// SPDX-License-Identifier: Apache-2.0 /* * Copyright (C) 2020 Gwenhael Goavec-Merou */ #ifndef SRC_FTDIJTAGMPSSE_HPP_ #define SRC_FTDIJTAGMPSSE_HPP_ #include #include #include #include #include #include "cable.hpp" #include "ftdipp_mpsse.hpp" #include "jtagInterface.hpp" /*! * \file FtdiJtagMPSSE.hpp * \class FtdiJtagMPSSE * \brief concrete class between jtag implementation and FTDI capable bitbang mode * \author Gwenhael Goavec-Merou */ class FtdiJtagMPSSE : public JtagInterface, public FTDIpp_MPSSE { public: FtdiJtagMPSSE(const cable_t &cable, const std::string &dev, const std::string &serial, uint32_t clkHZ, bool invert_read_edge, int8_t verbose = 0); virtual ~FtdiJtagMPSSE(); int setClkFreq(uint32_t clkHZ) override; uint32_t getClkFreq() override {return FTDIpp_MPSSE::getClkFreq();} /*! * Return constant to describe if read is on rising or falling TCK edge */ tck_edge_t getReadEdge() override { return _read_mode == MPSSE_READ_NEG ? FALLING_EDGE : RISING_EDGE; } /*! * configure TCK edge used for read */ void setReadEdge(tck_edge_t rd_edge) override { _read_mode = rd_edge == FALLING_EDGE ? MPSSE_READ_NEG : 0; } /*! * Return constant to describe if write is on rising or falling TCK edge */ tck_edge_t getWriteEdge() override { return _write_mode == MPSSE_WRITE_NEG ? FALLING_EDGE : RISING_EDGE; } /*! * configure TCK edge used for write */ void setWriteEdge(tck_edge_t wr_edge) override { _write_mode = wr_edge == FALLING_EDGE ? MPSSE_WRITE_NEG : 0; } /* TMS */ int writeTMS(const uint8_t *tms, uint32_t len, bool flush_buffer, const uint8_t tdi = 1) override; /* clock */ int toggleClk(uint8_t tms, uint8_t tdi, uint32_t clk_len) override; /* TDI */ int writeTDI(const uint8_t *tx, uint8_t *rx, uint32_t len, bool end) override; /*! * \brief send TMD and TDI and receive tdo bits; * \param tms: array of TMS values (used to write) * \param tdi: array of TDI values (used to write) * \param tdo: array of TDO values (used when read) * \param len: number of bit to send/receive * \return true with full buffers are sent, false otherwise */ bool writeTMSTDI(const uint8_t *tms, const uint8_t *tdi, uint8_t *tdo, uint32_t len) override; /*! * \brief return internal buffer size (in byte). * \return _buffer_size -3 for mpsse cmd + size, -1 for potential SEND_IMMEDIATE */ int get_buffer_size() override { return _buffer_size-3; } bool isFull() override { return false;} int flush() override; private: void init_internal(const mpsse_bit_config &cable); /* writeTMSTDI specifics */ /*! * \brief try to append tms buffer, flush content if > 6 * \param buffer: current tms buffer * \param bit: bit to append * \param offset: bits already stored * \param tdo: buffer used when reading after flush * \param len: length * \return < 0 if transaction fails, offset + 1 when append and 0 when flush */ int32_t update_tms_buff(uint8_t *buffer, uint8_t bit, uint32_t offset, uint8_t tdi, uint8_t *tdo, bool end = false); uint32_t update_tdo_buff(uint8_t *buffer, uint8_t *tdo, uint32_t len); /*! * \brief configure read and write edge (pos or neg), with freq < 15MHz * neg is used for write and pos to sample. with freq >= 15MHz * pos is used for write and neg to sample */ void config_edge(); bool _ch552WA; /* avoid errors with SiPeed tangNano */ bool _cmd8EWA; /* avoid errors with Sipeed FT2232H emulation */ uint8_t _write_mode; /**< write edge configuration */ uint8_t _read_mode; /**< read edge configuration */ bool _invert_read_edge; /**< read edge selection (false: pos, true: neg) */ /* writeTMSTDI specifics */ uint32_t _tdo_pos; uint8_t _curr_tdi; uint8_t _curr_tms; }; #endif // SRC_FTDIJTAGMPSSE_HPP_