2023-04-06 03:53:21 +00:00
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#include <hardware/dma.h>
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#include <hardware/irq.h>
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#include <hardware/pio.h>
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#include <hardware/sync.h>
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#include <hardware/resets.h>
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#include <pico/stdlib.h>
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#include <pico/multicore.h>
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#include "common/config.h"
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#include "common/buffers.h"
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#ifdef ANALOG_GS
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#include "vga12.pio.h"
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2023-04-17 03:22:45 +00:00
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#define RGB_PINCOUNT 12
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2023-04-06 03:53:21 +00:00
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#else
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#include "vga9.pio.h"
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2023-04-17 03:22:45 +00:00
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#define RGB_PINCOUNT 9
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2023-04-06 03:53:21 +00:00
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#endif
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#include "vgaout.h"
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#define PIXEL_FREQ 25.2/*MHz*/
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#define PIXELS_PER_LINE 800
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#define LINES_PER_FRAME 525
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#define LINES_IN_BACK_PORCH 33
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#define HSYNC_TIMING_VALUE (((PIXELS_PER_LINE) / 8) - 23)
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#define VSYNC_TIMING_VALUE ((LINES_PER_FRAME) - 4)
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#define NUM_SCANLINE_BUFFERS 32
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static bool vga_initialized = 0;
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enum {
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VGA_HSYNC_SM = 0,
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VGA_VSYNC_SM = 1,
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VGA_DATA_SM = 2,
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};
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// The scanline flags form a simple state machine:
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// Initial state (0)
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// \/ prepare()
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// BUSY
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// \/ ready()
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// BUSY|READY
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// \/ first DMA started
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// BUSY|READY|STARTED
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// \/ last DMA completed
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// READY|STARTED
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enum {
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FLAG_BUSY = 0x01,
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FLAG_READY = 0x02,
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FLAG_STARTED = 0x04,
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};
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static uint vga_dma_channel;
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// Scanline queue. Scanlines are filled in from the head and are
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// sent to the DMA engine from the tail.
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static uint scanline_queue_head;
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static uint scanline_queue_tail;
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static struct vga_scanline scanline_queue[NUM_SCANLINE_BUFFERS];
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static void DELAYED_COPY_CODE(vga_hsync_setup)(PIO pio, uint sm) {
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uint program_offset = pio_add_program(pio, &vga_hsync_program);
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pio_sm_claim(pio, sm);
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pio_sm_config c = vga_hsync_program_get_default_config(program_offset);
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sm_config_set_clkdiv(&c, CONFIG_SYSCLOCK * 8 / PIXEL_FREQ); // 1/8 * PIXEL_FREQ
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// Map the state machine's OUT pin group to the sync signal pin
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sm_config_set_out_pins(&c, CONFIG_PIN_HSYNC, 1);
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sm_config_set_set_pins(&c, CONFIG_PIN_HSYNC, 1);
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// Configure the pins as outputs & connect to the PIO
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pio_sm_set_consecutive_pindirs(pio, sm, CONFIG_PIN_HSYNC, 1, true);
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pio_gpio_init(pio, CONFIG_PIN_HSYNC);
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// Load the configuration and push in the timing loop value
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pio_sm_init(pio, sm, program_offset, &c);
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pio_sm_put_blocking(pio, sm, HSYNC_TIMING_VALUE);
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}
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static void DELAYED_COPY_CODE(vga_vsync_setup)(PIO pio, uint sm) {
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uint program_offset = pio_add_program(pio, &vga_vsync_program);
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pio_sm_claim(pio, sm);
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pio_sm_config c = vga_vsync_program_get_default_config(program_offset);
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sm_config_set_clkdiv(&c, CONFIG_SYSCLOCK * 8 / PIXEL_FREQ); // 1/8 * PIXEL_FREQ
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// Map the state machine's OUT pin group to the sync signal pin
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sm_config_set_out_pins(&c, CONFIG_PIN_VSYNC, 1);
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sm_config_set_set_pins(&c, CONFIG_PIN_VSYNC, 1);
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// Configure the pins as outputs & connect to the PIO
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pio_sm_set_consecutive_pindirs(pio, sm, CONFIG_PIN_VSYNC, 1, true);
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pio_gpio_init(pio, CONFIG_PIN_VSYNC);
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// Load the configuration and push in the timing loop value
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pio_sm_init(pio, sm, program_offset, &c);
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pio_sm_put_blocking(pio, sm, VSYNC_TIMING_VALUE);
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}
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static void DELAYED_COPY_CODE(vga_data_setup)(PIO pio, uint sm) {
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uint program_offset = pio_add_program(pio, &vga_data_program);
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pio_sm_claim(pio, sm);
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pio_sm_config c = vga_data_program_get_default_config(program_offset);
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sm_config_set_clkdiv(&c, CONFIG_SYSCLOCK / (2*PIXEL_FREQ));
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// Map the state machine's OUT pin group to the data pins
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2023-04-17 03:22:45 +00:00
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sm_config_set_out_pins(&c, CONFIG_PIN_RGB_BASE, RGB_PINCOUNT);
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sm_config_set_set_pins(&c, CONFIG_PIN_RGB_BASE, RGB_PINCOUNT);
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2023-04-06 03:53:21 +00:00
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2023-04-17 03:22:45 +00:00
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// Enable autopull every 32 bits (2 x (RGB_PINCOUNT data + jump + pad) bits)
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2023-04-06 03:53:21 +00:00
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sm_config_set_out_shift(&c, true, true, 32);
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// Set join the state machine FIFOs to double the TX fifo size
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sm_config_set_fifo_join(&c, PIO_FIFO_JOIN_TX);
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// Configure the pins as outputs & connect to the PIO
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2023-04-17 03:22:45 +00:00
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pio_sm_set_consecutive_pindirs(pio, sm, CONFIG_PIN_RGB_BASE, RGB_PINCOUNT, true);
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for(int i=0; i < RGB_PINCOUNT; i++) {
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2023-04-06 03:53:21 +00:00
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pio_gpio_init(pio, CONFIG_PIN_RGB_BASE+i);
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}
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// Load the configuration, starting execution at 'wait_vsync'
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pio_sm_init(pio, sm, program_offset+vga_data_offset_wait_vsync, &c);
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}
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// Start the DMA operation of the next scanline if it's ready.
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//
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// Must be called with the VGA spinlock held
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static void DELAYED_COPY_CODE(trigger_ready_scanline_dma)() {
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struct vga_scanline *active_scanline = &scanline_queue[scanline_queue_tail];
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if((active_scanline->_flags & (FLAG_BUSY|FLAG_READY|FLAG_STARTED)) == (FLAG_BUSY|FLAG_READY)) {
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active_scanline->_flags |= FLAG_STARTED;
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dma_channel_transfer_from_buffer_now(vga_dma_channel, &(active_scanline->_sync), active_scanline->length + 2);
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}
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}
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static void DELAYED_COPY_CODE(vga_dma_irq_handler)() {
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spin_lock_t *lock = spin_lock_instance(CONFIG_VGA_SPINLOCK_ID);
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struct vga_scanline *active_scanline = &scanline_queue[scanline_queue_tail];
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// Ack the IRQ
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dma_hw->ints0 = 1u << vga_dma_channel;
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// Repeat the scanline as specified
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if(active_scanline->repeat_count) {
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active_scanline->repeat_count--;
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dma_channel_transfer_from_buffer_now(vga_dma_channel, &(active_scanline->_sync), active_scanline->length + 2);
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return;
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}
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// Mark the scanline done
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active_scanline->_flags &= ~(uint_fast8_t)FLAG_BUSY;
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const uint32_t irq_status = spin_lock_blocking(lock);
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scanline_queue_tail = (scanline_queue_tail + 1) & (NUM_SCANLINE_BUFFERS-1);
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trigger_ready_scanline_dma();
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spin_unlock(lock, irq_status);
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}
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void DELAYED_COPY_CODE(vga_init)() {
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if(!vga_initialized) {
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spin_lock_claim(CONFIG_VGA_SPINLOCK_ID);
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spin_lock_init(CONFIG_VGA_SPINLOCK_ID);
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// Setup the PIO state machines
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vga_hsync_setup(CONFIG_VGA_PIO, VGA_HSYNC_SM);
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vga_vsync_setup(CONFIG_VGA_PIO, VGA_VSYNC_SM);
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vga_data_setup(CONFIG_VGA_PIO, VGA_DATA_SM);
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// Setup the DMA channel for writing to the data PIO state machine
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vga_dma_channel = dma_claim_unused_channel(true);
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dma_channel_config c = dma_channel_get_default_config(vga_dma_channel);
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channel_config_set_transfer_data_size(&c, DMA_SIZE_32);
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channel_config_set_dreq(&c, pio_get_dreq(CONFIG_VGA_PIO, VGA_DATA_SM, true));
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dma_channel_configure(vga_dma_channel, &c, &CONFIG_VGA_PIO->txf[VGA_DATA_SM], NULL, 0, false);
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dma_channel_set_irq0_enabled(vga_dma_channel, true);
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irq_set_exclusive_handler(DMA_IRQ_0, vga_dma_irq_handler);
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irq_set_enabled(DMA_IRQ_0, true);
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vga_initialized = 1;
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}
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// Enable all state machines in sync to ensure their instruction cycles line up
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pio_enable_sm_mask_in_sync(CONFIG_VGA_PIO, (1 << VGA_HSYNC_SM) | (1 << VGA_VSYNC_SM) | (1 << VGA_DATA_SM));
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}
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void DELAYED_COPY_CODE(vga_stop)() {
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pio_set_sm_mask_enabled(CONFIG_VGA_PIO, (1 << VGA_HSYNC_SM) | (1 << VGA_VSYNC_SM) | (1 << VGA_DATA_SM), false);
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}
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void DELAYED_COPY_CODE(vga_dpms_sleep)() {
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pio_set_sm_mask_enabled(CONFIG_VGA_PIO, (1 << VGA_HSYNC_SM) | (1 << VGA_VSYNC_SM) | (1 << VGA_DATA_SM), false);
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irq_set_enabled(DMA_IRQ_0, false);
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dma_channel_set_irq0_enabled(vga_dma_channel, false);
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}
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void DELAYED_COPY_CODE(vga_dpms_wake)() {
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dma_channel_set_irq0_enabled(vga_dma_channel, true);
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irq_set_enabled(DMA_IRQ_0, true);
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pio_enable_sm_mask_in_sync(CONFIG_VGA_PIO, (1 << VGA_HSYNC_SM) | (1 << VGA_VSYNC_SM) | (1 << VGA_DATA_SM));
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}
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// Set up for a new display frame
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void DELAYED_COPY_CODE(vga_prepare_frame)() {
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// Populate a 'scanline' with multiple sync instructions to synchronize with the
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// vsync and then skip over the vertical back porch.
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struct vga_scanline *sl = vga_prepare_scanline();
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sl->_sync = (uint32_t)THEN_WAIT_VSYNC << 16;
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// FIXME: the number of hsyncs we have to wait for seems to be one too few
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// because the vsync is supposed to last two lines (we wait one) and THEN
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// the back porch lines need to be skipped.
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for(int i=0; i < LINES_IN_BACK_PORCH; i++) {
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sl->data[i] = (uint32_t)THEN_WAIT_HSYNC << 16;
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}
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sl->length = LINES_IN_BACK_PORCH;
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vga_submit_scanline(sl);
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}
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// Set up and return a new display scanline
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struct vga_scanline * DELAYED_COPY_CODE(vga_prepare_scanline)() {
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struct vga_scanline *scanline = &scanline_queue[scanline_queue_head];
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// Wait for the scanline buffer to become available again
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while(scanline->_flags & FLAG_BUSY)
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tight_loop_contents();
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// Reinitialize the scanline struct for reuse
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scanline->length = 0;
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scanline->repeat_count = 0;
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scanline->_flags = FLAG_BUSY;
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scanline->_sync = (uint32_t)THEN_WAIT_HSYNC << 16;
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scanline_queue_head = (scanline_queue_head + 1) & (NUM_SCANLINE_BUFFERS-1);
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return scanline;
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}
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// Mark the scanline as ready so it can be displayed
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void DELAYED_COPY_CODE(vga_submit_scanline)(struct vga_scanline *scanline) {
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spin_lock_t *lock = spin_lock_instance(CONFIG_VGA_SPINLOCK_ID);
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scanline->data[scanline->length] = 0; // ensure beam off at end of line
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const uint32_t irq_status = spin_lock_blocking(lock);
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scanline->_flags |= FLAG_READY;
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trigger_ready_scanline_dma();
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spin_unlock(lock, irq_status);
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}
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