WebSVN – pentevo – /avr/current/zx.c

#include <avr/io.h>
#include <avr/interrupt.h>
#include <avr/pgmspace.h>
#include <util/delay.h>
#include "mytypes.h"
#include "zx.h"
#include "kbmap.h"
#include "pins.h"
#include "main.h"
#include "spi.h"
#include "rs232.h"
#include "ps2.h"
#include "rtc.h"
//if want Log than comment next string
#undef LOGENABLE
//zx mouse registers
volatile UBYTE zx_mouse_button;
volatile UBYTE zx_mouse_x;
volatile UBYTE zx_mouse_y;
// PS/2 keyboard control keys status (for additional functons)
volatile UBYTE kb_ctrl_status;
// PS/2 keyboard control keys mapped to zx keyboard (mapped keys not used in additional functions)
volatile UBYTE kb_ctrl_mapped;
#define ZX_FIFO_SIZE 256 /* do not change this since it must be exactly byte-wise */
UBYTE zx_fifo[ZX_FIFO_SIZE];
UBYTE zx_fifo_in_ptr;
UBYTE zx_fifo_out_ptr;
UBYTE zx_counters[40]; // filter ZX keystrokes here to assure every is pressed and released only once
UBYTE zx_map[5]; // keys bitmap. send order: LSbit first, from [4] to [0]
volatile UBYTE shift_pause;
UBYTE zx_realkbd[11];
void zx_init(void)
{
zx_fifo_in_ptr=zx_fifo_out_ptr=0;
zx_task(ZX_TASK_INIT);
//reset Z80
zx_spi_send(SPI_RST_REG, 0, 0);
}
UBYTE zx_spi_send(UBYTE addr, UBYTE data, UBYTE mask)
{
UBYTE status;
UBYTE ret;
nSPICS_PORT &= ~(1<<nSPICS); // fix for status locking
nSPICS_PORT |= (1<<nSPICS); // set address of SPI register
status = spi_send(addr);
nSPICS_PORT &= ~(1<<nSPICS); // send data for that register
ret = spi_send(data);
nSPICS_PORT |= (1<<nSPICS);
//if CPU waited
if ( status&mask ) zx_wait_task(status);
return ret;
}
void zx_task(UBYTE operation) // zx task, tracks when there is need to send new keymap to the fpga
{
static UBYTE prev_code;
static UBYTE task_state;
//static UBYTE reset_type;
UBYTE was_data;
UBYTE code,keynum,keybit;
if ( operation==ZX_TASK_INIT )
{
//reset_type = 0;
prev_code = KEY_V+1; // impossible scancode
task_state = 0;
shift_pause = 0;
zx_clr_kb();
//check control keys whoes mapped to zx keyboard
//(mapped keys not used in additional functions)
kb_ctrl_mapped = 0;
if( kbmap_get(0x14,0).tw != (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8) ) kb_ctrl_mapped |= KB_LCTRL_MASK;
if( kbmap_get(0x14,1).tw != (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8) ) kb_ctrl_mapped |= KB_RCTRL_MASK;
if( kbmap_get(0x11,0).tw != (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8) ) kb_ctrl_mapped |= KB_LALT_MASK;
if( kbmap_get(0x11,1).tw != (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8) ) kb_ctrl_mapped |= KB_RALT_MASK;
/*
//detect if CTRL-ALT-DEL keys mapped
// if ( ((kbmap[0x14*2] == NO_KEY) && (kbmap[0x14*2+1] == NO_KEY)) ||
// ((kbmap[0x11*2] == NO_KEY) && (kbmap[0x11*2+1] == NO_KEY)) ||
// ((kbmap_E0[0x11*2] == NO_KEY) && (kbmap[0x11*2+1] == NO_KEY)) )
if( (kbmap_get(0x14,0).tw == (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8)) ||
(kbmap_get(0x11,0).tw == (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8)) ||
(kbmap_get(0x11,1).tw == (UWORD)NO_KEY+(((UWORD)NO_KEY)<<8)) )
{
//not mapped
kb_ctrl_status &= ~KB_CTRL_ALT_DEL_MAPPED_MASK;
}
else
{
//mapped
kb_ctrl_status |= KB_CTRL_ALT_DEL_MAPPED_MASK;
}
*/
}
else /*if(operation==ZX_TASK_WORK)*/
// шч ЇшЇ√ яЁшїюфшЄ: эрцрЄш ш юЄцрЄш ЁхёхЄют, эрцрЄш ш юЄцрЄш ъэюяъют, CLRKYS (Єюы№ъю эрцрэшх).
// чрфрўр: єяфхщЄшЄ№ т ёююЄтхЄёЄтшш ё ¤Єшь сшЄьря ъэюяюъ, яюё√ырЄ№ хую т Їяує, яюё√ырЄ№ ЁхёхЄ√.
// ъЁюьх Єюую, фхырЄ№ ярєчє т єяфхщЄх сшЄьряр ш яюё√ыъх хую т Їяур ьхцфє эрцрЄшхь CS|SS ш яюёыхфє■∙хщ эх-CS|SS ъэюяъш,
// Ёртэю ъръ ш ьхцфє юЄцрЄшхь эх-CS|SS ъэюяъш ш яюёыхфє■∙шь юЄцрЄшхь CS|SS.
// ёэрўрыр фхырхь Єєяю схч эшъръшї ярєч - ўЄюс√ ЁрсюЄрыю тююс∙х ё ЇшЇющ
{
//check and set/reset NMI
if( (flags_ex_register&FLAG_EX_NMI)==0 )
{
if ( ( NMI_PIN & (1<<NMI) ) == 0 )
{
//NMI button pressed
flags_ex_register |= FLAG_EX_NMI; //set flag
zx_set_config(0); //set NMI to Z80
}
}
else
{
if ( ( NMI_PIN & (1<<NMI) ) != 0 )
{
//NMI button pressed
flags_ex_register &= ~FLAG_EX_NMI; //reset flag
zx_set_config(0); //reset NMI to Z80
}
}
if( !task_state )
{
nSPICS_PORT |= (1<<nSPICS);
was_data = 0;
while( !zx_fifo_isempty() )
{
code=zx_fifo_copy(); // don't remove byte from fifo!
if( code==CLRKYS )
{
was_data = 1; // we've got something!
zx_fifo_get(); // remove byte from fifo
//reset_type = 0;
prev_code = KEY_V+1;
zx_clr_kb();
break; // flush changes immediately to the fpga
}
// else if( (code&KEY_MASK) >= RSTSYS )
// {
// was_data = 1; // we've got something!
// zx_fifo_get(); // remove byte from fifo
// if( code&PRESS_MASK ) // reset key pressed
// {
// reset_type = 0x30 & ((code+1)<<4);
// reset_type += 2;
// break; // flush immediately
// }
// else // reset key released
// {
// reset_type = 0;
// }
// }
else /*if( (code&KEY_MASK) < 40 )*/
{
if( shift_pause ) // if we inside pause interval and need checking
{
if( (PRESS_MASK&prev_code) && (PRESS_MASK&code) )
{
if( /* prev key was CS|SS down */
( (PRESS_MASK|KEY_CS)<=prev_code && prev_code<=(PRESS_MASK|KEY_SS) ) &&
/* curr key is not-CS|SS down */
( code<(PRESS_MASK|KEY_CS) || (PRESS_MASK|KEY_SS)<code )
)
break; // while loop
}
if( (!(PRESS_MASK&prev_code)) && (!(PRESS_MASK&code)) )
{
if( /* prev key was not-CS|SS up */
( prev_code<KEY_CS || KEY_SS<prev_code ) &&
/* curr key is CS|SS up */
( KEY_CS<=prev_code && prev_code<=KEY_SS )
)
break;
}
}
// just normal processing out of pause interval
keynum = (code&KEY_MASK)>>3;
keybit = 0x0080 >> (code&7); // KEY_MASK - эрфьэюцхёЄтю сшЄют 7
if( code&PRESS_MASK )
zx_map[keynum] |= keybit;
else
zx_map[keynum] &= (~keybit);
prev_code = code;
zx_fifo_get();
shift_pause = SHIFT_PAUSE; // init wait timer
was_data = 1;
}
}//while( !zx_fifo_isempty() )
if ( zx_realkbd[10] )
{
for (UBYTE i=0; i<5; i++)
{
UBYTE tmp;
tmp = zx_realkbd[i+5];
was_data |= zx_realkbd[i] ^ tmp;
zx_realkbd[i] = tmp;
}
zx_realkbd[10] = 0;
}
if( was_data ) // initialize transfer
{
task_state = 6;
}
}
else // sending bytes one by one in each state
{
task_state--;
#ifdef LOGENABLE
char log_task_state[] = "TS..\r\n";
log_task_state[2] = ((task_state >> 4) <= 9 )?'0'+(task_state >> 4):'A'+(task_state >> 4)-10;
log_task_state[3] = ((task_state & 0x0F) <= 9 )?'0'+(task_state & 0x0F):'A'+(task_state & 0x0F)-10;
to_log(log_task_state);
#endif
// if( task_state==6 ) // send (or not) reset
// {
// if( reset_type )
// {
// zx_spi_send(SPI_RST_REG, reset_type, 0x7F);
//#ifdef LOGENABLE
// char log_reset_type[] = "TR..\r\n";
// log_reset_type[2] = ((reset_type >> 4) <= 9 )?'0'+(reset_type >> 4):'A'+(reset_type >> 4)-10;
// log_reset_type[3] = ((reset_type & 0x0F) <= 9 )?'0'+(reset_type & 0x0F):'A'+(reset_type & 0x0F)-10;
// to_log(log_reset_type);
//#endif
// }
// }
// else
if( task_state>0 )// task_state==5..1
{
UBYTE key_data;
key_data = zx_map[task_state-1] | ~zx_realkbd[task_state-1];
zx_spi_send(SPI_KBD_DAT, key_data, 0x7F);
#ifdef LOGENABLE
char log_zxmap_task_state[] = "TK.. .. ..\r\n";
log_zxmap_task_state[2] = ((key_data >> 4) <= 9 )?'0'+(key_data >> 4):'A'+(key_data >> 4)-10;
log_zxmap_task_state[3] = ((key_data & 0x0F) <= 9 )?'0'+(key_data & 0x0F):'A'+(key_data & 0x0F)-10;
log_zxmap_task_state[5] = ((zx_map[task_state-1] >> 4) <= 9 )?'0'+(zx_map[task_state-1] >> 4):'A'+(zx_map[task_state-1] >> 4)-10;
log_zxmap_task_state[6] = ((zx_map[task_state-1] & 0x0F) <= 9 )?'0'+(zx_map[task_state-1] & 0x0F):'A'+(zx_map[task_state-1] & 0x0F)-10;
log_zxmap_task_state[8] = ((zx_realkbd[task_state-1] >> 4) <= 9 )?'0'+(zx_realkbd[task_state-1] >> 4):'A'+(zx_realkbd[task_state-1] >> 4)-10;
log_zxmap_task_state[9] = ((zx_realkbd[task_state-1] & 0x0F) <= 9 )?'0'+(zx_realkbd[task_state-1] & 0x0F):'A'+(zx_realkbd[task_state-1] & 0x0F)-10;
to_log(log_zxmap_task_state);
#endif
}
else // task_state==0
{
UBYTE status;
nSPICS_PORT |= (1<<nSPICS);
status = spi_send(SPI_KBD_STB); // strobe input kbd data to the Z80 port engine
nSPICS_PORT &= ~(1<<nSPICS);
nSPICS_PORT |= (1<<nSPICS);
if ( status&0x7F ) zx_wait_task(status);
#ifdef LOGENABLE
to_log("STB\r\n");
#endif
}
}
}
}
void zx_clr_kb(void)
{
UBYTE i;
for( i=0; i<sizeof(zx_map)/sizeof(zx_map[0]); i++ )
{
zx_map[i] = 0;
}
for( i=0; i<sizeof(zx_realkbd)/sizeof(zx_realkbd[0]); i++ )
{
zx_realkbd[i] = 0xff;
}
for( i=0; i<sizeof(zx_counters)/sizeof(zx_counters[0]); i++ )
{
zx_counters[i] = 0;
}
kb_ctrl_status = 0;
}
void to_zx(UBYTE scancode, UBYTE was_E0, UBYTE was_release)
{
KBMAP_VALUE t;
//F7 code (0x83) converted to 0x7F
if( !was_E0 && (scancode == 0x83) ) scancode = 0x7F;
//get zx map values
t = kbmap_get(scancode,was_E0);
if( was_E0 )
{
//additional functionality from ps/2 keyboard
switch( scancode )
{
//Right Alt (Alt Gr)
case 0x11:
if ( !was_release ) kb_ctrl_status |= KB_RALT_MASK;
else kb_ctrl_status &= ~KB_RALT_MASK;
break;
//Right Ctrl
case 0x14:
if ( !was_release ) kb_ctrl_status |= KB_RCTRL_MASK;
else kb_ctrl_status &= ~KB_RCTRL_MASK;
break;
//Print Screen
case 0x7C:
//set/reset NMI
if( ((flags_ex_register&FLAG_EX_NMI)==0 ) && (was_release==0) )
{
flags_ex_register |= FLAG_EX_NMI; //set flag
zx_set_config(0); //set NMI to Z80
}
else if( ((flags_ex_register&FLAG_EX_NMI)!=0 ) && (was_release!=0) )
{
flags_ex_register &= ~FLAG_EX_NMI; //reset flag
zx_set_config( 0 ); //reset NMI to Z80
}
break;
//Del
case 0x71:
//Ctrl-Alt-Del pressed
if ( ( !was_release ) &&
/*( !(kb_status & KB_CTRL_ALT_DEL_MAPPED_MASK) ) &&*/
( (kb_ctrl_status&(~kb_ctrl_mapped)&(KB_LCTRL_MASK|KB_RCTRL_MASK)) !=0 ) &&
( (kb_ctrl_status&(~kb_ctrl_mapped)&(KB_LALT_MASK|KB_RALT_MASK)) !=0 ) )
{
//hard reset
flags_register |= FLAG_HARD_RESET;
t.tb.b2=t.tb.b1=NO_KEY;
}
break;
}//switch
}
else
{
//additional functionality from ps/2 keyboard
switch( scancode )
{
//Scroll Lock
case 0x7E:
//check key of vga mode switcher
if ( !was_release )
{
UBYTE m = modes_register | (~MODE_VIDEO_MASK);
m++; // increment bits not ORed with 1
m ^= modes_register;
m &= MODE_VIDEO_MASK; // prepare modes change mask for zx_mode_switcher()
zx_mode_switcher(m);
/*if (kb_ctrl_status & (KB_LSHIFT_MASK | KB_RSHIFT_MASK))
{
UBYTE m=~modes_register&MODE_60HZ;
if (m==0) m|=MODE_VGA;
zx_mode_switcher(m);
}
else
{
UBYTE m=modes_register&MODE_60HZ;
if (m==0) m|=MODE_VGA;
zx_mode_switcher(m);
}*/
}
break;
//Num Lock
case 0x77:
//check key of tapeout mode switcher
if ( !was_release ) zx_mode_switcher(MODE_TAPEOUT);
break;
//Left Shift
case 0x12:
if ( !was_release ) kb_ctrl_status |= KB_LSHIFT_MASK;
else kb_ctrl_status &= ~KB_LSHIFT_MASK;
break;
//Right Shift
case 0x59:
if ( !was_release ) kb_ctrl_status |= KB_RSHIFT_MASK;
else kb_ctrl_status &= ~KB_RSHIFT_MASK;
break;
//Left Ctrl
case 0x14:
if ( !was_release ) kb_ctrl_status |= KB_LCTRL_MASK;
else kb_ctrl_status &= ~KB_LCTRL_MASK;
break;
//Left Alt
case 0x11:
if ( !was_release ) kb_ctrl_status |= KB_LALT_MASK;
else kb_ctrl_status &= ~KB_LALT_MASK;
break;
//F12
case 0x07:
if ( !was_release ) kb_ctrl_status |= KB_F12_MASK;
else kb_ctrl_status &= ~KB_F12_MASK;
break;
//keypad '+','-','*' - set ps2mouse resolution
case 0x79:
case 0x7B:
case 0x7C:
if ( !was_release ) ps2mouse_set_resolution(scancode);
break;
}//switch
}
if( t.tb.b1!=NO_KEY )
{
update_keys(t.tb.b1,was_release);
if( t.tb.b2!=NO_KEY ) update_keys(t.tb.b2,was_release);
}
}
void update_keys(UBYTE zxcode, UBYTE was_release)
{
if( zxcode!=NO_KEY )
{
BYTE i;
if( (zxcode==CLRKYS) && (!was_release) ) // does not have release option
{
i=39;
do zx_counters[i]=0; while( (--i)>=0 );
if( !zx_fifo_isfull() )
zx_fifo_put(CLRKYS);
}
// else if( zxcode>=RSTSYS ) // resets - press and release
// {
// if( !zx_fifo_isfull() )
// zx_fifo_put( (was_release ? 0 : PRESS_MASK) | zxcode );
// }
else if( zxcode < 40 ) // ordinary keys too
{
if( was_release )
{
if( zx_counters[zxcode] && !(--zx_counters[zxcode]) ) // left-to-right evaluation and shortcutting
{
if( !zx_fifo_isfull() )
zx_fifo_put(zxcode);
}
}
else // key pressed
{
if( !(zx_counters[zxcode]++) )
{
if( !zx_fifo_isfull() )
zx_fifo_put( PRESS_MASK | zxcode );
}
}
}
}
}
void zx_fifo_put(UBYTE input)
{
zx_fifo[zx_fifo_in_ptr++] = input;
}
UBYTE zx_fifo_isfull(void)
{
//always one byte unused, to distinguish between totally full fifo and empty fifo
return( (zx_fifo_in_ptr+1)==zx_fifo_out_ptr );
}
UBYTE zx_fifo_isempty(void)
{
return (zx_fifo_in_ptr==zx_fifo_out_ptr);
}
UBYTE zx_fifo_get(void)
{
return zx_fifo[zx_fifo_out_ptr++]; // get byte permanently
}
UBYTE zx_fifo_copy(void)
{
return zx_fifo[zx_fifo_out_ptr]; // get byte but leave it in fifo
}
void zx_mouse_reset(UBYTE enable)
{
if ( enable )
{
//ZX autodetecting found mouse on this values
zx_mouse_x = 0;
zx_mouse_y = 1;
}
else
{
//ZX autodetecting not found mouse on this values
zx_mouse_y = zx_mouse_x = 0xFF;
}
zx_mouse_button = 0xFF;
flags_register|=(FLAG_PS2MOUSE_ZX_READY);
}
void zx_mouse_task(void)
{
if ( flags_register&FLAG_PS2MOUSE_ZX_READY )
{
#ifdef LOGENABLE
char log_zxmouse[] = "ZXM.. .. ..\r\n";
log_zxmouse[3] = ((zx_mouse_button >> 4) <= 9 )?'0'+(zx_mouse_button >> 4):'A'+(zx_mouse_button >> 4)-10;
log_zxmouse[4] = ((zx_mouse_button & 0x0F) <= 9 )?'0'+(zx_mouse_button & 0x0F):'A'+(zx_mouse_button & 0x0F)-10;
log_zxmouse[6] = ((zx_mouse_x >> 4) <= 9 )?'0'+(zx_mouse_x >> 4):'A'+(zx_mouse_x >> 4)-10;
log_zxmouse[7] = ((zx_mouse_x & 0x0F) <= 9 )?'0'+(zx_mouse_x & 0x0F):'A'+(zx_mouse_x & 0x0F)-10;
log_zxmouse[9] = ((zx_mouse_y >> 4) <= 9 )?'0'+(zx_mouse_y >> 4):'A'+(zx_mouse_y >> 4)-10;
log_zxmouse[10] = ((zx_mouse_y & 0x0F) <= 9 )?'0'+(zx_mouse_y & 0x0F):'A'+(zx_mouse_y & 0x0F)-10;
to_log(log_zxmouse);
#endif
//TODO: яюър ёфхыры ёъюяюь, яюЄюь ёфхырЄ№ яю юфэюьє срщЄє чр чрїюф
zx_spi_send(SPI_MOUSE_BTN, zx_mouse_button, 0x7F);
zx_spi_send(SPI_MOUSE_X, zx_mouse_x, 0x7F);
zx_spi_send(SPI_MOUSE_Y, zx_mouse_y, 0x7F);
//data sended - reset flag
flags_register&=~(FLAG_PS2MOUSE_ZX_READY);
}
}
void zx_wait_task(UBYTE status)
{
UBYTE addr = 0;
UBYTE data = 0xFF;
//reset flag
flags_register &= ~FLAG_SPI_INT;
//prepare data
switch( status&0x7F )
{
case ZXW_GLUK_CLOCK:
{
addr = zx_spi_send(SPI_GLUK_ADDR, data, 0);
if ( status&0x80 ) data = gluk_get_reg(addr);
break;
}
case ZXW_KONDR_RS232:
{
addr = zx_spi_send(SPI_RS232_ADDR, data, 0);
if ( status&0x80 ) data = rs232_zx_read(addr);
break;
}
}
if ( status&0x80 ) zx_spi_send(SPI_WAIT_DATA, data, 0);
else data = zx_spi_send(SPI_WAIT_DATA, data, 0);
if ( !(status&0x80) )
{
//save data
switch( status&0x7F )
{
case ZXW_GLUK_CLOCK:
{
gluk_set_reg(addr, data);
break;
}
case ZXW_KONDR_RS232:
{
rs232_zx_write(addr, data);
break;
}
}
}
/*#ifdef LOGENABLE
char log_wait[] = "W..A..D..\r\n";
log_wait[1] = ((status >> 4) <= 9 )?'0'+(status >> 4):'A'+(status >> 4)-10;
log_wait[2] = ((status & 0x0F) <= 9 )?'0'+(status & 0x0F):'A'+(status & 0x0F)-10;
log_wait[4] = ((addr >> 4) <= 9 )?'0'+(addr >> 4):'A'+(addr >> 4)-10;
log_wait[5] = ((addr & 0x0F) <= 9 )?'0'+(addr & 0x0F):'A'+(addr & 0x0F)-10;
log_wait[7] = ((data >> 4) <= 9 )?'0'+(data >> 4):'A'+(data >> 4)-10;
log_wait[8] = ((data & 0x0F) <= 9 )?'0'+(data & 0x0F):'A'+(data & 0x0F)-10;
to_log(log_wait);
#endif */
}
void zx_mode_switcher(UBYTE mode)
{
//invert mode
modes_register ^= mode;
//send configuration to FPGA
zx_set_config((flags_register&FLAG_LAST_TAPE_VALUE)?SPI_TAPE_FLAG:0);
//save mode register to RTC NVRAM
rtc_write(RTC_COMMON_MODE_REG, modes_register);
//set led on keyboard
ps2keyboard_send_cmd(PS2KEYBOARD_CMD_SETLED);
}
void zx_set_config(UBYTE flags)
{
//send configuration to FPGA
zx_spi_send(SPI_CONFIG_REG,
(modes_register&MODE_VIDEO_MASK) |
((modes_register&MODE_TAPEOUT)?SPI_TAPEOUT_MODE_FLAG:0) |
((flags_ex_register&FLAG_EX_NMI)?SPI_CONFIG_NMI_FLAG:0) |
(flags & ~(MODE_VIDEO_MASK|SPI_TAPEOUT_MODE_FLAG|SPI_CONFIG_NMI_FLAG)),
0x7F);
}

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