///////////////////////////////////////////////////////////////////////// // $Id: pit82c54.h,v 1.11 2002-08-27 19:54:46 bdenney Exp $ ///////////////////////////////////////////////////////////////////////// // /* * Emulator of an Intel 8254/82C54 Programmable Interval Timer. * Greg Alexander * * This code is not yet linked into Bochs, but has been included so * that you can experiment with it. (bbd) */ #ifndef _PIT_82C54_H_ #define _PIT_82C54_H_ 1 #include "bochs.h" class pit_82C54 : public logfunctions { public: //Please do not use these. They are public because they have to be // to compile on some platforms. They are not to be used by other // classes. enum rw_status { LSByte=0, MSByte=1, LSByte_multiple=2, MSByte_multiple=3 }; private: enum { MAX_COUNTER=2, MAX_ADDRESS=3, CONTROL_ADDRESS=3, MAX_MODE=5 }; enum real_RW_status { LSB_real=1, MSB_real=2, BOTH_real=3 }; enum problem_type { UNL_2P_READ=1 }; struct counter_type { //Chip IOs; bool GATE; //GATE Input value at end of cycle bool OUTpin; //OUT output this cycle //Architected state; Bit32u count; //Counter value this cycle Bit16u outlatch; //Output latch this cycle Bit16u inlatch; //Input latch this cycle Bit8u status_latch; //Status Register data; Bit8u rw_mode; //2-bit R/W mode from command word register. Bit8u mode; //3-bit mode from command word register. bool bcd_mode; //1-bit BCD vs. Binary setting. bool null_count; //Null count bit of status register. //Latch status data; bool count_LSB_latched; bool count_MSB_latched; bool status_latched; //Miscelaneous State; Bit32u count_binary; //Value of the count in binary. bool triggerGATE; //Whether we saw GATE rise this cycle. rw_status write_state; //Read state this cycle rw_status read_state; //Read state this cycle bool count_written; //Whether a count written since programmed bool first_pass; //Whether or not this is the first loaded count. bool state_bit_1; //Miscelaneous state bits. bool state_bit_2; Bit32u next_change_time; //Next time something besides count changes. //0 means never. }; counter_type counter[3]; Bit8u controlword; int seen_problems; void latch_counter(counter_type & thisctr); void set_OUT (counter_type & thisctr, bool data); void set_count (counter_type & thisctr, Bit32u data); void set_count_to_binary (counter_type & thisctr); void set_binary_to_count (counter_type & thisctr); void decrement (counter_type & thisctr); void decrement_multiple(counter_type & thisctr, Bit32u cycles); void clock(Bit8u cnum); void print_counter(counter_type & thisctr); public: void init (void); void reset (unsigned type); pit_82C54 (void); void clock_all(Bit32u cycles); void clock_multiple(Bit8u cnum, Bit32u cycles); Bit8u read(Bit8u address); void write(Bit8u address, Bit8u data); void set_GATE(Bit8u cnum, bool data); bool read_GATE(Bit8u cnum); bool read_OUT(Bit8u cnum); Bit32u get_clock_event_time(Bit8u cnum); Bit32u get_next_event_time(void); void print_cnum(Bit8u cnum); }; #endif