frodo-wii/Src/IEC.h

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2008-12-31 17:16:24 +01:00
/*
* IEC.h - IEC bus routines, 1541 emulation (DOS level)
*
* Frodo (C) 1994-1997,2002 Christian Bauer
*/
#ifndef _IEC_H
#define _IEC_H
// Maximum length of file names
const int NAMEBUF_LENGTH = 256;
// C64 status codes
enum {
ST_OK = 0, // No error
ST_READ_TIMEOUT = 0x02, // Timeout on reading
ST_TIMEOUT = 0x03, // Timeout
ST_EOF = 0x40, // End of file
ST_NOTPRESENT = 0x80 // Device not present
};
// 1541 error codes
enum {
ERR_OK, // 00 OK
ERR_WRITEERROR, // 25 WRITE ERROR
ERR_WRITEPROTECT, // 26 WRITE PROTECT ON
ERR_SYNTAX30, // 30 SYNTAX ERROR (unknown command)
ERR_SYNTAX33, // 33 SYNTAX ERROR (wildcards on writing)
ERR_WRITEFILEOPEN, // 60 WRITE FILE OPEN
ERR_FILENOTOPEN, // 61 FILE NOT OPEN
ERR_FILENOTFOUND, // 62 FILE NOT FOUND
ERR_ILLEGALTS, // 67 ILLEGAL TRACK OR SECTOR
ERR_NOCHANNEL, // 70 NO CHANNEL
ERR_STARTUP, // 73 Power-up message
ERR_NOTREADY // 74 DRIVE NOT READY
};
// IEC command codes
enum {
CMD_DATA = 0x60, // Data transfer
CMD_CLOSE = 0xe0, // Close channel
CMD_OPEN = 0xf0 // Open channel
};
// IEC ATN codes
enum {
ATN_LISTEN = 0x20,
ATN_UNLISTEN = 0x30,
ATN_TALK = 0x40,
ATN_UNTALK = 0x50
};
// Drive LED states
enum {
DRVLED_OFF, // Inactive, LED off
DRVLED_ON, // Active, LED on
DRVLED_ERROR // Error, blink LED
};
class Drive;
class C64Display;
class Prefs;
// Class for complete IEC bus system with drives 8..11
class IEC {
public:
IEC(C64Display *display);
~IEC();
void Reset(void);
void NewPrefs(Prefs *prefs);
void UpdateLEDs(void);
uint8 Out(uint8 byte, bool eoi);
uint8 OutATN(uint8 byte);
uint8 OutSec(uint8 byte);
uint8 In(uint8 *byte);
void SetATN(void);
void RelATN(void);
void Turnaround(void);
void Release(void);
private:
uint8 listen(int device);
uint8 talk(int device);
uint8 unlisten(void);
uint8 untalk(void);
uint8 sec_listen(void);
uint8 sec_talk(void);
uint8 open_out(uint8 byte, bool eoi);
uint8 data_out(uint8 byte, bool eoi);
uint8 data_in(uint8 *byte);
C64Display *the_display; // Pointer to display object (for drive LEDs)
char name_buf[NAMEBUF_LENGTH]; // Buffer for file names and command strings
char *name_ptr; // Pointer for reception of file name
int name_len; // Received length of file name
Drive *drive[4]; // 4 drives (8..11)
Drive *listener; // Pointer to active listener
Drive *talker; // Pointer to active talker
bool listener_active; // Listener selected, listener_data is valid
bool talker_active; // Talker selected, talker_data is valid
bool listening; // Last ATN was listen (to decide between sec_listen/sec_talk)
uint8 received_cmd; // Received command code ($x0)
uint8 sec_addr; // Received secondary address ($0x)
};
// Abstract superclass for individual drives
class Drive {
public:
Drive(IEC *iec);
virtual ~Drive() {}
virtual uint8 Open(int channel, char *filename)=0;
virtual uint8 Close(int channel)=0;
virtual uint8 Read(int channel, uint8 *byte)=0;
virtual uint8 Write(int channel, uint8 byte, bool eoi)=0;
virtual void Reset(void)=0;
int LED; // Drive LED state
bool Ready; // Drive is ready for operation
protected:
void set_error(int error);
char *error_ptr; // Pointer within error message
int error_len; // Remaining length of error message
private:
IEC *the_iec; // Pointer to IEC object
};
#endif