/* * input - nested input source file reader * * Copyright (C) 1999-2007 David I. Bell * * Calc is open software; you can redistribute it and/or modify it under * the terms of the version 2.1 of the GNU Lesser General Public License * as published by the Free Software Foundation. * * Calc is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General * Public License for more details. * * A copy of version 2.1 of the GNU Lesser General Public License is * distributed with calc under the filename COPYING-LGPL. You should have * received a copy with calc; if not, write to Free Software Foundation, Inc. * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * @(#) $Revision: 30.2 $ * @(#) $Id: input.c,v 30.2 2008/04/15 21:17:57 chongo Exp $ * @(#) $Source: /usr/local/src/bin/calc/RCS/input.c,v $ * * Under source code control: 1990/02/15 01:48:16 * File existed as early as: before 1990 * * Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/ */ /* * Nested input source file reader. * For terminal input, this also provides a simple command stack. */ #include #include #if !defined(_WIN32) # include #else # include #endif #include #include #include "have_unistd.h" #if defined(HAVE_UNISTD_H) #include #endif #if defined(__MSDOS__) #include #define _fullpath(f,n,s) (_fixpath(n,f),f) #define _MAX_PATH PATH_MAX #endif #include "calc.h" #include "conf.h" #include "hist.h" EXTERN int stdin_tty; /* TRUE if stdin is a tty */ E_FUNC FILE *f_open(char *name, char *mode); E_FUNC FILE *curstream(void); #define TTYSIZE 100 /* reallocation size for terminal buffers */ #define MAXDEPTH 10 /* maximum depth of input */ #define IS_READ 1 /* reading normally */ #define IS_REREAD 2 /* reread current character */ #define chartoint(ch) ((ch) & 0xff) /* make sure char is not negative */ #define READSET_ALLOC 8 /* readset to allocate chunk size */ typedef struct { int i_state; /* state (read, reread) */ int i_char; /* currently read char */ long i_line; /* line number */ char *i_cp; /* pointer to string character to be read */ char *i_str; /* start of string copy to be read, or NULL */ long i_num; /* number of string characters remaining */ char *i_ttystr; /* current character of tty line (or NULL) */ FILE *i_fp; /* current file for input (if not NULL) */ char *i_name; /* file name if known */ } INPUT; /* files that calc has read or included */ typedef struct { int active; /* != 0 => active entry, 0 => unused entry */ char *name; /* name used to read file */ char *path; /* real path used to open file */ struct stat inode; /* inode information for file */ } READSET; STATIC READSET *readset = NULL; /* array of files read */ STATIC int maxreadset = 0; /* length of readset */ STATIC int linesize; /* current max size of input line */ STATIC char *linebuf; /* current input line buffer */ STATIC char *prompt; /* current prompt for terminal */ STATIC BOOL noprompt; /* TRUE if should not print prompt */ STATIC int depth; /* current input depth */ STATIC INPUT *cip; /* current input source */ STATIC INPUT inputs[MAXDEPTH]; /* input sources */ S_FUNC int openfile(char *name); S_FUNC int ttychar(void); S_FUNC int isinoderead(struct stat *sbuf); S_FUNC int findfreeread(void); S_FUNC int addreadset(char *name, char *path, struct stat *sbuf); S_FUNC char *homeexpand(char *name); /* * Open an input file by possibly searching through a path list * and also possibly applying the specified extension. For example: * * opensearchfile("barf", ".:/tmp", ".c", rd_once) * * searches in order for the files: * * "./barf", "./barf.c", "/tmp/barf", and "/tmp/barf.c". * * Returns -1 if we could not open a file or error. * Returns 1 if file was opened and added to/updated in the readset * Returns 0 if file was already in the readset and reopen was 0. * * given: * name file name to be read * pathlist list of colon separated paths (or NULL) * extension extra extension to try (or NULL) * rd_once TRUE => do not reread a file */ int opensearchfile(char *name, char *pathlist, char *extension, int rd_once) { int i; char *cp; char *path; /* name being searched for */ struct stat statbuf; /* stat of the path */ size_t namelen; /* length of name */ size_t extlen; /* length of the extension if non-NULL or 0 */ size_t pathlen; /* length of the pathlist if non-NULL or 0 */ /* firewall */ if (name == NULL) { math_error("NULL name given to opensearchfile"); /*NOTREACHED*/ } /* * We ignore the pathlist of the file is absolute, dot-relative * or tilde-relative or if there is no search path. */ if (name[0] == PATHCHAR || name[0] == HOMECHAR || (name[0] == DOTCHAR && name[1] == '\0') || (name[0] == DOTCHAR && name[1] == DOTCHAR && name[2] == '\0') || (name[0] == DOTCHAR && name[1] == PATHCHAR) || (name[0] == DOTCHAR && name[1] == DOTCHAR && name[2] == PATHCHAR) || pathlist == NULL) { pathlist = ""; } /* * allocate storage for the longest name being searched for * * We will allocate more than we could ever want/need. * The longest we could ever need would be: * * pathlist (as a single long string) * / * name * . * extension * \0 * guard byte */ namelen = strlen(name); if (extension != NULL) { extlen = strlen(extension); } else { extlen = 0; } pathlen = strlen(pathlist); path = malloc(pathlen+1 + 1 + namelen+1 + extlen+1 + 1 + 1); if (path == NULL) { math_error("Cannot allocate filename path buffer"); /*NOTREACHED*/ } /* * Don't try the extension if the filename already contains it. */ if (extension != NULL && namelen >= extlen && strcmp(&name[namelen-extlen], extension) == 0) { extension = NULL; } /* * Search through the path list for the file */ pathlist--; do { pathlist++; cp = path; while (*pathlist && (*pathlist != LISTCHAR)) *cp++ = *pathlist++; if (cp != path) *cp++ = PATHCHAR; strncpy(cp, name, namelen+1); i = openfile(path); if ((i < 0) && (extension != NULL && extension[0] != '\0')) { strcat(path, extension); i = openfile(path); } } while ((i < 0) && *pathlist); /* examine what our search produced */ if (i < 0) { free(path); return i; } if (cip->i_fp == NULL) { /* cannot find a file to open */ free(path); return -3; } if (fstat(fileno(cip->i_fp), &statbuf) < 0) { /* unable to fstat the open file */ free(path); return -4; } /* note if we will reopen a file and if that is allowed */ if (rd_once == TRUE && isinoderead(&statbuf) >= 0) { /* file is in readset and reopen is false */ closeinput(); free(path); return 1; } /* add this name to the readset if allowed */ if (addreadset(name, path, &statbuf) < 0) { /* cannot add to readset */ closeinput(); free(path); return -1; } /* file was added to/updated in readset */ free(path); return 0; } /* * f_pathopen - open an absolute filename, or a relative filename along a search path * * Open a file by possibly searching through a path list. For example: * * f_pathopen("curds", ".:/tmp:~/pub", "r", NULL) * * searches in order for a file that it can open for reading: * * "./curds", "/tmp/curds", "~/pub/curds" * * NOTE: ~ is expanded accordingly (see homeexpand() below). * * However is the file is /absolue/path/name or a ./dot/relative/name, or * a ~/home/dir/name, or a ~user/home/name, then the pathlist is ignored * we just attempt to open name. * * and opens the first one that exists and allows the mode. * * name file name to be read * mode fopen() mode argument (one of "r", "w", "a", "r+", "w+", "a+") * pathlist list of colon separated paths (or NULL) * openpath if non-NULL, and file was opened, set to malloced path used to open * * returns: * open file stream, NULL ==> file was not found or error * If file was open and openpath was non-NULL, changed to point to path used to open */ FILE * f_pathopen(char *name, char *mode, char *pathlist, char **openpath) { char *cp; char *path; /* name being searched for */ size_t namelen; /* length of name */ size_t pathlen; /* length of the pathlist if non-NULL or 0 */ FILE *ret; /* return open stream or NULL */ /* firewall */ if (name == NULL) { math_error("NULL name given to f_pathopen"); /*NOTREACHED*/ } if (mode == NULL) { math_error("NULL mode given to f_pathopen"); /*NOTREACHED*/ } /* * We ignore the pathlist of the file is absolute, dot-relative * or tilde-relative or if there is no search path. */ if (name[0] == PATHCHAR || name[0] == HOMECHAR || (name[0] == DOTCHAR && name[1] == '\0') || (name[0] == DOTCHAR && name[1] == DOTCHAR && name[2] == '\0') || (name[0] == DOTCHAR && name[1] == PATHCHAR) || (name[0] == DOTCHAR && name[1] == DOTCHAR && name[2] == PATHCHAR) || pathlist == NULL) { pathlist = ""; } /* * allocate storage for the longest name being searched for * * We will allocate more than we could ever want/need. * The longest we could ever need would be: * * pathlist (as a single long string) * / * name * \0 * guard byte */ namelen = strlen(name); pathlen = strlen(pathlist); path = malloc(pathlen+1 + 1 + namelen+1 + 1 + 1); if (path == NULL) { math_error("Cannot allocate f_pathopen buffer"); /*NOTREACHED*/ } /* * Search through the path list for the file */ pathlist--; do { pathlist++; cp = path; while (*pathlist && (*pathlist != LISTCHAR)) *cp++ = *pathlist++; if (cp != path) *cp++ = PATHCHAR; strncpy(cp, name, namelen+1); ret = f_open(path, mode); } while ((ret == NULL) && *pathlist); /* if caller wants to know the path, malloc it and return it */ if (openpath != NULL && ret != NULL) { if (path[0] == HOMECHAR) { *openpath = homeexpand(path); } else { *openpath = strdup(path); } if (*openpath == NULL) { free(path); fclose(ret); math_error("cannot malloc return openpath buffer"); /*NOTREACHED*/ } } free(path); /* return open file or NULL */ return ret; } /* * Given a filename with a leading ~, expand it into a home directory for * that user. This function will malloc the space for the expanded path. * * If the path is just ~, or begins with ~/, expand it to the home * directory of the current user. If the environment variable $HOME * is known, it will be used, otherwise the password file will be * consulted. * * If the path is just ~username, or ~username/, expand it to the home * directory of that user by looking it up in the password file. * * If the password file must be consulted and the username is not found * a NULL pointer is returned. * * given: * name a filename with a leading ~ */ S_FUNC char * homeexpand(char *name) { #if defined(_WIN32) return NULL; #else /* Windoz free systems */ struct passwd *ent; /* password entry */ char *home2; /* fullpath of the home directory */ char *fullpath; /* the malloced expanded path */ char *after; /* after the ~user or ~ */ char *username; /* extracted username */ size_t fullpath_len; /* length of fullpath */ /* firewall */ if (name[0] != HOMECHAR) return NULL; /* * obtain the home directory component */ switch (name[1]) { case PATHCHAR: /* ~/... */ case '\0': /* ~ */ home2 = home; after = name+1; break; default: /* ~username or ~username/... */ /* extract the username after the ~ */ after = (char *)strchr(name+2, PATHCHAR); if (after == NULL) { /* path is just ~username */ ent = (struct passwd *)getpwnam(name+1); if (ent == NULL) { /* unknown user */ return NULL; } /* just malloc the home directory and return it */ fullpath_len = strlen(ent->pw_dir); fullpath = (char *)malloc(fullpath_len+1); if (fullpath == NULL) { return NULL; } strncpy(fullpath, ent->pw_dir, fullpath_len+1); return fullpath; } username = (char *) malloc(after-name + 1 + 1); if (username == NULL) { /* failed to malloc username */ return NULL; } strncpy(username, name+1, after-name-1); username[after-name-1] = '\0'; /* get that user's home directory */ ent = (struct passwd *)getpwnam(username); free(username); if (ent == NULL) { /* unknown user */ return NULL; } home2 = ent->pw_dir; break; } /* * build the fullpath given the home directory */ fullpath = (char *)malloc(strlen(home2)+strlen(after)+1); if (fullpath == NULL) { return NULL; } sprintf(fullpath, "%s%s", home2, after); return fullpath; #endif /* Windoz free systems */ } /* * f_open - ~-expand a filename and fopen() it * * given: * name the filename to open * mode fopen() mode argument (one of "r", "w", "a", "r+", "w+", "a+") */ FILE * f_open(char *name, char *mode) { FILE *fp; /* open file descriptor */ char *fullname; /* file name with HOMECHAR expansion */ /* * be sore we are allowed to open a file in this mode */ if (!allow_read && !allow_write) { /* no reads and no writes means no opens! */ if (run_state > RUN_BEGIN) { fprintf(stderr, "open of %s mode %s - %s\n", name, mode, "open for read or write disallowed by -m\n"); } return NULL; } else if (!allow_read && strchr(mode, 'r') != NULL) { /* reading new files disallowed */ if (run_state > RUN_BEGIN) { fprintf(stderr, "open of %s mode %s - %s\n", name, mode, "open for read disallowed by -m\n"); } return NULL; } else if (!allow_write && (strchr(mode, 'w') != NULL || strchr(mode, 'a') != NULL || strchr(mode, '+') != NULL)) { /* writing new files disallowed */ if (run_state > RUN_BEGIN) { fprintf(stderr, "open of %s mode %s - %s\n", name, mode, "open for write disallowed by -m\n"); } return NULL; } /* * expand ~ if needed */ if (name[0] == HOMECHAR) { fullname = homeexpand(name); if (fullname == NULL) return NULL; fp = fopen(fullname, mode); free(fullname); } else { fp = fopen(name, mode); } return fp; } /* * Setup for reading from a input file. * Returns -1 if file could not be opened. * * given: * name file name to be read */ S_FUNC int openfile(char *name) { FILE *fp; /* open file descriptor */ size_t namelen; if (depth >= MAXDEPTH) return -2; fp = f_open(name, "r"); if (fp == NULL) return -1; cip = inputs + depth++; cip->i_state = IS_READ; cip->i_char = '\0'; cip->i_str = NULL; cip->i_ttystr = NULL; cip->i_fp = fp; cip->i_line = 1; namelen = strlen(name); cip->i_name = (char *)malloc(namelen+1); if (cip->i_name == NULL) { return -1; } strncpy(cip->i_name, name, namelen+1); return 0; } /* * Return the current input file stream, or NULL if none. */ FILE * curstream(void) { if (depth <= 0 || depth > MAXDEPTH) return NULL; return cip->i_fp; } /* * Open a string for scanning, num characters to be read. * String is copied into local memory so it can be trashed afterwards. * Returns -1 if cannot open string. * * given: * str string to be opened * num lengh of string to open */ int openstring(char *str, size_t num) { char *cp; /* copied string */ if ((depth >= MAXDEPTH) || (str == NULL)) return -2; cp = (char *) malloc(num + 1); if (cp == NULL) return -1; strncpy(cp, str, num); cp[num] = '\0'; /* firewall */ cip = inputs + depth++; cip->i_state = IS_READ; cip->i_char = '\0'; cip->i_cp = cp; cip->i_str = cp; cip->i_num = num; cip->i_fp = NULL; cip->i_name = NULL; cip->i_ttystr = NULL; cip->i_line = 1; return 0; } /* * Set to read input from the terminal. * Returns -1 if there is no more depth for input. */ int openterminal(void) { if (depth >= MAXDEPTH) return -2; cip = inputs + depth++; cip->i_state = IS_READ; cip->i_char = '\0'; cip->i_str = NULL; cip->i_ttystr = NULL; cip->i_fp = NULL; cip->i_name = NULL; cip->i_line = 1; return 0; } /* * Close the current input source. */ void closeinput(void) { if (depth <= 0) return; if (cip->i_str) free(cip->i_str); if (cip->i_fp) fclose(cip->i_fp); if (cip->i_name) free(cip->i_name); depth--; cip = depth ? &inputs[depth - 1] : NULL; } /* * Reset the input sources back to the initial state. */ void resetinput(void) { while (depth > 0) closeinput(); noprompt = FALSE; } /* * Set the prompt for terminal input. */ void setprompt(char *str) { prompt = str; noprompt = FALSE; } /* * Read the next character from the current input source. * End of file closes current input source, and returns EOF character. */ int nextchar(void) { int ch; /* current input character */ if (depth == 0) /* input finished */ return EOF; if (cip->i_state == IS_REREAD) { /* rereading current char */ ch = cip->i_char; cip->i_state = IS_READ; if (ch == '\n') cip->i_line++; return ch; } if (cip->i_str) { /* from string */ if (cip->i_num) { ch = chartoint(*cip->i_cp++); cip->i_num--; } else { ch = EOF; } } else if (cip->i_fp) { /* from file */ ch = fgetc(cip->i_fp); } else if (!stdin_tty) { /* from file */ ch = fgetc(stdin); } else { /* from terminal */ ch = ttychar(); } if (depth > 0) cip->i_char = ch; /* save for rereads */ if (ch == '\n') cip->i_line++; return ch; } /* * Read in the next line of input from the current input source. * The line is terminated with a null character, and does not contain * the final newline character. The returned string is only valid * until the next such call, and so must be copied if necessary. * Returns NULL on end of file. */ char * nextline(void) { char *cp; int ch; int len; cp = linebuf; if (linesize == 0) { cp = (char *)malloc(TTYSIZE + 1); if (cp == NULL) { math_error("Cannot allocate line buffer"); /*NOTREACHED*/ } linebuf = cp; linesize = TTYSIZE; } len = 0; for (;;) { noprompt = TRUE; ch = nextchar(); noprompt = FALSE; if (ch == EOF) return NULL; if (ch == '\0') continue; if (ch == '\n') break; if (len >= linesize) { cp = (char *)realloc(cp, linesize + TTYSIZE + 1); if (cp == NULL) { math_error("Cannot realloc line buffer"); /*NOTREACHED*/ } linebuf = cp; linesize += TTYSIZE; } cp[len++] = (char)ch; } cp[len] = '\0'; return linebuf; } /* * Read the next character from the terminal. * The routines in the history module are called so that the user * can use a command history and emacs-like editing of the line. */ S_FUNC int ttychar(void) { int ch; /* current char */ int len; /* length of current command */ STATIC char charbuf[1024]; /* * If we have more to read from the saved command line, then do that. * When we see a newline character, then clear the pointer so we will * read a new line on the next call. */ if (cip->i_ttystr) { ch = chartoint(*cip->i_ttystr++); if (ch == '\n') cip->i_ttystr = NULL; return ch; } /* * We need another complete line. */ abortlevel = 0; inputwait = TRUE; len = hist_getline(noprompt ? "" : prompt, charbuf, sizeof(charbuf)); if (len == 0) { inputwait = FALSE; return EOF; } inputwait = FALSE; /* * Handle shell escape if present */ if (charbuf[0] == '!') { /* do a shell command */ char *cmd; cmd = charbuf + 1; if (*cmd == '\0' || *cmd == '\n') cmd = shell; if (allow_exec) { if (conf->calc_debug & CALCDBG_SYSTEM) { printf("%s\n", cmd); } system(cmd); } else { fprintf(stderr, "execution disallowed by -m flag\n"); } return '\n'; } hist_saveline(charbuf, len); /* * Return the first character of the line, and set up to * return the rest of it with later calls. */ ch = chartoint(charbuf[0]); if (ch != '\n') cip->i_ttystr = charbuf + 1; return ch; } /* * Return whether or not the input source is the terminal. */ BOOL inputisterminal(void) { return ((depth <= 0) || ((cip->i_str == NULL) && (cip->i_fp == NULL))); } /* * Return depth of current input source */ int inputlevel(void) { return depth - 1; } /* * Return the name of the current input file. * Returns NULL for terminal or strings. */ char * inputname(void) { if (depth <= 0) return NULL; return cip->i_name; } /* * Return the current line number. */ long linenumber(void) { if (depth > 0) return cip->i_line; return 1; } /* * Restore the next character to be read again on the next nextchar call. */ void reread(void) { if ((depth <= 0) || (cip->i_state == IS_REREAD)) return; cip->i_state = IS_REREAD; if (cip->i_char == '\n') cip->i_line--; } /* * Process all startup files found in the $CALCRC path. */ void runrcfiles(void) { char path[MAX_CALCRC+1+1]; /* name being searched for */ char *cp; char *p; /* execute each file in the list */ while (calcrc != NULL && *calcrc) { cp = calcrc; calcrc = (char *) strchr(calcrc + 1, LISTCHAR); /* load file name into the path */ if (calcrc == NULL) { strncpy(path, cp, MAX_CALCRC+1); } else { strncpy(path, cp, calcrc - cp); path[calcrc - cp] = '\0'; } /* find the start of the path */ p = (path[0] == ':') ? path + 1 : path; if (p[0] == '\0') { continue; } /* process the current file in the list */ if (openfile(p) < 0) { /* Unable to open rcfile */ if (c_flag && !d_flag) fprintf(stderr, "Unable to open rcfile \"%s\"\n", p); continue; } getcommands(FALSE); closeinput(); } } /* * isinoderead - determine if we have read a given dev/inode * * This function returns the index of the readset element that matches * a given device/inode, -1 otherwise. * * * WIN32 NOTE: * * This function does not work under WIN32. The sbuf->st_ino is always * zero because the FAT and NTFS filesystems do not support inodes. * They also don't support links, which is why you need this function * under UNIX. For WIN32, use _fullpath() to determine if you have * already opened a file. * * given: * sbuf stat of the inode in question */ S_FUNC int isinoderead(struct stat *sbuf) { int i; /* deal with the empty case */ if (readset == NULL || maxreadset <= 0) { /* readset is empty */ return -1; } /* scan the entire readset */ for (i=0; i < maxreadset; ++i) { #if defined(_WIN32) || defined(__MSDOS__) char tmp[_MAX_PATH+1]; tmp[_MAX_PATH] = '\0'; if (_fullpath(tmp, cip->i_name, _MAX_PATH) && readset[i].active && strcasecmp(readset[i].path, tmp) == 0) { /* found a match */ return i; } #else /* Windoz free systems */ if (readset[i].active && sbuf->st_dev == readset[i].inode.st_dev && sbuf->st_ino == readset[i].inode.st_ino) { /* found a match */ return i; } #endif /* Windoz free systems */ } /* no match found */ return -1; } /* * findfreeread - find the next free readset element * * This function will return the index of the next free readset element. * If needed, this function will allocate new readset elements. * * This function returns the index of the next free element, or -1. */ S_FUNC int findfreeread(void) { int i; /* deal with an empty readset case */ if (readset == NULL || maxreadset <= 0) { /* malloc a new readset */ readset = (READSET *)malloc((READSET_ALLOC+1)*sizeof(READSET)); if (readset == NULL) { return -1; } maxreadset = READSET_ALLOC; for (i=0; i < READSET_ALLOC; ++i) { readset[i].active = 0; } /* return first entry */ return 0; } /* try to find a free readset entry */ for (i=0; i < maxreadset; ++i) { if (readset[i].active == 0) { /* found a free readset entry */ return i; } } /* all readset entries are in use, allocate more */ readset = (READSET *)realloc(readset, (maxreadset+READSET_ALLOC) * sizeof(READSET)); if (readset == NULL) { return -1; } for (i=0; i < READSET_ALLOC; ++i) { readset[i+maxreadset].active = 0; } maxreadset += READSET_ALLOC; /* return the first newly allocated free entry */ return maxreadset-READSET_ALLOC; } /* * addreadset - add a entry to the readset array if it is not already there * * This function attempts to add a file into the readset. If the readset * has an entry with a matching dev/inode, then that entry is updated with * the new name and path. If no such readset entry is found, a new entry * is added. * * This function returns the index of the readset entry, or -1 if error. * * given: * name name given to read or include * path full pathname of file * sbuf stat of the path */ S_FUNC int addreadset(char *name, char *path, struct stat *sbuf) { int ret; /* index to return */ size_t name_len; /* length of read set name */ size_t path_len; /* length of path to read set name */ /* find the inode */ ret = isinoderead(sbuf); if (ret < 0) { /* not in readset, find a free node */ ret = findfreeread(); if (ret < 0) { /* cannot find/form a free readset entry */ return -1; } } else { /* found an readset entry, free old readset data */ if (readset[ret].name != NULL) { free(readset[ret].name); } if (readset[ret].path != NULL) { free(readset[ret].path); } } /* load our information into the readset entry */ name_len = strlen(name); readset[ret].name = (char *)malloc(name_len+1); if (readset[ret].name == NULL) { return -1; } strncpy(readset[ret].name, name, name_len+1); #if defined(_WIN32) || defined(__MSDOS__) /* * For WIN32, _fullpath expands the path to a fully qualified * path name, which under WIN32 FAT and NTFS is unique, just * like UNIX inodes. _fullpath also allocated the memory for * this new longer path name. */ { readset[ret].path = _fullpath(NULL, path, _MAX_PATH); if (readset[ret].path == NULL) { return -1; } } #else /* Windoz free systems */ path_len = strlen(path); readset[ret].path = (char *)malloc(path_len+1); if (readset[ret].path == NULL) { return -1; } strncpy(readset[ret].path, path, path_len+1); #endif /* Windoz free systems */ readset[ret].inode = *sbuf; readset[ret].active = 1; /* return index of the newly added entry */ return ret; }