quirc/lib/quirc.c

/* quirc -- QR-code recognition library
 * Copyright (C) 2010-2012 Daniel Beer <dlbeer@gmail.com>
 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

#include <stdlib.h>
#include <string.h>
#include "quirc_internal.h"

const char *quirc_version(void)
{
	return "1.0";
}

struct quirc *quirc_new(void)
{
	struct quirc *q = malloc(sizeof(*q));

	if (!q)
		return NULL;

	memset(q, 0, sizeof(*q));
	return q;
}

void quirc_destroy(struct quirc *q)
{
	free(q->image);
	/* q->pixels may alias q->image when their type representation is of the
	   same size, so we need to be careful here to avoid a double free */
	if (!QUIRC_PIXEL_ALIAS_IMAGE)
		free(q->pixels);
	free(q->flood_fill_vars);
	free(q);
}

int quirc_resize(struct quirc *q, int w, int h)
{
	uint8_t		*image  = NULL;
	quirc_pixel_t	*pixels = NULL;
	size_t num_vars;
	size_t vars_byte_size;
	struct quirc_flood_fill_vars *vars = NULL;

	/*
	 * XXX: w and h should be size_t (or at least unsigned) as negatives
	 * values would not make much sense. The downside is that it would break
	 * both the API and ABI. Thus, at the moment, let's just do a sanity
	 * check.
	 */
	if (w < 0 || h < 0)
		goto fail;

	/*
	 * alloc a new buffer for q->image. We avoid realloc(3) because we want
	 * on failure to be leave `q` in a consistant, unmodified state.
	 */
	image = calloc(w, h);
	if (!image)
		goto fail;

	/* compute the "old" (i.e. currently allocated) and the "new"
	   (i.e. requested) image dimensions */
	size_t olddim = q->w * q->h;
	size_t newdim = w * h;
	size_t min = (olddim < newdim ? olddim : newdim);

	/*
	 * copy the data into the new buffer, avoiding (a) to read beyond the
	 * old buffer when the new size is greater and (b) to write beyond the
	 * new buffer when the new size is smaller, hence the min computation.
	 */
	(void)memcpy(image, q->image, min);

	/* alloc a new buffer for q->pixels if needed */
	if (!QUIRC_PIXEL_ALIAS_IMAGE) {
		pixels = calloc(newdim, sizeof(quirc_pixel_t));
		if (!pixels)
			goto fail;
	}

	/*
	 * alloc the work area for the flood filling logic.
	 *
	 * the size was chosen with the following assumptions and observations:
	 *
	 * - rings are the regions which requires the biggest work area.
	 * - they consumes the most when they are rotated by about 45 degree.
	 *   in that case, the necessary depth is about (2 * height_of_the_ring).
	 * - the maximum height of rings would be about 1/3 of the image height.
	 */

	if ((size_t)h * 2 / 2 != h) {
		goto fail; /* size_t overflow */
	}
	num_vars = (size_t)h * 2 / 3;
	if (num_vars == 0) {
		num_vars = 1;
	}

	vars_byte_size = sizeof(*vars) * num_vars;
	if (vars_byte_size / sizeof(*vars) != num_vars) {
		goto fail; /* size_t overflow */
	}
	vars = malloc(vars_byte_size);
	if (!vars)
		goto fail;

	/* alloc succeeded, update `q` with the new size and buffers */
	q->w = w;
	q->h = h;
	free(q->image);
	q->image = image;
	if (!QUIRC_PIXEL_ALIAS_IMAGE) {
		free(q->pixels);
		q->pixels = pixels;
	}
	free(q->flood_fill_vars);
	q->flood_fill_vars = vars;
	q->num_flood_fill_vars = num_vars;

	return 0;
	/* NOTREACHED */
fail:
	free(image);
	free(pixels);
	free(vars);

	return -1;
}

int quirc_count(const struct quirc *q)
{
	return q->num_grids;
}

static const char *const error_table[] = {
	[QUIRC_SUCCESS] = "Success",
	[QUIRC_ERROR_INVALID_GRID_SIZE] = "Invalid grid size",
	[QUIRC_ERROR_INVALID_VERSION] = "Invalid version",
	[QUIRC_ERROR_FORMAT_ECC] = "Format data ECC failure",
	[QUIRC_ERROR_DATA_ECC] = "ECC failure",
	[QUIRC_ERROR_UNKNOWN_DATA_TYPE] = "Unknown data type",
	[QUIRC_ERROR_DATA_OVERFLOW] = "Data overflow",
	[QUIRC_ERROR_DATA_UNDERFLOW] = "Data underflow"
};

const char *quirc_strerror(quirc_decode_error_t err)
{
	if (err >= 0 && err < sizeof(error_table) / sizeof(error_table[0]))
		return error_table[err];

	return "Unknown error";
}
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00			`/* quirc -- QR-code recognition library`
			`* Copyright (C) 2010-2012 Daniel Beer <dlbeer@gmail.com>`
			`*`
			`* Permission to use, copy, modify, and/or distribute this software for any`
			`* purpose with or without fee is hereby granted, provided that the above`
			`* copyright notice and this permission notice appear in all copies.`
			`*`
			`* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES`
			`* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF`
			`* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR`
			`* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES`
			`* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN`
			`* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF`
			`* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.`
			`*/`

			`#include <stdlib.h>`
			`#include <string.h>`
			`#include "quirc_internal.h"`

			`const char *quirc_version(void)`
			`{`
			`return "1.0";`
			`}`

			`struct quirc *quirc_new(void)`
			`{`
			`struct quirc q = malloc(sizeof(q));`

			`if (!q)`
			`return NULL;`

			`memset(q, 0, sizeof(*q));`
			`return q;`
			`}`

			`void quirc_destroy(struct quirc *q)`
			`{`
Fix a potential use-after-free on quirc_resize failure. Before this patch, in the event of `q->image` reallocation success but `q->pixels` failure, `q->image` would point to a freed memory. After this patch, once quirc_resize() returns, `q->image` consistently point to a memory address that can be freed. There is still an inconsistency left in the example codepath: `q->{h,w}` would hold the "old" values, while `q->image` allocated size would be based in the requested width/height; hence the comment update about the state of the QR-code recognizer (it should only be passed to quirc_destroy()). 2017-06-07 19:37:14 +02:00			`free(q->image);`
Added a row_average member to struct quirc. Prep to remove the VLA from threshold() 2017-06-11 09:55:11 +02:00			`/* q->pixels may alias q->image when their type representation is of the`
Warning comment improvement. 2017-06-11 10:19:31 +02:00			`same size, so we need to be careful here to avoid a double free */`
define a QUIRC_PIXEL_ALIAS_IMAGE constant to explicit conditional path Before this patch, the "sizeof dance" was confusing, fix #54. 2019-07-01 22:19:39 +02:00			`if (!QUIRC_PIXEL_ALIAS_IMAGE)`
Large images decoding support Fix #2, this patch makes large images support a compile time option by allowing QUIRC_MAX_REGIONS to be tuned via CFLAGS up to 65534 (current default is 254). 2016-07-15 14:40:40 +02:00			`free(q->pixels);`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`free(q->flood_fill_vars);`
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00			`free(q);`
			`}`

			`int quirc_resize(struct quirc *q, int w, int h)`
			`{`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`uint8_t *image = NULL;`
			`quirc_pixel_t *pixels = NULL;`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`size_t num_vars;`
quirc_resize: Make this a bit more careful about integer overflows Also, avoid malloc(0), which is not too portable. 2021-05-06 02:54:00 +02:00			`size_t vars_byte_size;`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`struct quirc_flood_fill_vars *vars = NULL;`
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`/*`
			`* XXX: w and h should be size_t (or at least unsigned) as negatives`
			`* values would not make much sense. The downside is that it would break`
			`* both the API and ABI. Thus, at the moment, let's just do a sanity`
			`* check.`
			`*/`
			`if (w < 0 \|\| h < 0)`
			`goto fail;`

			`/*`
			`* alloc a new buffer for q->image. We avoid realloc(3) because we want`
			* on failure to be leave `q` in a consistant, unmodified state.
			`*/`
			`image = calloc(w, h);`
			`if (!image)`
			`goto fail;`

			`/* compute the "old" (i.e. currently allocated) and the "new"`
			`(i.e. requested) image dimensions */`
			`size_t olddim = q->w * q->h;`
			`size_t newdim = w * h;`
			`size_t min = (olddim < newdim ? olddim : newdim);`

			`/*`
			`* copy the data into the new buffer, avoiding (a) to read beyond the`
			`* old buffer when the new size is greater and (b) to write beyond the`
			`* new buffer when the new size is smaller, hence the min computation.`
			`*/`
			`(void)memcpy(image, q->image, min);`

			`/* alloc a new buffer for q->pixels if needed */`
define a QUIRC_PIXEL_ALIAS_IMAGE constant to explicit conditional path Before this patch, the "sizeof dance" was confusing, fix #54. 2019-07-01 22:19:39 +02:00			`if (!QUIRC_PIXEL_ALIAS_IMAGE) {`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`pixels = calloc(newdim, sizeof(quirc_pixel_t));`
			`if (!pixels)`
			`goto fail;`
Large images decoding support Fix #2, this patch makes large images support a compile time option by allowing QUIRC_MAX_REGIONS to be tuned via CFLAGS up to 65534 (current default is 254). 2016-07-15 14:40:40 +02:00			`}`

Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`/*`
			`* alloc the work area for the flood filling logic.`
			`*`
			`* the size was chosen with the following assumptions and observations:`
			`*`
			`* - rings are the regions which requires the biggest work area.`
			`* - they consumes the most when they are rotated by about 45 degree.`
			`* in that case, the necessary depth is about (2 * height_of_the_ring).`
			`* - the maximum height of rings would be about 1/3 of the image height.`
			`*/`

quirc_resize: Make this a bit more careful about integer overflows Also, avoid malloc(0), which is not too portable. 2021-05-06 02:54:00 +02:00			`if ((size_t)h * 2 / 2 != h) {`
			`goto fail; /* size_t overflow */`
			`}`
			`num_vars = (size_t)h * 2 / 3;`
			`if (num_vars == 0) {`
			`num_vars = 1;`
			`}`

			`vars_byte_size = sizeof(vars) num_vars;`
			`if (vars_byte_size / sizeof(*vars) != num_vars) {`
			`goto fail; /* size_t overflow */`
			`}`
			`vars = malloc(vars_byte_size);`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`if (!vars)`
			`goto fail;`

refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			/* alloc succeeded, update `q` with the new size and buffers */
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00			`q->w = w;`
			`q->h = h;`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`free(q->image);`
			`q->image = image;`
define a QUIRC_PIXEL_ALIAS_IMAGE constant to explicit conditional path Before this patch, the "sizeof dance" was confusing, fix #54. 2019-07-01 22:19:39 +02:00			`if (!QUIRC_PIXEL_ALIAS_IMAGE) {`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`free(q->pixels);`
			`q->pixels = pixels;`
			`}`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`free(q->flood_fill_vars);`
			`q->flood_fill_vars = vars;`
			`q->num_flood_fill_vars = num_vars;`
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00
			`return 0;`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00			`/* NOTREACHED */`
			`fail:`
			`free(image);`
			`free(pixels);`
Improve stack usage for flood filling * Make flood filling logic iterative (vs recursive) I basically tried one-to-one conversions here to avoid mistakes. probably it has a room for later optimizations. * Use explicit malloc (vs variables on stack) to allocate the work area. * Estimate the amount of memory for the work area dynamically from the image size, instead of using a constant FLOOD_FILL_MAX_DEPTH, which is too big in the most cases. 2021-03-22 02:56:51 +01:00			`free(vars);`
refactor quirc_resize So that the given quirc struct is never invalid once we return to the caller. 2017-06-09 22:12:06 +02:00
			`return -1;`
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00			`}`

			`int quirc_count(const struct quirc *q)`
			`{`
			`return q->num_grids;`
			`}`

			`static const char *const error_table[] = {`
			`[QUIRC_SUCCESS] = "Success",`
			`[QUIRC_ERROR_INVALID_GRID_SIZE] = "Invalid grid size",`
			`[QUIRC_ERROR_INVALID_VERSION] = "Invalid version",`
			`[QUIRC_ERROR_FORMAT_ECC] = "Format data ECC failure",`
			`[QUIRC_ERROR_DATA_ECC] = "ECC failure",`
			`[QUIRC_ERROR_UNKNOWN_DATA_TYPE] = "Unknown data type",`
			`[QUIRC_ERROR_DATA_OVERFLOW] = "Data overflow",`
			`[QUIRC_ERROR_DATA_UNDERFLOW] = "Data underflow"`
			`};`

			`const char *quirc_strerror(quirc_decode_error_t err)`
			`{`
quirc_strerror: fix off by one error. Bug reported by Harald Eilertsen (http://github.com/snake66/). 2013-02-02 06:04:49 +01:00			`if (err >= 0 && err < sizeof(error_table) / sizeof(error_table[0]))`
Initial commit: version 1.0. 2012-05-04 02:58:42 +02:00			`return error_table[err];`

			`return "Unknown error";`
			`}`