qrenc-service.c @ 593

Last change on this file since 593 was 385, checked in by djay, 12 years ago
Add QREncode service. Fix memory leaks. Avoid printing anything from the conf_read function to be able to detect and return valid headers.
File size: 29.9 KB

Line
1	/-- Mode: C; c-basic-offset: 8; indent-tabs-mode: t --/
2
3	/**
4	* qrencode - QR Code encoder
5	*
6	* QR Code encoding tool
7	* Copyright (C) 2006-2012 Kentaro Fukuchi <kentaro@fukuchi.org>
8	*
9	* This library is free software; you can redistribute it and/or
10	* modify it under the terms of the GNU Lesser General Public
11	* License as published by the Free Software Foundation; either
12	* version 2.1 of the License, or any later version.
13	*
14	* This library is distributed in the hope that it will be useful,
15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17	* Lesser General Public License for more details.
18	*
19	* You should have received a copy of the GNU Lesser General Public
20	* License along with this library; if not, write to the Free Software
21	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
22	*/
23
24	#if HAVE_CONFIG_H
25	# include "config.h"
26	#endif
27	#include <stdio.h>
28	#include <stdlib.h>
29	#include <png.h>
30	#include <getopt.h>
31
32	#ifdef ZOO_SERVICE_PROVIDER
33	#define bzero(b,len) (memset((b), '\0', (len)), (void) 0)
34	#define bcopy(b1,b2,len) (memmove((b2), (b1), (len)), (void) 0)
35	#ifdef WIN32
36	#include "windows.h"
37	#endif
38	#include "service.h"
39	#include <sys/stat.h>
40	#include <unistd.h>
41	#endif
42
43	#include "qrencode.h"
44
45	#define INCHES_PER_METER (100.0/2.54)
46
47	static int casesensitive = 1;
48	static int eightbit = 0;
49	static int version = 0;
50	static int size = 3;
51	static int margin = -1;
52	static int dpi = 72;
53	static int structured = 0;
54	static int micro = 0;
55	static QRecLevel level = QR_ECLEVEL_L;
56	static QRencodeMode hint = QR_MODE_8;
57	static unsigned int fg_color[4] = {0, 0, 0, 255};
58	static unsigned int bg_color[4] = {255, 255, 255, 255};
59
60	enum imageType {
61	PNG_TYPE,
62	EPS_TYPE,
63	SVG_TYPE,
64	ANSI_TYPE,
65	ANSI256_TYPE,
66	ASCII_TYPE,
67	ASCIIi_TYPE,
68	UTF8_TYPE,
69	ANSIUTF8_TYPE
70	};
71
72	static enum imageType image_type = PNG_TYPE;
73
74	static const struct option options[] = {
75	{"help" , no_argument , NULL, 'h'},
76	{"output" , required_argument, NULL, 'o'},
77	{"level" , required_argument, NULL, 'l'},
78	{"size" , required_argument, NULL, 's'},
79	{"symversion" , required_argument, NULL, 'v'},
80	{"margin" , required_argument, NULL, 'm'},
81	{"dpi" , required_argument, NULL, 'd'},
82	{"type" , required_argument, NULL, 't'},
83	{"structured" , no_argument , NULL, 'S'},
84	{"kanji" , no_argument , NULL, 'k'},
85	{"casesensitive", no_argument , NULL, 'c'},
86	{"ignorecase" , no_argument , NULL, 'i'},
87	{"8bit" , no_argument , NULL, '8'},
88	{"micro" , no_argument , NULL, 'M'},
89	{"foreground" , required_argument, NULL, 'f'},
90	{"background" , required_argument, NULL, 'b'},
91	{"version" , no_argument , NULL, 'V'},
92	{NULL, 0, NULL, 0}
93	};
94
95	static char *optstring = "ho:l:s:v:m:d:t:Skci8MV";
96
97	static void usage(int help, int longopt)
98	{
99	fprintf(stderr,
100	"qrencode version %s\n"
101	"Copyright (C) 2006-2012 Kentaro Fukuchi\n", QRcode_APIVersionString());
102	if(help) {
103	if(longopt) {
104	fprintf(stderr,
105	"Usage: qrencode [OPTION]... [STRING]\n"
106	"Encode input data in a QR Code and save as a PNG or EPS image.\n\n"
107	" -h, --help display the help message. -h displays only the help of short\n"
108	" options.\n\n"
109	" -o FILENAME, --output=FILENAME\n"
110	" write image to FILENAME. If '-' is specified, the result\n"
111	" will be output to standard output. If -S is given, structured\n"
112	" symbols are written to FILENAME-01.png, FILENAME-02.png, ...\n"
113	" (suffix is removed from FILENAME, if specified)\n"
114	" -s NUMBER, --size=NUMBER\n"
115	" specify module size in dots (pixels). (default=3)\n\n"
116	" -l {LMQH}, --level={LMQH}\n"
117	" specify error correction level from L (lowest) to H (highest).\n"
118	" (default=L)\n\n"
119	" -v NUMBER, --symversion=NUMBER\n"
120	" specify the version of the symbol. (default=auto)\n\n"
121	" -m NUMBER, --margin=NUMBER\n"
122	" specify the width of the margins. (default=4 (2 for Micro)))\n\n"
123	" -d NUMBER, --dpi=NUMBER\n"
124	" specify the DPI of the generated PNG. (default=72)\n\n"
125	" -t {PNG,EPS,SVG,ANSI,ANSI256,ASCII,ASCIIi,UTF8,ANSIUTF8}, --type={PNG,EPS,\n"
126	" SVG,ANSI,ANSI256,ASCII,ASCIIi,UTF8,ANSIUTF8}\n"
127	" specify the type of the generated image. (default=PNG)\n\n"
128	" -S, --structured\n"
129	" make structured symbols. Version must be specified.\n\n"
130	" -k, --kanji assume that the input text contains kanji (shift-jis).\n\n"
131	" -c, --casesensitive\n"
132	" encode lower-case alphabet characters in 8-bit mode. (default)\n\n"
133	" -i, --ignorecase\n"
134	" ignore case distinctions and use only upper-case characters.\n\n"
135	" -8, --8bit encode entire data in 8-bit mode. -k, -c and -i will be ignored.\n\n"
136	" -M, --micro encode in a Micro QR Code. (experimental)\n\n"
137	" --foreground=RRGGBB[AA]\n"
138	" --background=RRGGBB[AA]\n"
139	" specify foreground/background color in hexadecimal notation.\n"
140	" 6-digit (RGB) or 8-digit (RGBA) form are supported.\n"
141	" Color output support available only in PNG and SVG.\n"
142	" -V, --version\n"
143	" display the version number and copyrights of the qrencode.\n\n"
144	" [STRING] input data. If it is not specified, data will be taken from\n"
145	" standard input.\n"
146	);
147	} else {
148	fprintf(stderr,
149	"Usage: qrencode [OPTION]... [STRING]\n"
150	"Encode input data in a QR Code and save as a PNG or EPS image.\n\n"
151	" -h display this message.\n"
152	" --help display the usage of long options.\n"
153	" -o FILENAME write image to FILENAME. If '-' is specified, the result\n"
154	" will be output to standard output. If -S is given, structured\n"
155	" symbols are written to FILENAME-01.png, FILENAME-02.png, ...\n"
156	" (suffix is removed from FILENAME, if specified)\n"
157	" -s NUMBER specify module size in dots (pixels). (default=3)\n"
158	" -l {LMQH} specify error correction level from L (lowest) to H (highest).\n"
159	" (default=L)\n"
160	" -v NUMBER specify the version of the symbol. (default=auto)\n"
161	" -m NUMBER specify the width of the margins. (default=4 (2 for Micro))\n"
162	" -d NUMBER specify the DPI of the generated PNG. (default=72)\n"
163	" -t {PNG,EPS,SVG,ANSI,ANSI256,ASCII,ASCIIi,UTF8,ANSIUTF8}\n"
164	" specify the type of the generated image. (default=PNG)\n"
165	" -S make structured symbols. Version must be specified.\n"
166	" -k assume that the input text contains kanji (shift-jis).\n"
167	" -c encode lower-case alphabet characters in 8-bit mode. (default)\n"
168	" -i ignore case distinctions and use only upper-case characters.\n"
169	" -8 encode entire data in 8-bit mode. -k, -c and -i will be ignored.\n"
170	" -M encode in a Micro QR Code.\n"
171	" --foreground=RRGGBB[AA]\n"
172	" --background=RRGGBB[AA]\n"
173	" specify foreground/background color in hexadecimal notation.\n"
174	" 6-digit (RGB) or 8-digit (RGBA) form are supported.\n"
175	" Color output support available only in PNG and SVG.\n"
176	" -V display the version number and copyrights of the qrencode.\n"
177	" [STRING] input data. If it is not specified, data will be taken from\n"
178	" standard input.\n"
179	);
180	}
181	}
182	}
183
184	static int color_set(unsigned int color[4], const char *value)
185	{
186	int len = strlen(value);
187	int count;
188	if(len == 6) {
189	count = sscanf(value, "%02x%02x%02x%n", &color[0], &color[1], &color[2], &len);
190	if(count < 3 \|\| len != 6) {
191	return -1;
192	}
193	color[3] = 255;
194	} else if(len == 8) {
195	count = sscanf(value, "%02x%02x%02x%02x%n", &color[0], &color[1], &color[2], &color[3], &len);
196	if(count < 4 \|\| len != 8) {
197	return -1;
198	}
199	} else {
200	return -1;
201	}
202	return 0;
203	}
204
205	#define MAX_DATA_SIZE (7090 * 16) /* from the specification */
206	static unsigned char readStdin(int length)
207	{
208	unsigned char *buffer;
209	int ret;
210
211	buffer = (unsigned char *)malloc(MAX_DATA_SIZE + 1);
212	if(buffer == NULL) {
213	fprintf(stderr, "Memory allocation failed.\n");
214	exit(EXIT_FAILURE);
215	}
216	ret = fread(buffer, 1, MAX_DATA_SIZE, stdin);
217	if(ret == 0) {
218	fprintf(stderr, "No input data.\n");
219	exit(EXIT_FAILURE);
220	}
221	if(feof(stdin) == 0) {
222	fprintf(stderr, "Input data is too large.\n");
223	exit(EXIT_FAILURE);
224	}
225
226	buffer[ret] = '\0';
227	*length = ret;
228
229	return buffer;
230	}
231
232	static FILE openFile(const char outfile)
233	{
234	FILE *fp;
235
236	if(outfile == NULL \|\| (outfile[0] == '-' && outfile[1] == '\0')) {
237	fp = stdout;
238	} else {
239	fp = fopen(outfile, "wb");
240	if(fp == NULL) {
241	fprintf(stderr, "Failed to create file: %s\n", outfile);
242	perror(NULL);
243	exit(EXIT_FAILURE);
244	}
245	}
246
247	return fp;
248	}
249
250	static int writePNG(QRcode qrcode, const char outfile)
251	{
252	static FILE *fp; // avoid clobbering by setjmp.
253	png_structp png_ptr;
254	png_infop info_ptr;
255	png_colorp palette;
256	png_byte alpha_values[2];
257	unsigned char row, p, *q;
258	int x, y, xx, yy, bit;
259	int realwidth;
260
261	realwidth = (qrcode->width + margin * 2) * size;
262	row = (unsigned char *)malloc((realwidth + 7) / 8);
263	if(row == NULL) {
264	fprintf(stderr, "Failed to allocate memory.\n");
265	exit(EXIT_FAILURE);
266	}
267
268	if(outfile[0] == '-' && outfile[1] == '\0') {
269	fp = stdout;
270	} else {
271	fp = fopen(outfile, "wb");
272	if(fp == NULL) {
273	fprintf(stderr, "Failed to create file: %s\n", outfile);
274	perror(NULL);
275	exit(EXIT_FAILURE);
276	}
277	}
278
279	png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL);
280	if(png_ptr == NULL) {
281	fprintf(stderr, "Failed to initialize PNG writer.\n");
282	exit(EXIT_FAILURE);
283	}
284
285	info_ptr = png_create_info_struct(png_ptr);
286	if(info_ptr == NULL) {
287	fprintf(stderr, "Failed to initialize PNG write.\n");
288	exit(EXIT_FAILURE);
289	}
290
291	if(setjmp(png_jmpbuf(png_ptr))) {
292	png_destroy_write_struct(&png_ptr, &info_ptr);
293	fprintf(stderr, "Failed to write PNG image.\n");
294	exit(EXIT_FAILURE);
295	}
296
297	palette = (png_colorp) malloc(sizeof(png_color) * 2);
298	palette[0].red = fg_color[0];
299	palette[0].green = fg_color[1];
300	palette[0].blue = fg_color[2];
301	palette[1].red = bg_color[0];
302	palette[1].green = bg_color[1];
303	palette[1].blue = bg_color[2];
304	alpha_values[0] = fg_color[3];
305	alpha_values[1] = bg_color[3];
306	png_set_PLTE(png_ptr, info_ptr, palette, 2);
307	png_set_tRNS(png_ptr, info_ptr, alpha_values, 2, NULL);
308
309	png_init_io(png_ptr, fp);
310	png_set_IHDR(png_ptr, info_ptr,
311	realwidth, realwidth,
312	1,
313	PNG_COLOR_TYPE_PALETTE,
314	PNG_INTERLACE_NONE,
315	PNG_COMPRESSION_TYPE_DEFAULT,
316	PNG_FILTER_TYPE_DEFAULT);
317	png_set_pHYs(png_ptr, info_ptr,
318	dpi * INCHES_PER_METER,
319	dpi * INCHES_PER_METER,
320	PNG_RESOLUTION_METER);
321	png_write_info(png_ptr, info_ptr);
322
323	/* top margin */
324	memset(row, 0xff, (realwidth + 7) / 8);
325	for(y=0; y<margin * size; y++) {
326	png_write_row(png_ptr, row);
327	}
328
329	/* data */
330	p = qrcode->data;
331	for(y=0; y<qrcode->width; y++) {
332	bit = 7;
333	memset(row, 0xff, (realwidth + 7) / 8);
334	q = row;
335	q += margin * size / 8;
336	bit = 7 - (margin * size % 8);
337	for(x=0; x<qrcode->width; x++) {
338	for(xx=0; xx<size; xx++) {
339	q ^= (p & 1) << bit;
340	bit--;
341	if(bit < 0) {
342	q++;
343	bit = 7;
344	}
345	}
346	p++;
347	}
348	for(yy=0; yy<size; yy++) {
349	png_write_row(png_ptr, row);
350	}
351	}
352	/* bottom margin */
353	memset(row, 0xff, (realwidth + 7) / 8);
354	for(y=0; y<margin * size; y++) {
355	png_write_row(png_ptr, row);
356	}
357
358	png_write_end(png_ptr, info_ptr);
359	png_destroy_write_struct(&png_ptr, &info_ptr);
360
361	fclose(fp);
362	free(row);
363
364	return 0;
365	}
366
367	static int writeEPS(QRcode qrcode, const char outfile)
368	{
369	FILE *fp;
370	unsigned char row, p;
371	int x, y, yy;
372	int realwidth;
373
374	fp = openFile(outfile);
375
376	realwidth = (qrcode->width + margin * 2) * size;
377	/* EPS file header */
378	fprintf(fp, "%%!PS-Adobe-2.0 EPSF-1.2\n"
379	"%%%%BoundingBox: 0 0 %d %d\n"
380	"%%%%Pages: 1 1\n"
381	"%%%%EndComments\n", realwidth, realwidth);
382	/* draw point */
383	fprintf(fp, "/p { "
384	"moveto "
385	"0 1 rlineto "
386	"1 0 rlineto "
387	"0 -1 rlineto "
388	"fill "
389	"} bind def "
390	"%d %d scale ", size, size);
391
392	/* data */
393	p = qrcode->data;
394	for(y=0; y<qrcode->width; y++) {
395	row = (p+(y*qrcode->width));
396	yy = (margin + qrcode->width - y - 1);
397
398	for(x=0; x<qrcode->width; x++) {
399	if(*(row+x)&0x1) {
400	fprintf(fp, "%d %d p ", margin + x, yy);
401	}
402	}
403	}
404
405	fprintf(fp, "\n%%%%EOF\n");
406	fclose(fp);
407
408	return 0;
409	}
410
411	static void writeSVG_writeRect(FILE fp, int x, int y, int width, char col, float opacity)
412	{
413	if(fg_color[3] != 255) {
414	fprintf(fp, "\t\t\t<rect x=\"%d\" y=\"%d\" width=\"%d\" height=\"1\" "\
415	"fill=\"#%s\" fill-opacity=\"%f\" />\n",
416	x, y, width, col, opacity );
417	} else {
418	fprintf(fp, "\t\t\t<rect x=\"%d\" y=\"%d\" width=\"%d\" height=\"1\" "\
419	"fill=\"#%s\" />\n",
420	x, y, width, col );
421	}
422	}
423
424	static int writeSVG( QRcode qrcode, const char outfile )
425	{
426	FILE *fp;
427	unsigned char row, p;
428	int x, y, x0, pen;
429	int symwidth, realwidth;
430	float scale;
431	char fg[7], bg[7];
432	float fg_opacity;
433	float bg_opacity;
434
435	fp = openFile(outfile);
436
437	scale = dpi * INCHES_PER_METER / 100.0;
438
439	symwidth = qrcode->width + margin * 2;
440	realwidth = symwidth * size;
441
442	snprintf(fg, 7, "%02x%02x%02x", fg_color[0], fg_color[1], fg_color[2]);
443	snprintf(bg, 7, "%02x%02x%02x", bg_color[0], bg_color[1], bg_color[2]);
444	fg_opacity = (float)fg_color[3] / 255;
445	bg_opacity = (float)bg_color[3] / 255;
446
447	/* XML declaration */
448	fputs( "<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"yes\"?>\n", fp );
449
450	/* DTD
451	No document type specified because "while a DTD is provided in [the SVG]
452	specification, the use of DTDs for validating XML documents is known to be
453	problematic. In particular, DTDs do not handle namespaces gracefully. It
454	is not recommended that a DOCTYPE declaration be included in SVG
455	documents."
456	http://www.w3.org/TR/2003/REC-SVG11-20030114/intro.html#Namespace
457	*/
458
459	/* Vanity remark */
460	fprintf( fp, "<!-- Created with qrencode %s (http://fukuchi.org/works/qrencode/index.html.en) -->\n",
461	QRcode_APIVersionString() );
462
463	/* SVG code start */
464	fprintf( fp, "<svg width=\"%0.2fcm\" height=\"%0.2fcm\" viewBox=\"0 0 %d %d\""\
465	" preserveAspectRatio=\"none\" version=\"1.1\""\
466	" xmlns=\"http://www.w3.org/2000/svg\">\n",
467	realwidth / scale, realwidth / scale, symwidth, symwidth
468	);
469
470	/* Make named group */
471	fputs( "\t<g id=\"QRcode\">\n", fp );
472
473	/* Make solid background */
474	if(bg_color[3] != 255) {
475	fprintf(fp, "\t\t<rect x=\"0\" y=\"0\" width=\"%d\" height=\"%d\" fill=\"#%s\" fill-opacity=\"%f\" />\n", symwidth, symwidth, bg, bg_opacity);
476	} else {
477	fprintf(fp, "\t\t<rect x=\"0\" y=\"0\" width=\"%d\" height=\"%d\" fill=\"#%s\" />\n", symwidth, symwidth, bg);
478	}
479
480	/* Create new viewbox for QR data */
481	fputs( "\t\t<g id=\"Pattern\">\n", fp);
482
483	/* Write data */
484	p = qrcode->data;
485	for(y=0; y<qrcode->width; y++) {
486	row = (p+(y*qrcode->width));
487
488	/* simple RLE */
489	pen = 0;
490	x0 = 0;
491	for(x=0; x<qrcode->width; x++) {
492	if( !pen ) {
493	pen = *(row+x)&0x1;
494	x0 = x;
495	} else {
496	if(!(*(row+x)&0x1)) {
497	writeSVG_writeRect(fp, x0 + margin, y + margin, x-x0, fg, fg_opacity);
498	pen = 0;
499	}
500	}
501	}
502	if( pen ) {
503	writeSVG_writeRect(fp, x0 + margin, y + margin, qrcode->width - x0, fg, fg_opacity);
504	}
505	}
506
507	/* Close QR data viewbox */
508	fputs( "\t\t</g>\n", fp );
509
510	/* Close group */
511	fputs( "\t</g>\n", fp );
512
513	/* Close SVG code */
514	fputs( "</svg>\n", fp );
515	fclose( fp );
516
517	return 0;
518	}
519
520	static void writeANSI_margin(FILE* fp, int realwidth,
521	char* buffer, int buffer_s,
522	char* white, int white_s )
523	{
524	int y;
525
526	strncpy(buffer, white, white_s);
527	memset(buffer + white_s, ' ', realwidth * 2);
528	strcpy(buffer + white_s + realwidth * 2, "\033[0m\n"); // reset to default colors
529	for(y=0; y<margin; y++ ){
530	fputs(buffer, fp);
531	}
532	}
533
534	static int writeANSI(QRcode qrcode, const char outfile)
535	{
536	FILE *fp;
537	unsigned char row, p;
538	int x, y;
539	int realwidth;
540	int last;
541
542	char white, black, *buffer;
543	int white_s, black_s, buffer_s;
544
545	if( image_type == ANSI256_TYPE ){
546	/* codes for 256 color compatible terminals */
547	white = "\033[48;5;231m";
548	white_s = 11;
549	black = "\033[48;5;16m";
550	black_s = 10;
551	} else {
552	white = "\033[47m";
553	white_s = 5;
554	black = "\033[40m";
555	black_s = 5;
556	}
557
558	size = 1;
559
560	fp = openFile(outfile);
561
562	realwidth = (qrcode->width + margin * 2) * size;
563	buffer_s = ( realwidth * white_s ) * 2;
564	buffer = (char *)malloc( buffer_s );
565	if(buffer == NULL) {
566	fprintf(stderr, "Failed to allocate memory.\n");
567	exit(EXIT_FAILURE);
568	}
569
570	/* top margin */
571	writeANSI_margin(fp, realwidth, buffer, buffer_s, white, white_s);
572
573	/* data */
574	p = qrcode->data;
575	for(y=0; y<qrcode->width; y++) {
576	row = (p+(y*qrcode->width));
577
578	bzero( buffer, buffer_s );
579	strncpy( buffer, white, white_s );
580	for(x=0; x<margin; x++ ){
581	strncat( buffer, " ", 2 );
582	}
583	last = 0;
584
585	for(x=0; x<qrcode->width; x++) {
586	if(*(row+x)&0x1) {
587	if( last != 1 ){
588	strncat( buffer, black, black_s );
589	last = 1;
590	}
591	} else {
592	if( last != 0 ){
593	strncat( buffer, white, white_s );
594	last = 0;
595	}
596	}
597	strncat( buffer, " ", 2 );
598	}
599
600	if( last != 0 ){
601	strncat( buffer, white, white_s );
602	}
603	for(x=0; x<margin; x++ ){
604	strncat( buffer, " ", 2 );
605	}
606	strncat( buffer, "\033[0m\n", 5 );
607	fputs( buffer, fp );
608	}
609
610	/* bottom margin */
611	writeANSI_margin(fp, realwidth, buffer, buffer_s, white, white_s);
612
613	fclose(fp);
614	free(buffer);
615
616	return 0;
617	}
618
619	static void writeUTF8_margin(FILE* fp, int realwidth,
620	const char* white, const char *reset,
621	int use_ansi)
622	{
623	int x, y;
624
625	for (y = 0; y < margin/2; y++) {
626	fputs(white, fp);
627	for (x = 0; x < realwidth; x++)
628	fputs("\342\226\210", fp);
629	fputs(reset, fp);
630	fputc('\n', fp);
631	}
632	}
633
634	static int writeUTF8(QRcode qrcode, const char outfile, int use_ansi)
635	{
636	FILE *fp;
637	int x, y;
638	int realwidth;
639	unsigned char *p;
640	const char white, reset;
641
642	if (use_ansi){
643	white = "\033[40;37;1m";
644	reset = "\033[0m";
645	} else {
646	white = "";
647	reset = "";
648	}
649
650	fp = openFile(outfile);
651
652	realwidth = (qrcode->width + margin * 2);
653
654	/* top margin */
655	writeUTF8_margin(fp, realwidth, white, reset, use_ansi);
656
657	/* data */
658	p = qrcode->data;
659	for(y = 0; y < qrcode->width; y += 2) {
660	unsigned char row1, row2;
661	row1 = p + y*qrcode->width;
662	row2 = p + y*qrcode->width + qrcode->width;
663
664	fputs(white, fp);
665
666	for (x = 0; x < margin; x++)
667	fputs("\342\226\210", fp);
668
669	for (x = 0; x < qrcode->width; x++) {
670	if (((row1 + x) & 1) && ((row2 + x) & 1))
671	fputc(' ', fp);
672	else if (*(row1 + x) & 1)
673	fputs("\342\226\204", fp);
674	else if (*(row2 + x) & 1)
675	fputs("\342\226\200", fp);
676	else
677	fputs("\342\226\210", fp);
678	}
679
680	for (x = 0; x < margin; x++)
681	fputs("\342\226\210", fp);
682
683	fputs(reset, fp);
684	fputc('\n', fp);
685	}
686
687	/* bottom margin */
688	writeUTF8_margin(fp, realwidth, white, reset, use_ansi);
689
690	fclose(fp);
691
692	return 0;
693	}
694
695	static void writeASCII_margin(FILE* fp, int realwidth, char* buffer, int buffer_s, int invert)
696	{
697	int y, h;
698
699	h = margin;
700
701	memset(buffer, (invert?'#':' '), realwidth);
702	buffer[realwidth] = '\n';
703	buffer[realwidth + 1] = '\0';
704	for(y=0; y<h; y++ ){
705	fputs(buffer, fp);
706	}
707	}
708
709	static int writeASCII(QRcode qrcode, const char outfile, int invert)
710	{
711	FILE *fp;
712	unsigned char *row;
713	int x, y;
714	int realwidth;
715	char buffer, p;
716	int buffer_s;
717	char black = '#';
718	char white = ' ';
719
720	if(invert) {
721	black = ' ';
722	white = '#';
723	}
724
725	size = 1;
726
727	fp = openFile(outfile);
728
729	realwidth = (qrcode->width + margin * 2) * 2;
730	buffer_s = realwidth + 1;
731	buffer = (char *)malloc( buffer_s );
732	if(buffer == NULL) {
733	fprintf(stderr, "Failed to allocate memory.\n");
734	exit(EXIT_FAILURE);
735	}
736
737	/* top margin */
738	writeASCII_margin(fp, realwidth, buffer, buffer_s, invert);
739
740	/* data */
741	for(y=0; y<qrcode->width; y++) {
742	row = qrcode->data+(y*qrcode->width);
743	p = buffer;
744
745	memset(p, white, margin * 2);
746	p += margin * 2;
747
748	for(x=0; x<qrcode->width; x++) {
749	if(row[x]&0x1) {
750	*p++ = black;
751	*p++ = black;
752	} else {
753	*p++ = white;
754	*p++ = white;
755	}
756	}
757
758	memset(p, white, margin * 2);
759	p += margin * 2;
760	*p++ = '\n';
761	*p++ = '\0';
762	fputs( buffer, fp );
763	}
764
765	/* bottom margin */
766	writeASCII_margin(fp, realwidth, buffer, buffer_s, invert);
767
768	fclose(fp);
769	free(buffer);
770
771	return 0;
772	}
773
774	static QRcode encode(const unsigned char intext, int length)
775	{
776	QRcode *code;
777
778	if(micro) {
779	if(eightbit) {
780	code = QRcode_encodeDataMQR(length, intext, version, level);
781	} else {
782	code = QRcode_encodeStringMQR((char *)intext, version, level, hint, casesensitive);
783	}
784	} else {
785	if(eightbit) {
786	code = QRcode_encodeData(length, intext, version, level);
787	} else {
788	code = QRcode_encodeString((char *)intext, version, level, hint, casesensitive);
789	}
790	}
791
792	return code;
793	}
794
795	static void qrencode(const unsigned char intext, int length, const char outfile)
796	{
797	QRcode *qrcode;
798
799	qrcode = encode(intext, length);
800	if(qrcode == NULL) {
801	perror("Failed to encode the input data");
802	exit(EXIT_FAILURE);
803	}
804	switch(image_type) {
805	case PNG_TYPE:
806	writePNG(qrcode, outfile);
807	break;
808	case EPS_TYPE:
809	writeEPS(qrcode, outfile);
810	break;
811	case SVG_TYPE:
812	writeSVG(qrcode, outfile);
813	break;
814	case ANSI_TYPE:
815	case ANSI256_TYPE:
816	writeANSI(qrcode, outfile);
817	break;
818	case ASCIIi_TYPE:
819	writeASCII(qrcode, outfile, 1);
820	break;
821	case ASCII_TYPE:
822	writeASCII(qrcode, outfile, 0);
823	break;
824	case UTF8_TYPE:
825	writeUTF8(qrcode, outfile, 0);
826	break;
827	case ANSIUTF8_TYPE:
828	writeUTF8(qrcode, outfile, 1);
829	break;
830	default:
831	fprintf(stderr, "Unknown image type.\n");
832	exit(EXIT_FAILURE);
833	}
834	QRcode_free(qrcode);
835	}
836
837	static QRcode_List encodeStructured(const unsigned char intext, int length)
838	{
839	QRcode_List *list;
840
841	if(eightbit) {
842	list = QRcode_encodeDataStructured(length, intext, version, level);
843	} else {
844	list = QRcode_encodeStringStructured((char *)intext, version, level, hint, casesensitive);
845	}
846
847	return list;
848	}
849
850	static void qrencodeStructured(const unsigned char intext, int length, const char outfile)
851	{
852	QRcode_List qrlist, p;
853	char filename[FILENAME_MAX];
854	char base, q, *suffix = NULL;
855	const char *type_suffix;
856	int i = 1;
857	size_t suffix_size;
858
859	switch(image_type) {
860	case PNG_TYPE:
861	type_suffix = ".png";
862	break;
863	case EPS_TYPE:
864	type_suffix = ".eps";
865	break;
866	case SVG_TYPE:
867	type_suffix = ".svg";
868	break;
869	case ANSI_TYPE:
870	case ANSI256_TYPE:
871	case ASCII_TYPE:
872	case UTF8_TYPE:
873	case ANSIUTF8_TYPE:
874	type_suffix = ".txt";
875	break;
876	default:
877	fprintf(stderr, "Unknown image type.\n");
878	exit(EXIT_FAILURE);
879	}
880
881	if(outfile == NULL) {
882	fprintf(stderr, "An output filename must be specified to store the structured images.\n");
883	exit(EXIT_FAILURE);
884	}
885	base = strdup(outfile);
886	if(base == NULL) {
887	fprintf(stderr, "Failed to allocate memory.\n");
888	exit(EXIT_FAILURE);
889	}
890	suffix_size = strlen(type_suffix);
891	if(strlen(base) > suffix_size) {
892	q = base + strlen(base) - suffix_size;
893	if(strcasecmp(type_suffix, q) == 0) {
894	suffix = strdup(q);
895	*q = '\0';
896	}
897	}
898
899	qrlist = encodeStructured(intext, length);
900	if(qrlist == NULL) {
901	perror("Failed to encode the input data");
902	exit(EXIT_FAILURE);
903	}
904
905	for(p = qrlist; p != NULL; p = p->next) {
906	if(p->code == NULL) {
907	fprintf(stderr, "Failed to encode the input data.\n");
908	exit(EXIT_FAILURE);
909	}
910	if(suffix) {
911	snprintf(filename, FILENAME_MAX, "%s-%02d%s", base, i, suffix);
912	} else {
913	snprintf(filename, FILENAME_MAX, "%s-%02d", base, i);
914	}
915	switch(image_type) {
916	case PNG_TYPE:
917	writePNG(p->code, filename);
918	break;
919	case EPS_TYPE:
920	writeEPS(p->code, filename);
921	break;
922	case SVG_TYPE:
923	writeSVG(p->code, filename);
924	break;
925	case ANSI_TYPE:
926	case ANSI256_TYPE:
927	writeANSI(p->code, filename);
928	break;
929	case ASCIIi_TYPE:
930	writeASCII(p->code, filename, 1);
931	break;
932	case ASCII_TYPE:
933	writeASCII(p->code, filename, 0);
934	break;
935	case UTF8_TYPE:
936	writeUTF8(p->code, filename, 0);
937	break;
938	case ANSIUTF8_TYPE:
939	writeUTF8(p->code, filename, 0);
940	break;
941
942	default:
943	fprintf(stderr, "Unknown image type.\n");
944	exit(EXIT_FAILURE);
945	}
946	i++;
947	}
948
949	free(base);
950	if(suffix) {
951	free(suffix);
952	}
953
954	QRcode_List_free(qrlist);
955	}
956
957	#ifndef ZOO_SERVICE_PROVIDER
958	int main(int argc, char **argv)
959	#else
960	extern "C" {
961	#ifdef WIN32
962	__declspec(dllexport)
963	#endif
964	int QREncode(maps& conf, maps& inputs, maps*& outputs)
965	#endif
966	{
967	int opt, lindex = -1;
968	char *outfile = NULL;
969	unsigned char *intext = NULL;
970	int length = 0;
971
972	#ifndef ZOO_SERVICE_PROVIDER
973	while((opt = getopt_long(argc, argv, optstring, options, &lindex)) != -1) {
974	switch(opt) {
975	case 'h':
976	if(lindex == 0) {
977	usage(1, 1);
978	} else {
979	usage(1, 0);
980	}
981	exit(EXIT_SUCCESS);
982	break;
983	case 'o':
984	outfile = optarg;
985	break;
986	case 's':
987	size = atoi(optarg);
988	if(size <= 0) {
989	fprintf(stderr, "Invalid size: %d\n", size);
990	exit(EXIT_FAILURE);
991	}
992	break;
993	case 'v':
994	version = atoi(optarg);
995	if(version < 0) {
996	fprintf(stderr, "Invalid version: %d\n", version);
997	exit(EXIT_FAILURE);
998	}
999	break;
1000	case 'l':
1001	switch(*optarg) {
1002	case 'l':
1003	case 'L':
1004	level = QR_ECLEVEL_L;
1005	break;
1006	case 'm':
1007	case 'M':
1008	level = QR_ECLEVEL_M;
1009	break;
1010	case 'q':
1011	case 'Q':
1012	level = QR_ECLEVEL_Q;
1013	break;
1014	case 'h':
1015	case 'H':
1016	level = QR_ECLEVEL_H;
1017	break;
1018	default:
1019	fprintf(stderr, "Invalid level: %s\n", optarg);
1020	exit(EXIT_FAILURE);
1021	break;
1022	}
1023	break;
1024	case 'm':
1025	margin = atoi(optarg);
1026	if(margin < 0) {
1027	fprintf(stderr, "Invalid margin: %d\n", margin);
1028	exit(EXIT_FAILURE);
1029	}
1030	break;
1031	case 'd':
1032	dpi = atoi(optarg);
1033	if( dpi < 0 ) {
1034	fprintf(stderr, "Invalid DPI: %d\n", dpi);
1035	exit(EXIT_FAILURE);
1036	}
1037	break;
1038	case 't':
1039	if(strcasecmp(optarg, "png") == 0) {
1040	image_type = PNG_TYPE;
1041	} else if(strcasecmp(optarg, "eps") == 0) {
1042	image_type = EPS_TYPE;
1043	} else if(strcasecmp(optarg, "svg") == 0) {
1044	image_type = SVG_TYPE;
1045	} else if(strcasecmp(optarg, "ansi") == 0) {
1046	image_type = ANSI_TYPE;
1047	} else if(strcasecmp(optarg, "ansi256") == 0) {
1048	image_type = ANSI256_TYPE;
1049	} else if(strcasecmp(optarg, "asciii") == 0) {
1050	image_type = ASCIIi_TYPE;
1051	} else if(strcasecmp(optarg, "ascii") == 0) {
1052	image_type = ASCII_TYPE;
1053	} else if(strcasecmp(optarg, "utf8") == 0) {
1054	image_type = UTF8_TYPE;
1055	} else if(strcasecmp(optarg, "ansiutf8") == 0) {
1056	image_type = ANSIUTF8_TYPE;
1057	} else {
1058	fprintf(stderr, "Invalid image type: %s\n", optarg);
1059	exit(EXIT_FAILURE);
1060	}
1061	break;
1062	case 'S':
1063	structured = 1;
1064	case 'k':
1065	hint = QR_MODE_KANJI;
1066	break;
1067	case 'c':
1068	casesensitive = 1;
1069	break;
1070	case 'i':
1071	casesensitive = 0;
1072	break;
1073	case '8':
1074	eightbit = 1;
1075	break;
1076	case 'M':
1077	micro = 1;
1078	break;
1079	case 'f':
1080	if(color_set(fg_color, optarg)) {
1081	fprintf(stderr, "Invalid foreground color value.\n");
1082	exit(EXIT_FAILURE);
1083	}
1084	break;
1085	case 'b':
1086	if(color_set(bg_color, optarg)) {
1087	fprintf(stderr, "Invalid background color value.\n");
1088	exit(EXIT_FAILURE);
1089	}
1090	break;
1091	case 'V':
1092	usage(0, 0);
1093	exit(EXIT_SUCCESS);
1094	break;
1095	default:
1096	fprintf(stderr, "Try `qrencode --help' for more information.\n");
1097	exit(EXIT_FAILURE);
1098	break;
1099	}
1100	}
1101
1102	if(argc == 1) {
1103	usage(1, 0);
1104	exit(EXIT_SUCCESS);
1105	}
1106
1107	if(outfile == NULL && image_type == PNG_TYPE) {
1108	fprintf(stderr, "No output filename is given.\n");
1109	exit(EXIT_FAILURE);
1110	}
1111
1112	if(optind < argc) {
1113	intext = (unsigned char *)argv[optind];
1114	length = strlen((char *)intext);
1115	}
1116	if(intext == NULL) {
1117	intext = readStdin(&length);
1118	}
1119	#else
1120	outfile=(char)malloc(1024sizeof(char));
1121	map *tmpMap=getMapFromMaps(conf,"main","tmpPath");
1122	sprintf(outfile,"%s/qr_%d.png",tmpMap->value,getpid());
1123	tmpMap=getMapFromMaps(inputs,"Text","value");
1124	intext=(unsigned char*)tmpMap->value;
1125	dpi = 92;
1126	level = QR_ECLEVEL_H;
1127	map* tmp1=getMapFromMaps(inputs,"size","value");
1128	if(tmp1!=NULL)
1129	size = atoi(tmp1->value);
1130	tmp1=getMapFromMaps(inputs,"bgcolor","value");
1131	if(tmp1!=NULL && color_set(bg_color, tmp1->value)){
1132	setMapInMaps(conf,"lenv","message","Unable to parse bgcolor settings");
1133	return SERVICE_FAILED;
1134	}
1135	tmp1=getMapFromMaps(inputs,"fgcolor","value");
1136	if(tmp1!=NULL && color_set(fg_color, tmp1->value)){
1137	setMapInMaps(conf,"lenv","message","Unable to parse fgcolor settings");
1138	return SERVICE_FAILED;
1139	}
1140	#endif
1141
1142	if(micro && version > MQRSPEC_VERSION_MAX) {
1143	fprintf(stderr, "Version should be less or equal to %d.\n", MQRSPEC_VERSION_MAX);
1144	exit(EXIT_FAILURE);
1145	} else if(!micro && version > QRSPEC_VERSION_MAX) {
1146	fprintf(stderr, "Version should be less or equal to %d.\n", QRSPEC_VERSION_MAX);
1147	exit(EXIT_FAILURE);
1148	}
1149
1150	if(margin < 0) {
1151	if(micro) {
1152	margin = 2;
1153	} else {
1154	margin = 4;
1155	}
1156	}
1157
1158	if(micro) {
1159	if(version == 0) {
1160	fprintf(stderr, "Version must be specified to encode a Micro QR Code symbol.\n");
1161	exit(EXIT_FAILURE);
1162	}
1163	if(structured) {
1164	fprintf(stderr, "Micro QR Code does not support structured symbols.\n");
1165	exit(EXIT_FAILURE);
1166	}
1167	}
1168
1169	if(structured) {
1170	if(version == 0) {
1171	fprintf(stderr, "Version must be specified to encode structured symbols.\n");
1172	exit(EXIT_FAILURE);
1173	}
1174	qrencodeStructured(intext, length, outfile);
1175	} else {
1176	qrencode(intext, length, outfile);
1177	}
1178
1179	#ifdef ZOO_SERVICE_PROVIDER
1180	FILE * fichier=fopen(outfile,"rb");
1181	fseek(fichier, 0, SEEK_END);
1182	long count = ftell(fichier);
1183	rewind(fichier);
1184
1185	struct stat file_status;
1186	stat(outfile, &file_status);
1187	if(fichier==NULL){
1188	fprintf(stderr,"Failed to open file %s for reading purpose.\n",outfile);
1189	setMapInMaps(conf,"lenv","message","Unable to read produced file. Please try again later");
1190	return SERVICE_FAILED;
1191	}
1192
1193	maps* tmp=getMaps(outputs,"QR");
1194	map* tmpMap1=getMapFromMaps(outputs,"QR","value");
1195	if(tmpMap1==NULL){
1196	addToMap(outputs->content,"value","null");
1197	tmpMap1=getMapFromMaps(outputs,"QR","value");
1198	}
1199	free(tmpMap1->value);
1200	tmpMap1->value=(char) malloc((count+1)sizeof(char));
1201	fread(tmpMap1->value,1,count*sizeof(char),fichier);
1202	fclose(fichier);
1203	unlink(outfile);
1204
1205	char rsize[100];
1206	sprintf(rsize,"%d",count*sizeof(char));
1207	addToMap(tmpMap1,"size",rsize);
1208	return SERVICE_SUCCEEDED;
1209	#endif
1210
1211	return 0;
1212	}
1213	#ifdef ZOO_SERVICE_PROVIDER
1214	}
1215	#endif

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source: branches/branch-1.3/zoo-project/zoo-services/qrencode/qrenc-service.c @ 593

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