/* utils.c -- various utility routines * * This code is Copyright (c) 2006, by the authors of nmh. See the * COPYRIGHT file in the root directory of the nmh distribution for * complete copyright information. */ #include "h/mh.h" #include "read_yes_or_no_if_tty.h" #include "concat.h" #include "r1bindex.h" #include "context_foil.h" #include "context_replace.h" #include "context_read.h" #include "context_find.h" #include "print_help.h" #include "error.h" #include "h/utils.h" #include "h/signals.h" #include "m_mktemp.h" #include "makedir.h" #include #include #include "read_line.h" extern char *mhdocdir; /* plurals gives the letter ess to indicate a plural noun, or an empty * string as plurals+1 for the singular noun. Used by the PLURALS * macro. */ const char plurals[] = "s"; /* * We allocate space for messages (msgs array) * this number of elements at a time. */ #define MAXMSGS 256 /* Call malloc(3), exiting on NULL return. */ void * mh_xmalloc(size_t size) { void *p; if (size == 0) size = 1; /* Some mallocs don't like 0. */ p = malloc(size); if (!p) die("malloc failed, size wanted: %zu", size); return p; } /* Call realloc(3), exiting on NULL return. */ void * mh_xrealloc(void *ptr, size_t size) { void *new; /* Copy POSIX behaviour, coping with non-POSIX systems. */ if (size == 0) { free(ptr); return mh_xmalloc(1); /* Get a unique pointer. */ } if (!ptr) return mh_xmalloc(size); new = realloc(ptr, size); if (!new) die("realloc failed, size wanted: %zu", size); return new; } /* Call calloc(3), exiting on NULL return. */ void * mh_xcalloc(size_t nelem, size_t elsize) { void *p; if (!nelem || !elsize) return mh_xmalloc(1); /* Get a unique pointer. */ p = calloc(nelem, elsize); if (!p) die("calloc failed, size wanted: %zu * %zu", nelem, elsize); return p; } /* Duplicate a NUL-terminated string, exit on failure. */ char * mh_xstrdup(const char *src) { size_t n; char *dest; n = strlen(src) + 1; /* Ignore possibility of overflow. */ dest = mh_xmalloc(n); memcpy(dest, src, n); return dest; } /* * Return the present working directory, if the current directory does not * exist, or is too long, make / the pwd. */ char * pwd(void) { char *cp; static char curwd[PATH_MAX]; if (!getcwd (curwd, PATH_MAX)) { inform("unable to determine working directory, continuing..."); if (!mypath || !*mypath || (strcpy (curwd, mypath), chdir (curwd)) == -1) { strcpy (curwd, "/"); if (chdir (curwd) < 0) { advise (curwd, "chdir"); } } return curwd; } if ((cp = curwd + strlen (curwd) - 1) > curwd && *cp == '/') *cp = '\0'; return curwd; } /* add returns a newly malloc'd string, exiting on failure. The order * of the parameters is unusual. A NULL parameter is treated as an * empty string. s1 is free'd. Use mh_xstrdup(s) rather than add(s, * NULL), with FENDNULL() if s might be NULL. * * add(NULL, NULL) -> "" * add(NULL, "foo") -> "foo" * add("bar", NULL) -> "bar" * add("bar", "foo") -> "foobar" */ char * add (const char *s2, char *s1) { char *cp; size_t len1 = 0, len2 = 0; if (s1) len1 = strlen (s1); if (s2) len2 = strlen (s2); cp = mh_xmalloc (len1 + len2 + 1); /* Copy s1 and free it */ if (s1) { memcpy (cp, s1, len1); free (s1); } /* Copy s2 */ if (s2) memcpy (cp + len1, s2, len2); /* Now NULL terminate the string */ cp[len1 + len2] = '\0'; return cp; } /* * addlist * Append an item to a comma separated list */ char * addlist (char *list, const char *item) { if (list) list = add (", ", list); return add (item, list); } /* * folder_exists * Check to see if a folder exists. */ int folder_exists(const char *folder) { struct stat st; return stat(folder, &st) != -1; } /* * create_folder * Check to see if a folder exists, if not, prompt the user to create * it. */ void create_folder(char *folder, int autocreate, void (*done_callback)(int)) { struct stat st; extern int errno; char *cp; if (stat (folder, &st) == -1) { if (errno != ENOENT) adios (folder, "error on folder"); if (autocreate == 0) { /* ask before creating folder */ cp = concat ("Create folder \"", folder, "\"? ", NULL); if (!read_yes_or_no_if_tty (cp)) done_callback (1); free (cp); } else if (autocreate == -1) { /* do not create, so exit */ done_callback (1); } if (!makedir (folder)) die("unable to create folder %s", folder); } } /* * num_digits * Return the number of digits in a nonnegative integer. */ int num_digits (int n) { int ndigits = 0; /* Sanity check */ if (n < 0) die("oops, num_digits called with negative value"); if (n == 0) return 1; while (n) { n /= 10; ndigits++; } return ndigits; } /* * Append a message arg to an array of them, resizing it if necessary. * Really a simple vector-of-(char *) maintenance routine. */ void app_msgarg(struct msgs_array *msgs, char *cp) { if(msgs->size >= msgs->max) { msgs->max += MAXMSGS; msgs->msgs = mh_xrealloc(msgs->msgs, msgs->max * sizeof(*msgs->msgs)); } msgs->msgs[msgs->size++] = cp; } /* * Append a message number to an array of them, resizing it if necessary. * Like app_msgarg, but with a vector-of-ints instead. */ void app_msgnum(struct msgnum_array *msgs, int msgnum) { if (msgs->size >= msgs->max) { msgs->max += MAXMSGS; msgs->msgnums = mh_xrealloc(msgs->msgnums, msgs->max * sizeof(*msgs->msgnums)); } msgs->msgnums[msgs->size++] = msgnum; } /* * Finds first occurrence of str in buf. buf is not a C string but a * byte array of length buflen. str is a null-terminated C string. * find_str() does not modify buf but passes back a non-const char * * pointer so that the caller can modify it. */ char * find_str (const char buf[], size_t buflen, const char *str) { const size_t len = strlen (str); size_t i; for (i = 0; i + len <= buflen; ++i, ++buf) { if (! memcmp (buf, str, len)) return (char *) buf; } return NULL; } /* * Finds last occurrence of str in buf. buf is not a C string but a * byte array of length buflen. str is a null-terminated C string. * find_str() does not modify buf but passes back a non-const char * * pointer so that the caller can modify it. */ char * rfind_str (const char buf[], size_t buflen, const char *str) { const size_t len = strlen (str); size_t i; for (i = 0, buf += buflen - len; i + len <= buflen; ++i, --buf) { if (! memcmp (buf, str, len)) return (char *) buf; } return NULL; } /* POSIX doesn't have strcasestr() so emulate it. */ char * nmh_strcasestr (const char *s1, const char *s2) { const size_t len = strlen (s2); if (isupper ((unsigned char) s2[0]) || islower ((unsigned char)s2[0])) { char first[3]; first[0] = (char) toupper ((unsigned char) s2[0]); first[1] = (char) tolower ((unsigned char) s2[0]); first[2] = '\0'; for (s1 = strpbrk (s1, first); s1; s1 = strpbrk (++s1, first)) { if (! strncasecmp (s1, s2, len)) return (char *) s1; } } else { for (s1 = strchr (s1, s2[0]); s1; s1 = strchr (++s1, s2[0])) { if (! strncasecmp (s1, s2, len)) return (char *) s1; } } return NULL; } /* truncpy copies at most size - 1 chars from non-NULL src to non-NULL, * non-overlapping, dst, and ensures dst is NUL terminated. If size is * zero then it aborts as dst cannot be NUL terminated. * * It's to be used when truncation is intended and correct, e.g. * reporting a possibly very long external string back to the user. One * of its advantages over strncpy(3) is it doesn't pad in the common * case of no truncation. */ void trunccpy(char *dst, const char *src, size_t size) { if (!size) { inform("trunccpy: zero-length destination: \"%.20s\"", src ? src : "null"); abort(); } if (strnlen(src, size) < size) { strcpy(dst, src); } else { memcpy(dst, src, size - 1); dst[size - 1] = '\0'; } } /* has_prefix returns true if non-NULL s starts with non-NULL prefix. */ bool has_prefix(const char *s, const char *prefix) { while (*s && *s == *prefix) { s++; prefix++; } return *prefix == '\0'; } /* has_suffix returns true if non-NULL s ends with non-NULL suffix. */ bool has_suffix(const char *s, const char *suffix) { size_t ls, lsuf; ls = strlen(s); lsuf = strlen(suffix); return lsuf <= ls && !strcmp(s + ls - lsuf, suffix); } /* has_suffix_c returns true if non-NULL string s ends with a c before the * terminating NUL. */ bool has_suffix_c(const char *s, int c) { return *s && s[strlen(s) - 1] == c; } /* trim_suffix_c deletes c from the end of non-NULL string s if it's * present, shortening s by 1. Only one instance of c is removed. */ void trim_suffix_c(char *s, int c) { if (!*s) return; s += strlen(s) - 1; if (*s == c) *s = '\0'; } /* to_lower runs all of s through tolower(3). */ void to_lower(char *s) { unsigned char *b; for (b = (unsigned char *)s; (*b = tolower(*b)); b++) ; } /* to_upper runs all of s through toupper(3). */ void to_upper(char *s) { unsigned char *b; for (b = (unsigned char *)s; (*b = toupper(*b)); b++) ; } int nmh_init(const char *argv0, bool read_context, bool check_version) { int status = OK; char *locale; invo_name = r1bindex ((char *) argv0, '/'); if (setup_signal_handlers()) { admonish("sigaction", "unable to set up signal handlers"); } /* POSIX atexit() does not define any error conditions. */ if (atexit(remove_registered_files_atexit)) { admonish("atexit", "unable to register atexit function"); } /* Read context, if supposed to. */ if (read_context) { char *cp; context_read(); bool allow_version_check = true; bool check_older_version = false; if (!check_version || ((cp = context_find ("Welcome")) && strcasecmp (cp, "disable") == 0)) { allow_version_check = false; } else if ((cp = getenv ("MHCONTEXT")) != NULL && *cp != '\0') { /* Context file comes from $MHCONTEXT, so only print the message if the context file has an older version. If it does, or if it doesn't have a version at all, update the version. */ check_older_version = true; } /* Check to see if the user is running a different (or older, if specified) version of nmh than they had run before, and notify them if so. */ if (allow_version_check && isatty (fileno (stdin)) && isatty (fileno (stdout)) && isatty (fileno (stderr))) { if (nmh_version_changed (check_older_version)) { printf ("===================================================" "=====================\n"); printf ("Welcome to nmh version %s\n\n", VERSION); printf ("See the release notes in %s/NEWS\n\n", mhdocdir); print_intro (stdout, 1); printf ("\nThis message will not be repeated until " "nmh is next updated.\n"); printf ("===================================================" "=====================\n\n"); fputs ("Press enter to continue: ", stdout); (void) read_line (); putchar ('\n'); } } } else { if ((status = context_foil(NULL)) != OK) { advise("", "failed to create minimal profile/context"); } } /* Allow the user to set a locale in their profile. Otherwise, use the "" string to pull it from their environment, see setlocale(3). */ if ((locale = context_find ("locale")) == NULL) { locale = ""; } if (! setlocale (LC_ALL, locale)) { inform("setlocale failed, check your LC_ALL, LC_CTYPE, and LANG " "environment variables, continuing..."); } return status; } /* * Check stored version, and return 1 if out-of-date or non-existent. * Because the output of "mhparam version" is prefixed with "nmh-", * use that prefix here. */ int nmh_version_changed (int older) { const char *const context_version = context_find("Version"); if (older) { /* Convert the version strings to floats and compare them. This will break for versions with multiple decimal points, etc. */ const float current_version = strtof (VERSION, NULL); const float old_version = context_version && has_prefix(context_version, "nmh-") ? strtof (context_version + 4, NULL) : 99999999; if (context_version == NULL || old_version < current_version) { context_replace ("Version", "nmh-" VERSION); } return old_version < current_version; } if (context_version == NULL || strcmp(context_version, "nmh-" VERSION) != 0) { context_replace ("Version", "nmh-" VERSION); return 1; } return 0; } /* contains8bit returns true if any byte from start onwards fails * isascii(3), i.e. is outside [0, 0x7f]. If start is NULL it returns * false. Bytes are examined until a NUL byte, or, if end is not NULL, * whilst start is before end. */ bool contains8bit(const char *start, const char *end) { const char *p; char c; if (!start) return false; p = start; if (end) { while (p < end && (c = (*p++))) if (!isascii((unsigned char)c)) return true; } else { while ((c = (*p++))) if (!isascii((unsigned char)c)) return true; } return false; } /* * See if input has any 8-bit bytes. */ int scan_input (int fd, int *eightbit) { int state; char buf[BUFSIZ]; *eightbit = 0; lseek(fd, 0, SEEK_SET); while ((state = read (fd, buf, sizeof buf)) > 0) { if (contains8bit (buf, buf + state)) { *eightbit = 1; return OK; } } return state == NOTOK ? NOTOK : OK; } /* * Convert an int to a char string. */ char * m_str(int value) { return m_strn(value, 0); } /* * Convert an int to a char string, of limited width if > 0. */ #define STR(s) #s /* SIZE(n) includes NUL. n must just be digits, not an equation. */ #define SIZE(n) (sizeof STR(n)) char * m_strn(int value, unsigned int width) { /* Need to include space for negative sign. But don't use INT_MIN because it could be a macro that would fool SIZE(n). */ static char buffer[SIZE(-INT_MAX)]; const int num_chars = snprintf(buffer, sizeof buffer, "%d", value); return num_chars > 0 && (width == 0 || (unsigned int) num_chars <= width) ? buffer : "?"; }