#ifndef LIBRUBY_H #define LIBRUBY_H #include #include typedef void* RubyPortHandle; enum RubyRequestType { RubyRequestType_NULL, RubyRequestType_IFETCH, RubyRequestType_LD, RubyRequestType_ST, RubyRequestType_Locked_Read, RubyRequestType_Locked_Write, RubyRequestType_RMW_Read, RubyRequestType_RMW_Write, RubyRequestType_NUM }; enum RubyAccessMode { RubyAccessMode_User, RubyAccessMode_Supervisor, RubyAccessMode_Device }; struct RubyRequest { uint64_t paddr; uint8_t* data; int len; uint64_t pc; RubyRequestType type; RubyAccessMode access_mode; unsigned proc_id; RubyRequest() {} RubyRequest(uint64_t _paddr, uint8_t* _data, int _len, uint64_t _pc, RubyRequestType _type, RubyAccessMode _access_mode, unsigned _proc_id = 0) : paddr(_paddr), data(_data), len(_len), pc(_pc), type(_type), access_mode(_access_mode), proc_id(_proc_id) {} }; /** * Initialize the system. cfg_file is a Ruby-lang configuration script */ void libruby_init(const char* cfg_file); /** * Tear down a configured system. Must be invoked after a call to libruby_init. */ void libruby_destroy(); /** * Print the last error encountered by ruby. Currently unimplemented. */ const char* libruby_last_error(); /** * Retrieve a handle to a RubyPort object, identified by name in the * configuration. You also pass in the callback function you want * this port to use when a request completes. Only one handle to a * port is allowed at a time. */ RubyPortHandle libruby_get_port(const char* name, void (*hit_callback)(int64_t access_id)); /** * Retrieve a handle to a RubyPort object, identified by name in the * configuration. */ RubyPortHandle libruby_get_port_by_name(const char* name); /** * issue_request returns a unique access_id to identify the ruby * transaction. This access_id is later returned to the caller via * hit_callback (passed to libruby_get_port) */ int64_t libruby_issue_request(RubyPortHandle p, struct RubyRequest request); /** * writes data directly into Ruby's data array. Note that this * ignores caches, and should be considered incoherent after * simulation starts. */ void libruby_write_ram(uint64_t paddr, uint8_t * data, int len); /** * reads data directory from Ruby's data array. Note that this * ignores caches, and should be considered incoherent after * simulation starts */ void libruby_read_ram(uint64_t paddr, uint8_t * data, int len); /** * tick the system n cycles. Eventually, will return the number of * cycles until the next event, but for now it always returns 0 */ int libruby_tick(int n); /** * self explainitory */ void libruby_print_config(std::ostream & out); /** * self explainitory */ void libruby_print_stats(std::ostream & out); /** * does not return until done */ void libruby_playback_trace(char * trace_filename); /* * enables the tracer and opens the trace file */ void libruby_start_tracing(char * record_filename); /* * closes the trace file */ void libruby_stop_tracing(); /** * get time */ uint64_t libruby_get_time(); #endif