138 lines
3.9 KiB
C
Executable File
138 lines
3.9 KiB
C
Executable File
//
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// Modified from:
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// How to access GPIO registers from C-code on the Raspberry-Pi
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// Example program
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// 15-January-2012
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// Dom and Gert
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// Revised: 15-Feb-2013
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#include <stdio.h>
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#include <stdlib.h>
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#include <fcntl.h>
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#include <sys/mman.h>
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#include <unistd.h>
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// Access from ARM Running Linux
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#define ARMv6_PERI_BASE 0x20000000
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#define ARMv7_PERI_BASE 0x3F000000
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#define GPIO_OFFSET 0x00200000
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#define CMGP_OFFSET 0x00101000
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// GPIO setup macros. Always use INP_GPIO(x) before using OUT_GPIO(x) or SET_GPIO_ALT(x,y)
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#define INP_GPIO(g) *(gpio+((g)/10)) &= ~(7<<(((g)%10)*3))
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#define OUT_GPIO(g) *(gpio+((g)/10)) |= (1<<(((g)%10)*3))
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#define SET_GPIO_ALT(g,a) *(gpio+(((g)/10))) |= (((a)<=3?(a)+4:(a)==4?3:2)<<(((g)%10)*3))
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#define GPIO_REG(reg) (gpio[(reg)/4])
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#define CMGP_REG(reg) (cmgp[(reg)/4])
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#define GPFSEL0 0x000
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#define CM_GP0CTL 0x070
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#define CM_GP0DIV 0x074
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#define IOMAP_LEN 4096
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//
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// Set up a memory regions to access GPIO
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//
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volatile unsigned int *setup_io(int reg_base)
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{
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int mem_fd;
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void *io_map;
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// open /dev/mem
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if ((mem_fd = open("/dev/mem", O_RDWR|O_SYNC) ) < 0)
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{
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printf("can't open /dev/mem \n");
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exit(-1);
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}
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// mmap IO
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io_map = mmap(NULL, //Any adddress in our space will do
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IOMAP_LEN, //Map length
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PROT_READ|PROT_WRITE,// Enable reading & writting to mapped memory
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MAP_SHARED, //Shared with other processes
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mem_fd, //File to map
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reg_base); //Offset to peripheral
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close(mem_fd); //No need to keep mem_fd open after mmap
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if (io_map == MAP_FAILED)
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{
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printf("mmap error %d\n", (int)io_map);//errno also set!
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exit(-1);
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}
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return (volatile unsigned *)io_map;
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}
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void release_io(volatile unsigned int *io_map)
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{
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munmap((void *)io_map, IOMAP_LEN);
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}
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void gpclk(int idiv)
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{
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// I/O access
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volatile unsigned *gpio, *cmgp;
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int g,rep;
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unsigned int arm_base = ARMv6_PERI_BASE; // Default to ARMv6 peripheral base
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FILE *cpuinfo;
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char rasstr[1024], pistr[128];
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int version;
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if ((cpuinfo = fopen("/proc/device-tree/model", "r") ) == NULL)
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{
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printf("can't open /proc/device-tree/model\n");
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exit(-1);
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}
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if (fscanf(cpuinfo, "%s %s %d", rasstr, pistr, &version) == 3)
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{
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if (strcmp(rasstr, "Raspberry") == 0 && strcmp(pistr, "Pi") == 0)
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{
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//printf("Found %s %s version %d\n", rasstr, pistr, version);
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switch (version)
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{
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case 0:
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case 1:
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arm_base = ARMv6_PERI_BASE; // Pi version 1 (ARMv6)
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break;
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case 2:
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case 3:
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arm_base = ARMv7_PERI_BASE; // Pi version 2 and 3 (ARMv7)
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break;
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}
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}
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}
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fclose(cpuinfo);
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// Set up gpi pointer for direct register access
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cmgp = setup_io(arm_base + CMGP_OFFSET);
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gpio = setup_io(arm_base + GPIO_OFFSET);
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// Set Clock Manager to 500 MHz source (PLLD)
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CMGP_REG(CM_GP0CTL) = (0x5A << 24) // Password
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// Disable
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| (1); // Src = oscillator
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usleep(1000);
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CMGP_REG(CM_GP0CTL) = (0x5A << 24) // Password
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// Disable
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| (6); // Src = PLLD
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CMGP_REG(CM_GP0DIV) = (0x5A << 24) // Password
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| ((idiv) << 12); // IDIV
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usleep(1000);
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CMGP_REG(CM_GP0CTL) = (0x5A << 24) // Password
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| (1 << 4) // Enable
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| (6); // Src = PLLD
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usleep(1000);
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// Set GCLK function (ALT0) for GPIO 4 (header pin #7)
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INP_GPIO(4);
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SET_GPIO_ALT(4, 0x00);
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// Release I/O space
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release_io(gpio);
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release_io(cmgp);
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}
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#ifndef SETSERCLK
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int main(void)
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{
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/*
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* Initialize ACIA clock for Apple II Pi card
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*/
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gpclk(271); /* divisor for ~1.8 MHz => (500/271) MHz */
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}
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#endif
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