disable ath9k on uml
[openwrt.git] / package / busybox / patches / 510-awx.patch
1 --- a/editors/awk.c
2 +++ b/editors/awk.c
3 @@ -32,6 +32,11 @@
4 /* these flags are static, don't change them when value is changed */
5 #define VF_DONTTOUCH (VF_ARRAY | VF_SPECIAL | VF_WALK | VF_CHILD | VF_DIRTY)
6
7 +#ifdef CONFIG_AWX
8 +#define fputs(s, stream) fputs_hook(s, stream)
9 +static inline int fputs_hook (__const char *__restrict __s, FILE *__restrict __stream);
10 +#endif
11 +
12 /* Variable */
13 typedef struct var_s {
14 unsigned type; /* flags */
15 @@ -53,9 +58,14 @@
16 } chain;
17
18 /* Function */
19 +typedef var *(*awk_cfunc)(var *res, var *args, int nargs);
20 typedef struct func_s {
21 unsigned nargs;
22 + enum { AWKFUNC, CFUNC } type;
23 + union {
24 + awk_cfunc cfunc;
25 struct chain_s body;
26 + } x;
27 } func;
28
29 /* I/O stream */
30 @@ -1395,7 +1405,8 @@
31 next_token(TC_FUNCTION);
32 g_pos++;
33 f = newfunc(t_string);
34 - f->body.first = NULL;
35 + f->type = AWKFUNC;
36 + f->x.body.first = NULL;
37 f->nargs = 0;
38 while (next_token(TC_VARIABLE | TC_SEQTERM) & TC_VARIABLE) {
39 v = findvar(ahash, t_string);
40 @@ -1404,7 +1415,7 @@
41 if (next_token(TC_COMMA | TC_SEQTERM) & TC_SEQTERM)
42 break;
43 }
44 - seq = &(f->body);
45 + seq = &(f->x.body);
46 chain_group();
47 clear_array(ahash);
48
49 @@ -2367,7 +2378,8 @@
50 break;
51
52 case XC( OC_FUNC ):
53 - if (!op->r.f->body.first)
54 + if ((op->r.f->type == AWKFUNC) &&
55 + !op->r.f->x.body.first)
56 syntax_error(EMSG_UNDEF_FUNC);
57
58 X.v = R.v = nvalloc(op->r.f->nargs+1);
59 @@ -2384,7 +2396,10 @@
60 fnargs = X.v;
61
62 L.s = g_progname;
63 - res = evaluate(op->r.f->body.first, res);
64 + if (op->r.f->type == AWKFUNC)
65 + res = evaluate(op->r.f->x.body.first, res);
66 + else if (op->r.f->type == CFUNC)
67 + res = op->r.f->x.cfunc(res, fnargs, op->r.f->nargs);
68 g_progname = L.s;
69
70 nvfree(fnargs);
71 @@ -2748,6 +2763,12 @@
72 }
73
74 int awk_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE;
75 +int awx_main(int argc, char **argv);
76 +
77 +#ifdef CONFIG_AWX
78 +static int is_awx = 0;
79 +#include "awx.c"
80 +#endif
81 int awk_main(int argc, char **argv)
82 {
83 unsigned opt;
84 @@ -2812,6 +2833,11 @@
85 *s1 = '=';
86 }
87 }
88 +
89 +#ifdef CONFIG_AWX
90 + do_awx(argc, argv);
91 +#endif
92 +
93 opt_complementary = "v::f::"; /* -v and -f can occur multiple times */
94 opt = getopt32(argv, "F:v:f:W:", &opt_F, &list_v, &list_f, &opt_W);
95 argv += optind;
96 --- /dev/null
97 +++ b/editors/awx.c
98 @@ -0,0 +1,636 @@
99 +/*
100 + * awk web extension
101 + *
102 + * Copyright (C) 2007 by Felix Fietkau <nbd@openwrt.org>
103 + *
104 + * Licensed under the GPL v2 or later, see the file LICENSE in this tarball.
105 + */
106 +
107 +#include <cgi.h>
108 +#include <glob.h>
109 +#include "awx_parser.h"
110 +
111 +#define LINE_BUF 2048
112 +#define HASH_MAX 1536
113 +#define TR_START "@TR<<"
114 +#define TR_END ">>"
115 +#define MAX_TR 32
116 +
117 +#undef fputs
118 +
119 +static xhash *lstr = NULL;
120 +static xhash *formvar = NULL;
121 +static int lang_inuse = 0;
122 +
123 +/* look up a translation symbol from the hash */
124 +static inline const char *translate_lookup(char *str)
125 +{
126 + char *name, *def, *p;
127 + hash_item *hi;
128 + var *v;
129 +
130 + def = name = str;
131 + if (((p = strchr(str, '|')) != NULL)
132 + || ((p = strchr(str, '#')) != NULL)) {
133 + def = p + 1;
134 + *p = 0;
135 + }
136 +
137 + hi = hash_search(lstr, name);
138 + if (!hi)
139 + return def;
140 +
141 + v = &hi->data.v;
142 +
143 + return getvar_s(v);
144 +}
145 +
146 +/* look for translation markers in the line and return the translated string */
147 +static char *translate_line(char *line)
148 +{
149 + const char *tok[MAX_TR * 3];
150 + char *l, *p, *p2 = NULL, *res;
151 + int len = 0, _pos = 0, i, tr_abort = 0;
152 + static char *backlog = NULL;
153 +
154 + if (backlog && line) {
155 + backlog = xrealloc(backlog, strlen(backlog) + strlen(line) + 1);
156 + sprintf(backlog + strlen(backlog), line);
157 + l = backlog;
158 + } else {
159 + l = line;
160 + }
161 +
162 + while (l != NULL) {
163 + if ((p = strstr(l, TR_START)) == NULL) {
164 + len += strlen((tok[_pos++] = l));
165 + break;
166 + }
167 +
168 + p2 = strstr(p, TR_END);
169 + if (p2 == NULL) {
170 + p2 = xstrdup(l);
171 + tr_abort = 1;
172 + break;
173 + }
174 +
175 + *p = 0;
176 + len += strlen((tok[_pos++] = l));
177 + *p2 = 0;
178 + len += strlen((tok[_pos++] = translate_lookup(p + strlen(TR_START))));
179 +
180 + l = p2;
181 + l += strlen(TR_END);
182 + }
183 + len++;
184 +
185 + p = xmalloc(len + 1);
186 + *p = 0;
187 + res = p;
188 + for (i = 0; i < _pos; i++) {
189 + strcat(p, tok[i]);
190 + p += strlen(tok[i]);
191 + }
192 + if (backlog) {
193 + free(backlog);
194 + backlog = NULL;
195 + }
196 + if (tr_abort && p2)
197 + backlog = p2;
198 +
199 + return res;
200 +}
201 +
202 +/* hook for intercepting awk's use of puts. used for running all printed strings
203 + * through the translation system */
204 +static inline int fputs_hook (__const char *__restrict __s, FILE *__restrict __stream)
205 +{
206 + if (lang_inuse && (__stream == stdout)) {
207 + int ret;
208 + char *str;
209 +
210 + str = translate_line((char *) __s);
211 + ret = fputs(str, __stream);
212 + free(str);
213 +
214 + return ret;
215 + }
216 +
217 + return fputs(__s, __stream);
218 +}
219 +
220 +static var *init_lang(var *res, var *args, int nargs)
221 +{
222 + if (!lstr)
223 + lstr = hash_init();
224 +
225 + lang_inuse = 1;
226 + return res;
227 +}
228 +
229 +
230 +/* load and parse language file */
231 +static void load_lang_file(char *file)
232 +{
233 + FILE *f;
234 + char *b, *name, *value;
235 + char buf1[LINE_BUF];
236 +
237 + if ((f = fopen(file, "r")) == NULL)
238 + return;
239 +
240 + while (!feof(f) && (fgets(buf1, LINE_BUF - 1, f) != NULL)) {
241 + b = buf1;
242 + if (*b == '#')
243 + continue; /* skip comments */
244 +
245 + while (isspace(*b))
246 + b++; /* skip leading spaces */
247 + if (!*b)
248 + continue;
249 +
250 + name = b;
251 + if ((b = strstr(name, "=>")) == NULL)
252 + continue; /* separator not found */
253 +
254 + value = b + 2;
255 + if (!*value)
256 + continue;
257 +
258 + *b = 0;
259 + for (b--; isspace(*b); b--)
260 + *b = 0; /* remove trailing spaces */
261 +
262 + while (isspace(*value))
263 + value++; /* skip leading spaces */
264 +
265 + for (b = value + strlen(value) - 1; isspace(*b); b--)
266 + *b = 0; /* remove trailing spaces */
267 +
268 + if (!*value)
269 + continue;
270 +
271 + setvar_s(findvar(lstr,name), value);
272 + }
273 +
274 + fclose(f);
275 +}
276 +
277 +static var *load_lang(var *res, var *args, int nargs)
278 +{
279 + const char *langfmt = "/usr/lib/webif/lang/%s.txt";
280 + char lbuf[LINE_BUF];
281 + const char *lang;
282 +
283 + if (!lang_inuse)
284 + init_lang(res, args, nargs);
285 +
286 + lang = getvar_s(args);
287 + if (!lang || !strcmp(lang, ""))
288 + return res;
289 +
290 + sprintf(lbuf, langfmt, lang);
291 + load_lang_file(lbuf);
292 +
293 + return res;
294 +}
295 +
296 +/* read the contents of an entire file */
297 +static char *get_file(const char *fname)
298 +{
299 + FILE *F;
300 + char *s = NULL;
301 + int i, j, flen;
302 +
303 + F = fopen(fname, "r");
304 + if (!F) {
305 + return NULL;
306 + }
307 +
308 + if (fseek(F, 0, SEEK_END) == 0) {
309 + flen = ftell(F);
310 + s = (char *)xmalloc(flen+4);
311 + fseek(F, 0, SEEK_SET);
312 + i = 1 + fread(s+1, 1, flen, F);
313 + } else {
314 + for (i=j=1; j>0; i+=j) {
315 + s = (char *)xrealloc(s, i+4096);
316 + j = fread(s+i, 1, 4094, F);
317 + }
318 + }
319 +
320 + s[i] = '\0';
321 + fclose(F);
322 + return s;
323 +}
324 +
325 +
326 +/* parse_include():
327 + *
328 + * taken from parse_program from awk.c
329 + * END{} is not parsed here, and BEGIN{} is executed immediately
330 + */
331 +static void parse_include(char *p)
332 +{
333 + uint32_t tclass;
334 + chain *initseq = NULL;
335 + chain tmp;
336 + func *f;
337 + var *v, *tv;
338 +
339 + tv = nvalloc(1);
340 + memset(&tmp, 0, sizeof(tmp));
341 + g_pos = p;
342 + t_lineno = 1;
343 + while ((tclass = next_token(TC_EOF | TC_OPSEQ |
344 + TC_OPTERM | TC_BEGIN | TC_FUNCDECL)) != TC_EOF) {
345 + if (tclass & TC_OPTERM)
346 + continue;
347 +
348 + seq = &tmp;
349 + if (tclass & TC_BEGIN) {
350 + initseq = xzalloc(sizeof(chain));
351 + seq = initseq;
352 + chain_group();
353 + } else if (tclass & TC_FUNCDECL) {
354 + next_token(TC_FUNCTION);
355 + g_pos++;
356 + f = newfunc(t_string);
357 + f->type = AWKFUNC;
358 + f->x.body.first = NULL;
359 + f->nargs = 0;
360 + while (next_token(TC_VARIABLE | TC_SEQTERM) & TC_VARIABLE) {
361 + v = findvar(ahash, t_string);
362 + v->x.aidx = (f->nargs)++;
363 +
364 + if (next_token(TC_COMMA | TC_SEQTERM) & TC_SEQTERM)
365 + break;
366 + }
367 + seq = &(f->x.body);
368 + chain_group();
369 + clear_array(ahash);
370 + }
371 + }
372 + if (initseq && initseq->first)
373 + tv = evaluate(initseq->first, tv);
374 + nvfree(tv);
375 +}
376 +
377 +
378 +/* include an awk file and run its BEGIN{} section */
379 +static xhash *includes = NULL;
380 +static void include_file(const char *filename)
381 +{
382 + char *s;
383 + var *v;
384 + int oldlnr = g_lineno;
385 + const char *oldprg = g_progname;
386 +
387 + if (!includes)
388 + includes = hash_init();
389 +
390 + /* find out if the file has been included already */
391 + v = findvar(includes, filename);
392 + if (istrue(v))
393 + return;
394 + setvar_s(v, "1");
395 +
396 + /* read include file */
397 + s = get_file(filename);
398 + if (!s) {
399 + fprintf(stderr, "Could not open file.\n");
400 + return;
401 + }
402 + g_lineno = 1;
403 + g_progname = xstrdup(filename);
404 + parse_include(s+1);
405 + free(s);
406 + g_lineno = oldlnr;
407 + g_progname = oldprg;
408 +}
409 +
410 +static var *include(var *res, var *args, int nargs)
411 +{
412 + const char *s;
413 +
414 + s = getvar_s(args);
415 + if (s && (strlen(s) > 0))
416 + include_file(s);
417 +
418 + return res;
419 +}
420 +
421 +/* parse an awk expression */
422 +static var *parse_awk(char *str, var *tv)
423 +{
424 + chain body;
425 + node *n;
426 +
427 + memset(&body, 0, sizeof(body));
428 + g_pos = str;
429 + seq = &body;
430 +
431 + /* end of expression, assume that there's going to be a free byte
432 + * at the end of the string that can be used for the ')' */
433 + strcat(str + strlen(str), "}");
434 + n = parse_expr(TC_GRPTERM);
435 + if (!n)
436 + return NULL;
437 +
438 + return evaluate(n, tv);
439 +}
440 +
441 +static inline void print_translate(char *s)
442 +{
443 + char *str = s;
444 + if (lang_inuse)
445 + str = translate_line(s);
446 + fputs(str, stdout);
447 + fflush(stdout);
448 + if (lang_inuse)
449 + free(str);
450 +}
451 +
452 +static void render_element(struct template_cb *tcb, struct template_element *e)
453 +{
454 + var *v;
455 + char *s, *s2;
456 + int i;
457 +
458 + if (!e || !e->var)
459 + return;
460 + g_lineno = e->line;
461 + switch (e->t) {
462 + case T_TEXT:
463 + s = malloc(strlen(e->var) + 2);
464 + strcpy(s, e->var);
465 + print_translate(s);
466 + free(s);
467 + break;
468 + case T_CODE:
469 + s = malloc(strlen(e->var) + 2);
470 + strcpy(s, e->var);
471 + v = nvalloc(1);
472 + s2 = strdup(getvar_s(parse_awk(s, v)));
473 + nvfree(v);
474 + print_translate(s2);
475 + free(s);
476 + free(s2);
477 + break;
478 + case T_IF:
479 + s = malloc(strlen(e->var) + 2);
480 + strcpy(s, e->var);
481 + v = nvalloc(1);
482 + i = istrue(parse_awk(s, v));
483 + nvfree(v);
484 + free(s);
485 +
486 + if (i)
487 + execute_template(tcb, e->sub);
488 + else if (e->sub2)
489 + execute_template(tcb, e->sub2);
490 + break;
491 + case T_FOR: {
492 + v = newvar(e->var);
493 + hashwalk_init(v, iamarray(findvar(vhash, e->in)));
494 + while (hashwalk_next(v)) {
495 + execute_template(tcb, e->sub);
496 + }
497 + clrvar(v);
498 + }
499 + break;
500 + default:
501 + break;
502 + }
503 +}
504 +
505 +/* awk method render(), which opens a template file and processes all awk ssi calls */
506 +static void render_file(const char *filename)
507 +{
508 + struct template_cb tcb;
509 + struct template_element *e;
510 + FILE *f;
511 + const char *oldprg = g_progname;
512 + int oldlnr = g_lineno;
513 +
514 + if (!filename)
515 + return;
516 +
517 + f = fopen(filename, "r");
518 + if (!f)
519 + return;
520 +
521 + g_progname = xstrdup(filename);
522 + g_lineno = 1;
523 + memset(&tcb, 0, sizeof(tcb));
524 + tcb.handle_element = render_element;
525 + e = parse_template(&tcb, f);
526 + execute_template(&tcb, e);
527 + free_template(&tcb, e);
528 + fclose(f);
529 + g_progname = oldprg;
530 + g_lineno = oldlnr;
531 +}
532 +
533 +static var *render(var *res, var *args, int nargs)
534 +{
535 + const char *s;
536 +
537 + s = getvar_s(args);
538 + if (!s)
539 + return res;
540 +
541 + render_file(s);
542 +
543 + return res;
544 +}
545 +
546 +/* Call render, but only if this function hasn't been called already */
547 +static int layout_rendered = 0;
548 +static var *render_layout(var *res, var *args, int nargs)
549 +{
550 + if (layout_rendered)
551 + return res;
552 + layout_rendered = 1;
553 + return render(res, args, nargs);
554 +}
555 +
556 +/* registers a global c function for the awk interpreter */
557 +static void register_cfunc(const char *name, awk_cfunc cfunc, int nargs)
558 +{
559 + func *f;
560 +
561 + f = newfunc(name);
562 + f->type = CFUNC;
563 + f->x.cfunc = cfunc;
564 + f->nargs = nargs;
565 +}
566 +
567 +static void putvar(vartype type, char *name, char *value)
568 +{
569 + if (type != FORM_VAR)
570 + return;
571 +
572 + setvar_u(findvar(formvar, name), value);
573 +}
574 +
575 +static const char *cgi_getvar(const char *name)
576 +{
577 + if (!formvar) {
578 + formvar = hash_init();
579 + cgi_init(putvar);
580 + }
581 +
582 + if (!formvar || !name)
583 + return NULL;
584 +
585 + return getvar_s(findvar(formvar, name));
586 +}
587 +
588 +/* function call for accessing cgi form variables */
589 +static var *getvar(var *res, var *args, int nargs)
590 +{
591 + const char *s, *svar;
592 +
593 + s = getvar_s(args);
594 + if (!s)
595 + return res;
596 +
597 + svar = cgi_getvar(s);
598 + if (!svar)
599 + return res;
600 +
601 + setvar_u(res, svar);
602 +
603 + return res;
604 +}
605 +
606 +/* call an awk function without arguments by string reference */
607 +static var *call(var *res, var *args, int nargs)
608 +{
609 + const char *s = getvar_s(args);
610 + func *f;
611 +
612 + if (!s)
613 + goto done;
614 +
615 + f = newfunc(s);
616 + if (f && f->type == AWKFUNC && f->x.body.first)
617 + return evaluate(f->x.body.first, res);
618 +
619 +done:
620 + return res;
621 +}
622 +
623 +
624 +static int run_awxscript(char *name)
625 +{
626 + var tv, *layout, *action;
627 + char *tmp, *s = NULL;
628 +
629 + zero_out_var(&tv);
630 + g_progname = name;
631 +
632 + /* read the main controller source */
633 + s = get_file(g_progname);
634 + if (!s) {
635 + fprintf(stderr, "Could not open file\n");
636 + return 1;
637 + }
638 + parse_program(s+1);
639 + free(s);
640 +
641 +
642 + /* set some defaults for ACTION and LAYOUT, which will have special meaning */
643 + layout = newvar("LAYOUT");
644 + setvar_s(layout, "views/layout.ahtml");
645 +
646 + /* run the BEGIN {} block */
647 + evaluate(beginseq.first, &tv);
648 +
649 + action = newvar("ACTION");
650 + if (!(strlen(getvar_s(action)) > 0)) {
651 + tmp = (char *) cgi_getvar("action");
652 + if (!tmp || (strlen(tmp) <= 0))
653 + tmp = strdup("default");
654 +
655 + setvar_p(action, tmp);
656 + }
657 +
658 + /* call the action (precedence: begin block override > cgi parameter > "default") */
659 + tmp = xmalloc(strlen(getvar_s(action)) + 7);
660 + sprintf(tmp, "handle_%s", getvar_s(action));
661 + setvar_s(action, tmp);
662 + call(&tv, action, 1);
663 + free(tmp);
664 +
665 + /* render the selected layout, will do nothing if render_layout has been called from awk */
666 + render_layout(&tv, layout, 1);
667 +
668 + return 0;
669 +}
670 +
671 +
672 +/* main awx processing function. called from awk_main() */
673 +static int do_awx(int argc, char **argv)
674 +{
675 + int ret = -1;
676 + var tv;
677 + int i, c;
678 + char **args = argv;
679 +
680 + zero_out_var(&tv);
681 +
682 + /* register awk C callbacks */
683 + register_cfunc("getvar", getvar, 1);
684 + register_cfunc("render", render, 1);
685 + register_cfunc("render_layout", render_layout, 1);
686 + register_cfunc("call", call, 1);
687 + register_cfunc("include", include, 1);
688 + register_cfunc("init_lang", init_lang, 1);
689 + register_cfunc("load_lang", load_lang, 1);
690 +
691 + if (!is_awx)
692 + return 0;
693 +
694 + /* fill in ARGV array */
695 + setvar_i(intvar[ARGC], argc + 1);
696 + setari_u(intvar[ARGV], 0, "awx");
697 + i = 0;
698 + while (*args)
699 + setari_u(intvar[ARGV], ++i, *args++);
700 +
701 + while((c = getopt(argc, argv, "i:f:")) != EOF) {
702 + switch(c) {
703 + case 'i':
704 + g_progname = optarg;
705 + include_file(optarg);
706 + break;
707 + case 'f':
708 + ret = 0;
709 + g_progname = optarg;
710 + render_file(optarg);
711 + goto done;
712 + }
713 + }
714 + argc -= optind;
715 + argv += optind;
716 +
717 + if (argc < 1) {
718 + fprintf(stderr, "Invalid argument.\n");
719 + goto done;
720 + }
721 +
722 + ret = run_awxscript(*argv);
723 +
724 +done:
725 + exit(ret);
726 +}
727 +
728 +/* entry point for awx applet */
729 +int awx_main(int argc, char **argv)
730 +{
731 + is_awx = 1;
732 + return awk_main(argc, argv);
733 +}
734 +
735 --- /dev/null
736 +++ b/editors/awx_parser.h
737 @@ -0,0 +1,38 @@
738 +#ifndef __TEMPLATE_PARSER_H
739 +#define __TEMPLATE_PARSER_H
740 +
741 +enum type {
742 + T_TEXT,
743 + T_FOR,
744 + T_IF,
745 + T_CODE
746 +};
747 +
748 +struct template_element;
749 +struct template_cb;
750 +
751 +struct template_cb {
752 + void *(*prepare_code)(struct template_element *);
753 + void (*handle_element)(struct template_cb *, struct template_element *);
754 + void (*free_code)(struct template_element *);
755 +};
756 +
757 +struct template_element {
758 + enum type t;
759 + char *var;
760 + char *in;
761 + int line;
762 + void *priv;
763 + struct template_element *parent;
764 + struct template_element *sub;
765 + struct template_element *sub2;
766 + struct template_element *prev;
767 + struct template_element *next;
768 +};
769 +
770 +
771 +struct template_element *parse_template(struct template_cb *cb, FILE *in);
772 +void execute_template(struct template_cb *cb, struct template_element *e);
773 +void free_template(struct template_cb *cb, struct template_element *e);
774 +
775 +#endif
776 --- /dev/null
777 +++ b/editors/awx_parser.l
778 @@ -0,0 +1,302 @@
779 +%{
780 +#include <stdio.h>
781 +#include <string.h>
782 +#include <stdlib.h>
783 +#include "busybox.h"
784 +#include "awx_parser.h"
785 +
786 +enum {
787 + S_INIT,
788 + S_TEXT,
789 + S_CODE,
790 + S_IF_START,
791 + S_FOR_START,
792 + S_FOR_IN,
793 + S_END,
794 + S_ELSE,
795 + S_EOF
796 +};
797 +int state;
798 +
799 +#undef DEBUG
800 +#ifdef DEBUG
801 +char *statestr[] = {
802 + [S_INIT] = "S_INIT",
803 + [S_TEXT] = "S_TEXT",
804 + [S_CODE] = "S_CODE",
805 + [S_IF_START] = "S_IF_START",
806 + [S_FOR_START] = "S_FOR_START",
807 + [S_FOR_IN] = "S_FOR_IN",
808 + [S_EOF] = "S_EOF"
809 +};
810 +
811 +char *typestr[] = {
812 + [T_TEXT] = "T_TEXT",
813 + [T_FOR] = "T_FOR",
814 + [T_IF] = "T_IF",
815 + [T_CODE] = "T_CODE"
816 +};
817 +#endif
818 +
819 +static struct template_cb *parse_cb;
820 +static struct template_element *cur, *head;
821 +static char *textbuf;
822 +static unsigned int buflen;
823 +static unsigned int buf_offset;
824 +static int _lnr = 0;
825 +
826 +static void buf_realloc(void)
827 +{
828 + buflen *= 2;
829 + textbuf = xrealloc(textbuf, buflen);
830 +}
831 +
832 +static void parse_error(char *str)
833 +{
834 + fprintf(stderr, "Parse error%s%s\n", (str ? ": " : "!"), (str ?: ""));
835 + exit(255);
836 +}
837 +
838 +
839 +static struct template_element *new_template_element(struct template_element *parent)
840 +{
841 + struct template_element *ptr;
842 +
843 + ptr = xzalloc(sizeof(struct template_element));
844 + ptr->parent = parent;
845 + return ptr;
846 +}
847 +
848 +static inline void next_template_element(void)
849 +{
850 + cur->next = new_template_element(cur->parent);
851 + cur->next->prev = cur;
852 + cur = cur->next;
853 +}
854 +
855 +static void addtext(char *text)
856 +{
857 + while(buf_offset + strlen(text) + 1 > buflen)
858 + buf_realloc();
859 +
860 + buf_offset += sprintf(&textbuf[buf_offset], "%s", text);
861 +}
862 +
863 +static void set_state(int newstate)
864 +{
865 + char *ptr;
866 +
867 +#ifdef DEBUG
868 + static int _rec = 0;
869 + fprintf(stderr, "DEBUG(%d): %s => %s: %s\n", _rec, statestr[state], statestr[newstate], textbuf);
870 +#endif
871 + ptr = xstrdup(textbuf);
872 + if (state == S_FOR_IN)
873 + cur->in = ptr;
874 + else
875 + cur->var = ptr;
876 +
877 + if (parse_cb && (cur->t == T_CODE) && parse_cb->prepare_code)
878 + parse_cb->prepare_code(cur);
879 +
880 + buf_offset = 0;
881 + *textbuf = 0;
882 +
883 + switch(newstate) {
884 +#if 0
885 + case S_EOF:
886 + if (cur->parent)
887 + parse_error();
888 + break;
889 +#endif
890 + case S_FOR_START:
891 + if (ptr || !cur->prev)
892 + next_template_element();
893 + cur->t = T_FOR;
894 + break;
895 + case S_IF_START:
896 + if (ptr || !cur->prev)
897 + next_template_element();
898 + cur->t = T_IF;
899 + break;
900 + case S_ELSE:
901 + cur = cur->parent;
902 + if (!cur)
903 + parse_error("'@else' without parent element");
904 + cur->sub2 = new_template_element(cur);
905 + cur = cur->sub2;
906 + newstate = S_TEXT;
907 + break;
908 + case S_END:
909 +#ifdef DEBUG
910 + _rec--;
911 +#endif
912 + cur = cur->parent;
913 + if (!cur)
914 + parse_error("'@end' without parent element");
915 +
916 + next_template_element();
917 + cur->t = T_TEXT;
918 + newstate = S_TEXT;
919 + break;
920 + case S_TEXT:
921 + switch (cur->t) {
922 + case T_CODE:
923 + next_template_element();
924 + break;
925 + case T_IF:
926 + case T_FOR:
927 +#ifdef DEBUG
928 + _rec++;
929 +#endif
930 + cur->sub = new_template_element(cur);
931 + cur = cur->sub;
932 + break;
933 + default:
934 + break;
935 + }
936 + cur->t = T_TEXT;
937 + break;
938 + case S_CODE:
939 + if (ptr || !cur->prev)
940 + next_template_element();
941 + cur->t = T_CODE;
942 + break;
943 + default:
944 + break;
945 + }
946 + cur->line = _lnr;
947 + state = newstate;
948 +}
949 +
950 +%}
951 +
952 +%%
953 +"<%"[ \n\t]*"@if"[ \n\t]+ {
954 + if (state == S_TEXT)
955 + set_state(S_IF_START);
956 + else
957 + REJECT;
958 +}
959 +
960 +"<%"[ \n\t]*"@for"[ \n\t]+ {
961 + if (state == S_TEXT)
962 + set_state(S_FOR_START);
963 + else
964 + REJECT;
965 +}
966 +
967 +[ \n\t]+"in"[ \n\t]+ {
968 + if (state == S_FOR_START)
969 + set_state(S_FOR_IN);
970 + else
971 + REJECT;
972 +}
973 +
974 +"<%"[ \n\t]*"@end"[ \n\t]*%> {
975 + if (state != S_TEXT)
976 + REJECT;
977 + set_state(S_END);
978 +}
979 +
980 +"<%"[ \n\t]*"@else"[ \n\t]*%> {
981 + if (state != S_TEXT)
982 + REJECT;
983 + set_state(S_ELSE);
984 +}
985 +
986 +"<%" {
987 + if (state != S_TEXT)
988 + parse_error("'<%' cannot be nested");
989 + set_state(S_CODE);
990 +}
991 +
992 +[ \n\t]"%>" {
993 + if (state == S_TEXT)
994 + REJECT;
995 + set_state(S_TEXT);
996 +}
997 +
998 +\n {
999 + _lnr++;
1000 + if (state == S_TEXT)
1001 + addtext(yytext);
1002 +}
1003 +. {
1004 + addtext(yytext);
1005 +}
1006 +
1007 +
1008 +%%
1009 +
1010 +
1011 +void execute_template(struct template_cb *cb, struct template_element *e)
1012 +{
1013 + static int rec = 0;
1014 +
1015 + while (e) {
1016 +#ifdef DEBUG
1017 + fprintf(stderr, "DEBUG: execute(%d)\t%s\n", rec, typestr[e->t]);
1018 +#endif
1019 + rec++;
1020 + if (cb->handle_element)
1021 + cb->handle_element(cb, e);
1022 + rec--;
1023 + e = e->next;
1024 + }
1025 +}
1026 +
1027 +int yywrap()
1028 +{
1029 + set_state(S_EOF);
1030 + return 1;
1031 +}
1032 +
1033 +struct template_element *parse_template(struct template_cb *cb, FILE *in)
1034 +{
1035 + _lnr = 1;
1036 + buf_offset = 0;
1037 + state = S_TEXT;
1038 + parse_cb = cb;
1039 +
1040 + buflen = 4096;
1041 + textbuf = xzalloc(buflen);
1042 +
1043 + head = xzalloc(sizeof(struct template_element));
1044 + head->t = T_TEXT;
1045 + cur = head;
1046 +
1047 + yyin = in;
1048 + yylex();
1049 +
1050 + return head;
1051 +}
1052 +
1053 +void free_template(struct template_cb *cb, struct template_element *e)
1054 +{
1055 + struct template_element *next;
1056 + return;
1057 + if (!e)
1058 + return;
1059 +
1060 + switch (e->t) {
1061 + case T_CODE:
1062 + if (cb->free_code)
1063 + cb->free_code(e);
1064 + break;
1065 + case T_FOR:
1066 + case T_IF:
1067 + free_template(cb, e->sub);
1068 + break;
1069 + default:
1070 + break;
1071 + }
1072 + if (e->var)
1073 + free(e->var);
1074 + if (e->in)
1075 + free(e->in);
1076 +
1077 + next = e->next;
1078 + free(e);
1079 + return free_template(cb, next);
1080 +}
1081 --- a/editors/Config.in
1082 +++ b/editors/Config.in
1083 @@ -12,6 +12,13 @@
1084 Awk is used as a pattern scanning and processing language. This is
1085 the BusyBox implementation of that programming language.
1086
1087 +config AWX
1088 + bool "Enable awx (awk web extension)"
1089 + default n
1090 + depends on AWK
1091 + help
1092 + awx - awk web extension
1093 +
1094 config FEATURE_AWK_MATH
1095 bool "Enable math functions (requires libm)"
1096 default y
1097 --- a/editors/Kbuild
1098 +++ b/editors/Kbuild
1099 @@ -12,3 +12,12 @@
1100 lib-$(CONFIG_PATCH) += patch.o
1101 lib-$(CONFIG_SED) += sed.o
1102 lib-$(CONFIG_VI) += vi.o
1103 +lib-$(CONFIG_AWX) += awx_parser.o
1104 +
1105 +editors/awx_parser.c: editors/awx_parser.l editors/awx_parser.h
1106 + @flex $<
1107 + @mv lex.yy.c $@
1108 +
1109 +editors/awx_parser.o: editors/awx_parser.c FORCE
1110 + $(call cmd,force_checksrc)
1111 + $(call if_changed_rule,cc_o_c)
1112 --- a/include/applets.h
1113 +++ b/include/applets.h
1114 @@ -77,6 +77,7 @@
1115 USE_ARPING(APPLET(arping, _BB_DIR_USR_BIN, _BB_SUID_NEVER))
1116 USE_ASH(APPLET(ash, _BB_DIR_BIN, _BB_SUID_NEVER))
1117 USE_AWK(APPLET_NOEXEC(awk, awk, _BB_DIR_USR_BIN, _BB_SUID_NEVER, awk))
1118 +USE_AWK(APPLET_ODDNAME(awx, awk, _BB_DIR_USR_BIN, _BB_SUID_NEVER, awx))
1119 USE_BASENAME(APPLET_NOFORK(basename, basename, _BB_DIR_USR_BIN, _BB_SUID_NEVER, basename))
1120 USE_BBCONFIG(APPLET(bbconfig, _BB_DIR_BIN, _BB_SUID_NEVER))
1121 //USE_BBSH(APPLET(bbsh, _BB_DIR_BIN, _BB_SUID_NEVER))
1122 --- a/include/usage.h
1123 +++ b/include/usage.h
1124 @@ -114,6 +114,9 @@
1125 "\n -F sep Use sep as field separator" \
1126 "\n -f file Read program from file" \
1127
1128 +#define awx_trivial_usage NOUSAGE_STR
1129 +#define awx_full_usage ""
1130 +
1131 #define basename_trivial_usage \
1132 "FILE [SUFFIX]"
1133 #define basename_full_usage "\n\n" \
1134 --- /dev/null
1135 +++ b/include/cgi.h
1136 @@ -0,0 +1,8 @@
1137 +#ifndef CGI_H
1138 +#define CGI_H
1139 +
1140 +typedef enum { FORM_VAR, COOKIE_VAR } vartype;
1141 +typedef void (*var_handler) (vartype, char *, char *);
1142 +int cgi_init(var_handler);
1143 +
1144 +#endif
1145 --- /dev/null
1146 +++ b/libbb/cgi.c
1147 @@ -0,0 +1,457 @@
1148 +/* --------------------------------------------------------------------------
1149 + * functions for processing cgi form data
1150 + * Copyright (C) 2007 by Felix Fietkau <nbd@openwrt.org>
1151 + *
1152 + * parts taken from the core of haserl.cgi - a poor-man's php for embedded/lightweight environments
1153 + * $Id: haserl.c,v 1.13 2004/11/10 17:59:35 nangel Exp $
1154 + * Copyright (c) 2003,2004 Nathan Angelacos (nangel@users.sourceforge.net)
1155 + *
1156 + * This program is free software; you can redistribute it and/or modify
1157 + * it under the terms of the GNU General Public License as published by
1158 + * the Free Software Foundation; either version 2 of the License, or
1159 + * (at your option) any later version.
1160 + *
1161 + * This program is distributed in the hope that it will be useful,
1162 + * but WITHOUT ANY WARRANTY; without even the implied warranty of
1163 + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
1164 + * General Public License for more details.
1165 + *
1166 + * You should have received a copy of the GNU General Public License
1167 + * along with this program; if not, write to the Free Software
1168 + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
1169 + *
1170 + * -----
1171 + * The x2c() and unescape_url() routines were taken from
1172 + * http://www.jmarshall.com/easy/cgi/getcgi.c.txt
1173 + *
1174 + * The comments in that text file state:
1175 + *
1176 + *** Written in 1996 by James Marshall, james@jmarshall.com, except
1177 + *** that the x2c() and unescape_url() routines were lifted directly
1178 + *** from NCSA's sample program util.c, packaged with their HTTPD.
1179 + *** For the latest, see http://www.jmarshall.com/easy/cgi/
1180 + * -----
1181 + *
1182 + ------------------------------------------------------------------------- */
1183 +
1184 +#include <stdio.h>
1185 +#include <unistd.h>
1186 +#include <time.h>
1187 +#include <sys/mman.h>
1188 +#include <sys/types.h>
1189 +#include <sys/wait.h>
1190 +#include <sys/stat.h>
1191 +#include <sys/fcntl.h>
1192 +#include <stdlib.h>
1193 +#include <string.h>
1194 +#include <cgi.h>
1195 +
1196 +#ifndef MAX_UPLOAD_KB
1197 +#define MAX_UPLOAD_KB 2048
1198 +#endif
1199 +#define TEMPDIR "/tmp"
1200 +
1201 +static int global_upload_size = 0;
1202 +static int ReadMimeEncodedInput(char *qs);
1203 +static var_handler do_putvar = NULL;
1204 +
1205 +/*
1206 + * Convert 2 char hex string into char it represents
1207 + * (from http://www.jmarshall.com/easy/cgi)
1208 + */
1209 +static char x2c (char *what) {
1210 + char digit;
1211 +
1212 + digit=(what[0] >= 'A' ? ((what[0] & 0xdf) - 'A')+10 : (what[0] - '0'));
1213 + digit *=16;
1214 + digit+=(what[1] >= 'A' ? ((what[1] & 0xdf) - 'A')+10 : (what[1] - '0'));
1215 +
1216 + return digit;
1217 +}
1218 +
1219 +/*
1220 + * unsescape %xx to the characters they represent
1221 + */
1222 +
1223 +static void unescape_url (char *url) {
1224 + int i,j;
1225 +
1226 + for (i=0, j=0; url[j]; ++i, ++j) {
1227 + if ((url[i] = url[j]) == '%') {
1228 + url[i] = x2c(&url[j+1]);
1229 + j+=2;
1230 + }
1231 + }
1232 + url[i]='\0';
1233 +}
1234 +
1235 +static inline void put_var(vartype type, char *var)
1236 +{
1237 + char *val;
1238 +
1239 + if (!do_putvar)
1240 + return;
1241 +
1242 + val = strchr(var, '=');
1243 + if (!val)
1244 + return;
1245 +
1246 + *val = 0;
1247 + val++;
1248 + do_putvar(type, var, val);
1249 +
1250 + return;
1251 +}
1252 +
1253 +
1254 +/* CookieVars ()
1255 + * if HTTP_COOKIE is passed as an environment variable,
1256 + * attempt to parse its values into environment variables
1257 + */
1258 +static void CookieVars (void)
1259 +{
1260 + char *qs;
1261 + char *token;
1262 +
1263 + if (getenv("HTTP_COOKIE") != NULL)
1264 + qs=strdup(getenv("HTTP_COOKIE"));
1265 + else
1266 + return;
1267 +
1268 + /** split on; to extract name value pairs */
1269 + token=strtok(qs, ";");
1270 + while (token) {
1271 + // skip leading spaces
1272 + while ( token[0] == ' ' )
1273 + token++;
1274 +
1275 + put_var(COOKIE_VAR, token);
1276 +
1277 + token = strtok(NULL, ";");
1278 + }
1279 + free (qs);
1280 +}
1281 +
1282 +/*
1283 + * Read cgi variables from query string, and put in environment
1284 + */
1285 +static int ReadCGIQueryString (void)
1286 +{
1287 + char *qs;
1288 + char *token;
1289 + int i;
1290 +
1291 + if (getenv("QUERY_STRING") != NULL)
1292 + qs=strdup(getenv("QUERY_STRING"));
1293 + else
1294 + return 0;
1295 +
1296 + /* change plusses into spaces */
1297 + for (i=0; qs[i]; i++ ) { if (qs[i] == '+' ) { qs[i] = ' ';} };
1298 +
1299 + /** split on & and ; to extract name value pairs */
1300 +
1301 + token=strtok(qs, "&;");
1302 + while (token) {
1303 + unescape_url(token);
1304 + put_var(FORM_VAR, token);
1305 + token=strtok(NULL, "&;");
1306 + }
1307 + free(qs);
1308 +
1309 + return 0;
1310 +}
1311 +
1312 +
1313 +/*
1314 + * Read cgi variables from stdin (for POST queries)
1315 + * (oh... and if its mime-encoded file upload, we save the
1316 + * file to /tmp; and return the name of the tmp file
1317 + * the cgi script is responsible for disposing of the tmp file
1318 + */
1319 +
1320 +static int ReadCGIPOSTValues (void) {
1321 + char *qs;
1322 + int content_length;
1323 + int i;
1324 + char *token;
1325 +
1326 +
1327 + if (getenv("CONTENT_LENGTH") == NULL)
1328 + return(-1);
1329 + else
1330 + content_length = atoi(getenv("CONTENT_LENGTH"));
1331 +
1332 + /* protect ourselves from 20GB file uploads */
1333 + if (content_length > MAX_UPLOAD_KB * 1024 ) {
1334 + /* But we need to finish reading the content */
1335 + while ( fread( &i, sizeof(int), 1, stdin) == 1 );
1336 + return -1;
1337 + }
1338 +
1339 + if (!(qs=malloc(content_length+1)))
1340 + return -1;
1341 +
1342 + /* set the buffer to null, so that a browser messing with less
1343 + data than content_length won't buffer underrun us */
1344 + memset(qs, 0 ,content_length+1);
1345 +
1346 + if ((!fread(qs,content_length,1,stdin) &&
1347 + (content_length > 0)
1348 + && !feof(stdin))) {
1349 +
1350 + free(qs);
1351 + return -1;
1352 + }
1353 +
1354 + if (getenv("CONTENT_TYPE") && (strncasecmp(getenv("CONTENT_TYPE"), "multipart/form-data", 19) == 0)) {
1355 + /* This is a mime request, we need to go to the mime handler */
1356 + i=ReadMimeEncodedInput(qs);
1357 + free(qs);
1358 +
1359 + return i;
1360 + }
1361 +
1362 + /* change plusses into spaces */
1363 + for (i=0; qs[i]; i++ ) { if (qs[i] == '+' ) { qs[i] = ' ';} };
1364 +
1365 + /** split on & and ; to extract name value pairs */
1366 + token=strtok(qs, "&;");
1367 + while (token) {
1368 + unescape_url(token);
1369 + put_var(FORM_VAR, token);
1370 + token=strtok(NULL, "&;");
1371 + }
1372 +
1373 + free(qs);
1374 +
1375 + return 0;
1376 +}
1377 +
1378 +/*
1379 + * LineToStr - Scans char and replaces the first "\n" with a "\0";
1380 + * If it finds a "\r", it does that to; (fix DOS brokennes) returns
1381 + * the length of the string;
1382 + */
1383 +static int LineToStr (char *string, size_t max) {
1384 + size_t offset=0;
1385 +
1386 + while ((offset < max) && (string[offset] != '\n') && (string[offset] != '\r'))
1387 + offset++;
1388 +
1389 + if (string[offset] == '\r') {
1390 + string[offset]='\0';
1391 + offset++;
1392 + }
1393 + if (string[offset] == '\n') {
1394 + string[offset]='\0';
1395 + offset++;
1396 + }
1397 +
1398 + return offset;
1399 +}
1400 +
1401 +
1402 +/*
1403 + * ReadMimeEncodedInput - handles things that are mime encoded
1404 + * takes a pointer to the input; returns 0 on success
1405 + */
1406 +
1407 +static int ReadMimeEncodedInput(char *qs)
1408 +{
1409 + char *boundary;
1410 + char *ct;
1411 + int i;
1412 + int datastart;
1413 + size_t cl;
1414 + size_t offset;
1415 + char *envname;
1416 + char *filename;
1417 + char *ptr;
1418 + int line;
1419 + char tmpname[] = TEMPDIR "/XXXXXX";
1420 + int fd;
1421 + /* we should only get here if the content type was set. Segfaults happen
1422 + if Content_Type is null */
1423 +
1424 + if (getenv("CONTENT_LENGTH") == NULL)
1425 + /* No content length?! */
1426 + return(-1);
1427 +
1428 + cl=atoi(getenv("CONTENT_LENGTH"));
1429 +
1430 + /* we do this 'cause we can't mess with the real env. variable - it would
1431 + * overwrite the environment - I tried.
1432 + */
1433 + i=strlen(getenv("CONTENT_TYPE"))+1;
1434 + ct=malloc(i);
1435 + if (ct)
1436 + memcpy(ct, getenv("CONTENT_TYPE"), i);
1437 + else
1438 + return(-1);
1439 +
1440 + i=(int) NULL;
1441 + if (ct != NULL) {
1442 + while (i < strlen(ct) && (strncmp("boundary=", &ct[i], 9) != 0))
1443 + i++;
1444 + }
1445 + if (i == strlen(ct)) {
1446 + /* no boundary informaiton found */
1447 + free(ct);
1448 + return -1;
1449 + }
1450 + boundary=&ct[i+7];
1451 + /* add two leading -- to the boundary */
1452 + boundary[0]='-';
1453 + boundary[1]='-';
1454 +
1455 + /* begin the big loop. Look for:
1456 + --boundary
1457 + Content-Disposition: form-data; name="......."
1458 + ....
1459 + <blank line>
1460 + content
1461 + --boundary
1462 + Content-Disposition: form-data; name="....." filename="....."
1463 + ...
1464 + <blank line>
1465 + --boundary--
1466 + eof
1467 + */
1468 +
1469 + offset=0;
1470 + while (offset < cl) {
1471 + /* first look for boundary */
1472 + while ((offset < cl) && (memcmp(&qs[offset], boundary, strlen(boundary))))
1473 + offset++;
1474 +
1475 + /* if we got here and we ran off the end, its an error */
1476 + if (offset >= cl) {
1477 + free(ct);
1478 + return -1;
1479 + }
1480 +
1481 + /* if the two characters following the boundary are --, */
1482 + /* then we are at the end, exit */
1483 + if (memcmp(&qs[offset+strlen(boundary)], "--", 2) == 0) {
1484 + offset+=2;
1485 + break;
1486 + }
1487 + /* find where the offset should be */
1488 + line=LineToStr(&qs[offset], cl-offset);
1489 + offset+=line;
1490 +
1491 + /* Now we're going to look for content-disposition */
1492 + line=LineToStr(&qs[offset], cl-offset);
1493 + if (strncasecmp(&qs[offset], "Content-Disposition", 19) != 0) {
1494 + /* hmm... content disposition was not where we expected it */
1495 + free(ct);
1496 + return -1;
1497 + }
1498 + /* Found it, so let's go find "name=" */
1499 + if (!(envname=strstr(&qs[offset], "name="))) {
1500 + /* now name= is missing?! */
1501 + free(ct);
1502 + return(-1);
1503 + } else
1504 + envname+=6;
1505 +
1506 + /* is there a filename tag? */
1507 + if ((filename=strstr(&qs[offset], "filename="))!= NULL)
1508 + filename+=10;
1509 + else
1510 + filename=NULL;
1511 +
1512 + /* make envname and filename ASCIIZ */
1513 + for (i=0; (envname[i] != '"') && (envname[i] != '\0'); i++);
1514 +
1515 + envname[i] = '\0';
1516 + if (filename) {
1517 + for (i=0; (filename[i] != '"') && (filename[i] != '\0'); i++);
1518 + filename[i] = '\0';
1519 + }
1520 + offset+=line;
1521 +
1522 + /* Ok, by some miracle, we have the name; let's skip till we */
1523 + /* come to a blank line */
1524 + line=LineToStr(&qs[offset], cl-offset);
1525 + while (strlen(&qs[offset]) > 1) {
1526 + offset+=line;
1527 + line=LineToStr(&qs[offset], cl-offset);
1528 + }
1529 + offset+=line;
1530 + datastart=offset;
1531 + /* And we go back to looking for a boundary */
1532 + while ((offset < cl) && (memcmp(&qs[offset], boundary, strlen(boundary))))
1533 + offset++;
1534 +
1535 + /* strip [cr] lf */
1536 + if ((qs[offset-1] == '\n') && (qs[offset-2] == '\r'))
1537 + offset-=2;
1538 + else
1539 + offset-=1;
1540 +
1541 + qs[offset]=0;
1542 +
1543 + /* ok, at this point, we know where the name is, and we know */
1544 + /* where the content is... we have to do one of two things */
1545 + /* based on whether its a file or not */
1546 + if (filename==NULL) { /* its not a file, so its easy */
1547 + /* just jam the content after the name */
1548 + memcpy(&envname[strlen(envname)+1], &qs[datastart], offset-datastart+1);
1549 + envname[strlen(envname)]='=';
1550 + put_var(FORM_VAR, envname);
1551 + } else { /* handle the fileupload case */
1552 + if (offset-datastart) { /* only if they uploaded */
1553 + if ( global_upload_size == 0 ) {
1554 + return -1;
1555 + }
1556 + /* stuff in the filename */
1557 + ptr= calloc ( sizeof (char), strlen(envname)+strlen(filename)+2+5 );
1558 + sprintf (ptr, "%s_name=%s", envname, filename);
1559 + put_var(FORM_VAR, ptr);
1560 + free(ptr);
1561 +
1562 + fd=mkstemp(tmpname);
1563 +
1564 + if (fd == -1)
1565 + return(-1);
1566 +
1567 + write(fd, &qs[datastart], offset-datastart);
1568 + close(fd);
1569 + ptr= calloc (sizeof(char), strlen(envname)+strlen(tmpname)+2);
1570 + sprintf (ptr, "%s=%s", envname, tmpname);
1571 + put_var(FORM_VAR, ptr);
1572 + free(ptr);
1573 + }
1574 + }
1575 + }
1576 + free(ct);
1577 + return 0;
1578 +}
1579 +
1580 +
1581 +/*-------------------------------------------------------------------------
1582 + *
1583 + * Main
1584 + *
1585 + *------------------------------------------------------------------------*/
1586 +
1587 +int cgi_init(var_handler putvar_handler)
1588 +{
1589 + int retval = 0;
1590 +
1591 + do_putvar = putvar_handler;
1592 +
1593 + /* Read the current environment into our chain */
1594 + CookieVars();
1595 + if (getenv("REQUEST_METHOD")) {
1596 + if (strcasecmp(getenv("REQUEST_METHOD"), "GET") == 0)
1597 + retval = ReadCGIQueryString();
1598 +
1599 + if (strcasecmp(getenv("REQUEST_METHOD"), "POST") == 0)
1600 + retval = ReadCGIPOSTValues();
1601 + }
1602 +
1603 + return retval;
1604 +}
1605 --- a/libbb/Kbuild
1606 +++ b/libbb/Kbuild
1607 @@ -112,6 +112,7 @@
1608 lib-y += xreadlink.o
1609
1610 # conditionally compiled objects:
1611 +lib-$(CONFIG_AWX) += cgi.o
1612 lib-$(CONFIG_FEATURE_MOUNT_LOOP) += loop.o
1613 lib-$(CONFIG_LOSETUP) += loop.o
1614 lib-$(CONFIG_FEATURE_MTAB_SUPPORT) += mtab.o
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