168 lines
5.7 KiB
C
168 lines
5.7 KiB
C
/*
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* geigerct.c
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*
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*
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* Created on: 11.08.2011
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* Author: Turbo J <turboj@web.de>
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*
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* Implements simple Geiger Counter
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* Counts rising edges on P3_0 = BUSINT
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* so you can directly connect the Geiger board
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* from http://mightyohm.com/blog/products/geiger-counter/
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*
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*/
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#include <sysinit.h>
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#include <string.h>
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#include "basic/basic.h"
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#include "basic/config.h"
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#include "lcd/render.h"
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#include "lcd/print.h"
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#include "usetable.h"
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// Liberated from ARM Cortex M3 CMSIS core_cm3.h
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// The processor definition headers for R0ket are incomplete :-/
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#define __I
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#define __IO volatile
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typedef struct {
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__I uint32_t CPUID; /*!< Offset: 0x000 (R/ ) CPU ID Base Register */
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__IO uint32_t ICSR; /*!< Offset: 0x004 (R/W) Interrupt Control State Register */
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__IO uint32_t VTOR; /*!< Offset: 0x008 (R/W) Vector Table Offset Register */
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__IO uint32_t AIRCR; /*!< Offset: 0x00C (R/W) Application Interrupt / Reset Control Register */
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__IO uint32_t SCR; /*!< Offset: 0x010 (R/W) System Control Register */
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__IO uint32_t CCR; /*!< Offset: 0x014 (R/W) Configuration Control Register */
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__IO uint8_t SHP[12]; /*!< Offset: 0x018 (R/W) System Handlers Priority Registers (4-7, 8-11, 12-15) */
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__IO uint32_t SHCSR; /*!< Offset: 0x024 (R/W) System Handler Control and State Register */
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__IO uint32_t CFSR; /*!< Offset: 0x028 (R/W) Configurable Fault Status Register */
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__IO uint32_t HFSR; /*!< Offset: 0x02C (R/W) Hard Fault Status Register */
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__IO uint32_t DFSR; /*!< Offset: 0x030 (R/W) Debug Fault Status Register */
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__IO uint32_t MMFAR; /*!< Offset: 0x034 (R/W) Mem Manage Address Register */
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__IO uint32_t BFAR; /*!< Offset: 0x038 (R/W) Bus Fault Address Register */
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__IO uint32_t AFSR; /*!< Offset: 0x03C (R/W) Auxiliary Fault Status Register */
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__I uint32_t PFR[2]; /*!< Offset: 0x040 (R/ ) Processor Feature Register */
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__I uint32_t DFR; /*!< Offset: 0x048 (R/ ) Debug Feature Register */
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__I uint32_t ADR; /*!< Offset: 0x04C (R/ ) Auxiliary Feature Register */
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__I uint32_t MMFR[4]; /*!< Offset: 0x050 (R/ ) Memory Model Feature Register */
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__I uint32_t ISAR[5]; /*!< Offset: 0x060 (R/ ) ISA Feature Register */
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} SCB_Type;
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#define SCS_BASE (0xE000E000UL) /*!< System Control Space Base Address */
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#define SCB_BASE (SCS_BASE + 0x0D00UL) /*!< System Control Block Base Address */
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#define SCB ((SCB_Type *) SCB_BASE) /*!< SCB configuration struct */
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uint32_t VectorTableInRAM[73] __attribute__ ((aligned(1024))); // VTOR needs 1024 Byte alignment, see UM10375.PDF
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void (*orig_handler_extint3)(void); // original EINT3 handler
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uint32_t volatile IntCtr;
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void ExtInt3_Handler();
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// Remember: ram() must be the first function, place all other code AFTER
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// because the Implementer seem not to know how to use section attributes
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static uint8_t mainloop();
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void ram(void) {
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uint8_t button;
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uint32_t LEDs;
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// populate my Vector table
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memcpy(VectorTableInRAM, 0, sizeof(VectorTableInRAM));
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orig_handler_extint3 = (void*) VectorTableInRAM[EINT3_IRQn + 16];
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VectorTableInRAM[EINT3_IRQn + 16] = (uint32_t) &ExtInt3_Handler;
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// HACK: use RAM vector table to implement own External IRQ handler
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SCB->VTOR = (uint32_t) &VectorTableInRAM[0];
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// TODO add DMB() here, as VTOR updates are NOT effective immediately
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//
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GPIO_GPIO3IEV |= 1;
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GPIO_GPIO3IE |= 1;
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GPIO_GPIO3DIR &= ~1;
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GPIO_GPIO3IS &= ~1;
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GPIO_GPIO0DATA &= ~1;
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IOCON_PIO3_0 = (1 << 3) | (1 << 5); // Pull DOWN not Up, Hyst on
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NVIC_EnableIRQ(EINT3_IRQn);
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IntCtr = 0;
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LEDs = 0;
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mainloop();
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GPIO_GPIO3IE &= ~1; // disable GPIO IRQ
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NVIC_DisableIRQ(EINT3_IRQn);
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// restore VTOR
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SCB->VTOR = 0;
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//TODO DMB(); Cortex Manual suggests DMB after setting VTOR
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// not really needed in this case
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}
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void ExtInt3_Handler() {
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if (GPIO_GPIO3RIS & 0x01) {
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GPIO_GPIO3IC |= (0x01); // ACK BUSINT
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//GPIO_GPIO0DATA|=(1<<11);
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IOCON_PIO1_11 = 0;
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GPIO_GPIO1DATA |= (1 << 7);
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GPIO_GPIO1DATA |= (1 << 11);
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IntCtr++;
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} else {
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orig_handler_extint3();
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}
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}
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static uint8_t mainloop() {
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uint32_t ioconbak = IOCON_PIO1_11;
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uint32_t volatile oldCount=IntCtr;
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uint32_t perMin=0; // counts in last 60 s
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uint32_t startTime=_timectr;
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uint8_t button;
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IOCON_PIO1_11 = 0;
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while (1) {
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//GPIO_GPIO0DATA&=~(1<<11);
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IOCON_PIO1_11 = ioconbak;
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GPIO_GPIO1DATA &= ~(1 << 7);
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GPIO_GPIO1DATA &= ~(1 << 11);
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lcdClear();
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lcdPrintln(" Geiger");
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lcdPrintln(" Counter");
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// ####
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for (int i=0; i< (14*( _timectr-startTime))/(60*100);i++) {
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lcdPrint("#");
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}
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lcdPrintln("");
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lcdPrintln("Counts:");
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lcdPrint(" ");
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lcdPrintInt(IntCtr);
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lcdPrintln(" total");
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lcdPrint(" ");
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lcdPrintInt( perMin);
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lcdPrintln("/min");
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// remember: We have a 10ms Timer counter
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if ((startTime+60 *100 ) < _timectr) {
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// dumb algo: Just use last 60 seconds count
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perMin=IntCtr-oldCount;
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startTime=_timectr;
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oldCount=IntCtr;
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}
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lcdRefresh();
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delayms(42);
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button = getInputRaw();
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if (button != BTN_NONE) {
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delayms(23);// debounce and wait till user release button
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while (getInputRaw()!=BTN_NONE) delayms(23);
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break;
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}
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}
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IOCON_PIO1_11 = ioconbak;
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return button;
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}
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