/****************************************************************************** * Copyright (c) 2014 Potential Ventures Ltd * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Potential Ventures Ltd * 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 POTENTIAL VENTURES LTD 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 COCOTB_FLI_IMPL_H_ #define COCOTB_FLI_IMPL_H_ #include #ifdef COCOTBFLI_EXPORTS #define COCOTBFLI_EXPORT COCOTB_EXPORT #else #define COCOTBFLI_EXPORT COCOTB_IMPORT #endif #include #include #include "../gpi/gpi_priv.h" #include "_vendor/fli/mti.h" extern "C" { COCOTBFLI_EXPORT void cocotb_init(); void handle_fli_callback(void *data); } class FliImpl; class FliSignalObjHdl; // Callback handles // In FLI some callbacks require us to register a process // We use a subclass to track the process state related to the callback class FliProcessCbHdl : public virtual GpiCbHdl { public: FliProcessCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), m_proc_hdl(NULL) {} int cleanup_callback() override; protected: mtiProcessIdT m_proc_hdl; }; // One class of callbacks uses mti_Sensitize to react to a signal class FliSignalCbHdl : public FliProcessCbHdl, public GpiValueCbHdl { public: FliSignalCbHdl(GpiImplInterface *impl, FliSignalObjHdl *sig_hdl, int edge); int arm_callback() override; int cleanup_callback() override { return FliProcessCbHdl::cleanup_callback(); } private: mtiSignalIdT m_sig_hdl; }; // All other callbacks are related to the simulation phasing class FliSimPhaseCbHdl : public FliProcessCbHdl, public GpiCommonCbHdl { public: FliSimPhaseCbHdl(GpiImplInterface *impl, mtiProcessPriorityT priority) : GpiCbHdl(impl), FliProcessCbHdl(impl), GpiCommonCbHdl(impl), m_priority(priority) {} int arm_callback() override; protected: mtiProcessPriorityT m_priority; }; // FIXME templates? class FliReadWriteCbHdl : public FliSimPhaseCbHdl { public: FliReadWriteCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), FliSimPhaseCbHdl(impl, MTI_PROC_SYNCH) {} }; class FliNextPhaseCbHdl : public FliSimPhaseCbHdl { public: FliNextPhaseCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), FliSimPhaseCbHdl(impl, MTI_PROC_IMMEDIATE) {} }; class FliReadOnlyCbHdl : public FliSimPhaseCbHdl { public: FliReadOnlyCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), FliSimPhaseCbHdl(impl, MTI_PROC_POSTPONED) {} }; class FliStartupCbHdl : public FliProcessCbHdl { public: FliStartupCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), FliProcessCbHdl(impl) {} int arm_callback() override; int run_callback() override; int cleanup_callback() override; }; class FliShutdownCbHdl : public FliProcessCbHdl { public: FliShutdownCbHdl(GpiImplInterface *impl) : GpiCbHdl(impl), FliProcessCbHdl(impl) {} int arm_callback() override; int run_callback() override; int cleanup_callback() override; }; class FliTimedCbHdl : public FliProcessCbHdl, public GpiCommonCbHdl { public: FliTimedCbHdl(GpiImplInterface *impl, uint64_t time); int arm_callback() override; void reset_time(uint64_t new_time) { m_time = new_time; } int cleanup_callback() override; private: uint64_t m_time; }; // Object Handles class FliObj { public: FliObj(int acc_type, int acc_full_type) : m_acc_type(acc_type), m_acc_full_type(acc_full_type) {} virtual ~FliObj() = default; int get_acc_type() { return m_acc_type; } int get_acc_full_type() { return m_acc_full_type; } protected: int m_acc_type; int m_acc_full_type; }; class FliObjHdl : public GpiObjHdl, public FliObj { public: FliObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, int acc_type, int acc_full_type, bool is_const = false) : GpiObjHdl(impl, hdl, objtype, is_const), FliObj(acc_type, acc_full_type) {} int initialise(const std::string &name, const std::string &fq_name) override; }; class FliSignalObjHdl : public GpiSignalObjHdl, public FliObj { public: FliSignalObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var) : GpiSignalObjHdl(impl, hdl, objtype, is_const), FliObj(acc_type, acc_full_type), m_is_var(is_var), m_rising_cb(impl, this, GPI_RISING), m_falling_cb(impl, this, GPI_FALLING), m_either_cb(impl, this, GPI_FALLING | GPI_RISING) {} int initialise(const std::string &name, const std::string &fq_name) override; GpiCbHdl *register_value_change_callback(int edge, int (*function)(void *), void *cb_data) override; bool is_var() { return m_is_var; } protected: bool m_is_var; FliSignalCbHdl m_rising_cb; FliSignalCbHdl m_falling_cb; FliSignalCbHdl m_either_cb; }; class FliValueObjHdl : public FliSignalObjHdl { public: FliValueObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliSignalObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var), m_fli_type(typeKind), m_val_type(valType) {} ~FliValueObjHdl() override { if (m_val_buff != NULL) delete[] m_val_buff; if (m_sub_hdls != NULL) mti_VsimFree(m_sub_hdls); } const char *get_signal_value_binstr() override; const char *get_signal_value_str() override; double get_signal_value_real() override; long get_signal_value_long() override; int set_signal_value(int32_t value, gpi_set_action_t action) override; int set_signal_value(double value, gpi_set_action_t action) override; int set_signal_value_str(std::string &value, gpi_set_action_t action) override; int set_signal_value_binstr(std::string &value, gpi_set_action_t action) override; void *get_sub_hdl(int index); int initialise(const std::string &name, const std::string &fq_name) override; mtiTypeKindT get_fli_typekind() { return m_fli_type; } mtiTypeIdT get_fli_typeid() { return m_val_type; } protected: mtiTypeKindT m_fli_type; mtiTypeIdT m_val_type; char *m_val_buff = nullptr; void **m_sub_hdls = nullptr; }; class FliEnumObjHdl : public FliValueObjHdl { public: FliEnumObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliValueObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var, valType, typeKind) {} const char *get_signal_value_str() override; long get_signal_value_long() override; using FliValueObjHdl::set_signal_value; int set_signal_value(int32_t value, gpi_set_action_t action) override; int initialise(const std::string &name, const std::string &fq_name) override; private: char **m_value_enum = nullptr; // Do Not Free mtiInt32T m_num_enum = 0; }; class FliLogicObjHdl : public FliValueObjHdl { public: FliLogicObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliValueObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var, valType, typeKind) {} ~FliLogicObjHdl() override { if (m_mti_buff != NULL) delete[] m_mti_buff; } const char *get_signal_value_binstr() override; using FliValueObjHdl::set_signal_value; int set_signal_value(int32_t value, gpi_set_action_t action) override; int set_signal_value_binstr(std::string &value, gpi_set_action_t action) override; int initialise(const std::string &name, const std::string &fq_name) override; private: char *m_mti_buff = nullptr; char **m_value_enum = nullptr; // Do Not Free mtiInt32T m_num_enum = 0; std::map m_enum_map; }; class FliIntObjHdl : public FliValueObjHdl { public: FliIntObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliValueObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var, valType, typeKind) {} const char *get_signal_value_binstr() override; long get_signal_value_long() override; using FliValueObjHdl::set_signal_value; int set_signal_value(int32_t value, gpi_set_action_t action) override; int initialise(const std::string &name, const std::string &fq_name) override; }; class FliRealObjHdl : public FliValueObjHdl { public: FliRealObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliValueObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var, valType, typeKind) {} ~FliRealObjHdl() override { if (m_mti_buff != NULL) delete m_mti_buff; } double get_signal_value_real() override; using FliValueObjHdl::set_signal_value; int set_signal_value(double value, gpi_set_action_t action) override; int initialise(const std::string &name, const std::string &fq_name) override; private: double *m_mti_buff = nullptr; }; class FliStringObjHdl : public FliValueObjHdl { public: FliStringObjHdl(GpiImplInterface *impl, void *hdl, gpi_objtype_t objtype, bool is_const, int acc_type, int acc_full_type, bool is_var, mtiTypeIdT valType, mtiTypeKindT typeKind) : FliValueObjHdl(impl, hdl, objtype, is_const, acc_type, acc_full_type, is_var, valType, typeKind) {} ~FliStringObjHdl() override { if (m_mti_buff != NULL) delete[] m_mti_buff; } const char *get_signal_value_str() override; using FliValueObjHdl::set_signal_value; int set_signal_value_str(std::string &value, gpi_set_action_t action) override; int initialise(const std::string &name, const std::string &fq_name) override; private: char *m_mti_buff = nullptr; }; /** Maintains a cache of FliTimedCbHdl objects which can be reused. * * Apparently allocating and freeing Timer callback objects is very expensive * compared to anything Python or the simulator are doing. */ class FliTimerCache { public: FliTimerCache(FliImpl *impl) : impl(impl) {} FliTimedCbHdl *get_timer(uint64_t time); void put_timer(FliTimedCbHdl *); private: std::queue free_list; FliImpl *impl; }; class FliIterator : public GpiIterator { public: enum OneToMany { OTM_CONSTANTS, // include Generics OTM_SIGNALS, OTM_REGIONS, OTM_SIGNAL_SUB_ELEMENTS, OTM_VARIABLE_SUB_ELEMENTS }; FliIterator(GpiImplInterface *impl, GpiObjHdl *hdl); Status next_handle(std::string &name, GpiObjHdl **hdl, void **raw_hdl) override; private: void populate_handle_list(OneToMany childType); private: static std::map> iterate_over; /* Possible mappings */ std::vector *selected; /* Mapping currently in use */ std::vector::iterator one2many; std::vector m_vars; std::vector m_sigs; std::vector m_regs; std::vector *m_currentHandles; std::vector::iterator m_iterator; }; class FliImpl : public GpiImplInterface { public: FliImpl(const std::string &name) : GpiImplInterface(name), cache(this), m_readonly_cbhdl(this), m_nexttime_cbhdl(this), m_readwrite_cbhdl(this) {} /* Sim related */ void sim_end() override; void get_sim_time(uint32_t *high, uint32_t *low) override; void get_sim_precision(int32_t *precision) override; const char *get_simulator_product() override; const char *get_simulator_version() override; /* Hierachy related */ GpiObjHdl *native_check_create(const std::string &name, GpiObjHdl *parent) override; GpiObjHdl *native_check_create(int32_t index, GpiObjHdl *parent) override; GpiObjHdl *native_check_create(void *raw_hdl, GpiObjHdl *paret) override; GpiObjHdl *get_root_handle(const char *name) override; GpiIterator *iterate_handle(GpiObjHdl *obj_hdl, gpi_iterator_sel_t type) override; /* Callback related, these may (will) return the same handle*/ GpiCbHdl *register_timed_callback(uint64_t time, int (*function)(void *), void *cb_data) override; GpiCbHdl *register_readonly_callback(int (*function)(void *), void *cb_data) override; GpiCbHdl *register_nexttime_callback(int (*function)(void *), void *cb_data) override; GpiCbHdl *register_readwrite_callback(int (*function)(void *), void *cb_data) override; int deregister_callback(GpiCbHdl *obj_hdl) override; /* Method to provide strings from operation types */ const char *reason_to_string(int reason) override; /* Method to provide strings from operation types */ GpiObjHdl *create_gpi_obj_from_handle(void *hdl, const std::string &name, const std::string &fq_name, int accType, int accFullType); static bool compare_generate_labels(const std::string &a, const std::string &b); private: bool isValueConst(int kind); bool isValueLogic(mtiTypeIdT type); bool isValueChar(mtiTypeIdT type); bool isValueBoolean(mtiTypeIdT type); bool isTypeValue(int type); bool isTypeSignal(int type, int full_type); public: FliTimerCache cache; private: FliReadOnlyCbHdl m_readonly_cbhdl; FliNextPhaseCbHdl m_nexttime_cbhdl; FliReadWriteCbHdl m_readwrite_cbhdl; }; #endif /*COCOTB_FLI_IMPL_H_ */