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pi-blaster.c
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pi-blaster.c
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/*
* pi-blaster.c Multiple PWM for the Raspberry Pi
* Copyright (c) 2013 Thomas Sarlandie <thomas@sarlandie.net>
*
* Based on the most excellent servod.c by Richard Hirst
* Copyright (c) 2013 Richard Hirst <richardghirst@gmail.com>
*
* This program provides very similar functionality to servoblaster, except
* that rather than implementing it as a kernel module, servod implements
* the functionality as a usr space daemon.
*
*/
/*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#define _POSIX_C_SOURCE 200809L
#define _XOPEN_SOURCE 700
#define _DEFAULT_SOURCE
#ifdef HAVE_CONFIG_H
#include "config.h"
#else
static char VERSION[] = "SNAPSHOT";
#endif
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <getopt.h>
#include <errno.h>
#include <stdarg.h>
#include <stdint.h>
#include <signal.h>
#include <time.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/sysmacros.h>
#include <fcntl.h>
#include <sys/mman.h>
#include "mailbox.h"
// MAX_CHANNELS is both the highest gpio we can address
// and the maximum number of channels
#define MAX_CHANNELS 32
// Create default known_pins with raspberry pi list of pins
// to compare against the param received.
static uint8_t known_pins[MAX_CHANNELS] = {
4, // P1-7
17, // P1-11
18, // P1-12
27, // P1-13
21, // P1-40
22, // P1-15
23, // P1-16
24, // P1-18
25, // P1-22
};
// Create a list of reserved GPIO pins
// http://elinux.org/RPi_Low-level_peripherals
static uint8_t banned_pins[MAX_CHANNELS] = {
6, // On Model B, it is in use for the Ethernet function
28, // board ID and are connected to resistors R3 to R10 (only on Rev1.0 boards).
29, // board ID and are connected to resistors R3 to R10 (only on Rev1.0 boards).
30, // board ID and are connected to resistors R3 to R10 (only on Rev1.0 boards).
31, // board ID and are connected to resistors R3 to R10 (only on Rev1.0 boards).
// 40, // used by analogue audio
// 45, // used by analogue audio
46, // HDMI hotplug detect
47, // 47 to 53 are used by the SD card interface.
48, // 47 to 53 are used by the SD card interface.
49, // 47 to 53 are used by the SD card interface.
50, // 47 to 53 are used by the SD card interface.
51, // 47 to 53 are used by the SD card interface.
52, // 47 to 53 are used by the SD card interface.
53, // 47 to 53 are used by the SD card interface.
};
// Set num of possible PWM channels based on the known pins size.
uint8_t num_channels = (sizeof(known_pins)/sizeof(known_pins[0]));
// pin2gpio array is not setup as empty to avoid locking all GPIO
// inputs as PWM, they are set on the fly by the pin param passed.
static uint8_t pin2gpio[MAX_CHANNELS];
#define DEVFILE "/dev/pi-blaster"
#define DEVFILE_MBOX "/dev/pi-blaster-mbox"
#define DEVFILE_VCIO "/dev/vcio"
#define PAGE_SIZE 4096
#define PAGE_SHIFT 12
// CYCLE_TIME_US is the period of the PWM signal in us.
#define CYCLE_TIME_US 10000
// SAMPLE_US is the pulse width increment granularity, again in microseconds.
// Setting SAMPLE_US too low will likely cause problems as the DMA controller
// will use too much memory bandwidth. 10us is a good value, though you
// might be ok setting it as low as 2us.
#define SAMPLE_US 10
#define NUM_SAMPLES (CYCLE_TIME_US/SAMPLE_US)
#define NUM_CBS (NUM_SAMPLES*2)
#define NUM_PAGES ((NUM_CBS * sizeof(dma_cb_t) + NUM_SAMPLES * 4 + \
PAGE_SIZE - 1) >> PAGE_SHIFT)
#define DMA_BASE (periph_virt_base + 0x00007000)
#define DMA_CHAN_SIZE 0x100 /* size of register space for a single DMA channel */
#define DMA_CHAN_MAX 14 /* number of DMA Channels we have... actually, there are 15... but channel fifteen is mapped at a different DMA_BASE, so we leave that one alone */
#define DMA_CHAN_NUM 14 /* the DMA Channel we are using, NOTE: DMA Ch 0 seems to be used by X... better not use it ;) */
#define DMA_CHAN_NUM_PI4 7
#define PWM_BASE_OFFSET 0x0020C000
#define PWM_BASE (periph_virt_base + PWM_BASE_OFFSET)
#define PWM_PHYS_BASE (periph_phys_base + PWM_BASE_OFFSET)
#define PWM_LEN 0x28
#define CLK_BASE_OFFSET 0x00101000
#define CLK_BASE (periph_virt_base + CLK_BASE_OFFSET)
#define CLK_LEN 0xA8
#define GPIO_BASE_OFFSET 0x00200000
#define GPIO_BASE (periph_virt_base + GPIO_BASE_OFFSET)
#define GPIO_PHYS_BASE (periph_phys_base + GPIO_BASE_OFFSET)
#define GPIO_LEN 0x100
#define PCM_BASE_OFFSET 0x00203000
#define PCM_BASE (periph_virt_base + PCM_BASE_OFFSET)
#define PCM_PHYS_BASE (periph_phys_base + PCM_BASE_OFFSET)
#define PCM_LEN 0x24
#define DMA_NO_WIDE_BURSTS (1<<26)
#define DMA_WAIT_RESP (1<<3)
#define DMA_D_DREQ (1<<6)
#define DMA_PER_MAP(x) ((x)<<16)
#define DMA_END (1<<1)
#define DMA_RESET (1<<31)
#define DMA_INT (1<<2)
#define DMA_CS (0x00/4)
#define DMA_CONBLK_AD (0x04/4)
#define DMA_DEBUG (0x20/4)
#define GPIO_FSEL0 (0x00/4)
#define GPIO_SET0 (0x1c/4)
#define GPIO_CLR0 (0x28/4)
#define GPIO_LEV0 (0x34/4)
#define GPIO_PULLEN (0x94/4)
#define GPIO_PULLCLK (0x98/4)
#define GPIO_MODE_IN 0
#define GPIO_MODE_OUT 1
#define PWM_CTL (0x00/4)
#define PWM_DMAC (0x08/4)
#define PWM_RNG1 (0x10/4)
#define PWM_FIFO (0x18/4)
#define PWMCLK_CNTL 40
#define PWMCLK_DIV 41
#define PWMCTL_MODE1 (1<<1)
#define PWMCTL_PWEN1 (1<<0)
#define PWMCTL_CLRF (1<<6)
#define PWMCTL_USEF1 (1<<5)
#define PWMDMAC_ENAB (1<<31)
#define PWMDMAC_THRSHLD ((15<<8)|(15<<0))
#define PCM_CS_A (0x00/4)
#define PCM_FIFO_A (0x04/4)
#define PCM_MODE_A (0x08/4)
#define PCM_RXC_A (0x0c/4)
#define PCM_TXC_A (0x10/4)
#define PCM_DREQ_A (0x14/4)
#define PCM_INTEN_A (0x18/4)
#define PCM_INT_STC_A (0x1c/4)
#define PCM_GRAY (0x20/4)
#define PCMCLK_CNTL 38
#define PCMCLK_DIV 39
#define DELAY_VIA_PWM 0
#define DELAY_VIA_PCM 1
/* New Board Revision format:
SRRR MMMM PPPP TTTT TTTT VVVV
S scheme (0=old, 1=new)
R RAM (0=256, 1=512, 2=1024)
M manufacturer (0='SONY',1='EGOMAN',2='EMBEST',3='UNKNOWN',4='EMBEST')
P processor (0=2835, 1=2836)
T type (0='A', 1='B', 2='A+', 3='B+', 4='Pi 2 B', 5='Alpha', 6='Compute Module', 11='4b')
V revision (0-15)
*/
#define BOARD_REVISION_SCHEME_MASK (0x1 << 23)
#define BOARD_REVISION_SCHEME_OLD (0x0 << 23)
#define BOARD_REVISION_SCHEME_NEW (0x1 << 23)
#define BOARD_REVISION_RAM_MASK (0x7 << 20)
#define BOARD_REVISION_MANUFACTURER_MASK (0xF << 16)
#define BOARD_REVISION_MANUFACTURER_SONY (0 << 16)
#define BOARD_REVISION_MANUFACTURER_EGOMAN (1 << 16)
#define BOARD_REVISION_MANUFACTURER_EMBEST (2 << 16)
#define BOARD_REVISION_MANUFACTURER_UNKNOWN (3 << 16)
#define BOARD_REVISION_MANUFACTURER_EMBEST2 (4 << 16)
#define BOARD_REVISION_PROCESSOR_MASK (0xF << 12)
#define BOARD_REVISION_PROCESSOR_2835 (0 << 12)
#define BOARD_REVISION_PROCESSOR_2836 (1 << 12)
#define BOARD_REVISION_TYPE_MASK (0xFF << 4)
#define BOARD_REVISION_TYPE_PI1_A (0 << 4)
#define BOARD_REVISION_TYPE_PI1_B (1 << 4)
#define BOARD_REVISION_TYPE_PI1_A_PLUS (2 << 4)
#define BOARD_REVISION_TYPE_PI1_B_PLUS (3 << 4)
#define BOARD_REVISION_TYPE_PI2_B (4 << 4)
#define BOARD_REVISION_TYPE_ALPHA (5 << 4)
#define BOARD_REVISION_TYPE_PI3_B (8 << 4)
#define BOARD_REVISION_TYPE_PI3_BP (0xD << 4)
#define BOARD_REVISION_TYPE_PI3_AP (0x7 << 5)
#define BOARD_REVISION_TYPE_CM (6 << 4)
#define BOARD_REVISION_TYPE_CM3 (10 << 4)
#define BOARD_REVISION_TYPE_PI4_B (0x11 << 4)
#define BOARD_REVISION_REV_MASK (0xF)
#define BUS_TO_PHYS(x) ((x)&~0xC0000000)
#ifdef DEBUG
#define dprintf(...) printf(__VA_ARGS__)
#else
#define dprintf(...)
#endif
static struct {
int handle; /* From mbox_open() */
unsigned mem_ref; /* From mem_alloc() */
unsigned bus_addr; /* From mem_lock() */
uint8_t *virt_addr; /* From mapmem() */
} mbox;
typedef struct {
uint32_t info, src, dst, length,
stride, next, pad[2];
} dma_cb_t;
struct ctl {
uint32_t sample[NUM_SAMPLES];
dma_cb_t cb[NUM_CBS];
};
static uint32_t periph_virt_base;
static uint32_t periph_phys_base;
static uint32_t mem_flag;
static volatile uint32_t *pwm_reg;
static volatile uint32_t *pcm_reg;
static volatile uint32_t *clk_reg;
static volatile uint32_t *dma_virt_base; /* base address of all DMA Channels */
static volatile uint32_t *dma_reg; /* pointer to the DMA Channel registers we are using */
static volatile uint32_t *gpio_reg;
static int delay_hw = DELAY_VIA_PWM;
static int invert_mode = 0;
static int daemonize = 1;
static float channel_pwm[MAX_CHANNELS];
static uint32_t plldfreq_mhz;
static int dma_chan;
static void set_pwm(int channel, float value);
static void update_pwm();
static void fatal(char *fmt, ...);
// open a char device file used for communicating with kernel mbox driver
int mbox_open() {
int file_desc;
// try to use /dev/vcio first (kernel 4.1+)
file_desc = open(DEVFILE_VCIO, 0);
if (file_desc < 0) {
/* initialize mbox */
unlink(DEVFILE_MBOX);
if (mknod(DEVFILE_MBOX, S_IFCHR|0600, makedev(MAJOR_NUM, 0)) < 0)
fatal("Failed to create mailbox device\n");
file_desc = open(DEVFILE_MBOX, 0);
if (file_desc < 0) {
printf("Can't open device file: %s\n", DEVFILE_MBOX);
perror(NULL);
exit(-1);
}
}
return file_desc;
}
void mbox_close(int file_desc) {
close(file_desc);
}
static void gpio_set_mode(uint32_t pin, uint32_t mode) {
uint32_t fsel = gpio_reg[GPIO_FSEL0 + pin/10];
fsel &= ~(7 << ((pin % 10) * 3));
fsel |= mode << ((pin % 10) * 3);
gpio_reg[GPIO_FSEL0 + pin/10] = fsel;
}
static void gpio_set(int pin, int level) {
if (level)
gpio_reg[GPIO_SET0] = 1 << pin;
else
gpio_reg[GPIO_CLR0] = 1 << pin;
}
static void udelay(int us) {
struct timespec ts = { 0, us * 1000 };
nanosleep(&ts, NULL);
}
static void terminate(int dummy) {
int i;
dprintf("Resetting DMA...\n");
if (dma_reg && mbox.virt_addr) {
for (i = 0; i < num_channels; i++)
channel_pwm[i] = 0;
update_pwm();
udelay(CYCLE_TIME_US);
dma_reg[DMA_CS] = DMA_RESET;
udelay(10);
}
dprintf("Freeing mbox memory...\n");
if (mbox.virt_addr != NULL) {
unmapmem(mbox.virt_addr, NUM_PAGES * PAGE_SIZE);
if (mbox.handle <= 2) {
/* we need to reopen mbox file */
mbox.handle = mbox_open();
}
mem_unlock(mbox.handle, mbox.mem_ref);
mem_free(mbox.handle, mbox.mem_ref);
mbox_close(mbox.handle);
}
dprintf("Unlink %s...\n", DEVFILE);
unlink(DEVFILE);
dprintf("Unlink %s...\n", DEVFILE_MBOX);
unlink(DEVFILE_MBOX);
printf("pi-blaster stopped.\n");
exit(1);
}
static void fatal(char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
vfprintf(stderr, fmt, ap);
va_end(ap);
terminate(0);
}
/*
* determine which pi model we are running on
*/
static void get_model(unsigned mbox_board_rev) {
int board_model = 0;
if ((mbox_board_rev & BOARD_REVISION_SCHEME_MASK) == BOARD_REVISION_SCHEME_NEW) {
if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_PI2_B) {
board_model = 2;
} else if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_PI3_B) {
board_model = 3;
} else if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_PI3_BP) {
board_model = 3;
} else if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_PI3_AP) {
board_model = 3;
} else if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_CM3) {
board_model = 3;
} else if ((mbox_board_rev & BOARD_REVISION_TYPE_MASK) == BOARD_REVISION_TYPE_PI4_B) {
board_model = 4;
} else {
// no Pi 2, we assume a Pi 1
board_model = 1;
}
} else {
// if revision scheme is old, we assume a Pi 1
board_model = 1;
}
switch(board_model) {
case 1:
periph_virt_base = 0x20000000;
periph_phys_base = 0x7e000000;
plldfreq_mhz = 500;
dma_chan = DMA_CHAN_NUM;
mem_flag = MEM_FLAG_L1_NONALLOCATING | MEM_FLAG_ZERO;
break;
case 2:
case 3:
periph_virt_base = 0x3f000000;
periph_phys_base = 0x7e000000;
plldfreq_mhz = 500;
dma_chan = DMA_CHAN_NUM;
mem_flag = MEM_FLAG_L1_NONALLOCATING | MEM_FLAG_ZERO;
break;
case 4:
periph_virt_base = 0xFE000000;
periph_phys_base = 0x7e000000;
plldfreq_mhz = 750;
dma_chan = DMA_CHAN_NUM_PI4;
mem_flag = MEM_FLAG_L1_NONALLOCATING | MEM_FLAG_ZERO;
break;
default:
fatal("Unable to detect Board Model from board revision: %#x", mbox_board_rev);
break;
}
}
static uint32_t mem_virt_to_phys(void *virt) {
uint32_t offset = (uint8_t *)virt - mbox.virt_addr;
return mbox.bus_addr + offset;
}
static void* map_peripheral(uint32_t base, uint32_t len) {
int fd = open("/dev/mem", O_RDWR | O_SYNC);
void * vaddr;
if (fd < 0)
fatal("pi-blaster: Failed to open /dev/mem: %m\n");
vaddr = mmap(NULL, len, PROT_READ|PROT_WRITE, MAP_SHARED, fd, base);
if (vaddr == MAP_FAILED)
fatal("pi-blaster: Failed to map peripheral at 0x%08x: %m\n", base);
close(fd);
return vaddr;
}
// Check if the pin provided is found in the list of known pins.
static int is_known_pin(int pin) {
int found = 0;
for (int i = 0; i < num_channels; i++) {
if (known_pins[i] == pin) {
found = 1;
break;
}
}
return(found);
}
// Check if the pin provided is found in the list of BANNED pins.
static int is_banned_pin(int pin) {
int found = 0;
for (int i = 0; i < num_channels; i++) {
if (banned_pins[i] == pin) {
found = 1;
break;
}
}
return(found);
}
// Set the pin to a pin2gpio element so pi-blaster can write to it,
// and set the width of the PWM pulse to the element with the same index
// in channel_pwm array.
static int set_pin2gpio(int pin, float width) {
int established = 0;
for (int i = 0; i < num_channels; i++) {
if (pin2gpio[i] == pin || pin2gpio[i] == 0) {
if (pin2gpio[i] == 0) {
pin2gpio[i] = pin;
gpio_set(pin, invert_mode);
gpio_set_mode(pin, GPIO_MODE_OUT);
}
channel_pwm[i] = width;
established = 1;
break;
}
}
return(established);
}
// To avoid storing the same pin 2 times after one pin has been released
// we compact the pin2gpio array so all ON PWM pins are at the begining.
static void compact_pin2gpio() {
int i, j = 0;
uint8_t tmp_pin2gpio[MAX_CHANNELS];
float tmp_channel_pwm[MAX_CHANNELS];
for (i = 0; i < num_channels; i++) {
if (pin2gpio[i] != 0){
tmp_pin2gpio[j] = pin2gpio[i];
tmp_channel_pwm[j] = channel_pwm[i];
j++;
}
}
// Set the remaining slots in the arrays to 0, to disable them
for (i = j; i < num_channels; i++) {
tmp_pin2gpio[i] = 0;
tmp_channel_pwm[i] = 0;
}
for (i = 0; i < num_channels; i++){
pin2gpio[i] = tmp_pin2gpio[i];
channel_pwm[i] = tmp_channel_pwm[i];
}
}
// Pins can be relesead after being setup as PWM pins by writing the release <pin>
// command to the /dev/pi-blaster file. We make sure to compact the pin2gpio array
// that contains currently working pwm pins.
static int release_pin2gpio(int pin) {
int released = 0;
for (int i = 0; i < num_channels; i++) {
if (pin2gpio[i] == pin) {
channel_pwm[i] = 0;
pin2gpio[i] = 0;
released = 1;
break;
}
}
compact_pin2gpio();
return(released);
}
// Set each provided pin to one in pin2gpio
static int set_pin(int pin, float width)
{
int established = 0;
if (is_known_pin(pin)) {
established = set_pin2gpio(pin, width);
} else {
fprintf(stderr, "GPIO %d is not enabled for pi-blaster\n", pin);
}
return (established);
}
// Function make sure the pin we want to release is a valid pin, if it is
// then calls release_pin2gpio to delete it from currently ON pins.
static int release_pin(int pin) {
int released = 0;
if (is_known_pin(pin)){
released = release_pin2gpio(pin);
} else {
fprintf(stderr, "GPIO %d is not enabled for pi-blaster\n", pin);
}
return(released);
}
// Releases the PWM pin requested (if found and valid) and updates the calls
// update_pwm to apply the changes to the actual hardware pins if needed.
static void release_pwm(int pin) {
if (release_pin(pin)){
update_pwm();
}
}
// Set pin2gpio pins, channel width and update the pwm send to pins being used.
static void set_pwm(int channel, float width) {
if (set_pin(channel, width)){
update_pwm();
}
}
// Run set_pwm on every known pin, setting all of them to the provided width.
static void set_all_pwm(float width) {
for (int i = 0; i < num_channels; i++) {
set_pwm(known_pins[i], width);
}
}
/*
* What we need to do here is:
* First DMA command turns on the pins that are >0
* All the other packets turn off the pins that are not used
*
* For the cpb packets (The DMA control packet)
* -> cbp[0]->dst = gpset0: set the pwms that are active
* -> cbp[*]->dst = gpclr0: clear when the sample has a value
*
* For the samples (The value that is written by the DMA command to cbp[n]->dst)
* -> dp[0] = mask of the pwms that are active
* -> dp[n] = mask of the pwm to stop at time n
*
* We dont really need to reset the cb->dst each time but I believe it helps a lot
* in code readability in case someone wants to generate more complex signals.
*/
static void update_pwm() {
uint32_t phys_gpclr0 = GPIO_PHYS_BASE + 0x28;
uint32_t phys_gpset0 = GPIO_PHYS_BASE + 0x1c;
struct ctl *ctl = (struct ctl *)mbox.virt_addr;
uint32_t mask;
/* First we turn on the channels that need to be on */
/* Take the first DMA Packet and set it's target to start pulse */
if (invert_mode)
ctl->cb[0].dst = phys_gpclr0;
else
ctl->cb[0].dst = phys_gpset0;
/* Now create a mask of all the pins that should be on */
mask = 0;
for (int i = 0; i < num_channels; i++) {
// Check the pin2gpio pin has been set to avoid locking all of them as PWM.
if (channel_pwm[i] > 0 && pin2gpio[i]) {
mask |= 1 << pin2gpio[i];
}
}
/* And give that to the DMA controller to write */
ctl->sample[0] = mask;
/* Now we go through all the samples and turn the pins off when needed */
for (int j = 1; j < NUM_SAMPLES; j++) {
if (invert_mode)
ctl->cb[j*2].dst = phys_gpset0;
else
ctl->cb[j*2].dst = phys_gpclr0;
mask = 0;
for (int i = 0; i < num_channels; i++) {
// Check the pin2gpio pin has been set to avoid locking all of them as PWM.
if ((float)j/NUM_SAMPLES > channel_pwm[i] && pin2gpio[i])
mask |= 1 << pin2gpio[i];
}
ctl->sample[j] = mask;
}
}
static void setup_sighandlers(void) {
// Catch all signals possible - it is vital we kill the DMA engine
// on process exit!
for (int i = 0; i < 64; i++) {
struct sigaction sa;
memset(&sa, 0, sizeof(sa));
sa.sa_handler = terminate;
sigaction(i, &sa, NULL);
}
signal(SIGWINCH, SIG_IGN);
}
static void
init_ctrl_data(void) {
dprintf("Initializing DMA ...\n");
struct ctl *ctl = (struct ctl *)mbox.virt_addr;
dma_cb_t *cbp = ctl->cb;
uint32_t phys_fifo_addr;
uint32_t phys_gpclr0 = GPIO_PHYS_BASE + 0x28;
uint32_t phys_gpset0 = GPIO_PHYS_BASE + 0x1c;
uint32_t mask;
if (delay_hw == DELAY_VIA_PWM) {
phys_fifo_addr = PWM_PHYS_BASE + 0x18;
}
else {
phys_fifo_addr = PCM_PHYS_BASE + 0x04;
}
memset(ctl->sample, 0, sizeof(ctl->sample));
// Calculate a mask to turn off all the servos
mask = 0;
for (int i = 0; i < num_channels; i++) {
mask |= 1 << known_pins[i];
}
for (int i = 0; i < NUM_SAMPLES; i++) {
ctl->sample[i] = mask;
}
/* Initialize all the DMA commands. They come in pairs.
* - 1st command copies a value from the sample memory to a destination
* address which can be either the gpclr0 register or the gpset0 register
* - 2nd command waits for a trigger from an external source (PWM or PCM)
*/
for (int i = 0; i < NUM_SAMPLES; i++) {
/* First DMA command */
cbp->info = DMA_NO_WIDE_BURSTS | DMA_WAIT_RESP;
cbp->src = mem_virt_to_phys(ctl->sample + i);
if (invert_mode)
cbp->dst = phys_gpset0;
else
cbp->dst = phys_gpclr0;
cbp->length = 4;
cbp->stride = 0;
cbp->next = mem_virt_to_phys(cbp + 1);
cbp++;
/* Second DMA command */
if (delay_hw == DELAY_VIA_PWM)
cbp->info = DMA_NO_WIDE_BURSTS | DMA_WAIT_RESP | DMA_D_DREQ | DMA_PER_MAP(5);
else
cbp->info = DMA_NO_WIDE_BURSTS | DMA_WAIT_RESP | DMA_D_DREQ | DMA_PER_MAP(2);
cbp->src = mem_virt_to_phys(ctl); // Any data will do
cbp->dst = phys_fifo_addr;
cbp->length = 4;
cbp->stride = 0;
cbp->next = mem_virt_to_phys(cbp + 1);
cbp++;
}
cbp--;
cbp->next = mem_virt_to_phys(ctl->cb);
}
static void init_hardware(void) {
dprintf("Initializing PWM/PCM HW...\n");
struct ctl *ctl = (struct ctl *)mbox.virt_addr;
if (delay_hw == DELAY_VIA_PWM) {
// Initialise PWM
pwm_reg[PWM_CTL] = 0;
udelay(10);
clk_reg[PWMCLK_CNTL] = 0x5A000006; // Source=PLLD (500MHz)
udelay(100);
clk_reg[PWMCLK_DIV] = 0x5A000000 | (plldfreq_mhz<<12); // set pwm div to 500, giving 1MHz
udelay(100);
clk_reg[PWMCLK_CNTL] = 0x5A000016; // Source=PLLD and enable
udelay(100);
pwm_reg[PWM_RNG1] = SAMPLE_US;
udelay(10);
pwm_reg[PWM_DMAC] = PWMDMAC_ENAB | PWMDMAC_THRSHLD;
udelay(10);
pwm_reg[PWM_CTL] = PWMCTL_CLRF;
udelay(10);
pwm_reg[PWM_CTL] = PWMCTL_USEF1 | PWMCTL_PWEN1;
udelay(10);
} else {
// Initialise PCM
pcm_reg[PCM_CS_A] = 1; // Disable Rx+Tx, Enable PCM block
udelay(100);
clk_reg[PCMCLK_CNTL] = 0x5A000006; // Source=PLLD (500MHz)
udelay(100);
clk_reg[PCMCLK_DIV] = 0x5A000000 | (plldfreq_mhz<<12); // Set pcm div to 500, giving 1MHz
udelay(100);
clk_reg[PCMCLK_CNTL] = 0x5A000016; // Source=PLLD and enable
udelay(100);
pcm_reg[PCM_TXC_A] = 0<<31 | 1<<30 | 0<<20 | 0<<16; // 1 channel, 8 bits
udelay(100);
pcm_reg[PCM_MODE_A] = (SAMPLE_US - 1) << 10;
udelay(100);
pcm_reg[PCM_CS_A] |= 1<<4 | 1<<3; // Clear FIFOs
udelay(100);
pcm_reg[PCM_DREQ_A] = 64<<24 | 64<<8; // DMA Req when one slot is free?
udelay(100);
pcm_reg[PCM_CS_A] |= 1<<9; // Enable DMA
udelay(100);
}
// Initialise the DMA
dma_reg[DMA_CS] = DMA_RESET;
udelay(10);
dma_reg[DMA_CS] = DMA_INT | DMA_END;
dma_reg[DMA_CONBLK_AD] = mem_virt_to_phys(ctl->cb);
dma_reg[DMA_DEBUG] = 7; // clear debug error flags
dma_reg[DMA_CS] = 0x10880001; // go, mid priority, wait for outstanding writes
if (delay_hw == DELAY_VIA_PCM) {
pcm_reg[PCM_CS_A] |= 1<<2; // Enable Tx
}
}
static void
debug_dump_hw(void) {
#ifdef DEBUG
printf("pwm_reg: %p\n", (void *) pwm_reg);
struct ctl *ctl = (struct ctl *)mbox.virt_addr;
dma_cb_t *cbp = ctl->cb;
for (int i = 0; i < NUM_SAMPLES; i++) {
printf("DMA Control Block: #%d @0x%08x, \n", i, cbp);
printf("info: 0x%08x\n", cbp->info);
printf("src: 0x%08x\n", cbp->src);
printf("dst: 0x%08x\n", cbp->dst);
printf("length: 0x%08x\n", cbp->length);
printf("stride: 0x%08x\n", cbp->stride);
printf("next: 0x%08x\n", cbp->next);
cbp++; // next control block
}
printf("PWM_BASE: %p\n", (void *) PWM_BASE);
printf("pwm_reg: %p\n", (void *) pwm_reg);
for (int i=0; i<PWM_LEN/4; i++) {
printf("%04x: 0x%08x 0x%08x\n", i, &pwm_reg[i], pwm_reg[i]);
}
printf("CLK_BASE: %p\n", (void *) CLK_BASE);
printf("PWMCLK_CNTL: %x\n", PWMCLK_CNTL);
printf("clk_reg[PWMCLK_CNTL]: %p\n", &clk_reg[PWMCLK_CNTL]);
printf("PWMCLK_DIV: %x\n", PWMCLK_DIV);
printf("clk_reg: %p\n", (void *) clk_reg);
printf("virt_to_phys(clk_reg): %x\n", mem_virt_to_phys(clk_reg));
for (int i=0; i<CLK_LEN/4; i++) {
printf("%04x: 0x%08x 0x%08x\n", i, &clk_reg[i], clk_reg[i]);
}
printf("DMA_BASE: %p\n", (void *) DMA_BASE);
printf("dma_virt_base: %p\n", (void *) dma_virt_base);
printf("dma_reg: %p\n", (void *) dma_reg);
printf("virt_to_phys(dma_reg): %x\n", mem_virt_to_phys(dma_reg));
for (int i=0; i<DMA_CHAN_SIZE/4; i++) {
printf("%04x: 0x%08x 0x%08x\n", i, &dma_reg[i], dma_reg[i]);
}
#endif
}
static void debug_dump_samples() {
#ifdef DEBUG
struct ctl *ctl = (struct ctl *)mbox.virt_addr;
for (int i = 0; i < NUM_SAMPLES; i++) {
printf("#%d @0x%08x, \n", i, ctl->sample[i]);
}
#endif
}
static void init_pin2gpio(void) {
for (int i = 0; i < num_channels; i++)
pin2gpio[i] = 0;
}
static void init_pwm(void) {
update_pwm();
}
static void init_channel_pwm(void) {
dprintf("Initializing Channels...\n");
for (int i = 0; i < num_channels; i++)
channel_pwm[i] = 0;
}
static void go_go_go(void)
{
FILE *fp;
if ((fp = fopen(DEVFILE, "r+")) == NULL)
fatal("pi-blaster: Failed to open %s: %m\n", DEVFILE);
char *lineptr = NULL, nl;
size_t linelen;
for (;;) {
int bad_input = 1;
int n, servo;
int charcnt = 0;
int argcnt = 0;
float value;
char *charptr = NULL;
if ((n = getline(&lineptr, &linelen, fp)) < 0)
continue;
dprintf("[%d]%s", n, lineptr);
charptr = lineptr;
if (!strcmp(charptr, "debug_regs\n")) {
debug_dump_hw();
bad_input = 0;
} else if (!strcmp(charptr, "debug_samples\n")) {
debug_dump_samples();
bad_input = 0;
} else if (sscanf(charptr, "release %d%c", &servo, &nl) == 2 && nl == '\n') {
release_pwm(servo);
bad_input = 0;
} else if (sscanf(charptr, "*=%f%c", &value, &nl) == 2 && nl == '\n') {
if (value < 0 || value > 1) {
fprintf(stderr, "Invalid value %f\n", value);
} else {
set_all_pwm(value);
}
bad_input = 0;
} else do {
argcnt = sscanf(charptr, "%d=%f%c%n", &servo, &value, &nl, &charcnt);
if (argcnt == 3)
{
if (servo < 0) {
fprintf(stderr, "Invalid channel number %d\n", servo);
} else if (value < 0 || value > 1) {
fprintf(stderr, "Invalid value %f\n", value);
} else {
set_pin(servo, value);
}
if (nl == '\n') {
update_pwm();
} else {
charptr += charcnt;
}
}
bad_input = argcnt < 3;
} while (nl != '\n' && argcnt == 3);
if (bad_input) {
fprintf(stderr, "Bad input: %s", lineptr);
}
if (lineptr) {
free(lineptr);
lineptr = NULL;
charptr = NULL;
linelen = 0;
}
}
}
void parseargs(int argc, char **argv)
{
int index;
int c;
static uint8_t temp_known_pins[MAX_CHANNELS];
int i=0;
static struct option longopts[] =
{
{"help", no_argument, 0, 'h'},
{"foreground", no_argument, 0, 'f'},
{"gpio", required_argument, 0, 'g'},
{"invert", no_argument, 0, 'i'},
{"pcm", no_argument, 0, 'p'},
{"version", no_argument, 0, 'v'},
{0, 0, 0, 0}
};
while (1)
{
index = 0;
c = getopt_long(argc, argv, "Dfg:hipv", longopts, &index);
if (c == -1)
break;
switch (c)
{
case 0:
/* handle flag options (array's 3rd field non-0) */
break;
case 'h':
fprintf(stderr, "%s version %s\n", argv[0], VERSION);
fprintf(stderr, "Usage: %s [-hDgipv]\n"
"-h (--help) - this information\n"
"-D - Don't daemonize (deprecated: use --foreground instead)\n"
"-f (--foreground) - run in the foreground\n"
"-g (--gpio) - comma separated list of GPIOs to use\n"
" If omitted, default is \"4,17,18,27,21,22,23,24,25\"\n"
"-i (--invert) - invert pin output (pulse LOW)\n"
"-p (--pcm) - use pcm for dmascheduling\n"
"-v (--version) - version information\n"
, argv[0]);
exit(-1);
case 'D':
case 'f':
daemonize = 0;
break;
case 'g':
if (optarg) {
int temp=0;
const char s[2] = ",";
char *token;
/* get the first token */
token = strtok(optarg, s);
/* walk through other tokens */
i=0;
while( token != NULL )
{
if ( (temp = atoi(token)) && (temp>=0) && (temp < MAX_CHANNELS) ){
if (i>=MAX_CHANNELS) {
printf( "ERROR maximum number of channels (%d) exceeded.\n", MAX_CHANNELS);
exit(-1);
}
if (!is_banned_pin(temp)) {
temp_known_pins[i++] = temp;
} else {
printf( "ERROR '%s' is a banned gpio\n", token);
exit(-1);
}
} else {
printf( "ERROR '%s' is an invalid gpio\n", token);
exit(-1);
}