WebSVN - shark - Rev 1260 - /demos/trunk/pci6025e/test

/*****************************************************************************
* Filename: test_ec.c *
* Author: Marco Ziglioli (Doctor Stein) *
* Date: 20/06/2001 *
* Description: Test program for gated event counting using PCI6025E board *
*----------------------------------------------------------------------------*
* Notes: FOUT are enabled to provide a frequency of 6250 Hz. You could *
* connect PFI3 (pin 41) and PFI6 (pin 45) to this source for counting *
* edges. Gated counting are enabled and PFI4 (pin 42) is gate pin for *
* counter 0 and PFI5 (pin 44) is gate pin for counter 0. DIO 7 and 6 *
* are als configured to switch between 0 and 5 V. Connect DIO 7 to *
* gate 0 and DIO 6 to gate 1. Use 'g' (counter 0) and 'h' (counter 1) *
* to change DIO lines value. On left area of the screen you should *
* see counter while counting and on the right area you should lock *
* counter values by pressing 's' key. *
* Notice that line parameters are enabled and accept inital value *
* for the two counters. If they aren't specified or they are wrong *
* counters start from 0x00FFFFFF (counter 0 which counts down) and *
* 0x00000000 (counter 1 which counts up). *
* Last time addiction: TC Interrupts and Gate interrupts are enabled *
* Bottom squares indicates when an interrupt is *
* raised *
*****************************************************************************/

/* 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 <kernel/kern.h>
#include <drivers/keyb.h>
#include <drivers/glib.h>

#include <drivers/pci6025e/timer.h>
#include <drivers/pci6025e/dio_ppi.h>

#ifndef INT_NO
#define INT_NO NIDevice_info[0].InterruptLevel
#endif

BYTE sys = 0;

PID show_aper_pid;
BYTE out = 0x00;

int black = rgb16(0, 0, 0),
white = rgb16(255, 255, 255);

void endfun(KEY_EVT *);
void close_event(void *);
void show_evt(KEY_EVT *k);
void gate_change(KEY_EVT *k);

void drawInterface(void);

void int_evt(int intno);

TASK show_per(int);
TASK show_aper(int);

int main(int argc, char **argv)
{
KEY_EVT k;
SOFT_TASK_MODEL show_per_mod, show_aper_mod;
PID show_per_pid;
int result, modenum;
DWORD init_val_c0, init_val_c1;

if(argc >= 3){
if( (result = sscanf(argv[1], "%ld", &init_val_c0)) != 1)
init_val_c0 = 0x00FFFFFF;
if( (result = sscanf(argv[2], "%ld", &init_val_c1)) != 1)
init_val_c1 = 0x00000000;
}
if(argc == 2){
if( (result = sscanf(argv[1], "%ld", &init_val_c0)) != 1)
init_val_c0 = 0x00FFFFFF;
init_val_c1 = 0x00000000;
}
if(argc == 1){
init_val_c0 = 0x00FFFFFF;
init_val_c1 = 0x00000000;
}

sys_atrunlevel(close_event, NULL, RUNLEVEL_BEFORE_EXIT);

k.flag = CNTL_BIT;
k.scan = KEY_X;
k.ascii = 'x';
keyb_hook(k, endfun);

k.flag = CNTR_BIT;
keyb_hook(k, endfun);

soft_task_default_model(show_aper_mod);
soft_task_def_aperiodic(show_aper_mod);
soft_task_def_level(show_aper_mod, 1);
soft_task_def_period(show_aper_mod, 250000);
soft_task_def_met(show_aper_mod, 30000);
soft_task_def_wcet(show_aper_mod, 60000);
if( (show_aper_pid = task_create("Show aperiodic task", show_aper, &show_aper_mod, NULL)) == NIL ){
sys = 10;
sys_end();
}

k.flag = 0;
k.scan = KEY_S;
k.ascii = 's';
keyb_hook(k, show_evt);

k.flag = 0;
k.scan = KEY_G;
k.ascii = 'g';
keyb_hook(k, gate_change);

k.scan = KEY_H;
k.ascii = 'h';
keyb_hook(k, gate_change);

soft_task_default_model(show_per_mod);
soft_task_def_level(show_per_mod, 1);
soft_task_def_met(show_per_mod, 1000);
soft_task_def_period(show_per_mod, 10000);
if( (show_per_pid = task_create("Show periodic task", show_per, &show_per_mod, NULL)) == NIL){
sys = 11;
sys_end();
}

if(pci_init()==-1){
sys = 20;
sys_end();
}

if(!reMap()){
sys = 21;
sys_end();
}

if(grx_init()==-1){
sys = 30;
sys_end();
}

if( (modenum = grx_getmode(800, 600, 16)) == -1){
sys = 31;
sys_end();
}

grx_setmode(modenum);

drawInterface();

//Init DIO lines used to manage counters gates
DIO_init();
DIO_setup(0xFF);
DIO_write(out);

//All PFI are configured as input
PFIprogramming(0x0000);
//FOUT enable; Slow TIMEBASE, divided by two; divided by 16 on FOUT pin
setIntClock(1, 1, 0);

TIM_reset(2); //Reset both two counters

//Source PFI3(41); Gate PFI 4(42); Down counting; counts rising edge;
TIM_eventCounting(C0, 0x04, 0x45, 0x03, init_val_c0);

//Source PFI6(45); Gate PFI 5(44); Up counting; counts rising edge;
TIM_eventCounting(C1, 0x87, 0x46, 0x03, init_val_c1);

//Set up interrupt group A and B enabling and programming to assert a request
//both on line 2 and 3 respectively
INT_setup(0x0A, 0x0B);
INT_personalize(0x03); //Interrupt request polarity low; IRQ driven on line 0 and 1

handler_set(INT_NO, int_evt, show_aper_pid);

TIM_arm(2); //Arm both two counters

task_activate(show_per_pid);

return 0;
}

void drawInterface(void)
{
grx_rect(1, 1, 799, 99, rgb16(105, 0, 0));
grx_rect(2, 2, 798, 98, rgb16(155, 0, 0));
grx_rect(3, 3, 797, 97, rgb16(205, 0, 0));
grx_rect(4, 4, 796, 96, rgb16(255, 0, 0));

grx_text("Test program for Gated Event Counting capacity of PCI6025E timers",
7, 10, rgb16(50, 255, 50), black);

grx_text("This program counting rise edges on counters source (PFI3 & PFI6) when releted gates",
7, 25, rgb16(0, 255, 255), black);
grx_text("(PFI 42 & 44) are enabled. Frequency Out (FOUT) is enabled and provides a frequency of 6250 Hz",
7, 33, rgb16(0, 255, 255), black);

grx_text("Instruction:",7, 43, rgb16(255, 0, 0), black);
grx_text("Use 's' to lock counters value in right squares",
7, 51, rgb16(0, 255, 255), black);
grx_text("Use 'g' to block or to release alternativly counter 0 (see top-left square)",
7, 58, rgb16(0, 255, 255), black);

grx_text("Use 'h' to block or to release alternativly counter 1 (see bottom-left square)",
7, 65, rgb16(0, 255, 255), black);

grx_text("Please connect DIO7 (pin 32) to PFI4 (pin 42) and DIO6 (pin 30) to PFI5 (pin 44)",
7, 78, rgb16(0, 255, 0), black);
grx_text("CTRL-X for Exit", 7, 88, rgb16(200, 200, 0), black);

grx_rect(1, 110, 355, 170, rgb16(0, 105, 0));
grx_rect(2, 111, 354, 169, rgb16(0, 155, 0));
grx_rect(3, 112, 353, 168, rgb16(0, 205, 0));
grx_rect(4, 113, 352, 167, rgb16(0, 255, 0));
grx_text("Counter 0 evolution", 7, 120, rgb16(255, 255, 0), black);

grx_rect(455, 110, 799, 170, rgb16(0, 105, 0));
grx_rect(456, 111, 798, 169, rgb16(0, 155, 0));
grx_rect(457, 112, 797, 168, rgb16(0, 205, 0));
grx_rect(458, 113, 796, 167, rgb16(0, 255, 0));
grx_text("Counter 0 locked value", 461, 120, rgb16(255, 0, 255), black);

grx_rect(360, 110, 450, 170, rgb16(0, 105, 0));
grx_rect(361, 111, 449, 169, rgb16(0, 155, 0));
grx_rect(362, 112, 448, 168, rgb16(0, 205, 0));
grx_rect(363, 113, 447, 167, rgb16(0, 255, 0));
grx_text("Gate0", 367, 120, rgb16(200, 255, 200), black);
grx_text("0 V", 367, 145, rgb16(255, 0, 0), black);

grx_rect(1, 190, 355, 260, rgb16(85, 85, 255));
grx_rect(2, 191, 354, 259, rgb16(135, 135, 255));
grx_rect(3, 192, 353, 258, rgb16(190, 190, 255));
grx_rect(4, 193, 352, 257, rgb16(230, 239, 255));
grx_text("Counter 1 evolution", 7, 200, white, black);

grx_rect(455, 190, 799, 260, rgb16(85, 85, 255));
grx_rect(456, 191, 798, 259, rgb16(135, 135, 255));
grx_rect(457, 192, 797, 258, rgb16(190, 190, 255));
grx_rect(458, 193, 796, 257, rgb16(230, 230, 255));
grx_text("Counter 1 locked value", 461, 200, white, black);

grx_rect(360, 190, 450, 260, rgb16(85, 85, 255));
grx_rect(361, 191, 449, 259, rgb16(135, 135, 255));
grx_rect(362, 192, 448, 258, rgb16(190, 190, 255));
grx_rect(363, 193, 447, 257, rgb16(230, 230, 255));
grx_text("Gate1", 367, 200, rgb16(255, 200, 255), black);
grx_text("0 V", 367, 225, rgb16(255, 0, 0), black);

grx_text("Counter 0 Interrupt events", 7, 340, rgb16(255, 200, 100), black);
grx_text("Counter 1 Interrupt events", 461, 340, rgb16(255, 200, 100), black);
grx_rect(1, 350, 355, 400, rgb16(105, 0, 0));
grx_rect(2, 351, 354, 399, rgb16(155, 0, 0));
grx_rect(3, 352, 353, 398, rgb16(205, 0, 0));
grx_rect(4, 353, 352, 397, rgb16(255, 0, 0));
grx_rect(455, 350, 799, 400, rgb16(105, 0, 0));
grx_rect(456, 351, 798, 399, rgb16(155, 0, 0));
grx_rect(457, 352, 797, 398, rgb16(205, 0, 0));
grx_rect(458, 353, 796, 397, rgb16(255, 0, 0));
}

TASK show_per(int none)
{
DWORD val;
char buf[30];

while(1){
val = TIM_readCounter(C0); //Read counter 0 value
sprintf(buf, "HEX: %08lx DEC: %08ld", val ,val);
grx_text(buf, 7, 145, rgb16(255, 0, 0), black);

val = TIM_readCounter(C1); //Read counter 1 value
sprintf(buf, "HEX: %08lx DEC: %08ld", val ,val);
grx_text(buf, 7, 225, rgb16(255, 0, 0), black);

task_endcycle();
}
}

TASK show_aper(int dummy)
{
DWORD val;
char buf[30];

while(1){
val = TIM_readCounter(C0);
sprintf(buf, "HEX: %08lx DEC: %08ld", val, val);
grx_text(buf, 461, 145, rgb16(80, 80, 255), black);

val = TIM_readCounter(C1);
sprintf(buf, "HEX: %08lx DEC: %08ld", val, val);
grx_text(buf, 461, 225, rgb16(80, 80, 255), black);

task_endcycle();
}
}

void endfun(KEY_EVT *k)
{
sys_end();
}

void show_evt(KEY_EVT *k)
{
task_activate(show_aper_pid);
}

void gate_change(KEY_EVT *k)
{
if(k->ascii == 'g'){
if( (out & 0x80) != 0){
out &= 0x7F;
grx_text("0 V", 367, 145, rgb16(255, 0, 0), black);
} else {
out |= 0x80;
grx_text("5 V", 367, 145, rgb16(0, 255, 0), black);
}
} else {
if( (out & 0x40) != 0){
out &= 0xBF;
grx_text("0 V", 367, 225, rgb16(255, 0, 0), black);
} else {
out |= 0x40;
grx_text("5 V", 367, 225, rgb16(0, 255, 0), black);
}
}

DIO_write(out);
}

void close_event(void *arg)
{
TIM_disarm(2); //Disable both two counters
grx_close();
handler_remove(INT_NO);

switch(sys){
case 0: cprintf("OK\n"); break;
case 10: cprintf("Task <show aperiodic> down\n"); break;
case 11: cprintf("Task <show periodic> down\n"); break;
case 20: cprintf("No PCI bus\n"); break;
case 21: cprintf("No National board on PCI bus\n"); break;
case 30: cprintf("No graphic can be initialized\n"); break;
case 31: cprintf("This graphic mode cannot be supported\n"); break;
default: cprintf("???????????\n"); break;
}
}

void int_evt(int intno)
{
WORD status;

status = DAQ_STC_Windowed_Mode_Read(AI_STATUS_1);
if( (status & 0x8000) != 0){
if( (status & 0x0008) != 0){
grx_text("INT Group A raised! G0 Rolls over", 7, 360, rgb16(0, 255, 0), black);
set(interrupt_a_ack, 14);
DAQ_STC_Windowed_Mode_Write(INTERRUPT_A_ACK, interrupt_a_ack);
clr(interrupt_a_ack, 14);
}
if( (status & 0x0004) != 0){
grx_text("INT Group A raised! G0 gate pressed", 7, 380, rgb16(0, 255, 0), black);
set(interrupt_a_ack, 15);
DAQ_STC_Windowed_Mode_Write(INTERRUPT_A_ACK, interrupt_a_ack);
clr(interrupt_a_ack, 15);
}
return;
}

status = DAQ_STC_Windowed_Mode_Read(AO_STATUS_1);
if( (status & 0x8000) != 0){
if( (status & 0x0008) != 0){
grx_text("INT Group B raised! G1 Rolls over", 461, 360, rgb16(0, 255, 0), black);
set(interrupt_b_ack, 14);
DAQ_STC_Windowed_Mode_Write(INTERRUPT_B_ACK, interrupt_b_ack);
clr(interrupt_b_ack, 14);
}
if( (status & 0x0004) != 0){
grx_text("INT Group B raised! G1 gate pressed", 461, 380, rgb16(0, 255, 0), black);
set(interrupt_b_ack, 15);
DAQ_STC_Windowed_Mode_Write(INTERRUPT_B_ACK, interrupt_b_ack);
clr(interrupt_b_ack, 15);
}
return;
}
}
/* End of file: Test_ec.c */

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