Difference between revisions of "RockpiS/dev/libmraa"
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(→test pwm) |
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rootuuid=37055840-4ec4-444f-979b-9e47ee4bd848 | rootuuid=37055840-4ec4-444f-979b-9e47ee4bd848 | ||
| − | Folder /mraa/examples/c/pwm.c has examples of testing PWM,Modify the PWM pin in pwm.c as follows | + | Folder '''/mraa/examples/c/pwm.c''' has examples of testing PWM,Modify the PWM pin in pwm.c as follows |
'''/* PWM declaration */''' | '''/* PWM declaration */''' | ||
'''#define PWM 11''' | '''#define PWM 11''' | ||
Revision as of 08:18, 21 April 2020
ROCK Pi S > Development > Install Libmraa
Contents
Libmraa on ROCK Pi S
This guide describes how to use libmraa on ROCK Pi S.
Install essential packages
Package libmraa-rockpis is in the Radxa APT bionic-testing and buster-testing repositories.
Execute the following commands to add Radxa APT
export DISTRO=bionic-testing # for Bionic # or export DISTRO=buster-testing # for Buster
echo "deb http://apt.radxa.com/$DISTRO/ ${DISTRO%-*} main" | sudo tee -a /etc/apt/sources.list.d/apt-radxa-com.list
Get the pub key
wget -O - apt.radxa.com/buster-testing/public.key | sudo apt-key add -
Install essential packages:
sudo apt-get update sudo apt-get install -y rockchip-overlay rockpis-dtbo libmraa
Enable interface
See ROCK Pi S GPIO pintout. ROCK Pi S has a 26-pin colorful expansion header. Each pin is distinguished by color. mraa define follow:
Hardware V12
16 GPIO:
PIN03 GPIO2_A2 PIN05 GPIO2_B0 PIN07 GPIO2_B3 PIN09 GPIO4_C4 PIN11 GPIO4_C2 PIN12 GPIO4_A3 PIN13 GPIO4_C6 PIN15 GPIO4_C5 PIN16 GPIO4_D2 PIN18 GPIO4_D4 PIN19 GPIO1_B0 PIN21 GPIO1_A7 PIN22 GPIO4_D5 PIN23 GPIO1_B1 PIN24 GPIO1_B2 PIN26 GPIO1_B2
3 I2C:
PIN23 I2C0_SDA PIN24 I2C0_SCL PIN3 I2C1_SCL PIN5 I2C1_SDA PIN13 I2C3_SDA PIN15 I2C3_SCL
1 SPI:
PIN19 SPI2TX //must disable i2c0 PIN21 SPI2RX //must disable i2c0 PIN23 SPI2CLK PIN24 SPI2CSN
3 UART:
PIN8 UART0_TX PIN10 UART0_RX PIN23 UART1_TX PIN24 UART1_RX PIN19 UART2_RX PIN21 UART2_TX
2 PWM:
PIN11 PWM2 PIN13 PWM3
1 ADC:
PIN26 ADC_IN0 //the measure voltage must lower than 1.8v
For those ROCK Pi S system images released after March 1st, 2020, to enable pwm2,pwm3,uart1,uart2,i2c0,i2c1,i2c3 and so overlays=, need to follow Device tree overlays.
For those ROCK Pi S system images released before March 1st, 2020, modify /boot/uEnv.txt to enable pwm2,pwm3,uart1,uart2,i2c0,i2c1,i2c3 for test.
rock@rockpis:/boot$ cat uEnv.txt verbosity=7 overlay_prefix=rockchip rootfstype=ext4 fdtfile=rockchip/rk3308-rock-pi-s.dtb overlays=rk3308-console-on-uart0 rk3308-i2c0 rk3308-i2c1 rk3308-i2c3 initrdsize=0x62c6be kernelversion=4.4.143-39-rockchip-gdaf243b9655a initrdimg=initrd.img-4.4.143-39-rockchip-gdaf243b9655a kernelimg=vmlinuz-4.4.143-39-rockchip-gdaf24
Test
test gpio
Use mraa-gpio tool to test
root@rockpis:/# mraa-gpio list 01 3V3: 02 5V: 03 I2C_SDA: GPIO I2C 04 5V: 05 I2C_SCL: GPIO I2C 06 GND: 07 I2S0_8CH_MC: GPIO 08 UART0_TX: GPIO UART 09 GND: 10 UART0_RX: GPIO UART 11 PWM2,I2C3_S: GPIO I2C PWM 12 I2S0_8CH_SC: GPIO 13 PWM3,I2C3_S: GPIO I2C PWM 14 GND: 15 SPDIF_TX: GPIO 16 I2S0_8CH_SD: GPIO 17 3V3: 18 I2S0_8CH_SD: GPIO 19 UART1_RTSN,: GPIO SPI UART 20 GND: 21 UART1_CTSN,: GPIO SPI UART 22 I2S0_8CH_LR: GPIO 23 UART1_RX,I2: GPIO I2C SPI UART 24 UART1_TX,I2: GPIO I2C SPI UART 25 GND: 26 ADC_IN0: AIO root@rockpis:/# mraa-gpio set 15 1 #pin15 pull high root@rockpis:/# mraa-gpio set 15 0 #pin15 pull high root@rockpis:/#
test pwm
First, modify the / boot/uEnv.txt file to add the following
rock@rockpis:~/mraa/src/arm$ cat /boot/uEnv.txt verbosity=7 overlay_prefix=rockchip rootfstype=ext4 fdtfile=rockchip/rk3308-rock-pi-s.dtb overlays=rk3308-console-on-uart0 rk3308-pwm1 initrdsize=0x62c6be kernelversion=4.4.143-39-rockchip-gdaf243b9655a initrdimg=initrd.img-4.4.143-39-rockchip-gdaf243b9655a kernelimg=vmlinuz-4.4.143-39-rockchip-gdaf243b9655a rootuuid=37055840-4ec4-444f-979b-9e47ee4bd848
Folder /mraa/examples/c/pwm.c has examples of testing PWM,Modify the PWM pin in pwm.c as follows
/* PWM declaration */ #define PWM 11
Save and compile pwm.c
rock@rockpis:~/mraa/examples/c$ gcc -o pwm pwm.c -lmraa rock@rockpis:~/mraa/examples/c$ sudo ./pwm PWM value is 0.010015 PWM value is 0.019985 PWM value is 0.030000 PWM value is 0.040014 PWM value is 0.049984 PWM value is 0.059999
test i2c
Use mraa-i2c tool to test,here we use I2C MPU6050
root@rockpis:/home/rock/c# cat i2c_mpu6050.c
/* standard headers */
#include <endian.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
/* mraa header */
#include "mraa/i2c.h"
#define I2C_BUS 1
/* register definitions */
#define MPU6050_ADDR 0x68
#define MPU6050_REG_PWR_MGMT_1 0x6b
#define MPU6050_REG_RAW_ACCEL_X 0x3b
#define MPU6050_REG_RAW_ACCEL_Y 0x3d
#define MPU6050_REG_RAW_ACCEL_Z 0x3f
#define MPU6050_REG_RAW_GYRO_X 0x43
#define MPU6050_REG_RAW_GYRO_Y 0x45
#define MPU6050_REG_RAW_GYRO_Z 0x47
/* bit definitions */
#define MPU6050_RESET 0x80
#define MPU6050_SLEEP (1 << 6)
#define MPU6050_PLL_GYRO_X (1 << 1)
/* accelerometer scale factor for (+/-)2g */
#define MPU6050_ACCEL_SCALE 16384.0
/* gyroscope scale factor for (+/-)250/s */
#define MPU6050_GYRO_SCALE 131.0
volatile sig_atomic_t flag = 1;
void
sig_handler(int signum)
{
if (signum == SIGINT) {
fprintf(stdout, "Exiting...\n");
flag = 0;
}
}
int16_t
i2c_read_word(mraa_i2c_context dev, uint8_t command)
{
return be16toh(mraa_i2c_read_word_data(dev, command));
}
int
main(void)
{
mraa_result_t status = MRAA_SUCCESS;
mraa_i2c_context i2c;
uint8_t data;
int16_t accel_data[3];
int16_t gyro_data[3];
int ret;
/* install signal handler */
signal(SIGINT, sig_handler);
/* initialize mraa for the platform (not needed most of the times) */
mraa_init();
//! [Interesting]
/* initialize I2C bus */
i2c = mraa_i2c_init(I2C_BUS);
if (i2c == NULL) {
fprintf(stderr, "Failed to initialize I2C\n");
mraa_deinit();
return EXIT_FAILURE;
}
/* set slave address */
status = mraa_i2c_address(i2c, MPU6050_ADDR);
if (status != MRAA_SUCCESS) {
goto err_exit;
}
/* reset the sensor */
status = mraa_i2c_write_byte_data(i2c, MPU6050_RESET, MPU6050_REG_PWR_MGMT_1);
if (status != MRAA_SUCCESS) {
goto err_exit;
}
sleep(5);
/* configure power management register */
ret = mraa_i2c_read_byte_data(i2c, MPU6050_REG_PWR_MGMT_1);
if (ret == -1) {
return EXIT_FAILURE;
}
data = ret;
data |= MPU6050_PLL_GYRO_X;
data &= ~(MPU6050_SLEEP);
status = mraa_i2c_write_byte_data(i2c, data, MPU6050_REG_PWR_MGMT_1);
if (status != MRAA_SUCCESS) {
goto err_exit;
}
sleep(5);
while (flag) {
/* read raw accel data */
accel_data[0] = i2c_read_word(i2c, MPU6050_REG_RAW_ACCEL_X) / MPU6050_ACCEL_SCALE;
accel_data[1] = i2c_read_word(i2c, MPU6050_REG_RAW_ACCEL_Y) / MPU6050_ACCEL_SCALE;
accel_data[2] = i2c_read_word(i2c, MPU6050_REG_RAW_ACCEL_Z) / MPU6050_ACCEL_SCALE;
/* read raw gyro data */
gyro_data[0] = i2c_read_word(i2c, MPU6050_REG_RAW_GYRO_X) / MPU6050_GYRO_SCALE;
gyro_data[1] = i2c_read_word(i2c, MPU6050_REG_RAW_GYRO_Y) / MPU6050_GYRO_SCALE;
gyro_data[2] = i2c_read_word(i2c, MPU6050_REG_RAW_GYRO_Z) / MPU6050_GYRO_SCALE;
fprintf(stdout, "accel: x:%d y:%d z:%d\n", accel_data[0], accel_data[1], accel_data[2]);
fprintf(stdout, "gyro: x:%d y:%d z:%d\n\n", gyro_data[0], gyro_data[1], gyro_data[2]);
sleep(2);
}
/* stop i2c */
mraa_i2c_stop(i2c);
//! [Interesting]
/* deinitialize mraa for the platform (not needed most of the times) */
mraa_deinit();
return EXIT_SUCCESS;
err_exit:
mraa_result_print(status);
/* stop i2c */
mraa_i2c_stop(i2c);
/* deinitialize mraa for the platform (not needed most of the times) */
mraa_deinit();
return EXIT_FAILURE;
}
root@rockpis:/home/rock/c# gcc i2c_mpu6050.c -lmraa
root@rockpis:/home/rock/c#
Run the compiled file
root@rockpis:/home/rock/c# ./a.out
accel: x:0 y:0 z:0
gyro: x:-10 y:1 z:7
accel: x:0 y:0 z:0
gyro: x:107 y:-12 z:69
accel: x:0 y:0 z:0
gyro: x:6 y:136 z:-50
accel: x:0 y:0 z:0
gyro: x:-5 y:48 z:-103
accel: x:0 y:0 z:0
gyro: x:3 y:3 z:5
test uart
enable uart1 for uart test
root@rockpis:/home/rock# cat /boot/hw_intfc.conf # Hardware Interface Config # Set "on" to enable the optional hardware interfaces while set "off" to disable. intfc:i2c0=off intfc:i2c1=off intfc:i2c2=off intfc:i2c3=off intfc:pwm1=off intfc:pwm2=off intfc:pwm3=off intfc:spi0=off intfc:spi2=off intfc:uart0=off intfc:uart1=on intfc:uart2=on # Devicetree Overlay Enable, uncomment to enable .dtbo under /boot/overlays/. # Serial console on UART0 intfc:dtoverlay=console-on-ttyS0 # waveshare 3.5inch lcd (B v2) on SPI2. Need set: # intfc:uart1=off intfc:uart2=off intfc:i2c0=off intfc:spi2=on #intfc:dtoverlay=spi2-waveshare35b-v2 # waveshare 3.5inch lcd (C) on SPI2. Need set: # intfc:uart1=off intfc:uart2=off intfc:i2c0=off intfc:spi2=on #intfc:dtoverlay=spi2-waveshare35c # Dummy spi device on SPI0 for test. Need set: intfc:spi0=on #intfc:dtoverlay=devspi0 # Dummy spi device on SPI2 for test. Need set: intfc:spi2=on #intfc:dtoverlay=devspi2 # Use /dev/ttyS0. Need set: intfc:uart0=on #intfc:dtoverlay=rk3308-uart0 # Use /dev/ttyS1. Need set: intfc:uart1=on intfc:dtoverlay=rk3308-uart1 # Use /dev/ttyS2. Need set: intfc:uart2=on intfc:dtoverlay=rk3308-uart2
then reboot and use serial port PIN23 and PIN24
send command follow:
sudo mraa-uart dev 0 baud 1500000 send data
receive command follow:
sudo mraa-uart dev 0 baud 1500000 recv 1000
the receive window will show
date
test spi
First, modify the / boot/uEnv.txt file to add the following
rock@rockpis:/boot$ cat uEnv.txt verbosity=7 overlay_prefix=rockchip rootfstype=ext4 fdtfile=rockchip/rk3308-rock-pi-s.dtb overlays=rk3308-console-on-uart0 rk3308-spi-spidev param_spidev_spi_bus=2 initrdsize=0x62c6be kernelversion=4.4.143-39-rockchip-gdaf243b9655a initrdimg=initrd.img-4.4.143-39-rockchip-gdaf243b9655a kernelimg=vmlinuz-4.4.143-39-rockchip-gdaf243b9655a rootuuid=37055840-4ec4-444f-979b-9e47ee4bd848
then reboot
use c to test spi,compile spi.c,if use spi1,must disable
rock@rockpis:~$ cat test-spi.c
#include <signal.h>
#include <stdlib.h>
#include <unistd.h>
/* mraa header */
#include "mraa/spi.h"
/* SPI declaration */
#define SPI_BUS 2
/* SPI frequency in Hz */
#define SPI_FREQ 10000000
int
main(int argc, char** argv)
{
mraa_result_t status = MRAA_SUCCESS;
mraa_spi_context spi;
int i, j;
/* initialize mraa for the platform (not needed most of the times) */
mraa_init();
//! [Interesting]
/* initialize SPI bus */
spi = mraa_spi_init(SPI_BUS);
if (spi == NULL) {
fprintf(stderr, "Failed to initialize SPI\n");
mraa_deinit();
return EXIT_FAILURE;
}
/* set SPI frequency */
status = mraa_spi_frequency(spi, SPI_FREQ);
if (status != MRAA_SUCCESS)
goto err_exit;
/* set big endian mode */
status = mraa_spi_lsbmode(spi, 0);
if (status != MRAA_SUCCESS) {
goto err_exit;
}
j = 10;
while(j) {
j--;
printf("0x%x\n",mraa_spi_write(spi, 0xaa));
}
err_exit:
mraa_result_print(status);
/* stop spi */
mraa_spi_stop(spi);
/* deinitialize mraa for the platform (not needed most of the times) */
mraa_deinit();
return EXIT_FAILURE;
}
rock@rockpis:~$ gcc -o test-spi test-spi.c -lmraa
then short pin19 and pin21 and run a.out
rock@rockpis:~$ sudo ./test-spi 0xaa 0xaa 0xaa 0xaa 0xaa 0xaa 0xaa 0xaa 0xaa 0xaa MRAA: SUCCESS
test adc
connect signal you want to measure,and then compile mraa examplec file to test.
Folder /mraa/examples/c/aio.c has examples of testing ADC,compiling it and executing
rock@rockpis:~/mraa/examples/c$ gcc aio.c -lmraa rock@rockpis:~/mraa/examples/c$ ./a.out ADC A0 read 1A5 - 421 ADC A0 read float - 0.41153 ADC A0 read 1A5 - 421 ADC A0 read float - 0.41153 ADC A0 read 1A5 - 421 ADC A0 read float - 0.41153 ADC A0 read 1A5 - 421 ADC A0 read float - 0.41153
Development
More introduction of libmraa can look at libmraa official website.