rpi4-osdev/part10-multicore/kernel.c

#include "fb.h"
#include "io.h"
#include "multicore.h"

#define PWM_BASE        (PERIPHERAL_BASE + 0x20C000 + 0x800) /* PWM1 register base address on RPi4 */
#define PWM_LEGACY_BASE     (LEGACY_BASE + 0x20C000 + 0x800) /* PWM1 register base legacy address on RPi4 */
#define CLOCK_BASE      (PERIPHERAL_BASE + 0x101000)
#define DMA_BASE        (PERIPHERAL_BASE + 0x007100)         /* DMA register base address */
#define DMA_ENABLE      (DMA_BASE + 0xFF0)                   /* DMA global enable bits */

#define BCM2711_PWMCLK_CNTL 40
#define BCM2711_PWMCLK_DIV  41
#define PM_PASSWORD 0x5A000000 

#define BCM2711_PWM_CONTROL 0
#define BCM2711_PWM_STATUS  1
#define BCM2711_PWM_DMAC    2
#define BCM2711_PWM0_RANGE  4
#define BCM2711_PWM0_DATA   5
#define BCM2711_PWM_FIFO    6
#define BCM2711_PWM1_RANGE  8
#define BCM2711_PWM1_DATA   9

#define BCM2711_PWM1_USEFIFO  0x2000  /* Data from FIFO */
#define BCM2711_PWM1_ENABLE   0x0100  /* Channel enable */
#define BCM2711_PWM0_USEFIFO  0x0020  /* Data from FIFO */
#define BCM2711_PWM0_ENABLE   0x0001  /* Channel enable */
#define BCM2711_PWM_ENAB      0x80000000  /* PWM DMA Configuration: DMA Enable (bit 31 set) */

#define BCM2711_GAPO2 0x20
#define BCM2711_GAPO1 0x10
#define BCM2711_RERR1 0x8
#define BCM2711_WERR1 0x4
#define BCM2711_FULL1 0x1
#define ERRORMASK (BCM2711_GAPO2 | BCM2711_GAPO1 | BCM2711_RERR1 | BCM2711_WERR1)

#define DMA_CS        0       /* Control/status register offset for DMA channel 0 */
#define DMA_CONBLK_AD 1
#define DMA_EN1       1 << 1  /* Enable DMA engine 1 */
#define DMA_ACTIVE    1       /* Active bit set */
#define DMA_DEST_DREQ 0x40    /* Use DREQ to pace peripheral writes */
#define DMA_PERMAP_1  0x10000 /* PWM1 peripheral for DREQ */
#define DMA_SRC_INC   0x100   /* Increment source address */

volatile unsigned* clk = (void*)CLOCK_BASE;
volatile unsigned* pwm = (void*)PWM_BASE;
volatile unsigned* dma = (void*)DMA_BASE;
volatile unsigned* dmae = (void*)DMA_ENABLE;
volatile unsigned* safe = (void*)SAFE_ADDRESS;

struct dma_cb {
   unsigned int ti;
   unsigned int source_ad;
   unsigned int dest_ad;
   unsigned int txfr_len;
   unsigned int stride;
   unsigned int nextconbk;
   unsigned int null1;
   unsigned int null2;
} __attribute__((aligned(32)));

struct dma_cb playback_cb;

static void playaudio_dma(void)
{
    extern unsigned char _binary_audio_bin_start[];
    extern unsigned char _binary_audio_bin_size[];
    
    unsigned int size = (long)&_binary_audio_bin_size;
    unsigned char *data = &(_binary_audio_bin_start[0]);

    // Convert data

    for (int i=0;i<size;i++) *(safe+i) = *(data+i);

    wait_msec(2);

    // Set up control block

    playback_cb.ti = DMA_DEST_DREQ + DMA_PERMAP_1 + DMA_SRC_INC;
    playback_cb.source_ad = SAFE_ADDRESS;
    playback_cb.dest_ad = PWM_LEGACY_BASE + 0x18; // Points to PWM_FIFO
    playback_cb.txfr_len = size * 4; // They're unsigned ints now, not unsigned chars
    playback_cb.stride = 0x00;
    playback_cb.nextconbk = 0x00; // Don't loop
    playback_cb.null1 = 0x00;
    playback_cb.null2 = 0x00;

    wait_msec(2);

    // Enable DMA

    *(pwm+BCM2711_PWM_DMAC) = 
          BCM2711_PWM_ENAB + 0x0707; // Bits 0-7 Threshold For DREQ Signal = 1, Bits 8-15 Threshold For PANIC Signal = 0
    *dmae = DMA_EN1;
    *(dma+DMA_CONBLK_AD) = (long)&playback_cb; // checked and correct

    wait_msec(2);

    *(dma+DMA_CS) = DMA_ACTIVE;
}

static void audio_init(void)
{   
    gpio_useAsAlt0(40); // Ensure PWM1 is mapped to GPIO 40/41
    gpio_useAsAlt0(41);
    wait_msec(2);

    // Setup clock
    
    *(clk + BCM2711_PWMCLK_CNTL) = PM_PASSWORD | (1 << 5); // Stop clock
    wait_msec(2);

    int idiv = 2;
    *(clk + BCM2711_PWMCLK_DIV)  = PM_PASSWORD | (idiv<<12);
    *(clk + BCM2711_PWMCLK_CNTL) = PM_PASSWORD | 16 | 1;  // Osc + Enable
    wait_msec(2);

    // Setup PWM
    
    *(pwm + BCM2711_PWM_CONTROL) = 0;
    wait_msec(2);
    
    *(pwm+BCM2711_PWM0_RANGE) = 0x264; // 44.1khz, Stereo, 8-bit (54Mhz / 44100 / 2)
    *(pwm+BCM2711_PWM1_RANGE) = 0x264;
    
    *(pwm+BCM2711_PWM_CONTROL) =
          BCM2711_PWM1_USEFIFO |
          BCM2711_PWM1_ENABLE | 
          BCM2711_PWM0_USEFIFO | 
          BCM2711_PWM0_ENABLE | 1<<6;
}

void playaudio_cpu()
{
    int i=0;
    long status;

    extern unsigned char _binary_audio_bin_start[];
    extern unsigned char _binary_audio_bin_size[];
    
    unsigned int size = (long)&_binary_audio_bin_size;
    unsigned char *data = &(_binary_audio_bin_start[0]);

    // Write data out to FIFO

    while (i < size) {
        status = *(pwm + BCM2711_PWM_STATUS);
        if (!(status & BCM2711_FULL1)) {
            *(pwm+BCM2711_PWM_FIFO) = *(data + i);
            i++;
            *(pwm+BCM2711_PWM_FIFO) = *(data + i);
            i++;
        }
        if ((status & ERRORMASK)) {
            *(pwm+BCM2711_PWM_STATUS) = ERRORMASK;
        }
    }
}

void initProgress(void)
{
    drawRect(0, 0, 301, 50, 0x0f, 0);
    drawString(309, 21, "Core 0", 0x0f, 1);

    drawRect(0, 60, 301, 110, 0x0f, 0);
    drawString(309, 81, "Core 1", 0x0f, 1);

    drawRect(0, 120, 301, 170, 0x0f, 0);
    drawString(309, 141, "Core 2", 0x0f, 1);

    drawRect(0, 180, 301, 230, 0x0f, 0);
    drawString(309, 201, "Core 3", 0x0f, 1);
}

void drawProgress(unsigned int core, unsigned int val) {
    unsigned char col = (core + 1) + ((core + 1) << 4);

    // val should be 0-100
    if (val == 0) drawRect(1, (60 * core) + 1, 300, (60 * core) + 49, 0x00, 1);
    if (val > 0) drawRect(1, (60 * core) + 1, (val * 3), (60 * core) + 49, col, 1);
}

void core3_main(void)
{
    unsigned int core3_val = 0;

    clear_core3();                // Only run once

    while (1) {
       wait_msec(0x3FFFF);
       drawProgress(3, core3_val);
       if (core3_val < 100) core3_val++;
    }
}

void core2_main(void)
{
    unsigned int core2_val = 0;

    clear_core2();                // Only run once

    debugstr("Playing on CPU Core #2 using DMA... ");
    playaudio_dma();
    debugstr("done"); debugcrlf();

    debugstr("core2_main() running still... ");
    while (*(dma+DMA_CS) & 0x1) { // Wait for DMA transfer to finish - we could do anything here instead!
       wait_msec(0x7FFFF);
       drawProgress(2, core2_val);
       if (core2_val < 100) core2_val++;
    }
    debugstr("done");
}

void core1_main(void)
{
    unsigned int core1_val = 0;

    clear_core1();                // Only run once

    debugstr("Playing on CPU Core #1... ");
    playaudio_cpu();
    debugstr("done"); debugcrlf();

    core1_val = 100;
    drawProgress(1, core1_val);

    start_core2(core2_main);      // Kick it off on core 2
}

void core0_main(void)
{
    unsigned int core0_val = 0;

    while (1) {
       wait_msec(0x100000);
       drawProgress(0, core0_val);
       if (core0_val < 100) core0_val++;
    }
}

void main(void)
{
    fb_init();
    initProgress();

    unsigned int i=0;
    while (i++<30) debugcrlf();

    debugstr("Initialising audio unit... ");
    audio_init();
    debugstr("done"); debugcrlf();

    start_core3(core3_main);      // Kick it off on core 3
    start_core1(core1_main);      // Kick it off on core 1
    core0_main();                 // Loop endlessly
}
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`#include "fb.h"`
			`#include "io.h"`
			`#include "multicore.h"`

			`#define PWM_BASE (PERIPHERAL_BASE + 0x20C000 + 0x800) /* PWM1 register base address on RPi4 */`
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`#define PWM_LEGACY_BASE (LEGACY_BASE + 0x20C000 + 0x800) /* PWM1 register base legacy address on RPi4 */`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`#define CLOCK_BASE (PERIPHERAL_BASE + 0x101000)`
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`#define DMA_BASE (PERIPHERAL_BASE + 0x007100) /* DMA register base address */`
			`#define DMA_ENABLE (DMA_BASE + 0xFF0) /* DMA global enable bits */`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00
			`#define BCM2711_PWMCLK_CNTL 40`
			`#define BCM2711_PWMCLK_DIV 41`
			`#define PM_PASSWORD 0x5A000000`

			`#define BCM2711_PWM_CONTROL 0`
			`#define BCM2711_PWM_STATUS 1`
			`#define BCM2711_PWM_DMAC 2`
			`#define BCM2711_PWM0_RANGE 4`
			`#define BCM2711_PWM0_DATA 5`
			`#define BCM2711_PWM_FIFO 6`
			`#define BCM2711_PWM1_RANGE 8`
			`#define BCM2711_PWM1_DATA 9`

			`#define BCM2711_PWM1_USEFIFO 0x2000 /* Data from FIFO */`
			`#define BCM2711_PWM1_ENABLE 0x0100 /* Channel enable */`
			`#define BCM2711_PWM0_USEFIFO 0x0020 /* Data from FIFO */`
			`#define BCM2711_PWM0_ENABLE 0x0001 /* Channel enable */`
			`#define BCM2711_PWM_ENAB 0x80000000 /* PWM DMA Configuration: DMA Enable (bit 31 set) */`

			`#define BCM2711_GAPO2 0x20`
			`#define BCM2711_GAPO1 0x10`
			`#define BCM2711_RERR1 0x8`
			`#define BCM2711_WERR1 0x4`
			`#define BCM2711_FULL1 0x1`
			`#define ERRORMASK (BCM2711_GAPO2 \| BCM2711_GAPO1 \| BCM2711_RERR1 \| BCM2711_WERR1)`

Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`#define DMA_CS 0 /* Control/status register offset for DMA channel 0 */`
			`#define DMA_CONBLK_AD 1`
			`#define DMA_EN1 1 << 1 /* Enable DMA engine 1 */`
			`#define DMA_ACTIVE 1 /* Active bit set */`
			`#define DMA_DEST_DREQ 0x40 /* Use DREQ to pace peripheral writes */`
			`#define DMA_PERMAP_1 0x10000 /* PWM1 peripheral for DREQ */`
			`#define DMA_SRC_INC 0x100 /* Increment source address */`

Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`volatile unsigned* clk = (void*)CLOCK_BASE;`
			`volatile unsigned* pwm = (void*)PWM_BASE;`
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`volatile unsigned* dma = (void*)DMA_BASE;`
			`volatile unsigned* dmae = (void*)DMA_ENABLE;`
			`volatile unsigned* safe = (void*)SAFE_ADDRESS;`

			`struct dma_cb {`
			`unsigned int ti;`
			`unsigned int source_ad;`
			`unsigned int dest_ad;`
			`unsigned int txfr_len;`
			`unsigned int stride;`
			`unsigned int nextconbk;`
			`unsigned int null1;`
			`unsigned int null2;`
			`} __attribute__((aligned(32)));`

			`struct dma_cb playback_cb;`

			`static void playaudio_dma(void)`
			`{`
			`extern unsigned char _binary_audio_bin_start[];`
			`extern unsigned char _binary_audio_bin_size[];`

			`unsigned int size = (long)&_binary_audio_bin_size;`
			`unsigned char *data = &(_binary_audio_bin_start[0]);`

			`// Convert data`

			`for (int i=0;i<size;i++) (safe+i) = (data+i);`

			`wait_msec(2);`

			`// Set up control block`

			`playback_cb.ti = DMA_DEST_DREQ + DMA_PERMAP_1 + DMA_SRC_INC;`
			`playback_cb.source_ad = SAFE_ADDRESS;`
			`playback_cb.dest_ad = PWM_LEGACY_BASE + 0x18; // Points to PWM_FIFO`
			`playback_cb.txfr_len = size * 4; // They're unsigned ints now, not unsigned chars`
			`playback_cb.stride = 0x00;`
			`playback_cb.nextconbk = 0x00; // Don't loop`
			`playback_cb.null1 = 0x00;`
			`playback_cb.null2 = 0x00;`

			`wait_msec(2);`

			`// Enable DMA`

			`*(pwm+BCM2711_PWM_DMAC) =`
			`BCM2711_PWM_ENAB + 0x0707; // Bits 0-7 Threshold For DREQ Signal = 1, Bits 8-15 Threshold For PANIC Signal = 0`
			`*dmae = DMA_EN1;`
			`*(dma+DMA_CONBLK_AD) = (long)&playback_cb; // checked and correct`

			`wait_msec(2);`

			`*(dma+DMA_CS) = DMA_ACTIVE;`
			`}`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00
			`static void audio_init(void)`
			`{`
			`gpio_useAsAlt0(40); // Ensure PWM1 is mapped to GPIO 40/41`
			`gpio_useAsAlt0(41);`
			`wait_msec(2);`

			`// Setup clock`

			`*(clk + BCM2711_PWMCLK_CNTL) = PM_PASSWORD \| (1 << 5); // Stop clock`
			`wait_msec(2);`

			`int idiv = 2;`
			`*(clk + BCM2711_PWMCLK_DIV) = PM_PASSWORD \| (idiv<<12);`
			`*(clk + BCM2711_PWMCLK_CNTL) = PM_PASSWORD \| 16 \| 1; // Osc + Enable`
			`wait_msec(2);`

			`// Setup PWM`

			`*(pwm + BCM2711_PWM_CONTROL) = 0;`
			`wait_msec(2);`

			`*(pwm+BCM2711_PWM0_RANGE) = 0x264; // 44.1khz, Stereo, 8-bit (54Mhz / 44100 / 2)`
			`*(pwm+BCM2711_PWM1_RANGE) = 0x264;`

			`*(pwm+BCM2711_PWM_CONTROL) =`
			`BCM2711_PWM1_USEFIFO \|`
			`BCM2711_PWM1_ENABLE \|`
			`BCM2711_PWM0_USEFIFO \|`
			`BCM2711_PWM0_ENABLE \| 1<<6;`
			`}`

			`void playaudio_cpu()`
			`{`
			`int i=0;`
			`long status;`

			`extern unsigned char _binary_audio_bin_start[];`
			`extern unsigned char _binary_audio_bin_size[];`

			`unsigned int size = (long)&_binary_audio_bin_size;`
			`unsigned char *data = &(_binary_audio_bin_start[0]);`

			`// Write data out to FIFO`

			`while (i < size) {`
			`status = *(pwm + BCM2711_PWM_STATUS);`
			`if (!(status & BCM2711_FULL1)) {`
			`(pwm+BCM2711_PWM_FIFO) = (data + i);`
			`i++;`
			`(pwm+BCM2711_PWM_FIFO) = (data + i);`
			`i++;`
			`}`
			`if ((status & ERRORMASK)) {`
			`*(pwm+BCM2711_PWM_STATUS) = ERRORMASK;`
			`}`
			`}`
			`}`

Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`void initProgress(void)`
			`{`
			`drawRect(0, 0, 301, 50, 0x0f, 0);`
			`drawString(309, 21, "Core 0", 0x0f, 1);`

			`drawRect(0, 60, 301, 110, 0x0f, 0);`
			`drawString(309, 81, "Core 1", 0x0f, 1);`

			`drawRect(0, 120, 301, 170, 0x0f, 0);`
			`drawString(309, 141, "Core 2", 0x0f, 1);`

			`drawRect(0, 180, 301, 230, 0x0f, 0);`
			`drawString(309, 201, "Core 3", 0x0f, 1);`
			`}`

			`void drawProgress(unsigned int core, unsigned int val) {`
Added third core doing something now 2021-02-23 16:23:53 +00:00			`unsigned char col = (core + 1) + ((core + 1) << 4);`

Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`// val should be 0-100`
			`if (val == 0) drawRect(1, (60 * core) + 1, 300, (60 * core) + 49, 0x00, 1);`
Added third core doing something now 2021-02-23 16:23:53 +00:00			`if (val > 0) drawRect(1, (60 * core) + 1, (val * 3), (60 * core) + 49, col, 1);`
			`}`

			`void core3_main(void)`
			`{`
			`unsigned int core3_val = 0;`

			`clear_core3(); // Only run once`

			`while (1) {`
			`wait_msec(0x3FFFF);`
			`drawProgress(3, core3_val);`
			`if (core3_val < 100) core3_val++;`
			`}`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`}`

Demonstrating running on both core1 and core2 now 2021-02-22 10:32:24 +00:00			`void core2_main(void)`
			`{`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`unsigned int core2_val = 0;`

Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`clear_core2(); // Only run once`
Demonstrating running on both core1 and core2 now 2021-02-22 10:32:24 +00:00
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`debugstr("Playing on CPU Core #2 using DMA... ");`
			`playaudio_dma();`
			`debugstr("done"); debugcrlf();`

			`debugstr("core2_main() running still... ");`
			`while (*(dma+DMA_CS) & 0x1) { // Wait for DMA transfer to finish - we could do anything here instead!`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`wait_msec(0x7FFFF);`
			`drawProgress(2, core2_val);`
			`if (core2_val < 100) core2_val++;`
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`}`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`debugstr("done");`
Demonstrating running on both core1 and core2 now 2021-02-22 10:32:24 +00:00			`}`

Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`void core1_main(void)`
			`{`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`unsigned int core1_val = 0;`

Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`clear_core1(); // Only run once`
Slimmed down the muilticore example 2021-02-22 10:24:12 +00:00
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`debugstr("Playing on CPU Core #1... ");`
			`playaudio_cpu();`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`debugstr("done"); debugcrlf();`

			`core1_val = 100;`
			`drawProgress(1, core1_val);`
Demonstrating running on both core1 and core2 now 2021-02-22 10:32:24 +00:00
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`start_core2(core2_main); // Kick it off on core 2`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`}`

			`void core0_main(void)`
			`{`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`unsigned int core0_val = 0;`

Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`while (1) {`
			`wait_msec(0x100000);`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`drawProgress(0, core0_val);`
			`if (core0_val < 100) core0_val++;`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`}`
			`}`

			`void main(void)`
			`{`
			`fb_init();`
Added better progress indicators for the cores in kernel.c 2021-02-23 15:33:12 +00:00			`initProgress();`

			`unsigned int i=0;`
			`while (i++<30) debugcrlf();`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00
			`debugstr("Initialising audio unit... ");`
			`audio_init();`
			`debugstr("done"); debugcrlf();`

Added third core doing something now 2021-02-23 16:23:53 +00:00			`start_core3(core3_main); // Kick it off on core 3`
Now setting DMA transfer on CPU core 2 to show both cores free 2021-02-22 12:09:11 +00:00			`start_core1(core1_main); // Kick it off on core 1`
Added third core doing something now 2021-02-23 16:23:53 +00:00			`core0_main(); // Loop endlessly`
Added part10-multicore - a rough multicore approach to sound 2021-02-21 20:58:04 +00:00			`}`