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path: root/usr.bin/lex/filter.c
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/* $OpenBSD: filter.c,v 1.4 2015/11/19 22:52:40 tedu Exp $ */

/* filter - postprocessing of flex output through filters */

/*  This file is part of flex. */

/*  Redistribution and use in source and binary forms, with or without */
/*  modification, are permitted provided that the following conditions */
/*  are met: */

/*  1. Redistributions of source code must retain the above copyright */
/*     notice, this list of conditions and the following disclaimer. */
/*  2. Redistributions in binary form must reproduce the above copyright */
/*     notice, this list of conditions and the following disclaimer in the */
/*     documentation and/or other materials provided with the distribution. */

/*  Neither the name of the University nor the names of its contributors */
/*  may be used to endorse or promote products derived from this software */
/*  without specific prior written permission. */

/*  THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR */
/*  IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED */
/*  WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR */
/*  PURPOSE. */

#include "flexdef.h"
static const char *check_4_gnu_m4 =
"m4_dnl ifdef(`__gnu__', ,"
"`errprint(Flex requires GNU M4. Set the PATH or set the M4 environment variable to its path name.)"
" m4exit(2)')\n";


/** global chain. */
struct filter *output_chain = NULL;

/* Allocate and initialize an external filter.
 * @param chain the current chain or NULL for new chain
 * @param cmd the command to execute.
 * @param ... a NULL terminated list of (const char*) arguments to command,
 *            not including argv[0].
 * @return newest filter in chain
 */
struct filter *
filter_create_ext(struct filter * chain, const char *cmd,
    ...)
{
	struct filter *f;
	int max_args;
	const char *s;
	va_list ap;

	/* allocate and initialize new filter */
	f = (struct filter *) flex_alloc(sizeof(struct filter));
	if (!f)
		flexerror(_("flex_alloc failed (f) in filter_create_ext"));
	memset(f, 0, sizeof(*f));
	f->filter_func = NULL;
	f->extra = NULL;
	f->next = NULL;
	f->argc = 0;

	if (chain != NULL) {
		/* append f to end of chain */
		while (chain->next)
			chain = chain->next;
		chain->next = f;
	}
	/* allocate argv, and populate it with the argument list. */
	max_args = 8;
	f->argv = flex_alloc(sizeof(char *) * (max_args + 1));
	if (!f->argv)
		flexerror(_("flex_alloc failed (f->argv) in filter_create_ext"));
	f->argv[f->argc++] = cmd;

	va_start(ap, cmd);
	while ((s = va_arg(ap, const char *)) != NULL) {
		if (f->argc >= max_args) {
			max_args += 8;
			f->argv = flex_realloc(f->argv,
			    sizeof(char *) * (max_args + 1));
		}
		f->argv[f->argc++] = s;
	}
	f->argv[f->argc] = NULL;

	va_end(ap);
	return f;
}

/* Allocate and initialize an internal filter.
 * @param chain the current chain or NULL for new chain
 * @param filter_func The function that will perform the filtering.
 *        filter_func should return 0 if successful, and -1
 *        if an error occurs -- or it can simply exit().
 * @param extra optional user-defined data to pass to the filter.
 * @return newest filter in chain
 */
struct filter *
filter_create_int(struct filter * chain,
    int (*filter_func) (struct filter *),
    void *extra)
{
	struct filter *f;

	/* allocate and initialize new filter */
	f = (struct filter *) flex_alloc(sizeof(struct filter));
	if (!f)
		flexerror(_("flex_alloc failed in filter_create_int"));
	memset(f, 0, sizeof(*f));
	f->next = NULL;
	f->argc = 0;
	f->argv = NULL;

	f->filter_func = filter_func;
	f->extra = extra;

	if (chain != NULL) {
		/* append f to end of chain */
		while (chain->next)
			chain = chain->next;
		chain->next = f;
	}
	return f;
}

/** Fork and exec entire filter chain.
 *  @param chain The head of the chain.
 *  @return true on success.
 */
bool 
filter_apply_chain(struct filter * chain)
{
	int pid, pipes[2];
	int r;
	const int readsz = 512;
	char *buf;


	/*
	 * Tricky recursion, since we want to begin the chain at the END.
	 * Why? Because we need all the forked processes to be children of
	 * the main flex process.
	 */
	if (chain)
		filter_apply_chain(chain->next);
	else
		return true;

	/*
	 * Now we are the right-most unprocessed link in the chain.
	 */

	fflush(stdout);
	fflush(stderr);


	if (pipe(pipes) == -1)
		flexerror(_("pipe failed"));

	if ((pid = fork()) == -1)
		flexerror(_("fork failed"));

	if (pid == 0) {
		/* child */

		/*
		 * We need stdin (the FILE* stdin) to connect to this new
		 * pipe. There is no portable way to set stdin to a new file
		 * descriptor, as stdin is not an lvalue on some systems
		 * (BSD). So we dup the new pipe onto the stdin descriptor
		 * and use a no-op fseek to sync the stream. This is a Hail
		 * Mary situation. It seems to work.
		 */
		close(pipes[1]);
		clearerr(stdin);
		if (dup2(pipes[0], fileno(stdin)) == -1)
			flexfatal(_("dup2(pipes[0],0)"));
		close(pipes[0]);
		fseek(stdin, 0, SEEK_CUR);

		/* run as a filter, either internally or by exec */
		if (chain->filter_func) {
			int r;

			if ((r = chain->filter_func(chain)) == -1)
				flexfatal(_("filter_func failed"));
			exit(0);
		} else {
			execvp(chain->argv[0],
			    (char **const) (chain->argv));
			lerrsf_fatal(_("exec of %s failed"),
			    chain->argv[0]);
		}

		exit(1);
	}
	/* Parent */
	close(pipes[0]);
	if (dup2(pipes[1], fileno(stdout)) == -1)
		flexfatal(_("dup2(pipes[1],1)"));
	close(pipes[1]);
	fseek(stdout, 0, SEEK_CUR);

	return true;
}

/** Truncate the chain to max_len number of filters.
 * @param chain the current chain.
 * @param max_len the maximum length of the chain.
 * @return the resulting length of the chain.
 */
int 
filter_truncate(struct filter * chain, int max_len)
{
	int len = 1;

	if (!chain)
		return 0;

	while (chain->next && len < max_len) {
		chain = chain->next;
		++len;
	}

	chain->next = NULL;
	return len;
}

/** Splits the chain in order to write to a header file.
 *  Similar in spirit to the 'tee' program.
 *  The header file name is in extra.
 *  @return 0 (zero) on success, and -1 on failure.
 */
int 
filter_tee_header(struct filter * chain)
{
	/*
	 * This function reads from stdin and writes to both the C file and
	 * the header file at the same time.
	 */

	const int readsz = 512;
	char *buf;
	int to_cfd = -1;
	FILE *to_c = NULL, *to_h = NULL;
	bool write_header;

	write_header = (chain->extra != NULL);

	/*
	 * Store a copy of the stdout pipe, which is already piped to C file
	 * through the running chain. Then create a new pipe to the H file as
	 * stdout, and fork the rest of the chain again.
	 */

	if ((to_cfd = dup(1)) == -1)
		flexfatal(_("dup(1) failed"));
	to_c = fdopen(to_cfd, "w");

	if (write_header) {
		if (freopen((char *) chain->extra, "w", stdout) == NULL)
			flexfatal(_("freopen(headerfilename) failed"));

		filter_apply_chain(chain->next);
		to_h = stdout;
	}
	/*
	 * Now to_c is a pipe to the C branch, and to_h is a pipe to the H
	 * branch.
	 */

	if (write_header) {
		fputs(check_4_gnu_m4, to_h);
		fputs("m4_changecom`'m4_dnl\n", to_h);
		fputs("m4_changequote`'m4_dnl\n", to_h);
		fputs("m4_changequote([[,]])[[]]m4_dnl\n", to_h);
		fputs("m4_define([[M4_YY_NOOP]])[[]]m4_dnl\n", to_h);
		fputs("m4_define( [[M4_YY_IN_HEADER]],[[]])m4_dnl\n",
		    to_h);
		fprintf(to_h, "#ifndef %sHEADER_H\n", prefix);
		fprintf(to_h, "#define %sHEADER_H 1\n", prefix);
		fprintf(to_h, "#define %sIN_HEADER 1\n\n", prefix);
		fprintf(to_h,
		    "m4_define( [[M4_YY_OUTFILE_NAME]],[[%s]])m4_dnl\n",
		    headerfilename ? headerfilename : "<stdout>");

	}
	fputs(check_4_gnu_m4, to_c);
	fputs("m4_changecom`'m4_dnl\n", to_c);
	fputs("m4_changequote`'m4_dnl\n", to_c);
	fputs("m4_changequote([[,]])[[]]m4_dnl\n", to_c);
	fputs("m4_define([[M4_YY_NOOP]])[[]]m4_dnl\n", to_c);
	fprintf(to_c, "m4_define( [[M4_YY_OUTFILE_NAME]],[[%s]])m4_dnl\n",
	    outfilename ? outfilename : "<stdout>");

	buf = (char *) flex_alloc(readsz);
	if (!buf)
		flexerror(_("flex_alloc failed in filter_tee_header"));
	while (fgets(buf, readsz, stdin)) {
		fputs(buf, to_c);
		if (write_header)
			fputs(buf, to_h);
	}

	if (write_header) {
		fprintf(to_h, "\n");

		/*
		 * write a fake line number. It will get fixed by the linedir
		 * filter.
		 */
		fprintf(to_h, "#line 4000 \"M4_YY_OUTFILE_NAME\"\n");

		fprintf(to_h, "#undef %sIN_HEADER\n", prefix);
		fprintf(to_h, "#endif /* %sHEADER_H */\n", prefix);
		fputs("m4_undefine( [[M4_YY_IN_HEADER]])m4_dnl\n", to_h);

		fflush(to_h);
		if (ferror(to_h))
			lerrsf(_("error writing output file %s"),
			    (char *) chain->extra);

		else if (fclose(to_h))
			lerrsf(_("error closing output file %s"),
			    (char *) chain->extra);
	}
	fflush(to_c);
	if (ferror(to_c))
		lerrsf(_("error writing output file %s"),
		    outfilename ? outfilename : "<stdout>");

	else if (fclose(to_c))
		lerrsf(_("error closing output file %s"),
		    outfilename ? outfilename : "<stdout>");

	while (wait(0) > 0);

	exit(0);
	return 0;
}

/** Adjust the line numbers in the #line directives of the generated scanner.
 * After the m4 expansion, the line numbers are incorrect since the m4 macros
 * can add or remove lines.  This only adjusts line numbers for generated code,
 * not user code. This also happens to be a good place to squeeze multiple
 * blank lines into a single blank line.
 */
int 
filter_fix_linedirs(struct filter * chain)
{
	char *buf;
	const int readsz = 512;
	int lineno = 1;
	bool in_gen = true;	/* in generated code */
	bool last_was_blank = false;

	if (!chain)
		return 0;

	buf = (char *) flex_alloc(readsz);
	if (!buf)
		flexerror(_("flex_alloc failed in filter_fix_linedirs"));

	while (fgets(buf, readsz, stdin)) {

		regmatch_t m[10];

		/* Check for #line directive. */
		if (buf[0] == '#'
		    && regexec(&regex_linedir, buf, 3, m, 0) == 0) {

			int num;
			char *fname;

			/* extract the line number and filename */
			num = regmatch_strtol(&m[1], buf, NULL, 0);
			fname = regmatch_dup(&m[2], buf);

			if (strcmp(fname,
				outfilename ? outfilename : "<stdout>") == 0 ||
			    strcmp(fname, headerfilename ? headerfilename :
				"<stdout>") == 0) {

				char *s1, *s2;
				char filename[MAXLINE];

				s1 = fname;
				s2 = filename;

				while ((s2 - filename) < (MAXLINE - 1) && *s1) {
					/* Escape the backslash */
					if (*s1 == '\\')
						*s2++ = '\\';
					/* Escape the double quote */
					if (*s1 == '\"')
						*s2++ = '\\';
					/* Copy the character as usual */
					*s2++ = *s1++;
				}

				*s2 = '\0';

				/* Adjust the line directives. */
				in_gen = true;
				snprintf(buf, readsz, "#line %d \"%s\"\n",
				    lineno + 1, filename);
			} else {
				/*
				 * it's a #line directive for code we didn't
				 * write
				 */
				in_gen = false;
			}

			free(fname);
			last_was_blank = false;
		}
		/* squeeze blank lines from generated code */
		else if (in_gen &&
		    regexec(&regex_blank_line, buf, 0, NULL, 0) == 0) {
			if (last_was_blank)
				continue;
			else
				last_was_blank = true;
		} else {
			/* it's a line of normal, non-empty code. */
			last_was_blank = false;
		}

		fputs(buf, stdout);
		lineno++;
	}
	fflush(stdout);
	if (ferror(stdout))
		lerrsf(_("error writing output file %s"),
		    outfilename ? outfilename : "<stdout>");

	else if (fclose(stdout))
		lerrsf(_("error closing output file %s"),
		    outfilename ? outfilename : "<stdout>");

	return 0;
}