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airscan-bmp.c
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airscan-bmp.c
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/* sane - Scanner Access Now Easy.
*
* Copyright (C) 2020 Thierry HUCHARD <[email protected]>
* See LICENSE for license terms and conditions
*/
#include "airscan.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <string.h>
/* BITMAPFILEHEADER structure, see MSDN for details
*/
#pragma pack (push,1)
typedef struct {
uint16_t bfType; /* File magic, always 'BM' */
uint32_t bfSize; /* File size in bytes */
uint16_t bfReserved1; /* Reserved; must be zero */
uint16_t bfReserved2; /* Reserved; must be zero */
uint32_t bfOffBits; /* Offset to bitmap bits */
} BITMAPFILEHEADER;
#pragma pack (pop)
/* BITMAPINFOHEADER structure, see MSDN for details
*/
#pragma pack (push,1)
typedef struct {
uint32_t biSize; /* Header size, bytes */
int32_t biWidth; /* Image width, pixels */
int32_t biHeight; /* Image height, pixels */
uint16_t biPlanes; /* Number of planes, always 1 */
uint16_t biBitCount; /* Bits per pixel */
uint32_t biCompression; /* Compression type, see MSDN */
uint32_t biSizeImage; /* Image size, can be o */
int32_t biXPelsPerMeter; /* Horizontal resolution, pixels per meter */
int32_t biYPelsPerMeter; /* Vertical resolution, pixels per meter */
uint32_t biClrUsed; /* Number of used palette indices */
uint32_t biClrImportant; /* Number of important palette indices */
} BITMAPINFOHEADER;
#pragma pack (pop)
/* BMP image decoder
*/
typedef struct {
image_decoder decoder; /* Base class */
char error[256]; /* Error message buffer */
const uint8_t *image_data; /* Image data */
BITMAPINFOHEADER info_header; /* DIB header, decoded */
size_t bmp_row_size; /* Row size in BMP file */
SANE_Frame format; /* SANE_FRAME_GRAY/RBG */
unsigned int next_line; /* Next line to read */
} image_decoder_bmp;
/* Free BMP decoder
*/
static void
image_decoder_bmp_free (image_decoder *decoder)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
g_free(bmp);
}
/* Begin BMP decoding
*/
static error
image_decoder_bmp_begin (image_decoder *decoder, const void *data,
size_t size)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
BITMAPFILEHEADER file_header;
size_t header_size, padding;
uint64_t size_required;
/* Decode BMP header */
if (size < sizeof(BITMAPFILEHEADER) + sizeof(BITMAPINFOHEADER)) {
return ERROR("BMP: header truncated");
}
memcpy(&file_header, data, sizeof(BITMAPFILEHEADER));
memcpy(&bmp->info_header, ((char*) data) + sizeof(BITMAPFILEHEADER),
sizeof(BITMAPINFOHEADER));
file_header.bfType = le16toh(file_header.bfType);
file_header.bfSize = le32toh(file_header.bfSize);
file_header.bfOffBits = le32toh(file_header.bfOffBits);
bmp->info_header.biSize = le32toh(bmp->info_header.biSize);
bmp->info_header.biWidth = le32toh(bmp->info_header.biWidth);
bmp->info_header.biHeight = le32toh(bmp->info_header.biHeight);
bmp->info_header.biPlanes = le16toh(bmp->info_header.biPlanes);
bmp->info_header.biBitCount = le16toh(bmp->info_header.biBitCount);
bmp->info_header.biCompression = le32toh(bmp->info_header.biCompression);
bmp->info_header.biSizeImage = le32toh(bmp->info_header.biSizeImage);
bmp->info_header.biXPelsPerMeter = le32toh(bmp->info_header.biXPelsPerMeter);
bmp->info_header.biYPelsPerMeter = le32toh(bmp->info_header.biYPelsPerMeter);
bmp->info_header.biClrUsed = le32toh(bmp->info_header.biClrUsed);
bmp->info_header.biClrImportant = le32toh(bmp->info_header.biClrImportant);
/* Validate BMP header */
if (file_header.bfType != ('M' << 8 | 'B')) {
return ERROR("BMP: invalid header signature");
}
if (bmp->info_header.biSize < sizeof(BITMAPINFOHEADER)) {
sprintf(bmp->error, "BMP: invalid header size %d",
bmp->info_header.biSize);
return ERROR(bmp->error);
}
if (bmp->info_header.biCompression != 0) {
sprintf(bmp->error, "BMP: compression %d not supported",
bmp->info_header.biCompression);
return ERROR(bmp->error);
}
/* Ignore palette for 8-bit (grayscale) images, reject it otherwise */
if (bmp->info_header.biClrUsed != 0 && bmp->info_header.biBitCount != 8) {
return ERROR("BMP: paletted images not supported");
}
switch (bmp->info_header.biBitCount) {
case 8:
bmp->format = SANE_FRAME_GRAY;
break;
case 24:
case 32:
bmp->format = SANE_FRAME_RGB;
break;
default:
sprintf(bmp->error, "BMP: %d bits per pixel not supported",
bmp->info_header.biBitCount);
return ERROR(bmp->error);
}
/* Compute BMP row size */
bmp->bmp_row_size = bmp->info_header.biWidth;
bmp->bmp_row_size *= bmp->info_header.biBitCount / 8;
padding = (4 - (bmp->bmp_row_size & 3)) & 3;
bmp->bmp_row_size += padding;
/* Make sure image is not truncated */
header_size = sizeof(BITMAPFILEHEADER) + bmp->info_header.biSize;
header_size += (size_t) bmp->info_header.biClrUsed * 4;
size_required = header_size;
size_required += ((uint64_t) labs(bmp->info_header.biHeight)) *
(uint64_t) bmp->bmp_row_size;
size_required -= padding; /* Last row may be unpadded */
if (size_required > (uint64_t) size) {
return ERROR("BMP: image truncated");
}
/* Save pointer to image data */
bmp->image_data = header_size + (const uint8_t*) data;
return NULL;
}
/* Reset BMP decoder
*/
static void
image_decoder_bmp_reset (image_decoder *decoder)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
size_t off = sizeof(bmp->decoder);
memset(((char*) bmp) + off, 0, sizeof(*bmp) - off);
}
/* Get bytes count per pixel
*/
static int
image_decoder_bmp_get_bytes_per_pixel (image_decoder *decoder)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
return bmp->format == SANE_FRAME_GRAY ? 1 : 3;
}
/* Get image parameters
*/
static void
image_decoder_bmp_get_params (image_decoder *decoder, SANE_Parameters *params)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
params->last_frame = SANE_TRUE;
params->pixels_per_line = bmp->info_header.biWidth;
params->lines = labs(bmp->info_header.biHeight);
params->depth = 8;
params->format = bmp->format;
params->bytes_per_line = params->pixels_per_line;
if (params->format == SANE_FRAME_RGB) {
params->bytes_per_line *= 3;
}
}
/* Set clipping window
*/
static error
image_decoder_bmp_set_window (image_decoder *decoder, image_window *win)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
win->x_off = win->y_off = 0;
win->wid = bmp->info_header.biWidth;
win->hei = labs(bmp->info_header.biHeight);
return NULL;
}
/* Read next line of image
*/
static error
image_decoder_bmp_read_line (image_decoder *decoder, void *buffer)
{
image_decoder_bmp *bmp = (image_decoder_bmp*) decoder;
size_t row_num;
const uint8_t *row_data;
int i, wid = bmp->info_header.biWidth;
uint8_t *out = buffer;
if (bmp->next_line == labs(bmp->info_header.biHeight)) {
return ERROR("BMP: end of file");
}
/* Compute row number */
row_num = bmp->next_line ++;
if (bmp->info_header.biHeight > 0) {
row_num = bmp->info_header.biHeight - row_num - 1;
}
/* Compute row address */
row_data = bmp->image_data + row_num * bmp->bmp_row_size;
/* Decode the row */
switch (bmp->info_header.biBitCount) {
case 8:
memcpy(out, row_data, wid);
break;
case 24:
for (i = 0; i < wid; i ++) {
out[0] = row_data[2]; /* Red */
out[1] = row_data[1]; /* Green */
out[2] = row_data[0]; /* Blue */
out += 3;
row_data += 3;
}
break;
case 32:
for (i = 0; i < wid; i ++) {
out[0] = row_data[2]; /* Red */
out[1] = row_data[1]; /* Green */
out[2] = row_data[0]; /* Blue */
out += 3;
row_data += 4;
}
break;
default:
log_internal_error(NULL);
}
return NULL;
}
/* Create BMP image decoder
*/
image_decoder*
image_decoder_bmp_new (void)
{
image_decoder_bmp *bmp = g_new0(image_decoder_bmp, 1);
bmp->decoder.content_type = "image/bmp";
bmp->decoder.free = image_decoder_bmp_free;
bmp->decoder.begin = image_decoder_bmp_begin;
bmp->decoder.reset = image_decoder_bmp_reset;
bmp->decoder.get_bytes_per_pixel = image_decoder_bmp_get_bytes_per_pixel;
bmp->decoder.get_params = image_decoder_bmp_get_params;
bmp->decoder.set_window = image_decoder_bmp_set_window;
bmp->decoder.read_line = image_decoder_bmp_read_line;
return &bmp->decoder;
}
/* vim:ts=8:sw=4:et
*/