tftp-hpa-5.0/tftpd/remap.c - nest-learning-thermostat/5.1.5/tftp-hpa - Git at Google

 /* ----------------------------------------------------------------------- *
  *
  *   Copyright 2001-2007 H. Peter Anvin - All Rights Reserved
  *
  *   This program is free software available under the same license
  *   as the "OpenBSD" operating system, distributed at
  *   http://www.openbsd.org/.
  *
  * ----------------------------------------------------------------------- */

 /*
  * remap.c
  *
  * Perform regular-expression based filename remapping.
  */

 #include "config.h"             /* Must be included first! */
 #include <ctype.h>
 #include <syslog.h>
 #include <regex.h>

 #include "tftpd.h"
 #include "remap.h"

 #define DEADMAN_MAX_STEPS	1024    /* Timeout after this many steps */
 #define MAXLINE			16384   /* Truncate a line at this many bytes */

 #define RULE_REWRITE	0x01    /* This is a rewrite rule */
 #define RULE_GLOBAL	0x02    /* Global rule (repeat until no match) */
 #define RULE_EXIT	0x04    /* Exit after matching this rule */
 #define RULE_RESTART	0x08    /* Restart at the top after matching this rule */
 #define RULE_ABORT	0x10    /* Terminate processing with an error */
 #define RULE_GETONLY	0x20    /* Applicable to GET only */
 #define RULE_PUTONLY	0x40    /* Applicable to PUT only */
 #define RULE_INVERSE	0x80    /* Execute if regex *doesn't* match */

 struct rule {
     struct rule *next;
     int nrule;
     int rule_flags;
     regex_t rx;
     const char *pattern;
 };

 static int xform_null(int c)
 {
     return c;
 }

 static int xform_toupper(int c)
 {
     return toupper(c);
 }

 static int xform_tolower(int c)
 {
     return tolower(c);
 }

 /* Do \-substitution.  Call with string == NULL to get length only. */
 static int genmatchstring(char *string, const char *pattern,
                           const char *input, const regmatch_t * pmatch,
                           match_pattern_callback macrosub)
 {
     int (*xform) (int) = xform_null;
     int len = 0;
     int n, mlen, sublen;
     int endbytes;

     /* Get section before match; note pmatch[0] is the whole match */
     endbytes = strlen(input) - pmatch[0].rm_eo;
     len = pmatch[0].rm_so + endbytes;
     if (string) {
         memcpy(string, input, pmatch[0].rm_so);
         string += pmatch[0].rm_so;
     }

     /* Transform matched section */
     while (*pattern) {
         mlen = 0;

         if (*pattern == '\\' && pattern[1] != '\0') {
             char macro = pattern[1];
             switch (macro) {
             case '0':
             case '1':
             case '2':
             case '3':
             case '4':
             case '5':
             case '6':
             case '7':
             case '8':
             case '9':
                 n = pattern[1] - '0';

                 if (pmatch[n].rm_so != -1) {
                     mlen = pmatch[n].rm_eo - pmatch[n].rm_so;
                     len += mlen;
                     if (string) {
                         const char *p = input + pmatch[n].rm_so;
                         while (mlen--)
                             *string++ = xform(*p++);
                     }
                 }
                 break;

             case 'L':
                 xform = xform_tolower;
                 break;

             case 'U':
                 xform = xform_toupper;
                 break;

             case 'E':
                 xform = xform_null;
                 break;

             default:
                 if (macrosub && (sublen = macrosub(macro, string)) >= 0) {
                     while (sublen--) {
                         len++;
                         if (string) {
                             *string = xform(*string);
                             string++;
                         }
                     }
                 } else {
                     len++;
                     if (string)
                         *string++ = xform(pattern[1]);
                 }
             }
             pattern += 2;
         } else {
             len++;
             if (string)
                 *string++ = xform(*pattern);
             pattern++;
         }
     }

     /* Copy section after match */
     if (string) {
         memcpy(string, input + pmatch[0].rm_eo, endbytes);
         string[endbytes] = '\0';
     }

     return len;
 }

 /*
  * Extract a string terminated by non-escaped whitespace; ignoring
  * leading whitespace.  Consider an unescaped # to be a comment marker,
  * functionally \n.
  */
 static int readescstring(char *buf, char **str)
 {
     char *p = *str;
     int wasbs = 0, len = 0;

     while (*p && isspace(*p))
         p++;

     if (!*p) {
         *buf = '\0';
         *str = p;
         return 0;
     }

     while (*p) {
         if (!wasbs && (isspace(*p) || *p == '#')) {
             *buf = '\0';
             *str = p;
             return len;
         }
         /* Important: two backslashes leave us in the !wasbs state! */
         wasbs = !wasbs && (*p == '\\');
         *buf++ = *p++;
         len++;
     }

     *buf = '\0';
     *str = p;
     return len;
 }

 /* Parse a line into a set of instructions */
 static int parseline(char *line, struct rule *r, int lineno)
 {
     char buffer[MAXLINE];
     char *p;
     int rv;
     int rxflags = REG_EXTENDED;
     static int nrule;

     memset(r, 0, sizeof *r);
     r->nrule = nrule;

     if (!readescstring(buffer, &line))
         return 0;               /* No rule found */

     for (p = buffer; *p; p++) {
         switch (*p) {
         case 'r':
             r->rule_flags |= RULE_REWRITE;
             break;
         case 'g':
             r->rule_flags |= RULE_GLOBAL;
             break;
         case 'e':
             r->rule_flags |= RULE_EXIT;
             break;
         case 's':
             r->rule_flags |= RULE_RESTART;
             break;
         case 'a':
             r->rule_flags |= RULE_ABORT;
             break;
         case 'i':
             rxflags |= REG_ICASE;
             break;
         case 'G':
             r->rule_flags |= RULE_GETONLY;
             break;
         case 'P':
             r->rule_flags |= RULE_PUTONLY;
             break;
         case '~':
             r->rule_flags |= RULE_INVERSE;
             break;
         default:
             syslog(LOG_ERR,
                    "Remap command \"%s\" on line %d contains invalid char \"%c\"",
                    buffer, lineno, *p);
             return -1;          /* Error */
             break;
         }
     }

     /* RULE_GLOBAL only applies when RULE_REWRITE specified */
     if (!(r->rule_flags & RULE_REWRITE))
         r->rule_flags &= ~RULE_GLOBAL;

     if ((r->rule_flags & (RULE_INVERSE | RULE_REWRITE)) ==
         (RULE_INVERSE | RULE_REWRITE)) {
         syslog(LOG_ERR, "r rules cannot be inverted, line %d: %s\n",
                lineno, line);
         return -1;              /* Error */
     }

     /* Read and compile the regex */
     if (!readescstring(buffer, &line)) {
         syslog(LOG_ERR, "No regex on remap line %d: %s\n", lineno, line);
         return -1;              /* Error */
     }

     if ((rv = regcomp(&r->rx, buffer, rxflags)) != 0) {
         char errbuf[BUFSIZ];
         regerror(rv, &r->rx, errbuf, BUFSIZ);
         syslog(LOG_ERR, "Bad regex in remap line %d: %s\n", lineno,
                errbuf);
         return -1;              /* Error */
     }

     /* Read the rewrite pattern, if any */
     if (readescstring(buffer, &line)) {
         r->pattern = tfstrdup(buffer);
     } else {
         r->pattern = "";
     }

     nrule++;
     return 1;                   /* Rule found */
 }

 /* Read a rule file */
 struct rule *parserulefile(FILE * f)
 {
     char line[MAXLINE];
     struct rule *first_rule = NULL;
     struct rule **last_rule = &first_rule;
     struct rule *this_rule = tfmalloc(sizeof(struct rule));
     int rv;
     int lineno = 0;
     int err = 0;

     while (lineno++, fgets(line, MAXLINE, f)) {
         rv = parseline(line, this_rule, lineno);
         if (rv < 0)
             err = 1;
         if (rv > 0) {
             *last_rule = this_rule;
             last_rule = &this_rule->next;
             this_rule = tfmalloc(sizeof(struct rule));
         }
     }

     free(this_rule);            /* Last one is always unused */

     if (err) {
         /* Bail on error, we have already logged an error message */
         exit(EX_CONFIG);
     }

     return first_rule;
 }

 /* Destroy a rule file data structure */
 void freerules(struct rule *r)
 {
     struct rule *next;

     while (r) {
         next = r->next;

         regfree(&r->rx);

         /* "" patterns aren't allocated by malloc() */
         if (r->pattern && *r->pattern)
             free((void *)r->pattern);

         free(r);

         r = next;
     }
 }

 /* Execute a rule set on a string; returns a malloc'd new string. */
 char *rewrite_string(const char *input, const struct rule *rules,
                      int is_put, match_pattern_callback macrosub,
                      const char **errmsg)
 {
     char *current = tfstrdup(input);
     char *newstr;
     const struct rule *ruleptr = rules;
     regmatch_t pmatch[10];
     int len;
     int was_match = 0;
     int deadman = DEADMAN_MAX_STEPS;

     /* Default error */
     *errmsg = "Remap table failure";

     if (verbosity >= 3) {
         syslog(LOG_INFO, "remap: input: %s", current);
     }

     for (ruleptr = rules; ruleptr; ruleptr = ruleptr->next) {
         if (((ruleptr->rule_flags & RULE_GETONLY) && is_put) ||
             ((ruleptr->rule_flags & RULE_PUTONLY) && !is_put)) {
             continue;           /* Rule not applicable, try next */
         }

         if (!deadman--) {
             syslog(LOG_WARNING,
                    "remap: Breaking loop, input = %s, last = %s", input,
                    current);
             free(current);
             return NULL;        /* Did not terminate! */
         }

         do {
             if (regexec(&ruleptr->rx, current, 10, pmatch, 0) ==
                 (ruleptr->rule_flags & RULE_INVERSE ? REG_NOMATCH : 0)) {
                 /* Match on this rule */
                 was_match = 1;

                 if (ruleptr->rule_flags & RULE_INVERSE) {
                     /* No actual match, so clear out the pmatch array */
                     int i;
                     for (i = 0; i < 10; i++)
                         pmatch[i].rm_so = pmatch[i].rm_eo = -1;
                 }

                 if (ruleptr->rule_flags & RULE_ABORT) {
                     if (verbosity >= 3) {
                         syslog(LOG_INFO, "remap: rule %d: abort: %s",
                                ruleptr->nrule, current);
                     }
                     if (ruleptr->pattern[0]) {
                         /* Custom error message */
                         len =
                             genmatchstring(NULL, ruleptr->pattern, current,
                                            pmatch, macrosub);
                         newstr = tfmalloc(len + 1);
                         genmatchstring(newstr, ruleptr->pattern, current,
                                        pmatch, macrosub);
                         *errmsg = newstr;
                     } else {
                         *errmsg = NULL;
                     }
                     free(current);
                     return (NULL);
                 }

                 if (ruleptr->rule_flags & RULE_REWRITE) {
                     len = genmatchstring(NULL, ruleptr->pattern, current,
                                          pmatch, macrosub);
                     newstr = tfmalloc(len + 1);
                     genmatchstring(newstr, ruleptr->pattern, current,
                                    pmatch, macrosub);
                     free(current);
                     current = newstr;
                     if (verbosity >= 3) {
                         syslog(LOG_INFO, "remap: rule %d: rewrite: %s",
                                ruleptr->nrule, current);
                     }
                 }
             } else {
                 break;          /* No match, terminate unconditionally */
             }
             /* If the rule is global, keep going until no match */
         } while (ruleptr->rule_flags & RULE_GLOBAL);

         if (was_match) {
             was_match = 0;

             if (ruleptr->rule_flags & RULE_EXIT) {
                 if (verbosity >= 3) {
                     syslog(LOG_INFO, "remap: rule %d: exit",
                            ruleptr->nrule);
                 }
                 return current; /* Exit here, we're done */
             } else if (ruleptr->rule_flags & RULE_RESTART) {
                 ruleptr = rules;        /* Start from the top */
                 if (verbosity >= 3) {
                     syslog(LOG_INFO, "remap: rule %d: restart",
                            ruleptr->nrule);
                 }
             }
         }
     }

     if (verbosity >= 3) {
         syslog(LOG_INFO, "remap: done");
     }
     return current;
 }
	/* ----------------------------------------------------------------------- *
	*
	* Copyright 2001-2007 H. Peter Anvin - All Rights Reserved
	*
	* This program is free software available under the same license
	* as the "OpenBSD" operating system, distributed at
	* http://www.openbsd.org/.
	*
	* ----------------------------------------------------------------------- */

	/*
	* remap.c
	*
	* Perform regular-expression based filename remapping.
	*/

	#include "config.h" /* Must be included first! */
	#include <ctype.h>
	#include <syslog.h>
	#include <regex.h>

	#include "tftpd.h"
	#include "remap.h"

	#define DEADMAN_MAX_STEPS 1024 /* Timeout after this many steps */
	#define MAXLINE 16384 /* Truncate a line at this many bytes */

	#define RULE_REWRITE 0x01 /* This is a rewrite rule */
	#define RULE_GLOBAL 0x02 /* Global rule (repeat until no match) */
	#define RULE_EXIT 0x04 /* Exit after matching this rule */
	#define RULE_RESTART 0x08 /* Restart at the top after matching this rule */
	#define RULE_ABORT 0x10 /* Terminate processing with an error */
	#define RULE_GETONLY 0x20 /* Applicable to GET only */
	#define RULE_PUTONLY 0x40 /* Applicable to PUT only */
	#define RULE_INVERSE 0x80 /* Execute if regex doesn't match */

	struct rule {
	struct rule *next;
	int nrule;
	int rule_flags;
	regex_t rx;
	const char *pattern;
	};

	static int xform_null(int c)
	{
	return c;
	}

	static int xform_toupper(int c)
	{
	return toupper(c);
	}

	static int xform_tolower(int c)
	{
	return tolower(c);
	}

	/* Do \-substitution. Call with string == NULL to get length only. */
	static int genmatchstring(char string, const char pattern,
	const char input, const regmatch_t pmatch,
	match_pattern_callback macrosub)
	{
	int (*xform) (int) = xform_null;
	int len = 0;
	int n, mlen, sublen;
	int endbytes;

	/* Get section before match; note pmatch[0] is the whole match */
	endbytes = strlen(input) - pmatch[0].rm_eo;
	len = pmatch[0].rm_so + endbytes;
	if (string) {
	memcpy(string, input, pmatch[0].rm_so);
	string += pmatch[0].rm_so;
	}

	/* Transform matched section */
	while (*pattern) {
	mlen = 0;

	if (*pattern == '\\' && pattern[1] != '\0') {
	char macro = pattern[1];
	switch (macro) {
	case '0':
	case '1':
	case '2':
	case '3':
	case '4':
	case '5':
	case '6':
	case '7':
	case '8':
	case '9':
	n = pattern[1] - '0';

	if (pmatch[n].rm_so != -1) {
	mlen = pmatch[n].rm_eo - pmatch[n].rm_so;
	len += mlen;
	if (string) {
	const char *p = input + pmatch[n].rm_so;
	while (mlen--)
	string++ = xform(p++);
	}
	}
	break;

	case 'L':
	xform = xform_tolower;
	break;

	case 'U':
	xform = xform_toupper;
	break;

	case 'E':
	xform = xform_null;
	break;

	default:
	if (macrosub && (sublen = macrosub(macro, string)) >= 0) {
	while (sublen--) {
	len++;
	if (string) {
	string = xform(string);
	string++;
	}
	}
	} else {
	len++;
	if (string)
	*string++ = xform(pattern[1]);
	}
	}
	pattern += 2;
	} else {
	len++;
	if (string)
	string++ = xform(pattern);
	pattern++;
	}
	}

	/* Copy section after match */
	if (string) {
	memcpy(string, input + pmatch[0].rm_eo, endbytes);
	string[endbytes] = '\0';
	}

	return len;
	}

	/*
	* Extract a string terminated by non-escaped whitespace; ignoring
	* leading whitespace. Consider an unescaped # to be a comment marker,
	* functionally \n.
	*/
	static int readescstring(char buf, char *str)
	{
	char p = str;
	int wasbs = 0, len = 0;

	while (p && isspace(p))
	p++;

	if (!*p) {
	*buf = '\0';
	*str = p;
	return 0;
	}

	while (*p) {
	if (!wasbs && (isspace(p) \|\| p == '#')) {
	*buf = '\0';
	*str = p;
	return len;
	}
	/* Important: two backslashes leave us in the !wasbs state! */
	wasbs = !wasbs && (*p == '\\');
	buf++ = p++;
	len++;
	}

	*buf = '\0';
	*str = p;
	return len;
	}

	/* Parse a line into a set of instructions */
	static int parseline(char line, struct rule r, int lineno)
	{
	char buffer[MAXLINE];
	char *p;
	int rv;
	int rxflags = REG_EXTENDED;
	static int nrule;

	memset(r, 0, sizeof *r);
	r->nrule = nrule;

	if (!readescstring(buffer, &line))
	return 0; /* No rule found */

	for (p = buffer; *p; p++) {
	switch (*p) {
	case 'r':
	r->rule_flags \|= RULE_REWRITE;
	break;
	case 'g':
	r->rule_flags \|= RULE_GLOBAL;
	break;
	case 'e':
	r->rule_flags \|= RULE_EXIT;
	break;
	case 's':
	r->rule_flags \|= RULE_RESTART;
	break;
	case 'a':
	r->rule_flags \|= RULE_ABORT;
	break;
	case 'i':
	rxflags \|= REG_ICASE;
	break;
	case 'G':
	r->rule_flags \|= RULE_GETONLY;
	break;
	case 'P':
	r->rule_flags \|= RULE_PUTONLY;
	break;
	case '~':
	r->rule_flags \|= RULE_INVERSE;
	break;
	default:
	syslog(LOG_ERR,
	"Remap command \"%s\" on line %d contains invalid char \"%c\"",
	buffer, lineno, *p);
	return -1; /* Error */
	break;
	}
	}

	/* RULE_GLOBAL only applies when RULE_REWRITE specified */
	if (!(r->rule_flags & RULE_REWRITE))
	r->rule_flags &= ~RULE_GLOBAL;

	if ((r->rule_flags & (RULE_INVERSE \| RULE_REWRITE)) ==
	(RULE_INVERSE \| RULE_REWRITE)) {
	syslog(LOG_ERR, "r rules cannot be inverted, line %d: %s\n",
	lineno, line);
	return -1; /* Error */
	}

	/* Read and compile the regex */
	if (!readescstring(buffer, &line)) {
	syslog(LOG_ERR, "No regex on remap line %d: %s\n", lineno, line);
	return -1; /* Error */
	}

	if ((rv = regcomp(&r->rx, buffer, rxflags)) != 0) {
	char errbuf[BUFSIZ];
	regerror(rv, &r->rx, errbuf, BUFSIZ);
	syslog(LOG_ERR, "Bad regex in remap line %d: %s\n", lineno,
	errbuf);
	return -1; /* Error */
	}

	/* Read the rewrite pattern, if any */
	if (readescstring(buffer, &line)) {
	r->pattern = tfstrdup(buffer);
	} else {
	r->pattern = "";
	}

	nrule++;
	return 1; /* Rule found */
	}

	/* Read a rule file */
	struct rule parserulefile(FILE f)
	{
	char line[MAXLINE];
	struct rule *first_rule = NULL;
	struct rule **last_rule = &first_rule;
	struct rule *this_rule = tfmalloc(sizeof(struct rule));
	int rv;
	int lineno = 0;
	int err = 0;

	while (lineno++, fgets(line, MAXLINE, f)) {
	rv = parseline(line, this_rule, lineno);
	if (rv < 0)
	err = 1;
	if (rv > 0) {
	*last_rule = this_rule;
	last_rule = &this_rule->next;
	this_rule = tfmalloc(sizeof(struct rule));
	}
	}

	free(this_rule); /* Last one is always unused */

	if (err) {
	/* Bail on error, we have already logged an error message */
	exit(EX_CONFIG);
	}

	return first_rule;
	}

	/* Destroy a rule file data structure */
	void freerules(struct rule *r)
	{
	struct rule *next;

	while (r) {
	next = r->next;

	regfree(&r->rx);

	/* "" patterns aren't allocated by malloc() */
	if (r->pattern && *r->pattern)
	free((void *)r->pattern);

	free(r);

	r = next;
	}
	}

	/* Execute a rule set on a string; returns a malloc'd new string. */
	char rewrite_string(const char input, const struct rule *rules,
	int is_put, match_pattern_callback macrosub,
	const char **errmsg)
	{
	char *current = tfstrdup(input);
	char *newstr;
	const struct rule *ruleptr = rules;
	regmatch_t pmatch[10];
	int len;
	int was_match = 0;
	int deadman = DEADMAN_MAX_STEPS;

	/* Default error */
	*errmsg = "Remap table failure";

	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: input: %s", current);
	}

	for (ruleptr = rules; ruleptr; ruleptr = ruleptr->next) {
	if (((ruleptr->rule_flags & RULE_GETONLY) && is_put) \|\|
	((ruleptr->rule_flags & RULE_PUTONLY) && !is_put)) {
	continue; /* Rule not applicable, try next */
	}

	if (!deadman--) {
	syslog(LOG_WARNING,
	"remap: Breaking loop, input = %s, last = %s", input,
	current);
	free(current);
	return NULL; /* Did not terminate! */
	}

	do {
	if (regexec(&ruleptr->rx, current, 10, pmatch, 0) ==
	(ruleptr->rule_flags & RULE_INVERSE ? REG_NOMATCH : 0)) {
	/* Match on this rule */
	was_match = 1;

	if (ruleptr->rule_flags & RULE_INVERSE) {
	/* No actual match, so clear out the pmatch array */
	int i;
	for (i = 0; i < 10; i++)
	pmatch[i].rm_so = pmatch[i].rm_eo = -1;
	}

	if (ruleptr->rule_flags & RULE_ABORT) {
	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: rule %d: abort: %s",
	ruleptr->nrule, current);
	}
	if (ruleptr->pattern[0]) {
	/* Custom error message */
	len =
	genmatchstring(NULL, ruleptr->pattern, current,
	pmatch, macrosub);
	newstr = tfmalloc(len + 1);
	genmatchstring(newstr, ruleptr->pattern, current,
	pmatch, macrosub);
	*errmsg = newstr;
	} else {
	*errmsg = NULL;
	}
	free(current);
	return (NULL);
	}

	if (ruleptr->rule_flags & RULE_REWRITE) {
	len = genmatchstring(NULL, ruleptr->pattern, current,
	pmatch, macrosub);
	newstr = tfmalloc(len + 1);
	genmatchstring(newstr, ruleptr->pattern, current,
	pmatch, macrosub);
	free(current);
	current = newstr;
	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: rule %d: rewrite: %s",
	ruleptr->nrule, current);
	}
	}
	} else {
	break; /* No match, terminate unconditionally */
	}
	/* If the rule is global, keep going until no match */
	} while (ruleptr->rule_flags & RULE_GLOBAL);

	if (was_match) {
	was_match = 0;

	if (ruleptr->rule_flags & RULE_EXIT) {
	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: rule %d: exit",
	ruleptr->nrule);
	}
	return current; /* Exit here, we're done */
	} else if (ruleptr->rule_flags & RULE_RESTART) {
	ruleptr = rules; /* Start from the top */
	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: rule %d: restart",
	ruleptr->nrule);
	}
	}
	}
	}

	if (verbosity >= 3) {
	syslog(LOG_INFO, "remap: done");
	}
	return current;
	}