pseudo_inst.cc revision 11289
1/*
2 * Copyright (c) 2010-2012, 2015 ARM Limited
3 * All rights reserved
4 *
5 * The license below extends only to copyright in the software and shall
6 * not be construed as granting a license to any other intellectual
7 * property including but not limited to intellectual property relating
8 * to a hardware implementation of the functionality of the software
9 * licensed hereunder.  You may use the software subject to the license
10 * terms below provided that you ensure that this notice is replicated
11 * unmodified and in its entirety in all distributions of the software,
12 * modified or unmodified, in source code or in binary form.
13 *
14 * Copyright (c) 2011 Advanced Micro Devices, Inc.
15 * Copyright (c) 2003-2006 The Regents of The University of Michigan
16 * All rights reserved.
17 *
18 * Redistribution and use in source and binary forms, with or without
19 * modification, are permitted provided that the following conditions are
20 * met: redistributions of source code must retain the above copyright
21 * notice, this list of conditions and the following disclaimer;
22 * redistributions in binary form must reproduce the above copyright
23 * notice, this list of conditions and the following disclaimer in the
24 * documentation and/or other materials provided with the distribution;
25 * neither the name of the copyright holders nor the names of its
26 * contributors may be used to endorse or promote products derived from
27 * this software without specific prior written permission.
28 *
29 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
30 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
31 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
32 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
33 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
34 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
35 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
36 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
37 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
38 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
39 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
40 *
41 * Authors: Nathan Binkert
42 */
43
44#include <fcntl.h>
45#include <unistd.h>
46
47#include <cerrno>
48#include <fstream>
49#include <string>
50#include <vector>
51
52#include "arch/kernel_stats.hh"
53#include "arch/utility.hh"
54#include "arch/vtophys.hh"
55#include "arch/pseudo_inst.hh"
56#include "base/debug.hh"
57#include "base/output.hh"
58#include "config/the_isa.hh"
59#include "cpu/base.hh"
60#include "cpu/quiesce_event.hh"
61#include "cpu/thread_context.hh"
62#include "debug/Loader.hh"
63#include "debug/PseudoInst.hh"
64#include "debug/Quiesce.hh"
65#include "debug/WorkItems.hh"
66#include "params/BaseCPU.hh"
67#include "sim/full_system.hh"
68#include "sim/process.hh"
69#include "sim/pseudo_inst.hh"
70#include "sim/serialize.hh"
71#include "sim/sim_events.hh"
72#include "sim/sim_exit.hh"
73#include "sim/stat_control.hh"
74#include "sim/stats.hh"
75#include "sim/system.hh"
76#include "sim/vptr.hh"
77
78using namespace std;
79
80using namespace Stats;
81using namespace TheISA;
82
83namespace PseudoInst {
84
85static inline void
86panicFsOnlyPseudoInst(const char *name)
87{
88    panic("Pseudo inst \"%s\" is only available in Full System mode.");
89}
90
91uint64_t
92pseudoInst(ThreadContext *tc, uint8_t func, uint8_t subfunc)
93{
94    uint64_t args[4];
95
96    DPRINTF(PseudoInst, "PseudoInst::pseudoInst(%i, %i)\n", func, subfunc);
97
98    // We need to do this in a slightly convoluted way since
99    // getArgument() might have side-effects on arg_num. We could have
100    // used the Argument class, but due to the possible side effects
101    // from getArgument, it'd most likely break.
102    int arg_num(0);
103    for (int i = 0; i < sizeof(args) / sizeof(*args); ++i) {
104        args[arg_num] = getArgument(tc, arg_num, sizeof(uint64_t), false);
105        ++arg_num;
106    }
107
108    switch (func) {
109      case 0x00: // arm_func
110        arm(tc);
111        break;
112
113      case 0x01: // quiesce_func
114        quiesce(tc);
115        break;
116
117      case 0x02: // quiescens_func
118        quiesceSkip(tc);
119        break;
120
121      case 0x03: // quiescecycle_func
122        quiesceNs(tc, args[0]);
123        break;
124
125      case 0x04: // quiescetime_func
126        return quiesceTime(tc);
127
128      case 0x07: // rpns_func
129        return rpns(tc);
130
131      case 0x09: // wakecpu_func
132        wakeCPU(tc, args[0]);
133        break;
134
135      case 0x21: // exit_func
136        m5exit(tc, args[0]);
137        break;
138
139      case 0x22:
140        m5fail(tc, args[0], args[1]);
141        break;
142
143      case 0x30: // initparam_func
144        return initParam(tc, args[0], args[1]);
145
146      case 0x31: // loadsymbol_func
147        loadsymbol(tc);
148        break;
149
150      case 0x40: // resetstats_func
151        resetstats(tc, args[0], args[1]);
152        break;
153
154      case 0x41: // dumpstats_func
155        dumpstats(tc, args[0], args[1]);
156        break;
157
158      case 0x42: // dumprststats_func
159        dumpresetstats(tc, args[0], args[1]);
160        break;
161
162      case 0x43: // ckpt_func
163        m5checkpoint(tc, args[0], args[1]);
164        break;
165
166      case 0x4f: // writefile_func
167        return writefile(tc, args[0], args[1], args[2], args[3]);
168
169      case 0x50: // readfile_func
170        return readfile(tc, args[0], args[1], args[2]);
171
172      case 0x51: // debugbreak_func
173        debugbreak(tc);
174        break;
175
176      case 0x52: // switchcpu_func
177        switchcpu(tc);
178        break;
179
180      case 0x53: // addsymbol_func
181        addsymbol(tc, args[0], args[1]);
182        break;
183
184      case 0x54: // panic_func
185        panic("M5 panic instruction called at %s\n", tc->pcState());
186
187      case 0x5a: // work_begin_func
188        workbegin(tc, args[0], args[1]);
189        break;
190
191      case 0x5b: // work_end_func
192        workend(tc, args[0], args[1]);
193        break;
194
195      case 0x55: // annotate_func
196      case 0x56: // reserved2_func
197      case 0x57: // reserved3_func
198      case 0x58: // reserved4_func
199      case 0x59: // reserved5_func
200        warn("Unimplemented m5 op (0x%x)\n", func);
201        break;
202
203      /* SE mode functions */
204      case 0x60: // syscall_func
205        m5Syscall(tc);
206        break;
207
208      case 0x61: // pagefault_func
209        m5PageFault(tc);
210        break;
211
212      default:
213        warn("Unhandled m5 op: 0x%x\n", func);
214        break;
215    }
216
217    return 0;
218}
219
220void
221arm(ThreadContext *tc)
222{
223    DPRINTF(PseudoInst, "PseudoInst::arm()\n");
224    if (!FullSystem)
225        panicFsOnlyPseudoInst("arm");
226
227    if (tc->getKernelStats())
228        tc->getKernelStats()->arm();
229}
230
231void
232quiesce(ThreadContext *tc)
233{
234    DPRINTF(PseudoInst, "PseudoInst::quiesce()\n");
235    if (!FullSystem)
236        panicFsOnlyPseudoInst("quiesce");
237
238    if (!tc->getCpuPtr()->params()->do_quiesce)
239        return;
240
241    DPRINTF(Quiesce, "%s: quiesce()\n", tc->getCpuPtr()->name());
242
243    tc->suspend();
244    if (tc->getKernelStats())
245        tc->getKernelStats()->quiesce();
246}
247
248void
249quiesceSkip(ThreadContext *tc)
250{
251    DPRINTF(PseudoInst, "PseudoInst::quiesceSkip()\n");
252    if (!FullSystem)
253        panicFsOnlyPseudoInst("quiesceSkip");
254
255    BaseCPU *cpu = tc->getCpuPtr();
256
257    if (!cpu->params()->do_quiesce)
258        return;
259
260    EndQuiesceEvent *quiesceEvent = tc->getQuiesceEvent();
261
262    Tick resume = curTick() + 1;
263
264    cpu->reschedule(quiesceEvent, resume, true);
265
266    DPRINTF(Quiesce, "%s: quiesceSkip() until %d\n",
267            cpu->name(), resume);
268
269    tc->suspend();
270    if (tc->getKernelStats())
271        tc->getKernelStats()->quiesce();
272}
273
274void
275quiesceNs(ThreadContext *tc, uint64_t ns)
276{
277    DPRINTF(PseudoInst, "PseudoInst::quiesceNs(%i)\n", ns);
278    if (!FullSystem)
279        panicFsOnlyPseudoInst("quiesceNs");
280
281    BaseCPU *cpu = tc->getCpuPtr();
282
283    if (!cpu->params()->do_quiesce)
284        return;
285
286    EndQuiesceEvent *quiesceEvent = tc->getQuiesceEvent();
287
288    Tick resume = curTick() + SimClock::Int::ns * ns;
289
290    cpu->reschedule(quiesceEvent, resume, true);
291
292    DPRINTF(Quiesce, "%s: quiesceNs(%d) until %d\n",
293            cpu->name(), ns, resume);
294
295    tc->suspend();
296    if (tc->getKernelStats())
297        tc->getKernelStats()->quiesce();
298}
299
300void
301quiesceCycles(ThreadContext *tc, uint64_t cycles)
302{
303    DPRINTF(PseudoInst, "PseudoInst::quiesceCycles(%i)\n", cycles);
304    if (!FullSystem)
305        panicFsOnlyPseudoInst("quiesceCycles");
306
307    BaseCPU *cpu = tc->getCpuPtr();
308
309    if (!cpu->params()->do_quiesce)
310        return;
311
312    EndQuiesceEvent *quiesceEvent = tc->getQuiesceEvent();
313
314    Tick resume = cpu->clockEdge(Cycles(cycles));
315
316    cpu->reschedule(quiesceEvent, resume, true);
317
318    DPRINTF(Quiesce, "%s: quiesceCycles(%d) until %d\n",
319            cpu->name(), cycles, resume);
320
321    tc->suspend();
322    if (tc->getKernelStats())
323        tc->getKernelStats()->quiesce();
324}
325
326uint64_t
327quiesceTime(ThreadContext *tc)
328{
329    DPRINTF(PseudoInst, "PseudoInst::quiesceTime()\n");
330    if (!FullSystem) {
331        panicFsOnlyPseudoInst("quiesceTime");
332        return 0;
333    }
334
335    return (tc->readLastActivate() - tc->readLastSuspend()) /
336        SimClock::Int::ns;
337}
338
339uint64_t
340rpns(ThreadContext *tc)
341{
342    DPRINTF(PseudoInst, "PseudoInst::rpns()\n");
343    return curTick() / SimClock::Int::ns;
344}
345
346void
347wakeCPU(ThreadContext *tc, uint64_t cpuid)
348{
349    DPRINTF(PseudoInst, "PseudoInst::wakeCPU(%i)\n", cpuid);
350    System *sys = tc->getSystemPtr();
351    ThreadContext *other_tc = sys->threadContexts[cpuid];
352    if (other_tc->status() == ThreadContext::Suspended)
353        other_tc->activate();
354}
355
356void
357m5exit(ThreadContext *tc, Tick delay)
358{
359    DPRINTF(PseudoInst, "PseudoInst::m5exit(%i)\n", delay);
360    Tick when = curTick() + delay * SimClock::Int::ns;
361    exitSimLoop("m5_exit instruction encountered", 0, when, 0, true);
362}
363
364void
365m5fail(ThreadContext *tc, Tick delay, uint64_t code)
366{
367    DPRINTF(PseudoInst, "PseudoInst::m5fail(%i, %i)\n", delay, code);
368    Tick when = curTick() + delay * SimClock::Int::ns;
369    exitSimLoop("m5_fail instruction encountered", code, when, 0, true);
370}
371
372void
373loadsymbol(ThreadContext *tc)
374{
375    DPRINTF(PseudoInst, "PseudoInst::loadsymbol()\n");
376    if (!FullSystem)
377        panicFsOnlyPseudoInst("loadsymbol");
378
379    const string &filename = tc->getCpuPtr()->system->params()->symbolfile;
380    if (filename.empty()) {
381        return;
382    }
383
384    std::string buffer;
385    ifstream file(filename.c_str());
386
387    if (!file)
388        fatal("file error: Can't open symbol table file %s\n", filename);
389
390    while (!file.eof()) {
391        getline(file, buffer);
392
393        if (buffer.empty())
394            continue;
395
396        string::size_type idx = buffer.find(' ');
397        if (idx == string::npos)
398            continue;
399
400        string address = "0x" + buffer.substr(0, idx);
401        eat_white(address);
402        if (address.empty())
403            continue;
404
405        // Skip over letter and space
406        string symbol = buffer.substr(idx + 3);
407        eat_white(symbol);
408        if (symbol.empty())
409            continue;
410
411        Addr addr;
412        if (!to_number(address, addr))
413            continue;
414
415        if (!tc->getSystemPtr()->kernelSymtab->insert(addr, symbol))
416            continue;
417
418
419        DPRINTF(Loader, "Loaded symbol: %s @ %#llx\n", symbol, addr);
420    }
421    file.close();
422}
423
424void
425addsymbol(ThreadContext *tc, Addr addr, Addr symbolAddr)
426{
427    DPRINTF(PseudoInst, "PseudoInst::addsymbol(0x%x, 0x%x)\n",
428            addr, symbolAddr);
429    if (!FullSystem)
430        panicFsOnlyPseudoInst("addSymbol");
431
432    char symb[100];
433    CopyStringOut(tc, symb, symbolAddr, 100);
434    std::string symbol(symb);
435
436    DPRINTF(Loader, "Loaded symbol: %s @ %#llx\n", symbol, addr);
437
438    tc->getSystemPtr()->kernelSymtab->insert(addr,symbol);
439    debugSymbolTable->insert(addr,symbol);
440}
441
442uint64_t
443initParam(ThreadContext *tc, uint64_t key_str1, uint64_t key_str2)
444{
445    DPRINTF(PseudoInst, "PseudoInst::initParam() key:%s%s\n", (char *)&key_str1,
446            (char *)&key_str2);
447    if (!FullSystem) {
448        panicFsOnlyPseudoInst("initParam");
449        return 0;
450    }
451
452    // The key parameter string is passed in via two 64-bit registers. We copy
453    // out the characters from the 64-bit integer variables here and concatenate
454    // them in the key_str character buffer
455    const int len = 2 * sizeof(uint64_t) + 1;
456    char key_str[len];
457    memset(key_str, '\0', len);
458    if (key_str1 == 0) {
459        assert(key_str2 == 0);
460    } else {
461        strncpy(key_str, (char *)&key_str1, sizeof(uint64_t));
462    }
463
464    if (strlen(key_str) == sizeof(uint64_t)) {
465        strncpy(key_str + sizeof(uint64_t), (char *)&key_str2,
466                sizeof(uint64_t));
467    } else {
468        assert(key_str2 == 0);
469    }
470
471    // Compare the key parameter with the known values to select the return
472    // value
473    uint64_t val;
474    if (strlen(key_str) == 0) {
475        val = tc->getCpuPtr()->system->init_param;
476    } else {
477        panic("Unknown key for initparam pseudo instruction");
478    }
479    return val;
480}
481
482
483void
484resetstats(ThreadContext *tc, Tick delay, Tick period)
485{
486    DPRINTF(PseudoInst, "PseudoInst::resetstats(%i, %i)\n", delay, period);
487    if (!tc->getCpuPtr()->params()->do_statistics_insts)
488        return;
489
490
491    Tick when = curTick() + delay * SimClock::Int::ns;
492    Tick repeat = period * SimClock::Int::ns;
493
494    Stats::schedStatEvent(false, true, when, repeat);
495}
496
497void
498dumpstats(ThreadContext *tc, Tick delay, Tick period)
499{
500    DPRINTF(PseudoInst, "PseudoInst::dumpstats(%i, %i)\n", delay, period);
501    if (!tc->getCpuPtr()->params()->do_statistics_insts)
502        return;
503
504
505    Tick when = curTick() + delay * SimClock::Int::ns;
506    Tick repeat = period * SimClock::Int::ns;
507
508    Stats::schedStatEvent(true, false, when, repeat);
509}
510
511void
512dumpresetstats(ThreadContext *tc, Tick delay, Tick period)
513{
514    DPRINTF(PseudoInst, "PseudoInst::dumpresetstats(%i, %i)\n", delay, period);
515    if (!tc->getCpuPtr()->params()->do_statistics_insts)
516        return;
517
518
519    Tick when = curTick() + delay * SimClock::Int::ns;
520    Tick repeat = period * SimClock::Int::ns;
521
522    Stats::schedStatEvent(true, true, when, repeat);
523}
524
525void
526m5checkpoint(ThreadContext *tc, Tick delay, Tick period)
527{
528    DPRINTF(PseudoInst, "PseudoInst::m5checkpoint(%i, %i)\n", delay, period);
529    if (!tc->getCpuPtr()->params()->do_checkpoint_insts)
530        return;
531
532    Tick when = curTick() + delay * SimClock::Int::ns;
533    Tick repeat = period * SimClock::Int::ns;
534
535    exitSimLoop("checkpoint", 0, when, repeat);
536}
537
538uint64_t
539readfile(ThreadContext *tc, Addr vaddr, uint64_t len, uint64_t offset)
540{
541    DPRINTF(PseudoInst, "PseudoInst::readfile(0x%x, 0x%x, 0x%x)\n",
542            vaddr, len, offset);
543    if (!FullSystem) {
544        panicFsOnlyPseudoInst("readfile");
545        return 0;
546    }
547
548    const string &file = tc->getSystemPtr()->params()->readfile;
549    if (file.empty()) {
550        return ULL(0);
551    }
552
553    uint64_t result = 0;
554
555    int fd = ::open(file.c_str(), O_RDONLY, 0);
556    if (fd < 0)
557        panic("could not open file %s\n", file);
558
559    if (::lseek(fd, offset, SEEK_SET) < 0)
560        panic("could not seek: %s", strerror(errno));
561
562    char *buf = new char[len];
563    char *p = buf;
564    while (len > 0) {
565        int bytes = ::read(fd, p, len);
566        if (bytes <= 0)
567            break;
568
569        p += bytes;
570        result += bytes;
571        len -= bytes;
572    }
573
574    close(fd);
575    CopyIn(tc, vaddr, buf, result);
576    delete [] buf;
577    return result;
578}
579
580uint64_t
581writefile(ThreadContext *tc, Addr vaddr, uint64_t len, uint64_t offset,
582            Addr filename_addr)
583{
584    DPRINTF(PseudoInst, "PseudoInst::writefile(0x%x, 0x%x, 0x%x, 0x%x)\n",
585            vaddr, len, offset, filename_addr);
586    ostream *os;
587
588    // copy out target filename
589    char fn[100];
590    std::string filename;
591    CopyStringOut(tc, fn, filename_addr, 100);
592    filename = std::string(fn);
593
594    if (offset == 0) {
595        // create a new file (truncate)
596        os = simout.create(filename, true, true);
597    } else {
598        // do not truncate file if offset is non-zero
599        // (ios::in flag is required as well to keep the existing data
600        //  intact, otherwise existing data will be zeroed out.)
601        os = simout.openFile(simout.directory() + filename,
602                            ios::in | ios::out | ios::binary, true);
603    }
604    if (!os)
605        panic("could not open file %s\n", filename);
606
607    // seek to offset
608    os->seekp(offset);
609
610    // copy out data and write to file
611    char *buf = new char[len];
612    CopyOut(tc, buf, vaddr, len);
613    os->write(buf, len);
614    if (os->fail() || os->bad())
615        panic("Error while doing writefile!\n");
616
617    simout.close(os);
618
619    delete [] buf;
620
621    return len;
622}
623
624void
625debugbreak(ThreadContext *tc)
626{
627    DPRINTF(PseudoInst, "PseudoInst::debugbreak()\n");
628    Debug::breakpoint();
629}
630
631void
632switchcpu(ThreadContext *tc)
633{
634    DPRINTF(PseudoInst, "PseudoInst::switchcpu()\n");
635    exitSimLoop("switchcpu");
636}
637
638//
639// This function is executed when annotated work items begin.  Depending on
640// what the user specified at the command line, the simulation may exit and/or
641// take a checkpoint when a certain work item begins.
642//
643void
644workbegin(ThreadContext *tc, uint64_t workid, uint64_t threadid)
645{
646    DPRINTF(PseudoInst, "PseudoInst::workbegin(%i, %i)\n", workid, threadid);
647    System *sys = tc->getSystemPtr();
648    const System::Params *params = sys->params();
649
650    if (params->exit_on_work_items) {
651        exitSimLoop("workbegin", static_cast<int>(workid));
652        return;
653    }
654
655    DPRINTF(WorkItems, "Work Begin workid: %d, threadid %d\n", workid,
656            threadid);
657    tc->getCpuPtr()->workItemBegin();
658    sys->workItemBegin(threadid, workid);
659
660    //
661    // If specified, determine if this is the specific work item the user
662    // identified
663    //
664    if (params->work_item_id == -1 || params->work_item_id == workid) {
665
666        uint64_t systemWorkBeginCount = sys->incWorkItemsBegin();
667        int cpuId = tc->getCpuPtr()->cpuId();
668
669        if (params->work_cpus_ckpt_count != 0 &&
670            sys->markWorkItem(cpuId) >= params->work_cpus_ckpt_count) {
671            //
672            // If active cpus equals checkpoint count, create checkpoint
673            //
674            exitSimLoop("checkpoint");
675        }
676
677        if (systemWorkBeginCount == params->work_begin_ckpt_count) {
678            //
679            // Note: the string specified as the cause of the exit event must
680            // exactly equal "checkpoint" inorder to create a checkpoint
681            //
682            exitSimLoop("checkpoint");
683        }
684
685        if (systemWorkBeginCount == params->work_begin_exit_count) {
686            //
687            // If a certain number of work items started, exit simulation
688            //
689            exitSimLoop("work started count reach");
690        }
691
692        if (cpuId == params->work_begin_cpu_id_exit) {
693            //
694            // If work started on the cpu id specified, exit simulation
695            //
696            exitSimLoop("work started on specific cpu");
697        }
698    }
699}
700
701//
702// This function is executed when annotated work items end.  Depending on
703// what the user specified at the command line, the simulation may exit and/or
704// take a checkpoint when a certain work item ends.
705//
706void
707workend(ThreadContext *tc, uint64_t workid, uint64_t threadid)
708{
709    DPRINTF(PseudoInst, "PseudoInst::workend(%i, %i)\n", workid, threadid);
710    System *sys = tc->getSystemPtr();
711    const System::Params *params = sys->params();
712
713    if (params->exit_on_work_items) {
714        exitSimLoop("workend", static_cast<int>(workid));
715        return;
716    }
717
718    DPRINTF(WorkItems, "Work End workid: %d, threadid %d\n", workid, threadid);
719    tc->getCpuPtr()->workItemEnd();
720    sys->workItemEnd(threadid, workid);
721
722    //
723    // If specified, determine if this is the specific work item the user
724    // identified
725    //
726    if (params->work_item_id == -1 || params->work_item_id == workid) {
727
728        uint64_t systemWorkEndCount = sys->incWorkItemsEnd();
729        int cpuId = tc->getCpuPtr()->cpuId();
730
731        if (params->work_cpus_ckpt_count != 0 &&
732            sys->markWorkItem(cpuId) >= params->work_cpus_ckpt_count) {
733            //
734            // If active cpus equals checkpoint count, create checkpoint
735            //
736            exitSimLoop("checkpoint");
737        }
738
739        if (params->work_end_ckpt_count != 0 &&
740            systemWorkEndCount == params->work_end_ckpt_count) {
741            //
742            // If total work items completed equals checkpoint count, create
743            // checkpoint
744            //
745            exitSimLoop("checkpoint");
746        }
747
748        if (params->work_end_exit_count != 0 &&
749            systemWorkEndCount == params->work_end_exit_count) {
750            //
751            // If total work items completed equals exit count, exit simulation
752            //
753            exitSimLoop("work items exit count reached");
754        }
755    }
756}
757
758} // namespace PseudoInst
759