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#include "wl_def.h"

#define FIXME abort

#ifdef INTEGRATOR
/* Memory mapped peripherals. */
#define clcdc ((volatile uint32_t *)0xc0000000)
#define kmi0 ((volatile uint32_t *)0x18000000)
#endif

#ifdef LUMINARY
#include "luminary.h"

int read_buttons()
{
    int buttons;

    buttons = HWREG(GPIOE + 0x03c);
    if (HWREG(GPIOF + 0x008))
buttons |= 0x10;
    /* Buttons are active low. */
    buttons ^= 0x1f;
    return buttons;
}

static void ssi_flush_rx()
{
    while (HWREG(SSI0 + 0x00c) & 0x04)
HWREG(SSI0 + 0x008);
}

static volatile byte *ssi_data;
static volatile int ssi_tosend;
static volatile int ssi_left;

void ssi_isr()
{
    uint32_t status;
    uint32_t mask;
    while (1) {
status = HWREG(SSI0 + 0x00c);
mask = ssi_tosend ? 0x06 : 0x04;
if ((status & mask) == 0)
break;
/* Send data if RX FIFO empty and TX FIFO not full. */
if (ssi_tosend && (status & 0x06) == 2) {
HWREG(SSI0 + 0x008) = *(ssi_data++);
ssi_tosend--;
}
/* Pull data out of the RX fifo. */
if (status & 0x04) {
HWREG(SSI0 + 0x008);
ssi_left--;
}
    }
    if (!ssi_tosend) {
/* Mask SSI interrupts. */
HWREG(SSI0 + 0x014) = 0x0;
    }
}

static void oled_write(const uint8_t *p, int n, int command)
{
    int left;

    if (command)
HWREG(GPIOC + 0x200) = 0;
    else
HWREG(GPIOC + 0x200) = 0x80;

    /* Use the RX fifo to determine when the transfer completes. */
    left = n;
    while (left) {
uint32_t status;
status = HWREG(SSI0 + 0x00c);
/* Send data if RX FIFO empty and TX FIFO not full. */
if (n == left && (status & 0x06) == 2) {
HWREG(SSI0 + 0x008) = *(p++);
n--;
}
/* Pull data out of the RX fifo. */
if (status & 0x04) {
HWREG(SSI0 + 0x008);
left--;
}
    }
}

static void oled_init()
{
    int i;
    const uint8_t *p;

    p = oled_init_strings;
    while (*p) {
i = *(p++);
oled_write(p, i, 1);
p += i;
    }

}

static void oled_setwindow()
{
    static byte cmd[6] = {0x15, 0, 63, 0x75, 0, /* height-1 */0};

    cmd[5] = oled_height - 1;
    oled_write(cmd, 6, 1);
}

void oled_clear()
{
    uint8_t buf[4];
    int i;
    oled_setwindow();
    memset(buf, 0, 4);
    for (i = 0; i < oled_height * (128 / 8); i++) {
oled_write(buf, 4, 0);
    }
}

void oled_render()
{
    uint8_t buf[16];

    oled_setwindow();
    buf[0] = 0xA0;
    buf[1] = 0x52;
    oled_write(buf, 2, 1);


    ssi_data = framebuffer;
    ssi_tosend = ssi_left = 128 * 64 / 2;
    HWREG(GPIOC + 0x200) = 0x80;
    /* Enable SSI interrupts. */
    HWREG(SSI0 + 0x014) = 0xc;
    /* Wait for transfer to complete. */
    asm volatile ("1:\n\t"
"cpsid i\n\t"
"ldr r0, [%0]\n\t"
"cmp r0, #0\n\t"
"it ne\n\t"
"wfine\n\t"
"cpsie i\n\t"
"bne 1b\n\t"
: : "r" (&ssi_tosend) : "r0");
    /* Pull remaining bytes out of FIFO. */
    while (ssi_left) {
uint32_t status;
status = HWREG(SSI0 + 0x00c);
if (status & 0x04) {
HWREG(SSI0 + 0x008);
ssi_left--;
}
    }
}

/* Turn off screen to prevernt burn-in. */
void VL_ScreenSaver()
{
    static const byte offcmd[] = {0xAE, 0xAD, 0x02};

    oled_write(offcmd, 3, 1);
    while (read_buttons() == 0)
asm volatile ("wfi");
    oled_init();
}
#endif

/* Input. */

void INL_Update()
{
#ifdef INTEGRATOR
    int scancode;
    while (kmi0[1] & 0x10) {
int press = 1;
scancode = kmi0[2];
#if 0
printf ("scancode %x\n", scancode);
#else
if (scancode == 0xe0) {
scancode = kmi0[2] | 0x100;
}
if ((scancode & 0xff) == 0xf0) {
press = 0;
scancode = (scancode & 0x100) | kmi0[2];
}
switch (scancode) {
case 0x29: scancode = sc_Space; break;
case 0x14: scancode = sc_Control; break;
case 0x175: scancode = sc_UpArrow; break;
case 0x172: scancode = sc_DownArrow; break;
case 0x16b: scancode = sc_LeftArrow; break;
case 0x174: scancode = sc_RightArrow; break;
default: scancode = 0; break;
}
if (scancode == 0)
continue;
keyboard_handler(scancode, press);
#endif
    }
#endif
#ifdef LUMINARY
    int buttons = 0;
    static int oldbuttons = 0;
    int i;
    static const byte scancodes[5] = {sc_UpArrow, sc_DownArrow, sc_LeftArrow,
sc_RightArrow, sc_Space};

    buttons = read_buttons();
    buttons ^= oldbuttons;
    oldbuttons ^= buttons;
    for (i = 0; i < 5; i++) {
int mask = 1 << i;
if (buttons & mask) {
keyboard_handler(scancodes[i], (oldbuttons & mask) != 0);
}
    }

#endif
}

/* Graphics bits. */

byte framebuffer[128 * 64 / 2];

void VL_Startup()
{
#ifdef INTEGRATOR
    /* Initialize CLCDC. */
    clcdc[0] = 0x1c; // Horizontal timing (128 pixels)
    clcdc[1] = 0x3f; // Vertical timing (64 rows)
    clcdc[4] = (uint32_t)framebuffer; // base address
    clcdc[7] = 0x827; // 8-bit TFT
#endif
}

void VW_UpdateScreen()
{
#ifdef LUMINARY
    oled_render();
#endif
}

#ifdef INTEGRATOR
void VL_SetPalette(const byte *palette)
{
    int i;
    uint32_t val;
    const byte *p = palette;

    for (i = 0; i < 128; i++) {
val = *(p++) >> 1;
val |= (*(p++) & 0x3e) << 4;
val |= (*(p++) & 0x3e) << 9;
val |= (*(p++) & 0x3e) << 15;
val |= (*(p++) & 0x3e) << 20;
val |= (*(p++) & 0x3e) << 25;
clcdc[i + 0x80] = val;
    }
}

void VL_GetPalette(byte *palette)
{
    FIXME();
}
#endif

#ifdef DEBUG
void Quit(const char *error)
{
    FIXME();
}
#endif

void TimerInit();

static void sys_init()
{
#ifdef LUMINARY
    /* Enable peripherals. */
    /* Timer0, SSI0. */
    HWREG(SYSCTL + 0x104) |= 0x00010010;
    /* GPIO[A-G] */
    HWREG(SYSCTL + 0x108) |= 0x0000007f;

    /* Bump LDO voltage to workaround silicon bugs. */
    //HWREG(SYSCTL + 0x034) = 0x1b;
    /* Clock the PLL to 50MHz. */
    HWREG(SYSCTL + 0x060) = 0x01d40b80;
    /* Wait for PLL to sync, then enable. */
    while ((HWREG(SYSCTL + 0x050) & 0x40) == 0)
/* no-op */ ;
    HWREG(SYSCTL + 0x060) &= ~0x0800;

    /* Enable SSI pins (GPIOA 2, 3, 4, 5). */
    HWREG(GPIOA + 0x420) |= 0x3c; /* HW fn. */
    HWREG(GPIOA + 0x508) |= 0x3c; /* 8mA drive strength. */
    HWREG(GPIOA + 0x51c) |= 0x3c; /* Digital. */
    HWREG(GPIOA + 0x510) |= 0x3c; /* Pull-up. */

    /* D/Cn output for OLED. */
    HWREG(GPIOC + 0x400) |= 0x80; /* Output */
    HWREG(GPIOC + 0x51c) |= 0x80; /* Digital */
    HWREG(GPIOC + 0x508) |= 0x80; /* 8mA drive strength. */
    HWREG(GPIOC + 0x510) |= 0x80; /* Pull-up. */
    HWREG(GPIOC + 0x200) = 0x00;

    /* Explicitly enable +15V power to the OLED.
Needed on rev C board, harmless on earlier boards. */
    HWREG(GPIOC + 0x400) |= 0x40; /* Output */
    HWREG(GPIOC + 0x51c) |= 0x40; /* Digital */
    HWREG(GPIOC + 0x508) |= 0x40; /* 8mA drive strength. */
    HWREG(GPIOC + 0x510) |= 0x40; /* Pull-up. */
    HWREG(GPIOC + 0x100) = 0x40; /* Enable. */

    /* User pushbutton input. */
    HWREG(GPIOF + 0x51c) |= 0x02; /* Digital */
    HWREG(GPIOF + 0x510) |= 0x02; /* Pull-up. */

    /* Direction buttons. */
    HWREG(GPIOE + 0x51c) |= 0x0f; /* Digital */
    HWREG(GPIOE + 0x510) |= 0x0f; /* Pull-up. */

    /* Enable fss device select. */
    HWREG(GPIOA + 0x420) |= 0x08;
    HWREG(GPIOA + 0x020) = 0;
    /* 50MHz / 3.5Mbit = 14.2 cycles/bit. */
    HWREG(SSI0 + 0x010) = 2; /* prescale /2 */
    HWREG(SSI0 + 0x000) = 0x0647; /* SCR=6 (+1), SPI polarity=1, 8bit */
    HWREG(SSI0 + 0x04) = 2; /* Enable. */

    ssi_flush_rx();

    oled_init();
    oled_clear();
#endif
}

int main(int argc, char **argv)
{
#ifndef LUMINARY
    vwidth = 128;
    vheight = 96;
#endif
    sys_init();
    TimerInit();
    return WolfMain(argc, argv);
}


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