faults.hh revision 10037
1/*
2 * Copyright (c) 2010, 2012-2013 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) 2003-2005 The Regents of The University of Michigan
15 * Copyright (c) 2007-2008 The Florida State University
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: Ali Saidi
42 *          Gabe Black
43 *          Giacomo Gabrielli
44 *          Thomas Grocutt
45 */
46
47#ifndef __ARM_FAULTS_HH__
48#define __ARM_FAULTS_HH__
49
50#include "arch/arm/miscregs.hh"
51#include "arch/arm/pagetable.hh"
52#include "arch/arm/types.hh"
53#include "base/misc.hh"
54#include "sim/faults.hh"
55#include "sim/full_system.hh"
56
57// The design of the "name" and "vect" functions is in sim/faults.hh
58
59namespace ArmISA
60{
61typedef const Addr FaultOffset;
62
63class ArmFault : public FaultBase
64{
65  protected:
66    ExtMachInst machInst;
67    uint32_t issRaw;
68
69    // Helper variables for ARMv8 exception handling
70    bool from64;  // True if the exception is generated from the AArch64 state
71    bool to64;  // True if the exception is taken in AArch64 state
72    ExceptionLevel fromEL;  // Source exception level
73    ExceptionLevel toEL;  // Target exception level
74    OperatingMode fromMode;  // Source operating mode
75
76    Addr getVector(ThreadContext *tc);
77    Addr getVector64(ThreadContext *tc);
78
79  public:
80    /// Generic fault source enums used to index into
81    /// {short/long/aarch64}DescFaultSources[] to get the actual encodings based
82    /// on the current register width state and the translation table format in
83    /// use
84    enum FaultSource
85    {
86        AlignmentFault = 0,
87        InstructionCacheMaintenance,  // Short-desc. format only
88        SynchExtAbtOnTranslTableWalkLL,
89        SynchPtyErrOnTranslTableWalkLL = SynchExtAbtOnTranslTableWalkLL + 4,
90        TranslationLL = SynchPtyErrOnTranslTableWalkLL + 4,
91        AccessFlagLL = TranslationLL + 4,
92        DomainLL = AccessFlagLL + 4,
93        PermissionLL = DomainLL + 4,
94        DebugEvent = PermissionLL + 4,
95        SynchronousExternalAbort,
96        TLBConflictAbort,  // Requires LPAE
97        SynchPtyErrOnMemoryAccess,
98        AsynchronousExternalAbort,
99        AsynchPtyErrOnMemoryAccess,
100        AddressSizeLL,  // AArch64 only
101
102        // Not real faults. These are faults to allow the translation function
103        // to inform the memory access function not to proceed for a prefetch
104        // that misses in the TLB or that targets an uncacheable address
105        PrefetchTLBMiss = AddressSizeLL + 4,
106        PrefetchUncacheable,
107
108        NumFaultSources,
109        FaultSourceInvalid = 0xff
110    };
111
112    /// Encodings of the fault sources when the short-desc. translation table
113    /// format is in use (ARM ARM Issue C B3.13.3)
114    static uint8_t shortDescFaultSources[NumFaultSources];
115    /// Encodings of the fault sources when the long-desc. translation table
116    /// format is in use (ARM ARM Issue C B3.13.3)
117    static uint8_t longDescFaultSources[NumFaultSources];
118    /// Encodings of the fault sources in AArch64 state
119    static uint8_t aarch64FaultSources[NumFaultSources];
120
121    enum AnnotationIDs
122    {
123        S1PTW, // DataAbort, PrefetchAbort: Stage 1 Page Table Walk,
124        OVA,   // DataAbort, PrefetchAbort: stage 1 Virtual Address for stage 2 faults
125        SAS,   // DataAbort: Syndrome Access Size
126        SSE,   // DataAbort: Syndrome Sign Extend
127        SRT,   // DataAbort: Syndrome Register Transfer
128
129        // AArch64 only
130        SF,    // DataAbort: width of the accessed register is SixtyFour
131        AR     // DataAbort: Acquire/Release semantics
132    };
133
134    enum TranMethod
135    {
136        LpaeTran,
137        VmsaTran,
138        UnknownTran
139    };
140
141    struct FaultVals
142    {
143        const FaultName name;
144
145        const FaultOffset offset;
146
147        // Offsets used for exceptions taken in AArch64 state
148        const uint16_t currELTOffset;
149        const uint16_t currELHOffset;
150        const uint16_t lowerEL64Offset;
151        const uint16_t lowerEL32Offset;
152
153        const OperatingMode nextMode;
154
155        const uint8_t armPcOffset;
156        const uint8_t thumbPcOffset;
157        // The following two values are used in place of armPcOffset and
158        // thumbPcOffset when the exception return address is saved into ELR
159        // registers (exceptions taken in HYP mode or in AArch64 state)
160        const uint8_t armPcElrOffset;
161        const uint8_t thumbPcElrOffset;
162
163        const bool hypTrappable;
164        const bool abortDisable;
165        const bool fiqDisable;
166
167        // Exception class used to appropriately set the syndrome register
168        // (exceptions taken in HYP mode or in AArch64 state)
169        const ExceptionClass ec;
170
171        FaultStat count;
172    };
173
174    ArmFault(ExtMachInst _machInst = 0, uint32_t _iss = 0) :
175        machInst(_machInst), issRaw(_iss), from64(false), to64(false) {}
176
177    // Returns the actual syndrome register to use based on the target
178    // exception level
179    MiscRegIndex getSyndromeReg64() const;
180    // Returns the actual fault address register to use based on the target
181    // exception level
182    MiscRegIndex getFaultAddrReg64() const;
183
184    void invoke(ThreadContext *tc,
185            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
186    void invoke64(ThreadContext *tc,
187            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
188    virtual void annotate(AnnotationIDs id, uint64_t val) {}
189    virtual FaultStat& countStat() = 0;
190    virtual FaultOffset offset(ThreadContext *tc) = 0;
191    virtual FaultOffset offset64() = 0;
192    virtual OperatingMode nextMode() = 0;
193    virtual bool routeToMonitor(ThreadContext *tc) const = 0;
194    virtual bool routeToHyp(ThreadContext *tc) const { return false; }
195    virtual uint8_t armPcOffset(bool isHyp) = 0;
196    virtual uint8_t thumbPcOffset(bool isHyp) = 0;
197    virtual uint8_t armPcElrOffset() = 0;
198    virtual uint8_t thumbPcElrOffset() = 0;
199    virtual bool abortDisable(ThreadContext *tc) = 0;
200    virtual bool fiqDisable(ThreadContext *tc) = 0;
201    virtual ExceptionClass ec(ThreadContext *tc) const = 0;
202    virtual uint32_t iss() const = 0;
203    virtual bool isStage2() const { return false; }
204    virtual FSR getFsr(ThreadContext *tc) { return 0; }
205    virtual void setSyndrome(ThreadContext *tc, MiscRegIndex syndrome_reg);
206};
207
208template<typename T>
209class ArmFaultVals : public ArmFault
210{
211  protected:
212    static FaultVals vals;
213
214  public:
215    ArmFaultVals<T>(ExtMachInst _machInst = 0, uint32_t _iss = 0) :
216        ArmFault(_machInst, _iss) {}
217    FaultName name() const { return vals.name; }
218    FaultStat & countStat() { return vals.count; }
219    FaultOffset offset(ThreadContext *tc);
220
221    FaultOffset
222    offset64()
223    {
224        if (toEL == fromEL) {
225            if (opModeIsT(fromMode))
226                return vals.currELTOffset;
227            return vals.currELHOffset;
228        } else {
229            if (from64)
230                return vals.lowerEL64Offset;
231            return vals.lowerEL32Offset;
232        }
233    }
234
235    OperatingMode nextMode() { return vals.nextMode; }
236    virtual bool routeToMonitor(ThreadContext *tc) const { return false; }
237    uint8_t armPcOffset(bool isHyp)   { return isHyp ? vals.armPcElrOffset
238                                                     : vals.armPcOffset; }
239    uint8_t thumbPcOffset(bool isHyp) { return isHyp ? vals.thumbPcElrOffset
240                                                     : vals.thumbPcOffset; }
241    uint8_t armPcElrOffset() { return vals.armPcElrOffset; }
242    uint8_t thumbPcElrOffset() { return vals.thumbPcElrOffset; }
243    virtual bool abortDisable(ThreadContext* tc) { return vals.abortDisable; }
244    virtual bool fiqDisable(ThreadContext* tc) { return vals.fiqDisable; }
245    virtual ExceptionClass ec(ThreadContext *tc) const { return vals.ec; }
246    virtual uint32_t iss() const { return issRaw; }
247};
248
249class Reset : public ArmFaultVals<Reset>
250{
251  public:
252    void invoke(ThreadContext *tc,
253            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
254};
255
256class UndefinedInstruction : public ArmFaultVals<UndefinedInstruction>
257{
258  protected:
259    bool unknown;
260    const char *mnemonic;
261    bool disabled;
262    ExceptionClass overrideEc;
263
264  public:
265    UndefinedInstruction(ExtMachInst _machInst,
266                         bool _unknown,
267                         const char *_mnemonic = NULL,
268                         bool _disabled = false) :
269        ArmFaultVals<UndefinedInstruction>(_machInst),
270        unknown(_unknown), mnemonic(_mnemonic), disabled(_disabled),
271        overrideEc(EC_INVALID)
272    {}
273    UndefinedInstruction(ExtMachInst _machInst, uint32_t _iss, ExceptionClass _overrideEc) :
274        ArmFaultVals<UndefinedInstruction>(_machInst, _iss),
275        overrideEc(_overrideEc)
276    {}
277
278    void invoke(ThreadContext *tc,
279            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
280    bool routeToHyp(ThreadContext *tc) const;
281    ExceptionClass ec(ThreadContext *tc) const;
282    uint32_t iss() const;
283};
284
285class SupervisorCall : public ArmFaultVals<SupervisorCall>
286{
287  protected:
288    ExceptionClass overrideEc;
289  public:
290    SupervisorCall(ExtMachInst _machInst, uint32_t _iss,
291                   ExceptionClass _overrideEc = EC_INVALID) :
292        ArmFaultVals<SupervisorCall>(_machInst, _iss),
293        overrideEc(_overrideEc)
294    {}
295
296    void invoke(ThreadContext *tc,
297            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
298    bool routeToHyp(ThreadContext *tc) const;
299    ExceptionClass ec(ThreadContext *tc) const;
300    uint32_t iss() const;
301};
302
303class SecureMonitorCall : public ArmFaultVals<SecureMonitorCall>
304{
305  public:
306    SecureMonitorCall(ExtMachInst _machInst) :
307        ArmFaultVals<SecureMonitorCall>(_machInst)
308    {}
309
310    void invoke(ThreadContext *tc,
311            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
312    ExceptionClass ec(ThreadContext *tc) const;
313    uint32_t iss() const;
314};
315
316class SupervisorTrap : public ArmFaultVals<SupervisorTrap>
317{
318  protected:
319    ExtMachInst machInst;
320    ExceptionClass overrideEc;
321
322  public:
323    SupervisorTrap(ExtMachInst _machInst, uint32_t _iss,
324                   ExceptionClass _overrideEc = EC_INVALID) :
325        ArmFaultVals<SupervisorTrap>(_machInst, _iss),
326        overrideEc(_overrideEc)
327    {}
328
329    ExceptionClass ec(ThreadContext *tc) const;
330};
331
332class SecureMonitorTrap : public ArmFaultVals<SecureMonitorTrap>
333{
334 protected:
335    ExtMachInst machInst;
336    ExceptionClass overrideEc;
337
338  public:
339    SecureMonitorTrap(ExtMachInst _machInst, uint32_t _iss,
340                      ExceptionClass _overrideEc = EC_INVALID) :
341        ArmFaultVals<SecureMonitorTrap>(_machInst, _iss),
342        overrideEc(_overrideEc)
343    {}
344
345    ExceptionClass ec(ThreadContext *tc) const;
346};
347
348class HypervisorCall : public ArmFaultVals<HypervisorCall>
349{
350  public:
351    HypervisorCall(ExtMachInst _machInst, uint32_t _imm);
352};
353
354class HypervisorTrap : public ArmFaultVals<HypervisorTrap>
355{
356  protected:
357    ExtMachInst machInst;
358    ExceptionClass overrideEc;
359
360  public:
361    HypervisorTrap(ExtMachInst _machInst, uint32_t _iss,
362                   ExceptionClass _overrideEc = EC_INVALID) :
363      ArmFaultVals<HypervisorTrap>(_machInst, _iss),
364      overrideEc(_overrideEc)
365    {}
366
367    ExceptionClass ec(ThreadContext *tc) const;
368};
369
370template <class T>
371class AbortFault : public ArmFaultVals<T>
372{
373  protected:
374    /**
375     * The virtual address the fault occured at. If 2 stages of
376     * translation are being used then this is the intermediate
377     * physical address that is the starting point for the second
378     * stage of translation.
379     */
380    Addr faultAddr;
381    /**
382     * Original virtual address. If the fault was generated on the
383     * second stage of translation then this variable stores the
384     * virtual address used in the original stage 1 translation.
385     */
386    Addr OVAddr;
387    bool write;
388    TlbEntry::DomainType domain;
389    uint8_t source;
390    uint8_t srcEncoded;
391    bool stage2;
392    bool s1ptw;
393    ArmFault::TranMethod tranMethod;
394
395  public:
396    AbortFault(Addr _faultAddr, bool _write, TlbEntry::DomainType _domain, uint8_t _source,
397               bool _stage2, ArmFault::TranMethod _tranMethod = ArmFault::UnknownTran) :
398        faultAddr(_faultAddr), write(_write), domain(_domain), source(_source),
399        stage2(_stage2), s1ptw(false), tranMethod(_tranMethod)
400    {}
401
402    void invoke(ThreadContext *tc,
403            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
404
405    FSR getFsr(ThreadContext *tc);
406    bool abortDisable(ThreadContext *tc);
407    uint32_t iss() const;
408    bool isStage2() const { return stage2; }
409    void annotate(ArmFault::AnnotationIDs id, uint64_t val);
410    bool isMMUFault() const;
411};
412
413class PrefetchAbort : public AbortFault<PrefetchAbort>
414{
415  public:
416    static const MiscRegIndex FsrIndex  = MISCREG_IFSR;
417    static const MiscRegIndex FarIndex  = MISCREG_IFAR;
418    static const MiscRegIndex HFarIndex = MISCREG_HIFAR;
419
420    PrefetchAbort(Addr _addr, uint8_t _source, bool _stage2 = false,
421                  ArmFault::TranMethod _tranMethod = ArmFault::UnknownTran) :
422        AbortFault<PrefetchAbort>(_addr, false, TlbEntry::DomainType::NoAccess,
423                _source, _stage2, _tranMethod)
424    {}
425
426    ExceptionClass ec(ThreadContext *tc) const;
427    // @todo: external aborts should be routed if SCR.EA == 1
428    bool routeToMonitor(ThreadContext *tc) const;
429    bool routeToHyp(ThreadContext *tc) const;
430};
431
432class DataAbort : public AbortFault<DataAbort>
433{
434  public:
435    static const MiscRegIndex FsrIndex  = MISCREG_DFSR;
436    static const MiscRegIndex FarIndex  = MISCREG_DFAR;
437    static const MiscRegIndex HFarIndex = MISCREG_HDFAR;
438    bool    isv;
439    uint8_t sas;
440    uint8_t sse;
441    uint8_t srt;
442
443    // AArch64 only
444    bool sf;
445    bool ar;
446
447    DataAbort(Addr _addr, TlbEntry::DomainType _domain, bool _write, uint8_t _source,
448              bool _stage2 = false, ArmFault::TranMethod _tranMethod = ArmFault::UnknownTran) :
449        AbortFault<DataAbort>(_addr, _write, _domain, _source, _stage2,
450                              _tranMethod),
451        isv(false), sas (0), sse(0), srt(0), sf(false), ar(false)
452    {}
453
454    ExceptionClass ec(ThreadContext *tc) const;
455    // @todo: external aborts should be routed if SCR.EA == 1
456    bool routeToMonitor(ThreadContext *tc) const;
457    bool routeToHyp(ThreadContext *tc) const;
458    uint32_t iss() const;
459    void annotate(AnnotationIDs id, uint64_t val);
460};
461
462class VirtualDataAbort : public AbortFault<VirtualDataAbort>
463{
464  public:
465    static const MiscRegIndex FsrIndex  = MISCREG_DFSR;
466    static const MiscRegIndex FarIndex  = MISCREG_DFAR;
467    static const MiscRegIndex HFarIndex = MISCREG_HDFAR;
468
469    VirtualDataAbort(Addr _addr, TlbEntry::DomainType _domain, bool _write,
470                     uint8_t _source) :
471        AbortFault<VirtualDataAbort>(_addr, _write, _domain, _source, false)
472    {}
473
474    void invoke(ThreadContext *tc, StaticInstPtr inst);
475};
476
477class Interrupt : public ArmFaultVals<Interrupt>
478{
479  public:
480    bool routeToMonitor(ThreadContext *tc) const;
481    bool routeToHyp(ThreadContext *tc) const;
482    bool abortDisable(ThreadContext *tc);
483};
484
485class VirtualInterrupt : public ArmFaultVals<VirtualInterrupt>
486{
487  public:
488    VirtualInterrupt();
489};
490
491class FastInterrupt : public ArmFaultVals<FastInterrupt>
492{
493  public:
494    bool routeToMonitor(ThreadContext *tc) const;
495    bool routeToHyp(ThreadContext *tc) const;
496    bool abortDisable(ThreadContext *tc);
497    bool fiqDisable(ThreadContext *tc);
498};
499
500class VirtualFastInterrupt : public ArmFaultVals<VirtualFastInterrupt>
501{
502  public:
503    VirtualFastInterrupt();
504};
505
506/// PC alignment fault (AArch64 only)
507class PCAlignmentFault : public ArmFaultVals<PCAlignmentFault>
508{
509  protected:
510    /// The unaligned value of the PC
511    Addr faultPC;
512  public:
513    PCAlignmentFault(Addr _faultPC) : faultPC(_faultPC)
514    {}
515    void invoke(ThreadContext *tc,
516            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
517};
518
519/// Stack pointer alignment fault (AArch64 only)
520class SPAlignmentFault : public ArmFaultVals<SPAlignmentFault>
521{
522  public:
523    SPAlignmentFault();
524};
525
526/// System error (AArch64 only)
527class SystemError : public ArmFaultVals<SystemError>
528{
529  public:
530    SystemError();
531    void invoke(ThreadContext *tc,
532            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
533    bool routeToMonitor(ThreadContext *tc) const;
534    bool routeToHyp(ThreadContext *tc) const;
535};
536
537// A fault that flushes the pipe, excluding the faulting instructions
538class FlushPipe : public ArmFaultVals<FlushPipe>
539{
540  public:
541    FlushPipe() {}
542    void invoke(ThreadContext *tc,
543            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
544};
545
546// A fault that flushes the pipe, excluding the faulting instructions
547class ArmSev : public ArmFaultVals<ArmSev>
548{
549  public:
550    ArmSev () {}
551    void invoke(ThreadContext *tc,
552            StaticInstPtr inst = StaticInst::nullStaticInstPtr);
553};
554
555/// Illegal Instruction Set State fault (AArch64 only)
556class IllegalInstSetStateFault : public ArmFaultVals<IllegalInstSetStateFault>
557{
558  public:
559    IllegalInstSetStateFault();
560};
561
562} // namespace ArmISA
563
564#endif // __ARM_FAULTS_HH__
565