:: limine / common / lib / qoi.c 3.8 KB raw

#include <stdint.h>

#include <stddef.h>

#include <lib/qoi.h>

#include <lib/misc.h>

#include <mm/pmm.h>

​

#define QOI_OP_INDEX 0x00

#define QOI_OP_DIFF  0x40

#define QOI_OP_LUMA  0x80

#define QOI_OP_RUN   0xc0

#define QOI_OP_RGB   0xfe

#define QOI_OP_RGBA  0xff

#define QOI_OP_MASK  0xc0

#define QOI_HEADER_SIZE  14

#define QOI_PADDING_SIZE  8

#define QOI_MAX_DIM    65536u

#define QOI_MAX_PIXELS ((size_t)400000000)

#define QOI_HASH(r, g, b, a) \

    ((((unsigned)(r) * 3u) + ((unsigned)(g) * 5u) + \

        ((unsigned)(b) * 7u) + ((unsigned)(a) * 11u)) & 63u)

​

static uint32_t qoi_be32(const uint8_t *p) {

    return ((uint32_t)p[0] << 24) | ((uint32_t)p[1] << 16) |

           ((uint32_t)p[2] <<  8) |  (uint32_t)p[3];

}

​

/*  The decoded buffer is laid out as [total_bytes][padding to 16][pixels...].

    The 16-byte header lets qoi_free() recover the original allocation size

    without the caller having to track it.  */

static uint32_t *qoi_alloc_xrgb(size_t pixels) {

    size_t bytes = CHECKED_MUL(pixels, (size_t)4, return NULL);

    size_t total = CHECKED_ADD(bytes, (size_t)16, return NULL);

    void *raw = ext_mem_alloc(total);

    *(size_t *) raw = total;

    return (uint32_t *)((uint8_t *) raw + 16);

}

​

void qoi_free(uint8_t *buf) {

    if (buf) { uint8_t *raw = buf - 16;  pmm_free(raw, *(size_t *) raw); }

}

​

uint8_t *qoi_decode(const void *src, size_t src_size,

            int *out_w, int *out_h) {

    if (!src || src_size < QOI_HEADER_SIZE + QOI_PADDING_SIZE) return NULL;

    const uint8_t * p = src;

    if (p[0] != 'q' || p[1] != 'o' || p[2] != 'i' || p[3] != 'f')

        return NULL;

    uint32_t w = qoi_be32(p + 4), h = qoi_be32(p + 8);

    uint8_t channels = p[12];  /* p[13] is the colorspace tag, ignored. */

    if (w == 0 || h == 0 || w > QOI_MAX_DIM || h > QOI_MAX_DIM) return NULL;

    if (channels != 3 && channels != 4) return NULL;

    size_t pixels = CHECKED_MUL((size_t)w, (size_t)h, return NULL);

    if (pixels > QOI_MAX_PIXELS) return NULL;

    uint32_t *out = qoi_alloc_xrgb(pixels);

    if (out == NULL) return NULL;

    uint32_t index[64] = { 0 }, v;  int run = 0, dg;

    uint8_t r = 0, g = 0, b = 0, a = 0xff, b2;

    size_t pos = QOI_HEADER_SIZE, end = src_size - QOI_PADDING_SIZE;

    for (size_t px = 0; px < pixels; px++) {

        if (run > 0) run--; else {

            if (pos >= end) goto fail;

            uint8_t op = p[pos++];

            if (op == QOI_OP_RGB) {

                if (end - pos < 3) goto fail;

                r = p[pos++]; g = p[pos++]; b = p[pos++];

            } else if (op == QOI_OP_RGBA) {

                if (end - pos < 4) goto fail;

                r = p[pos++]; g = p[pos++]; b = p[pos++]; a = p[pos++];

            } else switch (op & QOI_OP_MASK) {

                case QOI_OP_INDEX:

                    v = index[op & 0x3f];

                    r = v;  g = v >> 8;  b = v >> 16;  a = v >> 24;

                    break;

                case QOI_OP_DIFF:

                    r += (int)((op >> 4) & 3u) - 2;

                    g += (int)((op >> 2) & 3u) - 2;

                    b += (int)( op       & 3u) - 2;

                    break;

                case QOI_OP_LUMA:

                    if (pos >= end) goto fail;

                    b2 = p[pos++];

                    dg = (int)(op & 0x3f) - 32;

                    r += dg + (int)((b2 >> 4) & 0xf) - 8;

                    g += dg;

                    b += dg + (int)( b2       & 0xf) - 8;

                    break;

                case QOI_OP_RUN: run = op & 0x3f; break;

            }

            index[QOI_HASH(r, g, b, a)] =

              (uint32_t)r        | ((uint32_t)g << 8) |

             ((uint32_t)b << 16) | ((uint32_t)a << 24);

        }

        out[px] = ((uint32_t)r << 16) | ((uint32_t)g << 8) | (uint32_t)b;

    }

    *out_w = (int)w;  *out_h = (int)h;  return (uint8_t *) out;

fail:

    qoi_free((uint8_t *) out);  return NULL;

}