/* * \file trc_pkt_proc_stm.h * \brief OpenCSD : STM packet processing * * \copyright Copyright (c) 2015, ARM Limited. All Rights Reserved. */ /* * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors * may be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef ARM_TRC_PKT_PROC_STM_H_INCLUDED #define ARM_TRC_PKT_PROC_STM_H_INCLUDED #include #include "trc_pkt_types_stm.h" #include "common/trc_pkt_proc_base.h" #include "trc_pkt_elem_stm.h" #include "trc_cmp_cfg_stm.h" /** @addtogroup ocsd_pkt_proc @{*/ class TrcPktProcStm : public TrcPktProcBase { public: TrcPktProcStm(); TrcPktProcStm(int instIDNum); virtual ~TrcPktProcStm(); protected: /* implementation packet processing interface */ virtual ocsd_datapath_resp_t processData( const ocsd_trc_index_t index, const uint32_t dataBlockSize, const uint8_t *pDataBlock, uint32_t *numBytesProcessed); virtual ocsd_datapath_resp_t onEOT(); virtual ocsd_datapath_resp_t onReset(); virtual ocsd_datapath_resp_t onFlush(); virtual ocsd_err_t onProtocolConfig(); virtual const bool isBadPacket() const; typedef enum _process_state { WAIT_SYNC, PROC_HDR, PROC_DATA, SEND_PKT } process_state; process_state m_proc_state; private: void initObj(); void initProcessorState(); void initNextPacket(); void waitForSync(const ocsd_trc_index_t blk_st_index); ocsd_datapath_resp_t outputPacket(); //!< send packet on output void sendPacket(); //!< mark packet for send. void setProcUnsynced(); //!< set processor state to unsynced void throwBadSequenceError(const char *pszMessage = ""); void throwReservedHdrError(const char *pszMessage = ""); // packet processing routines // 1 nibble opcodes void stmPktReserved(); void stmPktNull(); void stmPktM8(); void stmPktMERR(); void stmPktC8(); void stmPktD4(); void stmPktD8(); void stmPktD16(); void stmPktD32(); void stmPktD64(); void stmPktD4MTS(); void stmPktD8MTS(); void stmPktD16MTS(); void stmPktD32MTS(); void stmPktD64MTS(); void stmPktFlagTS(); void stmPktFExt(); // 2 nibble opcodes 0xFn void stmPktReservedFn(); void stmPktF0Ext(); void stmPktGERR(); void stmPktC16(); void stmPktD4TS(); void stmPktD8TS(); void stmPktD16TS(); void stmPktD32TS(); void stmPktD64TS(); void stmPktD4M(); void stmPktD8M(); void stmPktD16M(); void stmPktD32M(); void stmPktD64M(); void stmPktFlag(); void stmPktASync(); // 3 nibble opcodes 0xF0n void stmPktReservedF0n(); void stmPktVersion(); void stmPktNullTS(); void stmPktTrigger(); void stmPktTriggerTS(); void stmPktFreq(); void stmExtractTS(); // extract a TS in packets that require it. void stmExtractVal8(uint8_t nibbles_to_val); void stmExtractVal16(uint8_t nibbles_to_val); void stmExtractVal32(uint8_t nibbles_to_val); void stmExtractVal64(uint8_t nibbles_to_val); uint64_t bin_to_gray(uint64_t bin_value); uint64_t gray_to_bin(uint64_t gray_value); void pktNeedsTS(); // init the TS extraction routines // data processing op function tables void buildOpTables(); typedef void (TrcPktProcStm::*PPKTFN)(void); PPKTFN m_pCurrPktFn; // current active processing function. PPKTFN m_1N_ops[0x10]; PPKTFN m_2N_ops[0x10]; PPKTFN m_3N_ops[0x10]; // read a nibble from the input data - may read a byte and set spare or return spare. // handles setting up packet data block and end of input bool readNibble(); const bool dataToProcess() const; //!< true if data to process, or packet to send void savePacketByte(const uint8_t val); //!< save data to packet buffer if we need it for monitor. // packet data StmTrcPacket m_curr_packet; //!< current packet. bool m_bNeedsTS; //!< packet requires a TS bool m_bIsMarker; bool m_bStreamSync; //!< packet stream is synced // input data handling uint8_t m_num_nibbles; //!< number of nibbles in the current packet uint8_t m_nibble; //!< current nibble being processed. uint8_t m_nibble_2nd; //!< 2nd unused nibble from a processed byte. bool m_nibble_2nd_valid; //!< 2nd nibble is valid; uint8_t m_num_data_nibbles; //!< number of nibbles needed to acheive payload. const uint8_t *m_p_data_in; //!< pointer to input data. uint32_t m_data_in_size; //!< amount of data in. uint32_t m_data_in_used; //!< amount of data processed. ocsd_trc_index_t m_packet_index; //!< byte index for start of current packet std::vector m_packet_data; //!< current packet data (bytes) - only saved if needed to output to monitor. bool m_bWaitSyncSaveSuppressed; //!< don't save byte at a time when waitsync // payload data uint8_t m_val8; //!< 8 bit payload. uint16_t m_val16; //!< 16 bit payload uint32_t m_val32; //!< 32 bit payload uint64_t m_val64; //!< 64 bit payload // timestamp handling uint8_t m_req_ts_nibbles; uint8_t m_curr_ts_nibbles; uint64_t m_ts_update_value; bool m_ts_req_set; // sync handling - need to spot sync mid other packet in case of wrap / discontinuity uint8_t m_num_F_nibbles; //!< count consecutive F nibbles. bool m_sync_start; //!< possible start of sync bool m_is_sync; //!< true if found sync at current nibble ocsd_trc_index_t m_sync_index; //!< index of start of possible sync packet void checkSyncNibble(); //!< check current nibble as part of sync. void clearSyncCount(); //!< valid packet, so clear sync counters (i.e. a trailing ffff is not part of sync). class monAttachNotify : public IComponentAttachNotifier { public: monAttachNotify() { m_bInUse = false; }; virtual ~monAttachNotify() {}; virtual void attachNotify(const int num_attached) { m_bInUse = (num_attached > 0); }; const bool usingMonitor() const { return m_bInUse; }; private: bool m_bInUse; } mon_in_use; }; inline const bool TrcPktProcStm::dataToProcess() const { // data to process if // 1) not processed all the input bytes // 2) there is still a nibble available from the last byte. // 3) bytes processed, but there is a full packet to send return (m_data_in_used < m_data_in_size) || m_nibble_2nd_valid || (m_proc_state == SEND_PKT); } inline void TrcPktProcStm::checkSyncNibble() { if(m_nibble != 0xF) { if(!m_sync_start) return; if((m_nibble == 0) && (m_num_F_nibbles >= 21)) { m_is_sync = true; //this nibble marks a sync sequence m_num_F_nibbles = 21; // set the F nibble count - lose any extra as unsynced data. } else { clearSyncCount(); // clear all sync counters } return; } m_num_F_nibbles++; if(!m_sync_start) { m_sync_start = true; m_sync_index = m_packet_index + ((m_num_nibbles - 1) / 2); } } inline void TrcPktProcStm::clearSyncCount() { m_num_F_nibbles = 0; m_sync_start = false; m_is_sync = false; } inline void TrcPktProcStm::sendPacket() { m_proc_state = SEND_PKT; } inline void TrcPktProcStm::setProcUnsynced() { m_proc_state = WAIT_SYNC; m_bStreamSync = false; } inline void TrcPktProcStm::savePacketByte(const uint8_t val) { // save packet data if using monitor and synchronised. if(mon_in_use.usingMonitor() && !m_bWaitSyncSaveSuppressed) m_packet_data.push_back(val); } /** @}*/ #endif // ARM_TRC_PKT_PROC_STM_H_INCLUDED /* End of File trc_pkt_proc_stm.h */