0); DPRINTF(I8259, "Read %s.\n", readIRR ? "IRR" : "ISR"); } } break; case 0x1: switch (initControlWord) { case 0x0: DPRINTF(I8259, "Received operation command word 1.\n"); DPRINTF(I8259, "Wrote IMR value %#x.\n", val); IMR = val; break; case 0x1: DPRINTF(I8259, "Received initialization command word 2.\n"); vectorOffset = val & ~mask(3); DPRINTF(I8259, "Responsible for vectors %#x-%#x.\n", vectorOffset, vectorOffset | mask(3)); if (cascadeMode) { initControlWord++; } else { cascadeBits = 0; initControlWord = 0; } break; case 0x2: DPRINTF(I8259, "Received initialization command word 3.\n"); if (mode == Enums::I8259Master) { DPRINTF(I8259, "Slaves attached to IRQs:%s%s%s%s%s%s%s%s\n", bits(val, 0) ? " 0" : "", bits(val, 1) ? " 1" : "", bits(val, 2) ? " 2" : "", bits(val, 3) ? " 3" : "", bits(val, 4) ? " 4" : "", bits(val, 5) ? " 5" : "", bits(val, 6) ? " 6" : "", bits(val, 7) ? " 7" : ""); cascadeBits = val; } else { DPRINTF(I8259, "Slave ID is %d.\n", val & mask(3)); cascadeBits = val & mask(3); } if (expectICW4) initControlWord++; else initControlWord = 0; break; case 0x3: DPRINTF(I8259, "Received initialization command word 4.\n"); if (bits(val, 4)) { DPRINTF(I8259, "Special fully nested mode.\n"); } else { DPRINTF(I8259, "Not special fully nested mode.\n"); } if (bits(val, 3) == 0) { DPRINTF(I8259, "Nonbuffered.\n"); } else if (bits(val, 2) == 0) { DPRINTF(I8259, "Buffered.\n"); } else { DPRINTF(I8259, "Unrecognized buffer mode.\n"); } autoEOI = bits(val, 1); DPRINTF(I8259, "%s End Of Interrupt.\n", autoEOI ? "Automatic" : "Normal"); DPRINTF(I8259, "%s mode.\n", bits(val, 0) ? "80x86" : "MCX-80/85"); initControlWord = 0; break; } break; } pkt->makeAtomicResponse(); return latency; } void X86ISA::I8259::handleEOI(int line) { ISR &= ~(1 << line); // There may be an interrupt that was waiting which can // now be sent. if (IRR) requestInterrupt(findMsbSet(IRR)); } void X86ISA::I8259::requestInterrupt(int line) { if (bits(ISR, 7, line) == 0) { if (output) { DPRINTF(I8259, "Propogating interrupt.\n"); output->raise(); //XXX This is a hack. output->lower(); } else { warn("Received interrupt but didn't have " "anyone to tell about it.\n"); } } } void X86ISA::I8259::signalInterrupt(int line) { DPRINTF(I8259, "Interrupt requested for line %d.\n", line); if (line >= NumLines) fatal("Line number %d doesn't exist. The max is %d.\n", line, NumLines - 1); if (bits(IMR, line)) { DPRINTF(I8259, "Interrupt %d was masked.\n", line); } else { IRR |= 1 << line; requestInterrupt(line); } } void X86ISA::I8259::raiseInterruptPin(int number) { DPRINTF(I8259, "Interrupt signal raised for pin %d.\n", number); if (number >= NumLines) fatal("Line number %d doesn't exist. The max is %d.\n", number, NumLines - 1); if (!pinStates[number]) signalInterrupt(number); pinStates[number] = true; } void X86ISA::I8259::lowerInterruptPin(int number) { DPRINTF(I8259, "Interrupt signal lowered for pin %d.\n", number); if (number >= NumLines) fatal("Line number %d doesn't exist. The max is %d.\n", number, NumLines - 1); pinStates[number] = false; } int X86ISA::I8259::getVector() { /* * This code only handles one slave. Since that's how the PC platform * always uses the 8259 PIC, there shouldn't be any need for more. If * there -is- a need for more for some reason, "slave" can become a * vector of slaves. */ int line = findMsbSet(IRR); IRR &= ~(1 << line); DPRINTF(I8259, "Interrupt %d was accepted.\n", line); if (autoEOI) { handleEOI(line); } else { ISR |= 1 << line; } if (slave && bits(cascadeBits, line)) { DPRINTF(I8259, "Interrupt was from slave who will " "provide the vector.\n"); return slave->getVector(); } return line | vectorOffset; } void X86ISA::I8259::serialize(CheckpointOut &cp) const { SERIALIZE_ARRAY(pinStates, NumLines); SERIALIZE_ENUM(mode); SERIALIZE_SCALAR(IRR); SERIALIZE_SCALAR(ISR); SERIALIZE_SCALAR(IMR); SERIALIZE_SCALAR(vectorOffset); SERIALIZE_SCALAR(cascadeMode); SERIALIZE_SCALAR(cascadeBits); SERIALIZE_SCALAR(edgeTriggered); SERIALIZE_SCALAR(readIRR); SERIALIZE_SCALAR(expectICW4); SERIALIZE_SCALAR(initControlWord); SERIALIZE_SCALAR(autoEOI); } void X86ISA::I8259::unserialize(CheckpointIn &cp) { UNSERIALIZE_ARRAY(pinStates, NumLines); UNSERIALIZE_ENUM(mode); UNSERIALIZE_SCALAR(IRR); UNSERIALIZE_SCALAR(ISR); UNSERIALIZE_SCALAR(IMR); UNSERIALIZE_SCALAR(vectorOffset); UNSERIALIZE_SCALAR(cascadeMode); UNSERIALIZE_SCALAR(cascadeBits); UNSERIALIZE_SCALAR(edgeTriggered); UNSERIALIZE_SCALAR(readIRR); UNSERIALIZE_SCALAR(expectICW4); UNSERIALIZE_SCALAR(initControlWord); UNSERIALIZE_SCALAR(autoEOI); } X86ISA::I8259 * I8259Params::create() { return new X86ISA::I8259(this); }