RetroArch/libretro-common/formats/png/rpng.c

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2020-01-31 14:43:42 +00:00
/* Copyright (C) 2010-2020 The RetroArch team
*
* ---------------------------------------------------------------------------------------
* The following license statement only applies to this file (rpng.c).
* ---------------------------------------------------------------------------------------
*
* 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.
*/
#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#ifdef GEKKO
#include <malloc.h>
#endif
#include <boolean.h>
#include <formats/image.h>
#include <formats/rpng.h>
#include <streams/trans_stream.h>
#include <string/stdstring.h>
#include "rpng_internal.h"
enum png_ihdr_color_type
{
PNG_IHDR_COLOR_GRAY = 0,
PNG_IHDR_COLOR_RGB = 2,
PNG_IHDR_COLOR_PLT = 3,
PNG_IHDR_COLOR_GRAY_ALPHA = 4,
PNG_IHDR_COLOR_RGBA = 6
};
enum png_line_filter
{
PNG_FILTER_NONE = 0,
PNG_FILTER_SUB,
PNG_FILTER_UP,
PNG_FILTER_AVERAGE,
PNG_FILTER_PAETH
};
enum png_chunk_type
{
PNG_CHUNK_NOOP = 0,
PNG_CHUNK_ERROR,
PNG_CHUNK_IHDR,
PNG_CHUNK_IDAT,
PNG_CHUNK_PLTE,
PNG_CHUNK_tRNS,
PNG_CHUNK_IEND
};
struct adam7_pass
{
unsigned x;
unsigned y;
unsigned stride_x;
unsigned stride_y;
};
struct idat_buffer
{
uint8_t *data;
size_t size;
};
struct png_chunk
{
uint32_t size;
};
struct rpng_process
{
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uint32_t *data;
uint32_t *palette;
void *stream;
const struct trans_stream_backend *stream_backend;
uint8_t *prev_scanline;
uint8_t *decoded_scanline;
uint8_t *inflate_buf;
size_t restore_buf_size;
size_t adam7_restore_buf_size;
size_t data_restore_buf_size;
size_t inflate_buf_size;
size_t avail_in;
size_t avail_out;
size_t total_out;
size_t pass_size;
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struct png_ihdr ihdr; /* uint32_t alignment */
unsigned bpp;
unsigned pitch;
unsigned h;
unsigned pass_width;
unsigned pass_height;
unsigned pass_pos;
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bool inflate_initialized;
bool adam7_pass_initialized;
bool pass_initialized;
};
struct rpng
{
struct rpng_process *process;
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uint8_t *buff_data;
uint8_t *buff_end;
struct idat_buffer idat_buf; /* ptr alignment */
struct png_ihdr ihdr; /* uint32 alignment */
uint32_t palette[256];
bool has_ihdr;
bool has_idat;
bool has_iend;
bool has_plte;
bool has_trns;
};
static INLINE uint32_t dword_be(const uint8_t *buf)
{
return (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | (buf[3] << 0);
}
static bool png_process_ihdr(struct png_ihdr *ihdr)
{
unsigned i;
bool ret = true;
switch (ihdr->color_type)
{
case PNG_IHDR_COLOR_RGB:
case PNG_IHDR_COLOR_GRAY_ALPHA:
case PNG_IHDR_COLOR_RGBA:
if (ihdr->depth != 8 && ihdr->depth != 16)
GOTO_END_ERROR();
break;
case PNG_IHDR_COLOR_GRAY:
{
static const unsigned valid_bpp[] = { 1, 2, 4, 8, 16 };
bool correct_bpp = false;
for (i = 0; i < ARRAY_SIZE(valid_bpp); i++)
{
if (valid_bpp[i] == ihdr->depth)
{
correct_bpp = true;
break;
}
}
if (!correct_bpp)
GOTO_END_ERROR();
}
break;
case PNG_IHDR_COLOR_PLT:
{
static const unsigned valid_bpp[] = { 1, 2, 4, 8 };
bool correct_bpp = false;
for (i = 0; i < ARRAY_SIZE(valid_bpp); i++)
{
if (valid_bpp[i] == ihdr->depth)
{
correct_bpp = true;
break;
}
}
if (!correct_bpp)
GOTO_END_ERROR();
}
break;
default:
GOTO_END_ERROR();
}
#ifdef RPNG_TEST
fprintf(stderr, "IHDR: (%u x %u), bpc = %u, palette = %s, color = %s, alpha = %s, adam7 = %s.\n",
ihdr->width, ihdr->height,
ihdr->depth, (ihdr->color_type == PNG_IHDR_COLOR_PLT) ? "yes" : "no",
(ihdr->color_type & PNG_IHDR_COLOR_RGB) ? "yes" : "no",
(ihdr->color_type & PNG_IHDR_COLOR_GRAY_ALPHA) ? "yes" : "no",
ihdr->interlace == 1 ? "yes" : "no");
#endif
if (ihdr->compression != 0)
GOTO_END_ERROR();
end:
return ret;
}
static void png_reverse_filter_copy_line_rgb(uint32_t *data,
const uint8_t *decoded, unsigned width, unsigned bpp)
{
unsigned i;
bpp /= 8;
for (i = 0; i < width; i++)
{
uint32_t r, g, b;
r = *decoded;
decoded += bpp;
g = *decoded;
decoded += bpp;
b = *decoded;
decoded += bpp;
data[i] = (0xffu << 24) | (r << 16) | (g << 8) | (b << 0);
}
}
static void png_reverse_filter_copy_line_rgba(uint32_t *data,
const uint8_t *decoded, unsigned width, unsigned bpp)
{
unsigned i;
bpp /= 8;
for (i = 0; i < width; i++)
{
uint32_t r, g, b, a;
r = *decoded;
decoded += bpp;
g = *decoded;
decoded += bpp;
b = *decoded;
decoded += bpp;
a = *decoded;
decoded += bpp;
data[i] = (a << 24) | (r << 16) | (g << 8) | (b << 0);
}
}
static void png_reverse_filter_copy_line_bw(uint32_t *data,
const uint8_t *decoded, unsigned width, unsigned depth)
{
unsigned i, bit;
static const unsigned mul_table[] = { 0, 0xff, 0x55, 0, 0x11, 0, 0, 0, 0x01 };
unsigned mul, mask;
if (depth == 16)
{
for (i = 0; i < width; i++)
{
uint32_t val = decoded[i << 1];
data[i] = (val * 0x010101) | (0xffu << 24);
}
return;
}
mul = mul_table[depth];
mask = (1 << depth) - 1;
bit = 0;
for (i = 0; i < width; i++, bit += depth)
{
unsigned byte = bit >> 3;
unsigned val = decoded[byte] >> (8 - depth - (bit & 7));
val &= mask;
val *= mul;
data[i] = (val * 0x010101) | (0xffu << 24);
}
}
static void png_reverse_filter_copy_line_gray_alpha(uint32_t *data,
const uint8_t *decoded, unsigned width,
unsigned bpp)
{
unsigned i;
bpp /= 8;
for (i = 0; i < width; i++)
{
uint32_t gray, alpha;
gray = *decoded;
decoded += bpp;
alpha = *decoded;
decoded += bpp;
data[i] = (gray * 0x010101) | (alpha << 24);
}
}
static void png_reverse_filter_copy_line_plt(uint32_t *data,
const uint8_t *decoded, unsigned width,
unsigned depth, const uint32_t *palette)
{
switch (depth)
{
case 1:
{
unsigned w = width / 8;
unsigned i;
for (i = 0; i < w; i++, decoded++)
{
*data++ = palette[(*decoded >> 7) & 1];
*data++ = palette[(*decoded >> 6) & 1];
*data++ = palette[(*decoded >> 5) & 1];
*data++ = palette[(*decoded >> 4) & 1];
*data++ = palette[(*decoded >> 3) & 1];
*data++ = palette[(*decoded >> 2) & 1];
*data++ = palette[(*decoded >> 1) & 1];
*data++ = palette[*decoded & 1];
}
switch (width & 7)
{
case 7:
data[6] = palette[(*decoded >> 1) & 1];
case 6:
data[5] = palette[(*decoded >> 2) & 1];
case 5:
data[4] = palette[(*decoded >> 3) & 1];
case 4:
data[3] = palette[(*decoded >> 4) & 1];
case 3:
data[2] = palette[(*decoded >> 5) & 1];
case 2:
data[1] = palette[(*decoded >> 6) & 1];
case 1:
data[0] = palette[(*decoded >> 7) & 1];
break;
}
}
break;
case 2:
{
unsigned w = width / 4;
unsigned i;
for (i = 0; i < w; i++, decoded++)
{
*data++ = palette[(*decoded >> 6) & 3];
*data++ = palette[(*decoded >> 4) & 3];
*data++ = palette[(*decoded >> 2) & 3];
*data++ = palette[*decoded & 3];
}
switch (width & 3)
{
case 3:
data[2] = palette[(*decoded >> 2) & 3];
case 2:
data[1] = palette[(*decoded >> 4) & 3];
case 1:
data[0] = palette[(*decoded >> 6) & 3];
break;
}
}
break;
case 4:
{
unsigned w = width / 2;
unsigned i;
for (i = 0; i < w; i++, decoded++)
{
*data++ = palette[*decoded >> 4];
*data++ = palette[*decoded & 0x0f];
}
if (width & 1)
{
*data = palette[*decoded >> 4];
}
}
break;
case 8:
{
unsigned i;
for (i = 0; i < width; i++, decoded++, data++)
{
*data = palette[*decoded];
}
}
break;
}
}
static void png_pass_geom(const struct png_ihdr *ihdr,
unsigned width, unsigned height,
unsigned *bpp_out, unsigned *pitch_out, size_t *pass_size)
{
unsigned bpp;
unsigned pitch;
switch (ihdr->color_type)
{
case PNG_IHDR_COLOR_GRAY:
bpp = (ihdr->depth + 7) / 8;
pitch = (ihdr->width * ihdr->depth + 7) / 8;
break;
case PNG_IHDR_COLOR_RGB:
bpp = (ihdr->depth * 3 + 7) / 8;
pitch = (ihdr->width * ihdr->depth * 3 + 7) / 8;
break;
case PNG_IHDR_COLOR_PLT:
bpp = (ihdr->depth + 7) / 8;
pitch = (ihdr->width * ihdr->depth + 7) / 8;
break;
case PNG_IHDR_COLOR_GRAY_ALPHA:
bpp = (ihdr->depth * 2 + 7) / 8;
pitch = (ihdr->width * ihdr->depth * 2 + 7) / 8;
break;
case PNG_IHDR_COLOR_RGBA:
bpp = (ihdr->depth * 4 + 7) / 8;
pitch = (ihdr->width * ihdr->depth * 4 + 7) / 8;
break;
default:
bpp = 0;
pitch = 0;
break;
}
if (pass_size)
*pass_size = (pitch + 1) * ihdr->height;
if (bpp_out)
*bpp_out = bpp;
if (pitch_out)
*pitch_out = pitch;
}
static void png_reverse_filter_adam7_deinterlace_pass(uint32_t *data,
const struct png_ihdr *ihdr,
const uint32_t *input, unsigned pass_width, unsigned pass_height,
const struct adam7_pass *pass)
{
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unsigned x, y;
data += pass->y * ihdr->width + pass->x;
for (y = 0; y < pass_height;
y++, data += ihdr->width * pass->stride_y, input += pass_width)
{
uint32_t *out = data;
for (x = 0; x < pass_width; x++, out += pass->stride_x)
*out = input[x];
}
}
static void png_reverse_filter_deinit(struct rpng_process *pngp)
{
if (!pngp)
return;
if (pngp->decoded_scanline)
free(pngp->decoded_scanline);
pngp->decoded_scanline = NULL;
if (pngp->prev_scanline)
free(pngp->prev_scanline);
pngp->prev_scanline = NULL;
pngp->pass_initialized = false;
pngp->h = 0;
}
static const struct adam7_pass passes[] = {
{ 0, 0, 8, 8 },
{ 4, 0, 8, 8 },
{ 0, 4, 4, 8 },
{ 2, 0, 4, 4 },
{ 0, 2, 2, 4 },
{ 1, 0, 2, 2 },
{ 0, 1, 1, 2 },
};
static int png_reverse_filter_init(const struct png_ihdr *ihdr,
struct rpng_process *pngp)
{
size_t pass_size;
if (!pngp->adam7_pass_initialized && ihdr->interlace)
{
if (ihdr->width <= passes[pngp->pass_pos].x ||
ihdr->height <= passes[pngp->pass_pos].y) /* Empty pass */
return 1;
pngp->pass_width = (ihdr->width -
passes[pngp->pass_pos].x + passes[pngp->pass_pos].stride_x - 1) / passes[pngp->pass_pos].stride_x;
pngp->pass_height = (ihdr->height - passes[pngp->pass_pos].y +
passes[pngp->pass_pos].stride_y - 1) / passes[pngp->pass_pos].stride_y;
pngp->data = (uint32_t*)malloc(
pngp->pass_width * pngp->pass_height * sizeof(uint32_t));
if (!pngp->data)
return -1;
pngp->ihdr = *ihdr;
pngp->ihdr.width = pngp->pass_width;
pngp->ihdr.height = pngp->pass_height;
png_pass_geom(&pngp->ihdr, pngp->pass_width,
pngp->pass_height, NULL, NULL, &pngp->pass_size);
if (pngp->pass_size > pngp->total_out)
{
free(pngp->data);
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pngp->data = NULL;
return -1;
}
pngp->adam7_pass_initialized = true;
return 0;
}
if (pngp->pass_initialized)
return 0;
png_pass_geom(ihdr, ihdr->width, ihdr->height, &pngp->bpp, &pngp->pitch, &pass_size);
if (pngp->total_out < pass_size)
return -1;
pngp->restore_buf_size = 0;
pngp->data_restore_buf_size = 0;
pngp->prev_scanline = (uint8_t*)calloc(1, pngp->pitch);
pngp->decoded_scanline = (uint8_t*)calloc(1, pngp->pitch);
if (!pngp->prev_scanline || !pngp->decoded_scanline)
goto error;
pngp->h = 0;
pngp->pass_initialized = true;
return 0;
error:
png_reverse_filter_deinit(pngp);
return -1;
}
static int png_reverse_filter_copy_line(uint32_t *data, const struct png_ihdr *ihdr,
struct rpng_process *pngp, unsigned filter)
{
unsigned i;
switch (filter)
{
case PNG_FILTER_NONE:
memcpy(pngp->decoded_scanline, pngp->inflate_buf, pngp->pitch);
break;
case PNG_FILTER_SUB:
for (i = 0; i < pngp->bpp; i++)
pngp->decoded_scanline[i] = pngp->inflate_buf[i];
for (i = pngp->bpp; i < pngp->pitch; i++)
pngp->decoded_scanline[i] = pngp->decoded_scanline[i - pngp->bpp] + pngp->inflate_buf[i];
break;
case PNG_FILTER_UP:
for (i = 0; i < pngp->pitch; i++)
pngp->decoded_scanline[i] = pngp->prev_scanline[i] + pngp->inflate_buf[i];
break;
case PNG_FILTER_AVERAGE:
for (i = 0; i < pngp->bpp; i++)
{
uint8_t avg = pngp->prev_scanline[i] >> 1;
pngp->decoded_scanline[i] = avg + pngp->inflate_buf[i];
}
for (i = pngp->bpp; i < pngp->pitch; i++)
{
uint8_t avg = (pngp->decoded_scanline[i - pngp->bpp] + pngp->prev_scanline[i]) >> 1;
pngp->decoded_scanline[i] = avg + pngp->inflate_buf[i];
}
break;
case PNG_FILTER_PAETH:
for (i = 0; i < pngp->bpp; i++)
pngp->decoded_scanline[i] = paeth(0, pngp->prev_scanline[i], 0) + pngp->inflate_buf[i];
for (i = pngp->bpp; i < pngp->pitch; i++)
pngp->decoded_scanline[i] = paeth(pngp->decoded_scanline[i - pngp->bpp],
pngp->prev_scanline[i], pngp->prev_scanline[i - pngp->bpp]) + pngp->inflate_buf[i];
break;
default:
return IMAGE_PROCESS_ERROR_END;
}
switch (ihdr->color_type)
{
case PNG_IHDR_COLOR_GRAY:
png_reverse_filter_copy_line_bw(data, pngp->decoded_scanline, ihdr->width, ihdr->depth);
break;
case PNG_IHDR_COLOR_RGB:
png_reverse_filter_copy_line_rgb(data, pngp->decoded_scanline, ihdr->width, ihdr->depth);
break;
case PNG_IHDR_COLOR_PLT:
png_reverse_filter_copy_line_plt(data, pngp->decoded_scanline, ihdr->width,
ihdr->depth, pngp->palette);
break;
case PNG_IHDR_COLOR_GRAY_ALPHA:
png_reverse_filter_copy_line_gray_alpha(data, pngp->decoded_scanline, ihdr->width,
ihdr->depth);
break;
case PNG_IHDR_COLOR_RGBA:
png_reverse_filter_copy_line_rgba(data, pngp->decoded_scanline, ihdr->width, ihdr->depth);
break;
}
memcpy(pngp->prev_scanline, pngp->decoded_scanline, pngp->pitch);
return IMAGE_PROCESS_NEXT;
}
static int png_reverse_filter_regular_iterate(uint32_t **data, const struct png_ihdr *ihdr,
struct rpng_process *pngp)
{
int ret = IMAGE_PROCESS_END;
if (pngp->h < ihdr->height)
{
unsigned filter = *pngp->inflate_buf++;
pngp->restore_buf_size += 1;
ret = png_reverse_filter_copy_line(*data,
ihdr, pngp, filter);
}
if (ret == IMAGE_PROCESS_END || ret == IMAGE_PROCESS_ERROR_END)
goto end;
pngp->h++;
pngp->inflate_buf += pngp->pitch;
pngp->restore_buf_size += pngp->pitch;
*data += ihdr->width;
pngp->data_restore_buf_size += ihdr->width;
return IMAGE_PROCESS_NEXT;
end:
png_reverse_filter_deinit(pngp);
pngp->inflate_buf -= pngp->restore_buf_size;
*data -= pngp->data_restore_buf_size;
pngp->data_restore_buf_size = 0;
return ret;
}
static int png_reverse_filter_adam7_iterate(uint32_t **data_,
const struct png_ihdr *ihdr,
struct rpng_process *pngp)
{
int ret = 0;
bool to_next = pngp->pass_pos < ARRAY_SIZE(passes);
uint32_t *data = *data_;
if (!to_next)
return IMAGE_PROCESS_END;
ret = png_reverse_filter_init(ihdr, pngp);
if (ret == 1)
return IMAGE_PROCESS_NEXT;
if (ret == -1)
return IMAGE_PROCESS_ERROR_END;
if (png_reverse_filter_init(&pngp->ihdr, pngp) == -1)
return IMAGE_PROCESS_ERROR;
do
{
ret = png_reverse_filter_regular_iterate(&pngp->data,
&pngp->ihdr, pngp);
} while (ret == IMAGE_PROCESS_NEXT);
if (ret == IMAGE_PROCESS_ERROR || ret == IMAGE_PROCESS_ERROR_END)
return IMAGE_PROCESS_ERROR;
pngp->inflate_buf += pngp->pass_size;
pngp->adam7_restore_buf_size += pngp->pass_size;
pngp->total_out -= pngp->pass_size;
png_reverse_filter_adam7_deinterlace_pass(data,
ihdr, pngp->data, pngp->pass_width, pngp->pass_height, &passes[pngp->pass_pos]);
free(pngp->data);
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pngp->data = NULL;
pngp->pass_width = 0;
pngp->pass_height = 0;
pngp->pass_size = 0;
pngp->adam7_pass_initialized = false;
return IMAGE_PROCESS_NEXT;
}
static int png_reverse_filter_adam7(uint32_t **data_,
const struct png_ihdr *ihdr,
struct rpng_process *pngp)
{
int ret = png_reverse_filter_adam7_iterate(data_,
ihdr, pngp);
switch (ret)
{
case IMAGE_PROCESS_ERROR_END:
case IMAGE_PROCESS_END:
break;
case IMAGE_PROCESS_NEXT:
pngp->pass_pos++;
return 0;
case IMAGE_PROCESS_ERROR:
if (pngp->data)
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{
free(pngp->data);
2018-08-18 04:51:07 +00:00
pngp->data = NULL;
}
pngp->inflate_buf -= pngp->adam7_restore_buf_size;
pngp->adam7_restore_buf_size = 0;
return -1;
}
pngp->inflate_buf -= pngp->adam7_restore_buf_size;
pngp->adam7_restore_buf_size = 0;
return ret;
}
static int png_reverse_filter_iterate(rpng_t *rpng, uint32_t **data)
{
if (!rpng)
return false;
if (rpng->ihdr.interlace && rpng->process)
return png_reverse_filter_adam7(data, &rpng->ihdr, rpng->process);
return png_reverse_filter_regular_iterate(data, &rpng->ihdr, rpng->process);
}
static int rpng_load_image_argb_process_inflate_init(rpng_t *rpng, uint32_t **data)
{
bool zstatus;
enum trans_stream_error terror;
uint32_t rd, wn;
struct rpng_process *process = (struct rpng_process*)rpng->process;
bool to_continue = (process->avail_in > 0
&& process->avail_out > 0);
if (!to_continue)
goto end;
zstatus = process->stream_backend->trans(process->stream, false, &rd, &wn, &terror);
if (!zstatus && terror != TRANS_STREAM_ERROR_BUFFER_FULL)
goto error;
process->avail_in -= rd;
process->avail_out -= wn;
process->total_out += wn;
if (terror)
return 0;
end:
process->stream_backend->stream_free(process->stream);
process->stream = NULL;
#ifdef GEKKO
/* we often use these in textures, make sure they're 32-byte aligned */
*data = (uint32_t*)memalign(32, rpng->ihdr.width *
rpng->ihdr.height * sizeof(uint32_t));
#else
*data = (uint32_t*)malloc(rpng->ihdr.width *
rpng->ihdr.height * sizeof(uint32_t));
#endif
if (!*data)
goto false_end;
process->adam7_restore_buf_size = 0;
process->restore_buf_size = 0;
process->palette = rpng->palette;
if (rpng->ihdr.interlace != 1)
if (png_reverse_filter_init(&rpng->ihdr, process) == -1)
goto false_end;
process->inflate_initialized = true;
return 1;
error:
false_end:
process->inflate_initialized = false;
return -1;
}
static bool png_read_plte(uint8_t *buf,
uint32_t *buffer, unsigned entries)
{
unsigned i;
for (i = 0; i < entries; i++)
{
uint32_t r = buf[3 * i + 0];
uint32_t g = buf[3 * i + 1];
uint32_t b = buf[3 * i + 2];
buffer[i] = (r << 16) | (g << 8) | (b << 0) | (0xffu << 24);
}
return true;
}
static bool png_read_trns(uint8_t *buf, uint32_t *palette, unsigned entries)
{
unsigned i;
for (i = 0; i < entries; i++, buf++, palette++)
2019-05-16 15:43:16 +00:00
*palette = (*palette & 0x00ffffff) | (unsigned)*buf << 24;
return true;
}
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bool png_realloc_idat(struct idat_buffer *buf, uint32_t chunk_size)
{
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uint8_t *new_buffer = (uint8_t*)realloc(buf->data, buf->size + chunk_size);
if (!new_buffer)
return false;
buf->data = new_buffer;
return true;
}
static struct rpng_process *rpng_process_init(rpng_t *rpng)
{
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uint8_t *inflate_buf = NULL;
struct rpng_process *process = (struct rpng_process*)malloc(sizeof(*process));
if (!process)
return NULL;
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process->inflate_initialized = false;
process->adam7_pass_initialized = false;
process->pass_initialized = false;
process->prev_scanline = NULL;
process->decoded_scanline = NULL;
process->inflate_buf = NULL;
process->ihdr.width = 0;
process->ihdr.height = 0;
process->ihdr.depth = 0;
process->ihdr.color_type = 0;
process->ihdr.compression = 0;
process->ihdr.filter = 0;
process->ihdr.interlace = 0;
process->restore_buf_size = 0;
process->adam7_restore_buf_size = 0;
process->data_restore_buf_size = 0;
process->inflate_buf_size = 0;
process->avail_in = 0;
process->avail_out = 0;
process->total_out = 0;
process->pass_size = 0;
process->bpp = 0;
process->pitch = 0;
process->h = 0;
process->pass_width = 0;
process->pass_height = 0;
process->pass_pos = 0;
process->data = 0;
process->palette = 0;
process->stream = NULL;
process->stream_backend = trans_stream_get_zlib_inflate_backend();
png_pass_geom(&rpng->ihdr, rpng->ihdr.width,
rpng->ihdr.height, NULL, NULL, &process->inflate_buf_size);
if (rpng->ihdr.interlace == 1) /* To be sure. */
process->inflate_buf_size *= 2;
process->stream = process->stream_backend->stream_new();
if (!process->stream)
{
free(process);
return NULL;
}
inflate_buf = (uint8_t*)malloc(process->inflate_buf_size);
if (!inflate_buf)
goto error;
process->inflate_buf = inflate_buf;
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process->avail_in = rpng->idat_buf.size;
process->avail_out = process->inflate_buf_size;
process->stream_backend->set_in(
process->stream,
rpng->idat_buf.data,
(uint32_t)rpng->idat_buf.size);
process->stream_backend->set_out(
process->stream,
process->inflate_buf,
(uint32_t)process->inflate_buf_size);
return process;
error:
if (process)
{
if (process->stream)
process->stream_backend->stream_free(process->stream);
free(process);
}
return NULL;
}
static enum png_chunk_type read_chunk_header(uint8_t *buf, uint8_t *buf_end,
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struct png_chunk *chunk)
{
unsigned i;
char type[4];
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chunk->size = dword_be(buf);
/* Check whether chunk will overflow the data buffer */
if (buf + 8 + chunk->size > buf_end)
return PNG_CHUNK_ERROR;
for (i = 0; i < 4; i++)
{
uint8_t byte = buf[i + 4];
/* All four bytes of the chunk type must be
* ASCII letters (codes 65-90 and 97-122) */
if ((byte < 65) || ((byte > 90) && (byte < 97)) || (byte > 122))
return PNG_CHUNK_ERROR;
type[i] = byte;
}
if (
type[0] == 'I'
&& type[1] == 'H'
&& type[2] == 'D'
&& type[3] == 'R'
)
return PNG_CHUNK_IHDR;
else if
(
type[0] == 'I'
&& type[1] == 'D'
&& type[2] == 'A'
&& type[3] == 'T'
)
return PNG_CHUNK_IDAT;
else if
(
type[0] == 'I'
&& type[1] == 'E'
&& type[2] == 'N'
&& type[3] == 'D'
)
return PNG_CHUNK_IEND;
else if
(
type[0] == 'P'
&& type[1] == 'L'
&& type[2] == 'T'
&& type[3] == 'E'
)
return PNG_CHUNK_PLTE;
else if
(
type[0] == 't'
&& type[1] == 'R'
&& type[2] == 'N'
&& type[3] == 'S'
)
return PNG_CHUNK_tRNS;
return PNG_CHUNK_NOOP;
}
static bool png_parse_ihdr(uint8_t *buf,
struct png_ihdr *ihdr)
{
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buf += 4 + 4;
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ihdr->width = dword_be(buf + 0);
ihdr->height = dword_be(buf + 4);
ihdr->depth = buf[8];
ihdr->color_type = buf[9];
ihdr->compression = buf[10];
ihdr->filter = buf[11];
ihdr->interlace = buf[12];
if (ihdr->width == 0 || ihdr->height == 0)
return false;
return true;
}
bool rpng_iterate_image(rpng_t *rpng)
{
unsigned i;
struct png_chunk chunk;
uint8_t *buf = (uint8_t*)rpng->buff_data;
chunk.size = 0;
/* Check whether data buffer pointer is valid */
if (buf > rpng->buff_end)
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return false;
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/* Check whether reading the header will overflow
* the data buffer */
if (rpng->buff_end - buf < 8)
return false;
switch (read_chunk_header(buf, rpng->buff_end, &chunk))
{
case PNG_CHUNK_NOOP:
default:
break;
case PNG_CHUNK_ERROR:
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return false;
case PNG_CHUNK_IHDR:
if (rpng->has_ihdr || rpng->has_idat || rpng->has_iend)
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return false;
if (chunk.size != 13)
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return false;
if (!png_parse_ihdr(buf, &rpng->ihdr))
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return false;
if (!png_process_ihdr(&rpng->ihdr))
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return false;
rpng->has_ihdr = true;
break;
case PNG_CHUNK_PLTE:
{
unsigned entries = chunk.size / 3;
if (!rpng->has_ihdr || rpng->has_plte || rpng->has_iend || rpng->has_idat || rpng->has_trns)
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return false;
if (chunk.size % 3)
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return false;
if (entries > 256)
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return false;
buf += 8;
if (!png_read_plte(buf, rpng->palette, entries))
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return false;
rpng->has_plte = true;
}
break;
case PNG_CHUNK_tRNS:
if (rpng->has_idat)
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return false;
if (rpng->ihdr.color_type == PNG_IHDR_COLOR_PLT)
{
/* we should compare with the number of palette entries */
if (chunk.size > 256)
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return false;
buf += 8;
if (!png_read_trns(buf, rpng->palette, chunk.size))
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return false;
}
/* TODO: support colorkey in grayscale and truecolor images */
rpng->has_trns = true;
break;
case PNG_CHUNK_IDAT:
if (!(rpng->has_ihdr) || rpng->has_iend || (rpng->ihdr.color_type == PNG_IHDR_COLOR_PLT && !(rpng->has_plte)))
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return false;
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if (!png_realloc_idat(&rpng->idat_buf, chunk.size))
return false;
buf += 8;
for (i = 0; i < chunk.size; i++)
rpng->idat_buf.data[i + rpng->idat_buf.size] = buf[i];
rpng->idat_buf.size += chunk.size;
rpng->has_idat = true;
break;
case PNG_CHUNK_IEND:
if (!(rpng->has_ihdr) || !(rpng->has_idat))
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return false;
rpng->has_iend = true;
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return false;
}
rpng->buff_data += chunk.size + 12;
/* Check whether data buffer pointer is valid */
if (rpng->buff_data > rpng->buff_end)
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return false;
return true;
}
int rpng_process_image(rpng_t *rpng,
void **_data, size_t size, unsigned *width, unsigned *height)
{
uint32_t **data = (uint32_t**)_data;
(void)size;
if (!rpng->process)
{
struct rpng_process *process = rpng_process_init(rpng);
if (!process)
goto error;
rpng->process = process;
return IMAGE_PROCESS_NEXT;
}
if (!rpng->process->inflate_initialized)
{
if (rpng_load_image_argb_process_inflate_init(rpng, data) == -1)
goto error;
return IMAGE_PROCESS_NEXT;
}
*width = rpng->ihdr.width;
*height = rpng->ihdr.height;
return png_reverse_filter_iterate(rpng, data);
error:
if (rpng->process)
{
if (rpng->process->inflate_buf)
free(rpng->process->inflate_buf);
if (rpng->process->stream)
rpng->process->stream_backend->stream_free(rpng->process->stream);
free(rpng->process);
}
return IMAGE_PROCESS_ERROR;
}
void rpng_free(rpng_t *rpng)
{
if (!rpng)
return;
if (rpng->idat_buf.data)
free(rpng->idat_buf.data);
if (rpng->process)
{
if (rpng->process->inflate_buf)
free(rpng->process->inflate_buf);
if (rpng->process->stream)
{
if (rpng->process->stream_backend && rpng->process->stream_backend->stream_free)
rpng->process->stream_backend->stream_free(rpng->process->stream);
else
free(rpng->process->stream);
}
free(rpng->process);
}
free(rpng);
}
bool rpng_start(rpng_t *rpng)
{
unsigned i;
char header[8];
if (!rpng)
return false;
/* Check whether reading the header will overflow
* the data buffer */
if (rpng->buff_end - rpng->buff_data < 8)
return false;
header[0] = '\0';
for (i = 0; i < 8; i++)
header[i] = rpng->buff_data[i];
if (string_is_not_equal_fast(header, png_magic, sizeof(png_magic)))
return false;
rpng->buff_data += 8;
return true;
}
bool rpng_is_valid(rpng_t *rpng)
{
/* A valid PNG image must contain an IHDR chunk,
* one or more IDAT chunks, and an IEND chunk */
2019-09-15 05:40:02 +00:00
if (rpng && rpng->has_ihdr && rpng->has_idat && rpng->has_iend)
return true;
return false;
}
bool rpng_set_buf_ptr(rpng_t *rpng, void *data, size_t len)
{
if (!rpng || (len < 1))
return false;
rpng->buff_data = (uint8_t*)data;
rpng->buff_end = rpng->buff_data + (len - 1);
return true;
}
rpng_t *rpng_alloc(void)
{
rpng_t *rpng = (rpng_t*)calloc(1, sizeof(*rpng));
if (!rpng)
return NULL;
return rpng;
}