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1 /*
2  * \file       trc_pkt_elem_etmv3.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_ETMV3_H_INCLUDED
37 #define ARM_TRC_PKT_ELEM_ETMV3_H_INCLUDED
38 
39 #include "trc_pkt_types_etmv3.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 EtmV3TrcPacket
48  * @brief ETMv3 Trace Protocol Packet.
49  *
50  *  This class represents a single ETMv3 trace packet, along with intra packet state.
51  *
52  */
53 class EtmV3TrcPacket : public TrcPacketBase, public trcPrintableElem
54 {
55 public:
56     EtmV3TrcPacket();
57     ~EtmV3TrcPacket();
58 
59 // conversions between C-API struct and C++ object types
60     // assign from C-API struct
61     EtmV3TrcPacket &operator =(const ocsd_etmv3_pkt* p_pkt);
62 
63     // allow const cast to C-API struct to pass C++ object
64     operator const ocsd_etmv3_pkt*() const { return &m_pkt_data; };
65     operator const ocsd_etmv3_pkt&() const { return m_pkt_data; };
66 
67     // override c_pkt to pass out the packet data struct.
c_pkt()68     virtual const void *c_pkt() const { return &m_pkt_data; };
69 
70 // update interface - set packet values
71     void Clear();       //!< clear update data in packet ready for new one.
72     void ResetState();  //!< reset intra packet state data -on full decoder reset.
73 
74     void SetType(const ocsd_etmv3_pkt_type p_type);
75     void SetErrType(const ocsd_etmv3_pkt_type e_type);
76     void UpdateAddress(const ocsd_vaddr_t partAddrVal, const int updateBits);
77     void SetException(  const ocsd_armv7_exception type,
78                         const uint16_t number,
79                         const bool cancel,
80                         const bool cm_type,
81                         const int irq_n = 0,
82                         const int resume = 0);
83     void UpdateNS(const int NS);
84     void UpdateAltISA(const int AltISA);
85     void UpdateHyp(const int Hyp);
86     void UpdateISA(const ocsd_isa isa);
87     void UpdateContextID(const uint32_t contextID);
88     void UpdateVMID(const uint8_t VMID);
89     void UpdateTimestamp(const uint64_t tsVal, const uint8_t updateBits);
90 
91     bool UpdateAtomFromPHdr(const uint8_t pHdr, const bool cycleAccurate);  //!< Interpret P Hdr, return true if valid, false if not.
92 
93     void SetDataOOOTag(const uint8_t tag);
94     void SetDataValue(const uint32_t value);
95     void UpdateDataAddress(const uint32_t value, const uint8_t valid_bits);
96     void UpdateDataEndian(const uint8_t BE_Val);
97     void SetCycleCount(const uint32_t cycleCount);
98     void SetISyncReason(const ocsd_iSync_reason reason);
99     void SetISyncHasCC();
100     void SetISyncIsLSiP();
101     void SetISyncNoAddr();
102 
103 // packet status interface - get packet info.
getType()104     const ocsd_etmv3_pkt_type getType() const { return m_pkt_data.type; };
105     const bool isBadPacket() const;
106 
AltISA()107     const int AltISA() const { return m_pkt_data.context.curr_alt_isa; };
ISA()108     const ocsd_isa ISA() const { return m_pkt_data.curr_isa; };
changedISA()109     const bool changedISA() const { return m_pkt_data.curr_isa != m_pkt_data.prev_isa; };
110 
111     // any of the context elements updated?
112     const bool isCtxtUpdated() const;
isCtxtFlagsUpdated()113     const bool isCtxtFlagsUpdated() const { return (m_pkt_data.context.updated == 1); };
isNS()114     const bool isNS() const { return m_pkt_data.context.curr_NS; };
isHyp()115     const bool isHyp() const { return m_pkt_data.context.curr_Hyp; };
116 
isCtxtIDUpdated()117     const bool isCtxtIDUpdated() const { return (m_pkt_data.context.updated_c == 1); }
getCtxtID()118     const uint32_t getCtxtID() const { return m_pkt_data.context.ctxtID; };
isVMIDUpdated()119     const bool isVMIDUpdated() const { return (m_pkt_data.context.updated_v == 1); }
getVMID()120     const uint32_t getVMID() const { return m_pkt_data.context.VMID; };
121 
getCycleCount()122     const uint32_t getCycleCount() const { return m_pkt_data.cycle_count; };
getTS()123     const uint64_t getTS() const { return m_pkt_data.timestamp; };
124 
isExcepPkt()125     const bool isExcepPkt() const { return (m_pkt_data.exception.bits.present == 1); };
excepType()126     const ocsd_armv7_exception excepType() const { return m_pkt_data.exception.type; };
excepNum()127     const uint16_t excepNum() const { return m_pkt_data.exception.number; };
isExcepCancel()128     const bool isExcepCancel() const { return (m_pkt_data.exception.bits.present == 1) && (m_pkt_data.exception.bits.cancel == 1); };
129 
getISyncReason()130     const ocsd_iSync_reason getISyncReason() const { return m_pkt_data.isync_info.reason; };
getISyncHasCC()131     const bool getISyncHasCC() const { return m_pkt_data.isync_info.has_cycle_count; };
getISyncIsLSiPAddr()132     const bool getISyncIsLSiPAddr() const { return m_pkt_data.isync_info.has_LSipAddress; };
getISyncNoAddr()133     const bool getISyncNoAddr() const { return m_pkt_data.isync_info.no_address; };
134 
getAddr()135     const ocsd_vaddr_t getAddr() const { return  m_pkt_data.addr.val; };
getDataAddr()136     const ocsd_vaddr_t getDataAddr() const { return  m_pkt_data.data.addr.val; };
137 
getAtom()138     const ocsd_pkt_atom &getAtom() const { return m_pkt_data.atom; };
getPHdrFmt()139     const uint8_t getPHdrFmt() const { return m_pkt_data.p_hdr_fmt; };
140 
141 
142 // printing
143     virtual void toString(std::string &str) const;
144     virtual void toStringFmt(const uint32_t fmtFlags, std::string &str) const;
145 
146 private:
147     const char *packetTypeName(const ocsd_etmv3_pkt_type type, const char **ppDesc) const;
148     void getBranchAddressStr(std::string &valStr) const;
149     void getAtomStr(std::string &valStr) const;
150     void getISyncStr(std::string &valStr) const;
151     void getISAStr(std::string &isaStr) const;
152     void getExcepStr(std::string &excepStr) const;
153 
154     ocsd_etmv3_pkt m_pkt_data;
155 };
156 
UpdateNS(const int NS)157 inline void EtmV3TrcPacket::UpdateNS(const int NS)
158 {
159     m_pkt_data.context.curr_NS = NS;
160     m_pkt_data.context.updated = 1;
161 };
162 
UpdateAltISA(const int AltISA)163 inline void EtmV3TrcPacket::UpdateAltISA(const int AltISA)
164 {
165     m_pkt_data.context.curr_alt_isa = AltISA;
166     m_pkt_data.context.updated = 1;
167 }
168 
UpdateHyp(const int Hyp)169 inline void EtmV3TrcPacket::UpdateHyp(const int Hyp)
170 {
171     m_pkt_data.context.curr_Hyp = Hyp;
172     m_pkt_data.context.updated = 1;
173 }
174 
UpdateISA(const ocsd_isa isa)175 inline void EtmV3TrcPacket::UpdateISA(const ocsd_isa isa)
176 {
177     m_pkt_data.prev_isa = m_pkt_data.curr_isa;
178     m_pkt_data.curr_isa = isa;
179 }
180 
SetType(const ocsd_etmv3_pkt_type p_type)181 inline void EtmV3TrcPacket::SetType(const ocsd_etmv3_pkt_type p_type)
182 {
183     m_pkt_data.type = p_type;
184 }
185 
SetErrType(const ocsd_etmv3_pkt_type e_type)186 inline void EtmV3TrcPacket::SetErrType(const ocsd_etmv3_pkt_type e_type)
187 {
188     m_pkt_data.err_type = m_pkt_data.type;
189     m_pkt_data.type = e_type;
190 }
191 
isBadPacket()192 inline const bool EtmV3TrcPacket::isBadPacket() const
193 {
194     return (m_pkt_data.type >= ETM3_PKT_BAD_SEQUENCE);
195 }
196 
SetDataOOOTag(const uint8_t tag)197 inline void EtmV3TrcPacket::SetDataOOOTag(const uint8_t tag)
198 {
199     m_pkt_data.data.ooo_tag = tag;
200 }
201 
SetDataValue(const uint32_t value)202 inline void EtmV3TrcPacket::SetDataValue(const uint32_t value)
203 {
204     m_pkt_data.data.value = value;
205     m_pkt_data.data.update_dval = 1;
206 }
207 
UpdateContextID(const uint32_t contextID)208 inline void EtmV3TrcPacket::UpdateContextID(const uint32_t contextID)
209 {
210     m_pkt_data.context.updated_c = 1;
211     m_pkt_data.context.ctxtID = contextID;
212 }
213 
UpdateVMID(const uint8_t VMID)214 inline void EtmV3TrcPacket::UpdateVMID(const uint8_t VMID)
215 {
216     m_pkt_data.context.updated_v = 1;
217     m_pkt_data.context.VMID = VMID;
218 }
219 
UpdateDataEndian(const uint8_t BE_Val)220 inline void EtmV3TrcPacket::UpdateDataEndian(const uint8_t BE_Val)
221 {
222     m_pkt_data.data.be = BE_Val;
223     m_pkt_data.data.update_be = 1;
224 }
225 
SetCycleCount(const uint32_t cycleCount)226 inline void EtmV3TrcPacket::SetCycleCount(const uint32_t cycleCount)
227 {
228     m_pkt_data.cycle_count = cycleCount;
229 }
230 
SetISyncReason(const ocsd_iSync_reason reason)231 inline void EtmV3TrcPacket::SetISyncReason(const ocsd_iSync_reason reason)
232 {
233     m_pkt_data.isync_info.reason = reason;
234 }
235 
SetISyncHasCC()236 inline void EtmV3TrcPacket::SetISyncHasCC()
237 {
238     m_pkt_data.isync_info.has_cycle_count = 1;
239 }
240 
SetISyncIsLSiP()241 inline void EtmV3TrcPacket::SetISyncIsLSiP()
242 {
243     m_pkt_data.isync_info.has_LSipAddress = 1;
244 }
245 
SetISyncNoAddr()246 inline void EtmV3TrcPacket::SetISyncNoAddr()
247 {
248     m_pkt_data.isync_info.no_address = 1;
249 }
250 
isCtxtUpdated()251 inline const bool EtmV3TrcPacket::isCtxtUpdated() const
252 {
253      return (m_pkt_data.context.updated_v == 1) ||
254             (m_pkt_data.context.updated == 1) ||
255             (m_pkt_data.context.updated_c == 1);
256 }
257 
258 /** @}*/
259 #endif // ARM_TRC_PKT_ELEM_ETMV3_H_INCLUDED
260 
261 /* End of File trc_pkt_elem_etmv3.h */
262