iob.cc revision 13231
1/*
2 * Copyright (c) 2006 The Regents of The University of Michigan
3 * All rights reserved.
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions are
7 * met: redistributions of source code must retain the above copyright
8 * notice, this list of conditions and the following disclaimer;
9 * redistributions in binary form must reproduce the above copyright
10 * notice, this list of conditions and the following disclaimer in the
11 * documentation and/or other materials provided with the distribution;
12 * neither the name of the copyright holders nor the names of its
13 * contributors may be used to endorse or promote products derived from
14 * this software without specific prior written permission.
15 *
16 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27 *
28 * Authors: Ali Saidi
29 */
30
31/** @file
32 * This device implemetns the niagara I/O bridge chip. It manages incomming
33 * interrupts and posts them to the CPU when needed. It holds mask registers and
34 * various status registers for CPUs to check what interrupts are pending as
35 * well as facilities to send IPIs to other cpus.
36 */
37
38#include "dev/sparc/iob.hh"
39
40#include <cstring>
41
42#include "arch/sparc/faults.hh"
43#include "arch/sparc/isa_traits.hh"
44#include "base/bitfield.hh"
45#include "base/trace.hh"
46#include "cpu/intr_control.hh"
47#include "cpu/thread_context.hh"
48#include "debug/Iob.hh"
49#include "dev/platform.hh"
50#include "mem/packet_access.hh"
51#include "mem/port.hh"
52#include "sim/faults.hh"
53#include "sim/system.hh"
54
55Iob::Iob(const Params *p)
56    : PioDevice(p), ic(p->platform->intrctrl)
57{
58    iobManAddr = ULL(0x9800000000);
59    iobManSize = ULL(0x0100000000);
60    iobJBusAddr = ULL(0x9F00000000);
61    iobJBusSize = ULL(0x0100000000);
62    assert (params()->system->threadContexts.size() <= MaxNiagaraProcs);
63
64    pioDelay = p->pio_latency;
65
66    for (int x = 0; x < NumDeviceIds; ++x) {
67        intMan[x].cpu = 0;
68        intMan[x].vector = 0;
69        intCtl[x].mask = true;
70        intCtl[x].pend = false;
71    }
72
73}
74
75Tick
76Iob::read(PacketPtr pkt)
77{
78
79    if (pkt->getAddr() >= iobManAddr && pkt->getAddr() < iobManAddr + iobManSize)
80        readIob(pkt);
81    else if (pkt->getAddr() >= iobJBusAddr && pkt->getAddr() < iobJBusAddr+iobJBusSize)
82        readJBus(pkt);
83    else
84        panic("Invalid address reached Iob\n");
85
86    pkt->makeAtomicResponse();
87    return pioDelay;
88}
89
90void
91Iob::readIob(PacketPtr pkt)
92{
93        Addr accessAddr = pkt->getAddr() - iobManAddr;
94
95        assert(IntManAddr == 0);
96        if (accessAddr < IntManAddr + IntManSize) {
97            int index = (accessAddr - IntManAddr) >> 3;
98            uint64_t data = intMan[index].cpu << 8 | intMan[index].vector << 0;
99            pkt->setBE(data);
100            return;
101        }
102
103        if (accessAddr >= IntCtlAddr && accessAddr < IntCtlAddr + IntCtlSize) {
104            int index = (accessAddr - IntCtlAddr) >> 3;
105            uint64_t data = intCtl[index].mask  ? 1 << 2 : 0 |
106                intCtl[index].pend  ? 1 << 0 : 0;
107            pkt->setBE(data);
108            return;
109        }
110
111        if (accessAddr == JIntVecAddr) {
112            pkt->setBE(jIntVec);
113            return;
114        }
115
116        panic("Read to unknown IOB offset 0x%x\n", accessAddr);
117}
118
119void
120Iob::readJBus(PacketPtr pkt)
121{
122        Addr accessAddr = pkt->getAddr() - iobJBusAddr;
123        ContextID cpuid = pkt->req->contextId();
124        int index;
125        uint64_t data;
126
127
128
129
130        if (accessAddr >= JIntData0Addr && accessAddr < JIntData1Addr) {
131            index = (accessAddr - JIntData0Addr) >> 3;
132            pkt->setBE(jBusData0[index]);
133            return;
134        }
135
136        if (accessAddr >= JIntData1Addr && accessAddr < JIntDataA0Addr) {
137            index = (accessAddr - JIntData1Addr) >> 3;
138            pkt->setBE(jBusData1[index]);
139            return;
140        }
141
142        if (accessAddr == JIntDataA0Addr) {
143            pkt->setBE(jBusData0[cpuid]);
144            return;
145        }
146
147        if (accessAddr == JIntDataA1Addr) {
148            pkt->setBE(jBusData1[cpuid]);
149            return;
150        }
151
152        if (accessAddr >= JIntBusyAddr && accessAddr < JIntBusyAddr + JIntBusySize) {
153            index = (accessAddr - JIntBusyAddr) >> 3;
154            data = jIntBusy[index].busy ? 1 << 5 : 0 |
155                   jIntBusy[index].source;
156            pkt->setBE(data);
157            return;
158        }
159        if (accessAddr == JIntABusyAddr) {
160            data = jIntBusy[cpuid].busy ? 1 << 5 : 0 |
161                   jIntBusy[cpuid].source;
162            pkt->setBE(data);
163            return;
164        };
165
166        panic("Read to unknown JBus offset 0x%x\n", accessAddr);
167}
168
169Tick
170Iob::write(PacketPtr pkt)
171{
172    if (pkt->getAddr() >= iobManAddr && pkt->getAddr() < iobManAddr + iobManSize)
173        writeIob(pkt);
174    else if (pkt->getAddr() >= iobJBusAddr && pkt->getAddr() < iobJBusAddr+iobJBusSize)
175        writeJBus(pkt);
176    else
177        panic("Invalid address reached Iob\n");
178
179
180    pkt->makeAtomicResponse();
181    return pioDelay;
182}
183
184void
185Iob::writeIob(PacketPtr pkt)
186{
187        Addr accessAddr = pkt->getAddr() - iobManAddr;
188        int index;
189        uint64_t data;
190
191        assert(IntManAddr == 0);
192        if (accessAddr < IntManAddr + IntManSize) {
193            index = (accessAddr - IntManAddr) >> 3;
194            data = pkt->getBE<uint64_t>();
195            intMan[index].cpu = bits(data,12,8);
196            intMan[index].vector = bits(data,5,0);
197            DPRINTF(Iob, "Wrote IntMan %d cpu %d, vec %d\n", index,
198                    intMan[index].cpu, intMan[index].vector);
199            return;
200        }
201
202        if (accessAddr >= IntCtlAddr && accessAddr < IntCtlAddr + IntCtlSize) {
203            index = (accessAddr - IntCtlAddr) >> 3;
204            data = pkt->getBE<uint64_t>();
205            intCtl[index].mask = bits(data,2,2);
206            if (bits(data,1,1))
207                intCtl[index].pend = false;
208            DPRINTF(Iob, "Wrote IntCtl %d pend %d cleared %d\n", index,
209                    intCtl[index].pend, bits(data,2,2));
210            return;
211        }
212
213        if (accessAddr == JIntVecAddr) {
214            jIntVec = bits(pkt->getBE<uint64_t>(), 5,0);
215            DPRINTF(Iob, "Wrote jIntVec %d\n", jIntVec);
216            return;
217        }
218
219        if (accessAddr >= IntVecDisAddr && accessAddr < IntVecDisAddr + IntVecDisSize) {
220            Type type;
221            int cpu_id;
222            int vector;
223            index = (accessAddr - IntManAddr) >> 3;
224            data = pkt->getBE<uint64_t>();
225            type = (Type)bits(data,17,16);
226            cpu_id = bits(data, 12,8);
227            vector = bits(data,5,0);
228            generateIpi(type,cpu_id, vector);
229            return;
230        }
231
232        panic("Write to unknown IOB offset 0x%x\n", accessAddr);
233}
234
235void
236Iob::writeJBus(PacketPtr pkt)
237{
238        Addr accessAddr = pkt->getAddr() - iobJBusAddr;
239        ContextID cpuid = pkt->req->contextId();
240        int index;
241        uint64_t data;
242
243        if (accessAddr >= JIntBusyAddr && accessAddr < JIntBusyAddr + JIntBusySize) {
244            index = (accessAddr - JIntBusyAddr) >> 3;
245            data = pkt->getBE<uint64_t>();
246            jIntBusy[index].busy = bits(data,5,5);
247            DPRINTF(Iob, "Wrote jIntBusy index %d busy: %d\n", index,
248                    jIntBusy[index].busy);
249            return;
250        }
251        if (accessAddr == JIntABusyAddr) {
252            data = pkt->getBE<uint64_t>();
253            jIntBusy[cpuid].busy = bits(data,5,5);
254            DPRINTF(Iob, "Wrote jIntBusy index %d busy: %d\n", cpuid,
255                    jIntBusy[cpuid].busy);
256            return;
257        };
258
259        panic("Write to unknown JBus offset 0x%x\n", accessAddr);
260}
261
262void
263Iob::receiveDeviceInterrupt(DeviceId devid)
264{
265    assert(devid < NumDeviceIds);
266    if (intCtl[devid].mask)
267        return;
268    intCtl[devid].mask = true;
269    intCtl[devid].pend = true;
270    DPRINTF(Iob, "Receiving Device interrupt: %d for cpu %d vec %d\n",
271            devid, intMan[devid].cpu, intMan[devid].vector);
272    ic->post(intMan[devid].cpu, SparcISA::IT_INT_VEC, intMan[devid].vector);
273}
274
275
276void
277Iob::generateIpi(Type type, int cpu_id, int vector)
278{
279    SparcISA::SparcFault<SparcISA::PowerOnReset> *por = new SparcISA::PowerOnReset();
280    if (cpu_id >= sys->numContexts())
281        return;
282
283    switch (type) {
284      case 0: // interrupt
285        DPRINTF(Iob, "Generating interrupt because of I/O write to cpu: %d vec %d\n",
286                cpu_id, vector);
287        ic->post(cpu_id, SparcISA::IT_INT_VEC, vector);
288        break;
289      case 1: // reset
290        warn("Sending reset to CPU: %d\n", cpu_id);
291        if (vector != por->trapType())
292            panic("Don't know how to set non-POR reset to cpu\n");
293        por->invoke(sys->threadContexts[cpu_id]);
294        sys->threadContexts[cpu_id]->activate();
295        break;
296      case 2: // idle -- this means stop executing and don't wake on interrupts
297        DPRINTF(Iob, "Idling CPU because of I/O write cpu: %d\n", cpu_id);
298        sys->threadContexts[cpu_id]->halt();
299        break;
300      case 3: // resume
301        DPRINTF(Iob, "Resuming CPU because of I/O write cpu: %d\n", cpu_id);
302        sys->threadContexts[cpu_id]->activate();
303        break;
304      default:
305        panic("Invalid type to generate ipi\n");
306    }
307}
308
309bool
310Iob::receiveJBusInterrupt(int cpu_id, int source, uint64_t d0, uint64_t d1)
311{
312    // If we are already dealing with an interrupt for that cpu we can't deal
313    // with another one right now... come back later
314    if (jIntBusy[cpu_id].busy)
315        return false;
316
317    DPRINTF(Iob, "Receiving jBus interrupt: %d for cpu %d vec %d\n",
318            source, cpu_id, jIntVec);
319
320    jIntBusy[cpu_id].busy = true;
321    jIntBusy[cpu_id].source = source;
322    jBusData0[cpu_id] = d0;
323    jBusData1[cpu_id] = d1;
324
325    ic->post(cpu_id, SparcISA::IT_INT_VEC, jIntVec);
326    return true;
327}
328
329AddrRangeList
330Iob::getAddrRanges() const
331{
332    AddrRangeList ranges;
333    ranges.push_back(RangeSize(iobManAddr, iobManSize));
334    ranges.push_back(RangeSize(iobJBusAddr, iobJBusSize));
335    return ranges;
336}
337
338
339void
340Iob::serialize(CheckpointOut &cp) const
341{
342
343    SERIALIZE_SCALAR(jIntVec);
344    SERIALIZE_ARRAY(jBusData0, MaxNiagaraProcs);
345    SERIALIZE_ARRAY(jBusData1, MaxNiagaraProcs);
346    for (int x = 0; x < NumDeviceIds; x++) {
347        ScopedCheckpointSection sec(cp, csprintf("Int%d", x));
348        paramOut(cp, "cpu", intMan[x].cpu);
349        paramOut(cp, "vector", intMan[x].vector);
350        paramOut(cp, "mask", intCtl[x].mask);
351        paramOut(cp, "pend", intCtl[x].pend);
352    };
353    for (int x = 0; x < MaxNiagaraProcs; x++) {
354        ScopedCheckpointSection sec(cp, csprintf("jIntBusy%d", x));
355        paramOut(cp, "busy", jIntBusy[x].busy);
356        paramOut(cp, "source", jIntBusy[x].source);
357    };
358}
359
360void
361Iob::unserialize(CheckpointIn &cp)
362{
363    UNSERIALIZE_SCALAR(jIntVec);
364    UNSERIALIZE_ARRAY(jBusData0, MaxNiagaraProcs);
365    UNSERIALIZE_ARRAY(jBusData1, MaxNiagaraProcs);
366    for (int x = 0; x < NumDeviceIds; x++) {
367        ScopedCheckpointSection sec(cp, csprintf("Int%d", x));
368        paramIn(cp, "cpu", intMan[x].cpu);
369        paramIn(cp, "vector", intMan[x].vector);
370        paramIn(cp, "mask", intCtl[x].mask);
371        paramIn(cp, "pend", intCtl[x].pend);
372    };
373    for (int x = 0; x < MaxNiagaraProcs; x++) {
374        ScopedCheckpointSection sec(cp, csprintf("jIntBusy%d", x));
375        paramIn(cp, "busy", jIntBusy[x].busy);
376        paramIn(cp, "source", jIntBusy[x].source);
377    };
378}
379
380Iob *
381IobParams::create()
382{
383    return new Iob(this);
384}
385