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1 /*
2  * \file       trc_pkt_elem_etmv4i.h
3  * \brief      OpenCSD :
4  *
5  * \copyright  Copyright (c) 2015, ARM Limited. All Rights Reserved.
6  */
7 
8 
9 /*
10  * Redistribution and use in source and binary forms, with or without modification,
11  * are permitted provided that the following conditions are met:
12  *
13  * 1. Redistributions of source code must retain the above copyright notice,
14  * this list of conditions and the following disclaimer.
15  *
16  * 2. Redistributions in binary form must reproduce the above copyright notice,
17  * this list of conditions and the following disclaimer in the documentation
18  * and/or other materials provided with the distribution.
19  *
20  * 3. Neither the name of the copyright holder nor the names of its contributors
21  * may be used to endorse or promote products derived from this software without
22  * specific prior written permission.
23  *
24  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND
25  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
26  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
27  * IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
28  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
29  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
30  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
31  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
32  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
33  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
34  */
35 
36 #ifndef ARM_TRC_PKT_ELEM_ETMV4I_H_INCLUDED
37 #define ARM_TRC_PKT_ELEM_ETMV4I_H_INCLUDED
38 
39 #include "trc_pkt_types_etmv4.h"
40 #include "common/trc_printable_elem.h"
41 #include "common/trc_pkt_elem_base.h"
42 
43 /** @addtogroup trc_pkts
44 @{*/
45 
46 /*!
47 * @class Etmv4PktAddrStack
48 * @brief ETMv4 Address packet values stack
49 * @ingroup trc_pkts
50 *
51 *  This class represents a stack of recent broadcast address values -
52 *  used to fulfil the ExactMatch address type where no address is output.
53 *
54 */
55 class Etmv4PktAddrStack
56 {
57 public:
Etmv4PktAddrStack()58     Etmv4PktAddrStack()
59     {
60         reset_stack();
61     }
~Etmv4PktAddrStack()62     ~Etmv4PktAddrStack() {};
63 
push(const ocsd_pkt_vaddr vaddr,const uint8_t isa)64     void push(const ocsd_pkt_vaddr vaddr, const uint8_t isa)
65     {
66         m_v_addr[2] = m_v_addr[1];
67         m_v_addr[1] = m_v_addr[0];
68         m_v_addr[0] = vaddr;
69         m_v_addr_ISA[2] = m_v_addr_ISA[1];
70         m_v_addr_ISA[1] = m_v_addr_ISA[0];
71         m_v_addr_ISA[0] = isa;
72     }
73 
get_idx(const uint8_t idx,ocsd_pkt_vaddr & vaddr,uint8_t & isa)74     void get_idx(const uint8_t idx, ocsd_pkt_vaddr &vaddr, uint8_t &isa)
75     {
76         if (idx < 3)
77         {
78             vaddr = m_v_addr[idx];
79             isa = m_v_addr_ISA[idx];
80         }
81     }
82 
83     // explicit reset for TInfo.
reset_stack()84     void reset_stack()
85     {
86         for (int i = 0; i < 3; i++)
87         {
88             m_v_addr[i].pkt_bits = 0;
89             m_v_addr[i].size = OCSD_MAX_VA_BITSIZE == 64 ? VA_64BIT : VA_32BIT;
90             m_v_addr[i].val = 0;
91             m_v_addr[i].valid_bits = OCSD_MAX_VA_BITSIZE;
92             m_v_addr_ISA[i] = 0;
93         }
94 
95     }
96 
97 private:
98     ocsd_pkt_vaddr m_v_addr[3];         //!< most recently broadcast address packet
99     uint8_t        m_v_addr_ISA[3];
100 };
101 
102 /*!
103  * @class EtmV4ITrcPacket
104  * @brief ETMv4 Instuction Trace Protocol Packet.
105  * @ingroup trc_pkts
106  *
107  *  This class represents a single ETMv4 data trace packet, along with intra packet state.
108  *
109  */
110 class EtmV4ITrcPacket :  public TrcPacketBase, public ocsd_etmv4_i_pkt, public trcPrintableElem
111 {
112 public:
113     EtmV4ITrcPacket();
114     ~EtmV4ITrcPacket();
115 
116     EtmV4ITrcPacket &operator =(const ocsd_etmv4_i_pkt* p_pkt);
117 
c_pkt()118     virtual const void *c_pkt() const { return (const ocsd_etmv4_i_pkt *)this; };
119 
120     // update interface - set packet values
121     void initStartState();   //!< Set to initial state - no intra packet state valid. Use on start of trace / discontinuities.
122     void initNextPacket();  //!< clear any single packet only flags / state.
123 
setType(const ocsd_etmv4_i_pkt_type pkt_type)124     void setType(const ocsd_etmv4_i_pkt_type pkt_type) { type = pkt_type; };
125     void updateErrType(const ocsd_etmv4_i_pkt_type err_pkt_type, const uint8_t val = 0);
126 
127     void clearTraceInfo();  //!< clear all the trace info data prior to setting for new trace info packet.
128     void setTraceInfo(const uint32_t infoVal);
129     void setTraceInfoKey(const uint32_t keyVal);
130     void setTraceInfoSpec(const uint32_t specVal);
131     void setTraceInfoCyct(const uint32_t cyctVal);
132 
133     void setTS(const uint64_t value, const uint8_t bits);
134     void setCycleCount(const uint32_t value);
135     void setCommitElements(const uint32_t commit_elem);
136     void setCancelElements(const uint32_t cancel_elem);
137     void setAtomPacket(const ocsd_pkt_atm_type type, const uint32_t En_bits, const uint8_t num);
138 
139     void setCondIF1(uint32_t const cond_key);
140     void setCondIF2(uint8_t const c_elem_idx);
141     void setCondIF3(uint8_t const num_c_elem, const bool finalElem);
142 
143     void setCondRF1(const uint32_t key[2], const uint8_t res[2], const uint8_t CI[2], const bool set2Keys);
144     void setCondRF2(const uint8_t key_incr, const uint8_t token);
145     void setCondRF3(const uint16_t tokens);
146     void setCondRF4(const uint8_t token);
147 
148     void setContextInfo(const bool update, const uint8_t EL = 0, const uint8_t NS = 0, const uint8_t SF = 0);
149     void setContextVMID(const uint32_t VMID);
150     void setContextCID(const uint32_t CID);
151 
152     void setExceptionInfo(const uint16_t excep_type, const uint8_t addr_interp, const uint8_t m_fault_pending, const uint8_t m_type);
153 
154     void set64BitAddress(const uint64_t addr, const uint8_t IS);
155     void set32BitAddress(const uint32_t addr, const uint8_t IS);
156     void updateShortAddress(const uint32_t addr, const uint8_t IS, const uint8_t update_bits);
157     void setAddressExactMatch(const uint8_t idx);
158 
159     void setDataSyncMarker(const uint8_t dsm_val);
160     void setEvent(const uint8_t event_val);
161 
162     void setQType(const bool has_count, const uint32_t count, const bool has_addr, const bool addr_match, const uint8_t type);
163 
164     // packet status interface - get packet info.
getType()165     const ocsd_etmv4_i_pkt_type getType() const { return type; };
getErrType()166     const ocsd_etmv4_i_pkt_type getErrType() const { return err_type; };
167 
168     //! return true if this packet has set the commit packet count.
hasCommitElementsCount()169     const bool hasCommitElementsCount() const
170     {
171         return pkt_valid.bits.commit_elem_valid ? true : false;
172     };
173 
174     // trace info
getTraceInfo()175     const etmv4_trace_info_t &getTraceInfo() const { return trace_info; };
176     const uint32_t getCCThreshold() const;
177     const uint32_t getP0Key() const;
178     const uint32_t getCurrSpecDepth() const;
179 
180     // atom
getAtom()181     const ocsd_pkt_atom &getAtom() const { return atom; };
getNumAtoms()182     const int getNumAtoms() const { return atom.num; };
183 
184     // context
getContext()185     const etmv4_context_t &getContext() const { return context; };
186 
187     // address
getAddrMatch()188     const uint8_t &getAddrMatch() const  { return addr_exact_match_idx; };
getAddrVal()189     const ocsd_vaddr_t &getAddrVal() const { return v_addr.val; };
getAddrIS()190     const uint8_t &getAddrIS() const { return v_addr_ISA; };
getAddr64Bit()191     const bool getAddr64Bit() const { return v_addr.size == VA_64BIT; };
192 
193     // ts
getTS()194     const uint64_t getTS() const { return pkt_valid.bits.ts_valid ? ts.timestamp : 0; };
195 
196     // cc
getCC()197     const uint32_t getCC() const { return pkt_valid.bits.cc_valid ? cycle_count : 0; };
198 
199     // speculation
getCommitElem()200     const int getCommitElem() const { return commit_elements; };
getCancelElem()201     const int getCancelElem() const { return cancel_elements; };
202 
203     // packet type
204     const bool isBadPacket() const;
205 
206     // printing
207     virtual void toString(std::string &str) const;
208     virtual void toStringFmt(const uint32_t fmtFlags, std::string &str) const;
209 
setProtocolVersion(const uint8_t version)210     void setProtocolVersion(const uint8_t version) { protocol_version = version; };
211 
212 private:
213     const char *packetTypeName(const ocsd_etmv4_i_pkt_type type, const char **pDesc) const;
214     void contextStr(std::string &ctxtStr) const;
215     void atomSeq(std::string &valStr) const;
216     void addrMatchIdx(std::string &valStr) const;
217     void exceptionInfo(std::string &valStr) const;
218 
219     void push_vaddr();
220     void pop_vaddr_idx(const uint8_t idx);
221 
isETE()222     const bool isETE() const { return (protocol_version & 0xF0) == 0x50; };
223 
224     Etmv4PktAddrStack m_addr_stack;
225 };
226 
updateErrType(const ocsd_etmv4_i_pkt_type err_pkt_type,const uint8_t err_val)227 inline void  EtmV4ITrcPacket::updateErrType(const ocsd_etmv4_i_pkt_type err_pkt_type, const uint8_t err_val /* = 0 */)
228 {
229     // set primary type to incoming error type, set packet err type to previous primary type.
230     err_type = type;
231     type = err_pkt_type;
232     err_hdr_val = err_val;
233 }
234 
clearTraceInfo()235 inline void EtmV4ITrcPacket::clearTraceInfo()
236 {
237     pkt_valid.bits.ts_valid = 0;
238     pkt_valid.bits.trace_info_valid = 0;
239     pkt_valid.bits.p0_key_valid = 0;
240     pkt_valid.bits.spec_depth_valid = 0;
241     pkt_valid.bits.cc_thresh_valid  = 0;
242 
243     // set these as defaults - if they don't appear in TINFO this is the state.
244     setTraceInfo(0);
245     setTraceInfoSpec(0);
246 
247     // explicitly reset the stack & zero the current address.
248     m_addr_stack.reset_stack();
249     m_addr_stack.get_idx(0, v_addr, v_addr_ISA);
250 }
251 
setTraceInfo(const uint32_t infoVal)252 inline void EtmV4ITrcPacket::setTraceInfo(const uint32_t infoVal)
253 {
254     trace_info.val = infoVal;
255     pkt_valid.bits.trace_info_valid = 1;
256 }
257 
setTraceInfoKey(const uint32_t keyVal)258 inline void EtmV4ITrcPacket::setTraceInfoKey(const uint32_t keyVal)
259 {
260     p0_key = keyVal;
261     pkt_valid.bits.p0_key_valid = 1;
262 }
263 
setTraceInfoSpec(const uint32_t specVal)264 inline void EtmV4ITrcPacket::setTraceInfoSpec(const uint32_t specVal)
265 {
266     curr_spec_depth = specVal;
267     pkt_valid.bits.spec_depth_valid = 1;
268 }
269 
setTraceInfoCyct(const uint32_t cyctVal)270 inline void EtmV4ITrcPacket::setTraceInfoCyct(const uint32_t cyctVal)
271 {
272     cc_threshold = cyctVal;
273     pkt_valid.bits.cc_thresh_valid  = 1;
274 }
275 
setTS(const uint64_t value,const uint8_t bits)276 inline void EtmV4ITrcPacket::setTS(const uint64_t value, const uint8_t bits)
277 {
278     uint64_t mask = (uint64_t)-1LL;
279     if(bits < 64) mask = (1ULL << bits) - 1;
280     ts.timestamp = (ts.timestamp & ~mask) | (value & mask);
281     ts.bits_changed = bits;
282     pkt_valid.bits.ts_valid = 1;
283 }
284 
setCycleCount(const uint32_t value)285 inline void EtmV4ITrcPacket::setCycleCount(const uint32_t value)
286 {
287     pkt_valid.bits.cc_valid = 1;
288     cycle_count = value;
289 }
290 
setCommitElements(const uint32_t commit_elem)291 inline void EtmV4ITrcPacket::setCommitElements(const uint32_t commit_elem)
292 {
293     pkt_valid.bits.commit_elem_valid = 1;
294     commit_elements = commit_elem;
295 }
296 
getCCThreshold()297 inline const uint32_t EtmV4ITrcPacket::getCCThreshold() const
298 {
299     if(pkt_valid.bits.cc_thresh_valid)
300         return cc_threshold;
301     return 0;
302 }
303 
getP0Key()304 inline const uint32_t EtmV4ITrcPacket::getP0Key() const
305 {
306     if(pkt_valid.bits.p0_key_valid)
307         return p0_key;
308     return 0;
309 }
310 
getCurrSpecDepth()311 inline const uint32_t EtmV4ITrcPacket::getCurrSpecDepth() const
312 {
313     if(pkt_valid.bits.spec_depth_valid)
314         return curr_spec_depth;
315     return 0;
316 }
317 
setCancelElements(const uint32_t cancel_elem)318 inline void EtmV4ITrcPacket::setCancelElements(const uint32_t cancel_elem)
319 {
320     cancel_elements = cancel_elem;
321 }
322 
setAtomPacket(const ocsd_pkt_atm_type type,const uint32_t En_bits,const uint8_t num)323 inline void EtmV4ITrcPacket::setAtomPacket(const ocsd_pkt_atm_type type, const uint32_t En_bits, const uint8_t num)
324 {
325     if(type == ATOM_REPEAT)
326     {
327         uint32_t bit_patt = En_bits & 0x1;
328         if(bit_patt)
329         {
330             // none zero - all 1s
331             bit_patt = (bit_patt << num) - 1;
332         }
333         atom.En_bits = bit_patt;
334     }
335     else
336         atom.En_bits = En_bits;
337     atom.num = num;
338 }
339 
setCondIF1(const uint32_t cond_key)340 inline void EtmV4ITrcPacket::setCondIF1(const uint32_t cond_key)
341 {
342     cond_instr.cond_key_set = 1;
343     cond_instr.f3_final_elem = 0;
344     cond_instr.f2_cond_incr = 0;
345     cond_instr.num_c_elem = 1;
346     cond_instr.cond_c_key = cond_key;
347 }
348 
setCondIF2(const uint8_t c_elem_idx)349 inline void EtmV4ITrcPacket::setCondIF2(const uint8_t c_elem_idx)
350 {
351     cond_instr.cond_key_set = 0;
352     cond_instr.f3_final_elem = 0;
353     switch(c_elem_idx & 0x3)
354     {
355     case 0:
356         cond_instr.f2_cond_incr = 1;
357         cond_instr.num_c_elem = 1;
358         break;
359 
360     case 1:
361         cond_instr.f2_cond_incr = 0;
362         cond_instr.num_c_elem = 1;
363         break;
364 
365     case 2:
366         cond_instr.f2_cond_incr = 1;
367         cond_instr.num_c_elem = 2;
368         break;
369     }
370 }
371 
setCondIF3(const uint8_t num_c_elem,const bool finalElem)372 inline void EtmV4ITrcPacket::setCondIF3(const uint8_t num_c_elem, const bool finalElem)
373 {
374     cond_instr.cond_key_set = 0;
375     cond_instr.f3_final_elem = finalElem ? 1: 0;
376     cond_instr.f2_cond_incr = 0;
377     cond_instr.num_c_elem = num_c_elem;
378 }
379 
setCondRF1(const uint32_t key[2],const uint8_t res[2],const uint8_t CI[2],const bool set2Keys)380 inline void EtmV4ITrcPacket::setCondRF1(const uint32_t key[2], const uint8_t res[2], const uint8_t CI[2],const bool set2Keys)
381 {
382     cond_result.key_res_0_set = 1;
383     cond_result.cond_r_key_0 = key[0];
384     cond_result.res_0 = res[0];
385     cond_result.ci_0 = CI[0];
386 
387     if(set2Keys)
388     {
389         cond_result.key_res_1_set = 1;
390         cond_result.cond_r_key_1 = key[1];
391         cond_result.res_1 = res[1];
392         cond_result.ci_1 = CI[1];
393     }
394 }
395 
396 
setCondRF2(const uint8_t key_incr,const uint8_t token)397 inline void EtmV4ITrcPacket::setCondRF2(const uint8_t key_incr, const uint8_t token)
398 {
399     cond_result.key_res_0_set = 0;
400     cond_result.key_res_1_set = 0;
401     cond_result.f2_key_incr = key_incr;
402     cond_result.f2f4_token = token;
403 }
404 
setCondRF3(const uint16_t tokens)405 inline void EtmV4ITrcPacket::setCondRF3(const uint16_t tokens)
406 {
407     cond_result.key_res_0_set = 0;
408     cond_result.key_res_1_set = 0;
409     cond_result.f3_tokens = tokens;
410 }
411 
setCondRF4(const uint8_t token)412 inline void EtmV4ITrcPacket::setCondRF4(const uint8_t token)
413 {
414     cond_result.key_res_0_set = 0;
415     cond_result.key_res_1_set = 0;
416     cond_result.f2f4_token = token;
417 }
418 
setContextInfo(const bool update,const uint8_t EL,const uint8_t NS,const uint8_t SF)419 inline void EtmV4ITrcPacket::setContextInfo(const bool update, const uint8_t EL, const uint8_t NS, const uint8_t SF)
420 {
421     pkt_valid.bits.context_valid = 1;
422     if(update)
423     {
424         context.updated = 1;
425         context.EL = EL;
426         context.NS = NS;
427         context.SF = SF;
428     }
429 }
430 
setContextVMID(const uint32_t VMID)431 inline void EtmV4ITrcPacket::setContextVMID(const uint32_t VMID)
432 {
433     pkt_valid.bits.context_valid = 1;
434     context.updated = 1;
435     context.VMID = VMID;
436     context.updated_v = 1;
437 }
438 
setContextCID(const uint32_t CID)439 inline void EtmV4ITrcPacket::setContextCID(const uint32_t CID)
440 {
441     pkt_valid.bits.context_valid = 1;
442     context.updated = 1;
443     context.ctxtID = CID;
444     context.updated_c = 1;
445 }
446 
setExceptionInfo(const uint16_t excep_type,const uint8_t addr_interp,const uint8_t m_fault_pending,const uint8_t m_type)447 inline void EtmV4ITrcPacket::setExceptionInfo(const uint16_t excep_type, const uint8_t addr_interp, const uint8_t m_fault_pending, const uint8_t m_type)
448 {
449     exception_info.exceptionType = excep_type;
450     exception_info.addr_interp = addr_interp;
451     exception_info.m_fault_pending = m_fault_pending;
452     exception_info.m_type = m_type;
453 }
454 
set64BitAddress(const uint64_t addr,const uint8_t IS)455 inline void EtmV4ITrcPacket::set64BitAddress(const uint64_t addr, const uint8_t IS)
456 {
457     v_addr.pkt_bits = 64;
458     v_addr.valid_bits = 64;
459     v_addr.size = VA_64BIT;
460     v_addr.val = addr;
461     v_addr_ISA = IS;
462     push_vaddr();
463 }
464 
set32BitAddress(const uint32_t addr,const uint8_t IS)465 inline void EtmV4ITrcPacket::set32BitAddress(const uint32_t addr, const uint8_t IS)
466 {
467     uint64_t mask = OCSD_BIT_MASK(32);
468     v_addr.pkt_bits = 32;
469 
470 	if (pkt_valid.bits.context_valid && context.SF)
471 	{
472 		v_addr.size = VA_64BIT;
473 		v_addr.val = (v_addr.val & ~mask) | (addr & mask);
474 	}
475     else
476     {
477 		v_addr.val = addr;
478         v_addr.size = VA_32BIT;
479 	}
480 
481     if (v_addr.valid_bits < 32) // may be updating a 64 bit address so only set 32 if currently less.
482         v_addr.valid_bits = 32;
483 
484     v_addr_ISA = IS;
485     push_vaddr();
486 }
487 
updateShortAddress(const uint32_t addr,const uint8_t IS,const uint8_t update_bits)488 inline void EtmV4ITrcPacket::updateShortAddress(const uint32_t addr, const uint8_t IS, const uint8_t update_bits)
489 {
490     ocsd_vaddr_t update_mask = OCSD_BIT_MASK(update_bits);
491     v_addr.pkt_bits = update_bits;
492     if(v_addr.valid_bits < update_bits)
493         v_addr.valid_bits = update_bits;
494 
495     v_addr.val = (v_addr.val & ~update_mask) | (addr & update_mask);
496     v_addr_ISA = IS;
497     push_vaddr();
498 }
499 
setAddressExactMatch(const uint8_t idx)500 inline void EtmV4ITrcPacket::setAddressExactMatch(const uint8_t idx)
501 {
502     addr_exact_match_idx = idx;
503     pop_vaddr_idx(idx);
504     push_vaddr();
505 }
506 
setDataSyncMarker(const uint8_t dsm_value)507 inline void EtmV4ITrcPacket::setDataSyncMarker(const uint8_t dsm_value)
508 {
509     dsm_val = dsm_value;
510 }
511 
setEvent(const uint8_t event_value)512 inline void EtmV4ITrcPacket::setEvent(const uint8_t event_value)
513 {
514     event_val = event_value;
515 }
516 
setQType(const bool has_count,const uint32_t count,const bool has_addr,const bool addr_match,const uint8_t type)517 inline void EtmV4ITrcPacket::setQType(const bool has_count, const uint32_t count, const bool has_addr, const bool addr_match, const uint8_t type)
518 {
519     Q_pkt.q_count = count;
520     Q_pkt.q_type = type;
521     Q_pkt.count_present = has_count ? 1 : 0;
522     Q_pkt.addr_present = has_addr ? 1: 0;
523     Q_pkt.addr_match = addr_match ? 1 :0;
524 }
525 
isBadPacket()526 inline const bool EtmV4ITrcPacket::isBadPacket() const
527 {
528     return (type >= ETM4_PKT_I_BAD_SEQUENCE);
529 }
530 
push_vaddr()531 inline void  EtmV4ITrcPacket::push_vaddr()
532 {
533     m_addr_stack.push(v_addr, v_addr_ISA);
534 }
535 
pop_vaddr_idx(const uint8_t idx)536 inline void EtmV4ITrcPacket::pop_vaddr_idx(const uint8_t idx)
537 {
538     m_addr_stack.get_idx(idx, v_addr, v_addr_ISA);
539 }
540 
541 /** @}*/
542 
543 #endif // ARM_TRC_PKT_ELEM_ETMV4I_H_INCLUDED
544 
545 /* End of File trc_pkt_elem_etmv4i.h */
546