/* * ======================================================================== * Copyright 2013-2022 Eduardo Chappa * Copyright 2006-2008 University of Washington * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * ======================================================================== */ #include #if STDC_HEADERS #include #endif #include "bldpath.h" /* * Useful definitions */ #ifdef _WINDOWS #define ROOTED(S) (*(S) == '\\' || (isalpha((unsigned char) (S)[0]) && (S)[1] == ':')) #define HOMERELATIVE(S) (FALSE) #else /* UNIX */ #define ROOTED(S) (*(S) == '/') #define HOMERELATIVE(S) (*(S) == '~') #endif /*---------------------------------------------------------------------- Paste together two pieces of a file name path Args: pathbuf -- Put the result here first_part -- of path name second_part -- of path name len -- Length of pathbuf Result: New path is in pathbuf. Note that we don't have to check for /'s at end of first_part and beginning of second_part since multiple slashes are ok. BUGS: This is a first stab at dealing with fs naming dependencies, and others still exist. ----*/ void build_path(char *pathbuf, char *first_part, char *second_part, size_t len) { if(!(pathbuf && len > 0)) return; pathbuf[0] = '\0'; if(!first_part || is_rooted_path(second_part)){ if(second_part) strncpy(pathbuf, second_part, len-1); pathbuf[len-1] = '\0'; } else{ #ifdef _WINDOWS int i; char *orig_pathbuf = pathbuf; for(i = 0; i < len-2 && first_part[i]; i++) *pathbuf++ = first_part[i]; if(second_part){ if(i && first_part[i-1] == '\\'){ /* first part ended with \ */ if(*second_part == '\\') /* and second starts with \ */ second_part++; /* else just append second */ } else if(*second_part != '\\') /* no slash at all, so */ *pathbuf++ = '\\'; /* insert one... */ while(pathbuf-orig_pathbuf < len-1 && *second_part) *pathbuf++ = *second_part++; } *pathbuf = '\0'; #else /* UNIX */ size_t fpl = 0; strncpy(pathbuf, first_part, len-2); pathbuf[len-2] = '\0'; if(second_part){ if(*pathbuf && pathbuf[(fpl=strlen(pathbuf))-1] != '/'){ pathbuf[fpl++] = '/'; pathbuf[fpl] = '\0'; } strncat(pathbuf, second_part, len-1-strlen(pathbuf)); } pathbuf[len-1] = '\0'; #endif } } /*---------------------------------------------------------------------- Test to see if the given file path is absolute Args: file -- file path to test Result: TRUE if absolute, FALSE otw ----*/ int is_absolute_path(char *path) { return(path && (ROOTED(path) || HOMERELATIVE(path))); } /* * homedir_in_path - return pointer to point in path string where home dir * reference starts */ int is_rooted_path(char *path) { return(path && ROOTED(path)); } /* * homedir_in_path - return pointer to point in path string where home dir * reference starts */ int is_homedir_path(char *path) { return(path && HOMERELATIVE(path)); } /* * homedir_in_path - return pointer to point in path string where home dir * reference starts */ char * homedir_in_path(char *path) { #ifdef _WINDOWS return(NULL); #else /* UNIX */ char *p; return((p = strchr(path, '~')) ? p : NULL); #endif } /* * */ char * filename_parent_ref(char *s) { #ifdef _WINDOWS return(strstr(s, "\\..\\")); #else /* UNIX */ return(strstr(s, "/../")); #endif } int filename_is_restricted(char *s) { #ifdef _WINDOWS return(filename_parent_ref(s) != NULL); #else /* UNIX */ return(strchr("./~", s[0]) != NULL || filename_parent_ref(s) != NULL); #endif }