Bochs/bochs/iodev/pit82c54.h

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/////////////////////////////////////////////////////////////////////////
// $Id: pit82c54.h,v 1.17 2008-12-29 20:16:08 sshwarts Exp $
/////////////////////////////////////////////////////////////////////////
//
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/*
* Emulator of an Intel 8254/82C54 Programmable Interval Timer.
* Greg Alexander <yakovlev@usa.com>
*/
#ifndef _PIT_82C54_H_
#define _PIT_82C54_H_ 1
typedef void (*out_handler_t)(bx_bool value);
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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
};
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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
};
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struct counter_type {
//Chip IOs;
bx_bool GATE; //GATE Input value at end of cycle
bx_bool OUTpin; //OUT output this cycle
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//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.
bx_bool bcd_mode; //1-bit BCD vs. Binary setting.
bx_bool null_count; //Null count bit of status register.
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//Latch status data;
bx_bool count_LSB_latched;
bx_bool count_MSB_latched;
bx_bool status_latched;
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//Miscelaneous State;
Bit32u count_binary; //Value of the count in binary.
bx_bool triggerGATE; //Whether we saw GATE rise this cycle.
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rw_status write_state; //Read state this cycle
rw_status read_state; //Read state this cycle
bx_bool count_written; //Whether a count written since programmed
bx_bool first_pass; //Whether or not this is the first loaded count.
bx_bool state_bit_1; //Miscelaneous state bits.
bx_bool state_bit_2;
Bit32u next_change_time; //Next time something besides count changes.
//0 means never.
out_handler_t out_handler; // OUT pin callback (for IRQ0)
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};
counter_type counter[3];
Bit8u controlword;
int seen_problems;
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void latch_counter(counter_type & thisctr);
void set_OUT (counter_type & thisctr, bx_bool data);
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void set_count (counter_type & thisctr, Bit32u data) BX_CPP_AttrRegparmN(2);
void set_count_to_binary (counter_type & thisctr) BX_CPP_AttrRegparmN(1);
void set_binary_to_count (counter_type & thisctr) BX_CPP_AttrRegparmN(1);
void decrement (counter_type & thisctr) BX_CPP_AttrRegparmN(1);
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void decrement_multiple(counter_type & thisctr, Bit32u cycles) BX_CPP_AttrRegparmN(2);
void clock(Bit8u cnum) BX_CPP_AttrRegparmN(1);
void print_counter(counter_type & thisctr);
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public:
pit_82C54 (void);
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void init (void);
void reset (unsigned type);
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void register_state(bx_param_c *parent);
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void clock_all(Bit32u cycles);
void clock_multiple(Bit8u cnum, Bit32u cycles);
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Bit8u read(Bit8u address);
void write(Bit8u address, Bit8u data);
void set_GATE(Bit8u cnum, bx_bool data);
bx_bool read_GATE(Bit8u cnum);
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bx_bool read_OUT(Bit8u cnum);
void set_OUT_handler(Bit8u cnum, out_handler_t outh);
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Bit32u get_clock_event_time(Bit8u cnum);
Bit32u get_next_event_time(void);
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Bit16u get_inlatch(int countnum);
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void print_cnum(Bit8u cnum);
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};
#endif