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/*****************************************************************************
* Filename: dio_ppi.c * *
* Author: Ziglioli Marco (Doctor Stein) *
* Date: 16/03/2001 *
* Description: Function to manage 8 digital lines provide from DAQ-STC and 24*
* digital lines provide from 82C55A *
*----------------------------------------------------------------------------*
* Notes: No serial I/O available on DIO4 are implemented yet *
*****************************************************************************/
/* This file is part of the S.Ha.R.K. Project - http://shark.sssup.it
*
* Copyright (C) 2001 Marco Ziglioli
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <drivers/pci6025e/dio_ppi.h>
/* PJ: Global data */
static BYTE DIO_initialized;
static BYTE PPI_initialized;
static BYTE PL_Mask; //Configuration byte for DIO
static BYTE PPI_A_Mask, PPI_B_Mask, PPI_C_Mask; /*configuration
bytes for PPI ports*/
static BYTE PL_Configure; //Will set true when DIO will be configured
static BYTE PPI_Configure; //Will set true when PPI will be configured
static WORD dio_control, dio_output;
static BYTE ppi_cfg_reg, ppi_port_a, ppi_port_b, ppi_port_c;
/*****************************************************************************
* initializes digital lines *
*****************************************************************************/
void DIO_init(void)
{
DIO_resetReg();
DIO_initialized = 1;
}
/*****************************************************************************
* Forces 0 all digital control lines *
*****************************************************************************/
void DIO_resetReg(void)
{
dio_control = 0x0000;
dio_output = 0x0000;
DAQ_STC_Windowed_Mode_Write(DIO_CONTROL, dio_control);
}
/*****************************************************************************
* Configure each 8 lines avaiable on board *
*----------------------------------------------------------------------------*
* In configuration byte: 0 stands for INPUT *
* 1 stands for OUTPUT *
*****************************************************************************/
void config(BYTE cfg)
{
if(DIO_initialized){
dio_control |= cfg;
DAQ_STC_Windowed_Mode_Write(DIO_CONTROL, dio_control);
PL_Mask = cfg;
PL_Configure = TRUE; //Tells to world that DIO now are configured
}
}
void DIO_config(BYTE cfg)
{
config(cfg);
}
/*****************************************************************************
* Reads a string made of 7 chars and returns configuration byte for DIO *
*----------------------------------------------------------------------------*
* String must be made of only eight chars which must be I or O to mean In *
* or Out. String starts with MSD and ends with LSD. *
* Example: IIOOIIOO means D7 In D6 in D5 out ... D1 out D0 out *
* If most significal BYTE of value returned by function is different then 0 *
* then configuration string is wrong and lowest significal byte is invalid *
*****************************************************************************/
WORD DIO_setConfig(char *cfg)
{
BYTE i;
WORD config = 0x0000;
for(i=0; i<8; i++){
switch(cfg[i]){
case 'I':
case 'i':
clr(config,(7-i));
break;
case 'O':
case 'o':
set(config,(7-i));
break;
default:
set(config,16); //Configuration string is wrong
return config;
break;
}
}
return config;
}
/*****************************************************************************
* Returns configuration byte for DIO lines. If most significal byte of word *
* is different then 0 then DIO aren't yet configured so configuration byte *
* is invalid *
*****************************************************************************/
WORD DIO_getConfig(void)
{
WORD config = 0x0000;
if(PL_Configure == FALSE)
set(config,16);
else
config = (WORD)PL_Mask;
return config;
}
/*****************************************************************************
* Read through Windowed mode values on digital lines *
*****************************************************************************/
BYTE DIO_read(void)
{
WORD value;
if(DIO_initialized){
value = DAQ_STC_Windowed_Mode_Read(DIO_PARALLEL_INPUT);
value &= 0x00FF;
return (BYTE)value;
}
else return 0;
}
/*****************************************************************************
* Write through Windowed Mode values on digital IO lines *
*****************************************************************************/
BYTE DIO_write(BYTE out)
{
if(DIO_initialized){
dio_output = (out & PL_Mask); /*Lines previously configured as Input
are fixed to 0*/
DAQ_STC_Windowed_Mode_Write(DIO_OUTPUT, dio_output);
return 1;
}
else return 0;
}
/*****************************************************************************
* initializeds three PPI ports *
*****************************************************************************/
void PPI_init(void)
{
PPI_resetReg();
PPI_initialized = 1;
}
/*****************************************************************************
* Force all PPI configuration registers to 0 *
*****************************************************************************/
void PPI_resetReg(void)
{
ppi_cfg_reg = 0x80;
ppi_port_a = 0x00;
ppi_port_b = 0x00;
ppi_port_c = 0x00;
Immediate_Writeb(PPI_CFG_REG, ppi_cfg_reg);
}
/*****************************************************************************
* Setting up OKI MSM82C55A *
* BYTE cfg can be write throgh this rules: *
* D7 -> Fixs to 1 (Chip understands in this way that you are sending a *
* control word) *
* D6| MODE | 0 | 1 | 2 | *
* |-> Set up port A mode D6 | 0 | 0 | 1 | ( x=Don't care) *
* D5| D5 | 0 | 1 | x | *
* D4 -> Sets direction of port A byte (0=Output; 1=Input) *
* D3 -> Sets direction of port C higher nibble (0=Output; 1=Input *
* D2 -> Sets Mode for port B (0=Mode 0; 1=Mode 1) *
* D1 -> Sets direction of port B byte (0=Output; 1=Input) *
* D0 -> Sets direction of port C lower nibble (0=Output; 1=Input) *
*----------------------------------------------------------------------------*
* Examples: *
* 0x80 means Mode0 PA, PB, PC in output mode *
* 0x99 means Mode0 PA, PC input mode and PB output mode *
* 0x8A means Mode0 PA, lower PC nibble in output and PB, higher PC *
* nibble in input mode *
*****************************************************************************/
void PPI_config(BYTE cfg)
{
if(PPI_initialized){
//Setting up control word bit
set(cfg,7);
ppi_cfg_reg = cfg;
Immediate_Writeb(PPI_CFG_REG, ppi_cfg_reg);
PPI_A_Mask = PPI_B_Mask = PPI_C_Mask = 0;
//Setting up configuration masks and enable configuration byte
if(cfg&0x01) PPI_C_Mask |= 0x0F;
if(cfg&0x02) PPI_B_Mask = 0xFF;
if(cfg&0x08) PPI_C_Mask |= 0xF0;
if(cfg&0x10) PPI_A_Mask = 0xFF;
PPI_Configure = TRUE;
}
}
/*****************************************************************************
* WORD PPI_setConfig(BYTE PA, BYTE PA_MODE, BYTE PB, BYTE PB_MODE, *
* BYTE HighPC, BYTE LowPC) *
*----------------------------------------------------------------------------*
* This routine reads 6 arguments that describe configration for PPI and *
* return configuration byte to use with PPI_Config function. *
* Arguments have these means: *
* PA -> Direction of Port A (0 output, 1 input) *
* PA_Mode -> 0 Basic Mode, 1 Strobe Input output, 2 bidirectional IOø *
* PB -> Direction of PORT B (0 output, 1 input) *
* PB_Mode -> 0 Basic Mode, 1 Strobe IO *
* HighPC -> Direction of high nibble of Port C (0 output, 1 input)øø *
* LowPC -> Direction of low nibble of port C (0 output, 1 input)øø *
* If most significal byte of returned word is different than 0 than *
* configuration parameters is wrong and less significant byte is invalid *
*----------------------------------------------------------------------------*
* ø Bidirectional IO is available only on port A *
* øø Available only in mode 0 (basic IO). If other modes are selected PORT *
* C is used to perform handshake and HighPC and LowPC are ignored *
*****************************************************************************/
WORD PPI_setConfig(BYTE PA, BYTE PA_Mode, BYTE PB, BYTE PB_Mode,
BYTE HighPC, BYTE LowPC)
{
WORD config = 0x0000;
switch(PA){
case 0: clr(config,4); break;
case 1: set(config,4); break;
default: set(config,16); return config;
}
switch(PA_Mode){
case 0: clr(config,5); clr(config,6); break;
case 1: set(config,5); clr(config,6); break;
case 2: set(config,6); break;
default: set(config,16); return config;
}
switch(PB){
case 0: clr(config,1); break;
case 1: set(config,1); break;
default: set(config,16); return config;
}
switch(PB_Mode){
case 0: clr(config,2); break;
case 1: set(config,2); break;
default: set(config,16); return config;
}
switch(HighPC){
case 0: clr(config,3); break;
case 1: set(config,3); break;
default: set(config,16); return config;
}
switch(HighPC){
case 0: clr(config,0); break;
case 1: set(config,0); break;
default: set(config,16); return config;
}
set(config,7); //Force meaning of control word
return config;
}
/*****************************************************************************
* void PPI_getConfig(BYTE port) *
*----------------------------------------------------------------------------*
* Returns configuration BYTE of specified PORT (0 = A, 1 = B, 2 = C) *
* If most significal byte of returned word is different than 0 than PPI *
* isn't yet configured and configuration low significal byte is invalid *
*****************************************************************************/
WORD PPI_getConfig(BYTE port)
{
WORD config = 0x00;
if(PPI_Configure){
switch(port){
case 0: config = (WORD)PPI_A_Mask; break;
case 1: config = (WORD)PPI_B_Mask; break;
case 2: config = (WORD)PPI_C_Mask; break;
default: set(config,16); break; //Parameter wrong
}
} else {
set(config,16); //Ports aren't configured
}
return config;
}
/*****************************************************************************
* Read from specificated PPI port *
*****************************************************************************/
BYTE PPI_read(BYTE off)
{
if(PPI_initialized) return Immediate_Readb(off);
else return 0;
}
/*****************************************************************************
* Write val into specificated PPI port *
*****************************************************************************/
void PPI_write(BYTE off, BYTE val)
{
if(PPI_initialized) Immediate_Writeb(off, val);
}
/*****************************************************************************
* Returns address of specified port (0 = A, 1 = B, 2 = C, other = CFG) *
*****************************************************************************/
BYTE PPI_getAddress(BYTE port)
{
switch(port){
case 0: return PPI_PORT_A;
case 1: return PPI_PORT_B;
case 2: return PPI_PORT_C;
default: return PPI_CFG_REG;
}
}
/*End of file: dio_ppi.c*/